/* $Id: VBoxManageControlVM.cpp 84814 2020-06-12 12:43:02Z vboxsync $ */ /** @file * VBoxManage - Implementation of the controlvm command. */ /* * Copyright (C) 2006-2020 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "VBoxManage.h" #include VMProcPriority_T nameToVMProcPriority(const char *pszName); /** * Parses a number. * * @returns Valid number on success. * @returns 0 if invalid number. All necessary bitching has been done. * @param psz Pointer to the nic number. */ static unsigned parseNum(const char *psz, unsigned cMaxNum, const char *name) { uint32_t u32; char *pszNext; int rc = RTStrToUInt32Ex(psz, &pszNext, 10, &u32); if ( RT_SUCCESS(rc) && *pszNext == '\0' && u32 >= 1 && u32 <= cMaxNum) return (unsigned)u32; errorArgument("Invalid %s number '%s'", name, psz); return 0; } unsigned int getMaxNics(IVirtualBox* vbox, IMachine* mach) { ComPtr info; ChipsetType_T aChipset; ULONG NetworkAdapterCount = 0; HRESULT rc; do { CHECK_ERROR_BREAK(vbox, COMGETTER(SystemProperties)(info.asOutParam())); CHECK_ERROR_BREAK(mach, COMGETTER(ChipsetType)(&aChipset)); CHECK_ERROR_BREAK(info, GetMaxNetworkAdapters(aChipset, &NetworkAdapterCount)); return (unsigned int)NetworkAdapterCount; } while (0); return 0; } #define KBDCHARDEF_MOD_NONE 0x00 #define KBDCHARDEF_MOD_SHIFT 0x01 typedef struct KBDCHARDEF { uint8_t u8Scancode; uint8_t u8Modifiers; } KBDCHARDEF; static const KBDCHARDEF g_aASCIIChars[0x80] = { /* 0x00 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x01 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x02 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x03 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x04 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x05 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x06 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x07 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x08 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x09 ' ' */ {0x0f, KBDCHARDEF_MOD_NONE}, /* 0x0A ' ' */ {0x1c, KBDCHARDEF_MOD_NONE}, /* 0x0B ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x0C ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x0D ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x0E ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x0F ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x10 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x11 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x12 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x13 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x14 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x15 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x16 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x17 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x18 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x19 ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x1A ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x1B ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x1C ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x1D ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x1E ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x1F ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, /* 0x20 ' ' */ {0x39, KBDCHARDEF_MOD_NONE}, /* 0x21 '!' */ {0x02, KBDCHARDEF_MOD_SHIFT}, /* 0x22 '"' */ {0x28, KBDCHARDEF_MOD_SHIFT}, /* 0x23 '#' */ {0x04, KBDCHARDEF_MOD_SHIFT}, /* 0x24 '$' */ {0x05, KBDCHARDEF_MOD_SHIFT}, /* 0x25 '%' */ {0x06, KBDCHARDEF_MOD_SHIFT}, /* 0x26 '&' */ {0x08, KBDCHARDEF_MOD_SHIFT}, /* 0x27 ''' */ {0x28, KBDCHARDEF_MOD_NONE}, /* 0x28 '(' */ {0x0a, KBDCHARDEF_MOD_SHIFT}, /* 0x29 ')' */ {0x0b, KBDCHARDEF_MOD_SHIFT}, /* 0x2A '*' */ {0x09, KBDCHARDEF_MOD_SHIFT}, /* 0x2B '+' */ {0x0d, KBDCHARDEF_MOD_SHIFT}, /* 0x2C ',' */ {0x33, KBDCHARDEF_MOD_NONE}, /* 0x2D '-' */ {0x0c, KBDCHARDEF_MOD_NONE}, /* 0x2E '.' */ {0x34, KBDCHARDEF_MOD_NONE}, /* 0x2F '/' */ {0x35, KBDCHARDEF_MOD_NONE}, /* 0x30 '0' */ {0x0b, KBDCHARDEF_MOD_NONE}, /* 0x31 '1' */ {0x02, KBDCHARDEF_MOD_NONE}, /* 0x32 '2' */ {0x03, KBDCHARDEF_MOD_NONE}, /* 0x33 '3' */ {0x04, KBDCHARDEF_MOD_NONE}, /* 0x34 '4' */ {0x05, KBDCHARDEF_MOD_NONE}, /* 0x35 '5' */ {0x06, KBDCHARDEF_MOD_NONE}, /* 0x36 '6' */ {0x07, KBDCHARDEF_MOD_NONE}, /* 0x37 '7' */ {0x08, KBDCHARDEF_MOD_NONE}, /* 0x38 '8' */ {0x09, KBDCHARDEF_MOD_NONE}, /* 0x39 '9' */ {0x0a, KBDCHARDEF_MOD_NONE}, /* 0x3A ':' */ {0x27, KBDCHARDEF_MOD_SHIFT}, /* 0x3B ';' */ {0x27, KBDCHARDEF_MOD_NONE}, /* 0x3C '<' */ {0x33, KBDCHARDEF_MOD_SHIFT}, /* 0x3D '=' */ {0x0d, KBDCHARDEF_MOD_NONE}, /* 0x3E '>' */ {0x34, KBDCHARDEF_MOD_SHIFT}, /* 0x3F '?' */ {0x35, KBDCHARDEF_MOD_SHIFT}, /* 0x40 '@' */ {0x03, KBDCHARDEF_MOD_SHIFT}, /* 0x41 'A' */ {0x1e, KBDCHARDEF_MOD_SHIFT}, /* 0x42 'B' */ {0x30, KBDCHARDEF_MOD_SHIFT}, /* 0x43 'C' */ {0x2e, KBDCHARDEF_MOD_SHIFT}, /* 0x44 'D' */ {0x20, KBDCHARDEF_MOD_SHIFT}, /* 0x45 'E' */ {0x12, KBDCHARDEF_MOD_SHIFT}, /* 0x46 'F' */ {0x21, KBDCHARDEF_MOD_SHIFT}, /* 0x47 'G' */ {0x22, KBDCHARDEF_MOD_SHIFT}, /* 0x48 'H' */ {0x23, KBDCHARDEF_MOD_SHIFT}, /* 0x49 'I' */ {0x17, KBDCHARDEF_MOD_SHIFT}, /* 0x4A 'J' */ {0x24, KBDCHARDEF_MOD_SHIFT}, /* 0x4B 'K' */ {0x25, KBDCHARDEF_MOD_SHIFT}, /* 0x4C 'L' */ {0x26, KBDCHARDEF_MOD_SHIFT}, /* 0x4D 'M' */ {0x32, KBDCHARDEF_MOD_SHIFT}, /* 0x4E 'N' */ {0x31, KBDCHARDEF_MOD_SHIFT}, /* 0x4F 'O' */ {0x18, KBDCHARDEF_MOD_SHIFT}, /* 0x50 'P' */ {0x19, KBDCHARDEF_MOD_SHIFT}, /* 0x51 'Q' */ {0x10, KBDCHARDEF_MOD_SHIFT}, /* 0x52 'R' */ {0x13, KBDCHARDEF_MOD_SHIFT}, /* 0x53 'S' */ {0x1f, KBDCHARDEF_MOD_SHIFT}, /* 0x54 'T' */ {0x14, KBDCHARDEF_MOD_SHIFT}, /* 0x55 'U' */ {0x16, KBDCHARDEF_MOD_SHIFT}, /* 0x56 'V' */ {0x2f, KBDCHARDEF_MOD_SHIFT}, /* 0x57 'W' */ {0x11, KBDCHARDEF_MOD_SHIFT}, /* 0x58 'X' */ {0x2d, KBDCHARDEF_MOD_SHIFT}, /* 0x59 'Y' */ {0x15, KBDCHARDEF_MOD_SHIFT}, /* 0x5A 'Z' */ {0x2c, KBDCHARDEF_MOD_SHIFT}, /* 0x5B '[' */ {0x1a, KBDCHARDEF_MOD_NONE}, /* 0x5C '\' */ {0x2b, KBDCHARDEF_MOD_NONE}, /* 0x5D ']' */ {0x1b, KBDCHARDEF_MOD_NONE}, /* 0x5E '^' */ {0x07, KBDCHARDEF_MOD_SHIFT}, /* 0x5F '_' */ {0x0c, KBDCHARDEF_MOD_SHIFT}, /* 0x60 '`' */ {0x28, KBDCHARDEF_MOD_NONE}, /* 0x61 'a' */ {0x1e, KBDCHARDEF_MOD_NONE}, /* 0x62 'b' */ {0x30, KBDCHARDEF_MOD_NONE}, /* 0x63 'c' */ {0x2e, KBDCHARDEF_MOD_NONE}, /* 0x64 'd' */ {0x20, KBDCHARDEF_MOD_NONE}, /* 0x65 'e' */ {0x12, KBDCHARDEF_MOD_NONE}, /* 0x66 'f' */ {0x21, KBDCHARDEF_MOD_NONE}, /* 0x67 'g' */ {0x22, KBDCHARDEF_MOD_NONE}, /* 0x68 'h' */ {0x23, KBDCHARDEF_MOD_NONE}, /* 0x69 'i' */ {0x17, KBDCHARDEF_MOD_NONE}, /* 0x6A 'j' */ {0x24, KBDCHARDEF_MOD_NONE}, /* 0x6B 'k' */ {0x25, KBDCHARDEF_MOD_NONE}, /* 0x6C 'l' */ {0x26, KBDCHARDEF_MOD_NONE}, /* 0x6D 'm' */ {0x32, KBDCHARDEF_MOD_NONE}, /* 0x6E 'n' */ {0x31, KBDCHARDEF_MOD_NONE}, /* 0x6F 'o' */ {0x18, KBDCHARDEF_MOD_NONE}, /* 0x70 'p' */ {0x19, KBDCHARDEF_MOD_NONE}, /* 0x71 'q' */ {0x10, KBDCHARDEF_MOD_NONE}, /* 0x72 'r' */ {0x13, KBDCHARDEF_MOD_NONE}, /* 0x73 's' */ {0x1f, KBDCHARDEF_MOD_NONE}, /* 0x74 't' */ {0x14, KBDCHARDEF_MOD_NONE}, /* 0x75 'u' */ {0x16, KBDCHARDEF_MOD_NONE}, /* 0x76 'v' */ {0x2f, KBDCHARDEF_MOD_NONE}, /* 0x77 'w' */ {0x11, KBDCHARDEF_MOD_NONE}, /* 0x78 'x' */ {0x2d, KBDCHARDEF_MOD_NONE}, /* 0x79 'y' */ {0x15, KBDCHARDEF_MOD_NONE}, /* 0x7A 'z' */ {0x2c, KBDCHARDEF_MOD_NONE}, /* 0x7B '{' */ {0x1a, KBDCHARDEF_MOD_SHIFT}, /* 0x7C '|' */ {0x2b, KBDCHARDEF_MOD_SHIFT}, /* 0x7D '}' */ {0x1b, KBDCHARDEF_MOD_SHIFT}, /* 0x7E '~' */ {0x29, KBDCHARDEF_MOD_SHIFT}, /* 0x7F ' ' */ {0x00, KBDCHARDEF_MOD_NONE}, }; static HRESULT keyboardPutScancodes(IKeyboard *pKeyboard, const std::list &llScancodes) { /* Send scancodes to the VM. */ com::SafeArray saScancodes(llScancodes); #if 1 HRESULT rc = S_OK; size_t i; for (i = 0; i < saScancodes.size(); ++i) { rc = pKeyboard->PutScancode(saScancodes[i]); if (FAILED(rc)) { RTMsgError("Failed to send a scancode"); break; } RTThreadSleep(10); /* "Typing" too fast causes lost characters. */ } #else /** @todo PutScancodes does not deliver more than 20 scancodes. */ ULONG codesStored = 0; HRESULT rc = pKeyboard->PutScancodes(ComSafeArrayAsInParam(saScancodes), &codesStored); if (SUCCEEDED(rc) && codesStored < saScancodes.size()) { RTMsgError("Only %d scancodes were stored", codesStored); rc = E_FAIL; } #endif return rc; } static void keyboardCharsToScancodes(const char *pch, size_t cchMax, std::list &llScancodes, bool *pfShift) { size_t cchProcessed = 0; const char *p = pch; while (cchProcessed < cchMax) { ++cchProcessed; const uint8_t c = (uint8_t)*p++; if (c < RT_ELEMENTS(g_aASCIIChars)) { const KBDCHARDEF *d = &g_aASCIIChars[c]; if (d->u8Scancode) { const bool fNeedShift = RT_BOOL(d->u8Modifiers & KBDCHARDEF_MOD_SHIFT); if (*pfShift != fNeedShift) { *pfShift = fNeedShift; /* Press or release the SHIFT key. */ llScancodes.push_back(0x2a | (fNeedShift? 0x00: 0x80)); } llScancodes.push_back(d->u8Scancode); llScancodes.push_back(d->u8Scancode | 0x80); } } } } static HRESULT keyboardPutString(IKeyboard *pKeyboard, int argc, char **argv) { std::list llScancodes; bool fShift = false; /* Convert command line string(s) to the en-us keyboard scancodes. */ int i; for (i = 1 + 1; i < argc; ++i) { if (!llScancodes.empty()) { /* Insert a SPACE before the next string. */ llScancodes.push_back(0x39); llScancodes.push_back(0x39 | 0x80); } keyboardCharsToScancodes(argv[i], strlen(argv[i]), llScancodes, &fShift); } /* Release SHIFT if pressed. */ if (fShift) llScancodes.push_back(0x2a | 0x80); return keyboardPutScancodes(pKeyboard, llScancodes); } static HRESULT keyboardPutFile(IKeyboard *pKeyboard, const char *pszFilename) { std::list llScancodes; bool fShift = false; RTFILE File = NIL_RTFILE; int vrc = RTFileOpen(&File, pszFilename, RTFILE_O_READ | RTFILE_O_OPEN | RTFILE_O_DENY_WRITE); if (RT_SUCCESS(vrc)) { uint64_t cbFile = 0; vrc = RTFileQuerySize(File, &cbFile); if (RT_SUCCESS(vrc)) { const uint64_t cbFileMax = _64K; if (cbFile <= cbFileMax) { const size_t cbBuffer = _4K; char *pchBuf = (char *)RTMemAlloc(cbBuffer); if (pchBuf) { size_t cbRemaining = (size_t)cbFile; while (cbRemaining > 0) { const size_t cbToRead = cbRemaining > cbBuffer ? cbBuffer : cbRemaining; size_t cbRead = 0; vrc = RTFileRead(File, pchBuf, cbToRead, &cbRead); if (RT_FAILURE(vrc) || cbRead == 0) break; keyboardCharsToScancodes(pchBuf, cbRead, llScancodes, &fShift); cbRemaining -= cbRead; } RTMemFree(pchBuf); } else RTMsgError("Out of memory allocating %d bytes", cbBuffer); } else RTMsgError("File size %RI64 is greater than %RI64: '%s'", cbFile, cbFileMax, pszFilename); } else RTMsgError("Cannot get size of file '%s': %Rrc", pszFilename, vrc); RTFileClose(File); } else RTMsgError("Cannot open file '%s': %Rrc", pszFilename, vrc); /* Release SHIFT if pressed. */ if (fShift) llScancodes.push_back(0x2a | 0x80); return keyboardPutScancodes(pKeyboard, llScancodes); } RTEXITCODE handleControlVM(HandlerArg *a) { using namespace com; bool fNeedsSaving = false; HRESULT rc; if (a->argc < 2) return errorSyntax(USAGE_CONTROLVM, "Not enough parameters"); /* try to find the given machine */ ComPtr machine; CHECK_ERROR(a->virtualBox, FindMachine(Bstr(a->argv[0]).raw(), machine.asOutParam())); if (FAILED(rc)) return RTEXITCODE_FAILURE; /* open a session for the VM */ CHECK_ERROR_RET(machine, LockMachine(a->session, LockType_Shared), RTEXITCODE_FAILURE); ComPtr console; ComPtr sessionMachine; do { /* get the associated console */ CHECK_ERROR_BREAK(a->session, COMGETTER(Console)(console.asOutParam())); if (!console) return RTMsgErrorExit(RTEXITCODE_FAILURE, "Machine '%s' is not currently running", a->argv[0]); /* ... and session machine */ CHECK_ERROR_BREAK(a->session, COMGETTER(Machine)(sessionMachine.asOutParam())); /* which command? */ if (!strcmp(a->argv[1], "pause")) { CHECK_ERROR_BREAK(console, Pause()); } else if (!strcmp(a->argv[1], "resume")) { CHECK_ERROR_BREAK(console, Resume()); } else if (!strcmp(a->argv[1], "reset")) { CHECK_ERROR_BREAK(console, Reset()); } else if (!strcmp(a->argv[1], "unplugcpu")) { if (a->argc <= 1 + 1) { errorArgument("Missing argument to '%s'. Expected CPU number.", a->argv[1]); rc = E_FAIL; break; } unsigned n = parseNum(a->argv[2], 32, "CPU"); CHECK_ERROR_BREAK(sessionMachine, HotUnplugCPU(n)); } else if (!strcmp(a->argv[1], "plugcpu")) { if (a->argc <= 1 + 1) { errorArgument("Missing argument to '%s'. Expected CPU number.", a->argv[1]); rc = E_FAIL; break; } unsigned n = parseNum(a->argv[2], 32, "CPU"); CHECK_ERROR_BREAK(sessionMachine, HotPlugCPU(n)); } else if (!strcmp(a->argv[1], "cpuexecutioncap")) { if (a->argc <= 1 + 1) { errorArgument("Missing argument to '%s'. Expected execution cap number.", a->argv[1]); rc = E_FAIL; break; } unsigned n = parseNum(a->argv[2], 100, "ExecutionCap"); CHECK_ERROR_BREAK(sessionMachine, COMSETTER(CPUExecutionCap)(n)); } else if (!strcmp(a->argv[1], "audioin")) { ComPtr adapter; CHECK_ERROR_BREAK(sessionMachine, COMGETTER(AudioAdapter)(adapter.asOutParam())); if (adapter) { if (!strcmp(a->argv[2], "on")) { CHECK_ERROR_RET(adapter, COMSETTER(EnabledIn)(TRUE), RTEXITCODE_FAILURE); } else if (!strcmp(a->argv[2], "off")) { CHECK_ERROR_RET(adapter, COMSETTER(EnabledIn)(FALSE), RTEXITCODE_FAILURE); } else { errorArgument("Invalid value '%s'", Utf8Str(a->argv[2]).c_str()); rc = E_FAIL; break; } if (SUCCEEDED(rc)) fNeedsSaving = true; } else { errorArgument("audio adapter not enabled in VM configuration"); rc = E_FAIL; break; } } else if (!strcmp(a->argv[1], "audioout")) { ComPtr adapter; CHECK_ERROR_BREAK(sessionMachine, COMGETTER(AudioAdapter)(adapter.asOutParam())); if (adapter) { if (!strcmp(a->argv[2], "on")) { CHECK_ERROR_RET(adapter, COMSETTER(EnabledOut)(TRUE), RTEXITCODE_FAILURE); } else if (!strcmp(a->argv[2], "off")) { CHECK_ERROR_RET(adapter, COMSETTER(EnabledOut)(FALSE), RTEXITCODE_FAILURE); } else { errorArgument("Invalid value '%s'", Utf8Str(a->argv[2]).c_str()); rc = E_FAIL; break; } if (SUCCEEDED(rc)) fNeedsSaving = true; } else { errorArgument("audio adapter not enabled in VM configuration"); rc = E_FAIL; break; } } #ifdef VBOX_WITH_SHARED_CLIPBOARD else if (!strcmp(a->argv[1], "clipboard")) { if (a->argc <= 1 + 1) { errorArgument("Missing argument to '%s'.", a->argv[1]); rc = E_FAIL; break; } ClipboardMode_T mode = ClipboardMode_Disabled; /* Shut up MSC */ if (!strcmp(a->argv[2], "mode")) { if (!strcmp(a->argv[3], "disabled")) mode = ClipboardMode_Disabled; else if (!strcmp(a->argv[3], "hosttoguest")) mode = ClipboardMode_HostToGuest; else if (!strcmp(a->argv[3], "guesttohost")) mode = ClipboardMode_GuestToHost; else if (!strcmp(a->argv[3], "bidirectional")) mode = ClipboardMode_Bidirectional; else { errorArgument("Invalid '%s' argument '%s'.", a->argv[2], a->argv[3]); rc = E_FAIL; break; } CHECK_ERROR_BREAK(sessionMachine, COMSETTER(ClipboardMode)(mode)); if (SUCCEEDED(rc)) fNeedsSaving = true; } # ifdef VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS else if (!strcmp(a->argv[2], "filetransfers")) { if (a->argc <= 1 + 2) { errorArgument("Missing argument to '%s'. Expected enabled / disabled.", a->argv[2]); rc = E_FAIL; break; } BOOL fEnabled; if (!strcmp(a->argv[3], "enabled")) { fEnabled = TRUE; } else if (!strcmp(a->argv[3], "disabled")) { fEnabled = FALSE; } else { errorArgument("Invalid '%s' argument '%s'.", a->argv[2], a->argv[3]); rc = E_FAIL; break; } CHECK_ERROR_BREAK(sessionMachine, COMSETTER(ClipboardFileTransfersEnabled)(fEnabled)); if (SUCCEEDED(rc)) fNeedsSaving = true; } # endif /* VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS */ else { errorArgument("Invalid '%s' argument '%s'.", a->argv[1], a->argv[2]); rc = E_FAIL; break; } } #endif /* VBOX_WITH_SHARED_CLIPBOARD */ else if (!strcmp(a->argv[1], "draganddrop")) { if (a->argc <= 1 + 1) { errorArgument("Missing argument to '%s'. Expected drag and drop mode.", a->argv[1]); rc = E_FAIL; break; } DnDMode_T mode = DnDMode_Disabled; /* Shup up MSC. */ if (!strcmp(a->argv[2], "disabled")) mode = DnDMode_Disabled; else if (!strcmp(a->argv[2], "hosttoguest")) mode = DnDMode_HostToGuest; else if (!strcmp(a->argv[2], "guesttohost")) mode = DnDMode_GuestToHost; else if (!strcmp(a->argv[2], "bidirectional")) mode = DnDMode_Bidirectional; else { errorArgument("Invalid '%s' argument '%s'.", a->argv[1], a->argv[2]); rc = E_FAIL; } if (SUCCEEDED(rc)) { CHECK_ERROR_BREAK(sessionMachine, COMSETTER(DnDMode)(mode)); if (SUCCEEDED(rc)) fNeedsSaving = true; } } else if (!strcmp(a->argv[1], "poweroff")) { ComPtr progress; CHECK_ERROR_BREAK(console, PowerDown(progress.asOutParam())); rc = showProgress(progress); CHECK_PROGRESS_ERROR(progress, ("Failed to power off machine")); } else if (!strcmp(a->argv[1], "savestate")) { /* first pause so we don't trigger a live save which needs more time/resources */ bool fPaused = false; rc = console->Pause(); if (FAILED(rc)) { bool fError = true; if (rc == VBOX_E_INVALID_VM_STATE) { /* check if we are already paused */ MachineState_T machineState; CHECK_ERROR_BREAK(console, COMGETTER(State)(&machineState)); /* the error code was lost by the previous instruction */ rc = VBOX_E_INVALID_VM_STATE; if (machineState != MachineState_Paused) { RTMsgError("Machine in invalid state %d -- %s\n", machineState, machineStateToName(machineState, false)); } else { fError = false; fPaused = true; } } if (fError) break; } ComPtr progress; CHECK_ERROR(sessionMachine, SaveState(progress.asOutParam())); if (FAILED(rc)) { if (!fPaused) console->Resume(); break; } rc = showProgress(progress); CHECK_PROGRESS_ERROR(progress, ("Failed to save machine state")); if (FAILED(rc)) { if (!fPaused) console->Resume(); } } else if (!strcmp(a->argv[1], "acpipowerbutton")) { CHECK_ERROR_BREAK(console, PowerButton()); } else if (!strcmp(a->argv[1], "acpisleepbutton")) { CHECK_ERROR_BREAK(console, SleepButton()); } #ifdef VBOX_WITH_GUEST_CONTROL else if ( !strcmp(a->argv[1], "reboot") || !strcmp(a->argv[1], "shutdown")) /* With shutdown we mean gracefully powering off the VM by letting the guest OS do its thing. */ { ComPtr pGuest; CHECK_ERROR_BREAK(console, COMGETTER(Guest)(pGuest.asOutParam())); if (!pGuest) { RTMsgError("Guest not running"); rc = E_FAIL; break; } const bool fReboot = !strcmp(a->argv[1], "reboot"); com::SafeArray aShutdownFlags; if (fReboot) aShutdownFlags.push_back(GuestShutdownFlag_Reboot); else aShutdownFlags.push_back(GuestShutdownFlag_PowerOff); if ( a->argc >= 3 && !strcmp(a->argv[2], "--force")) aShutdownFlags.push_back(GuestShutdownFlag_Force); CHECK_ERROR(pGuest, Shutdown(ComSafeArrayAsInParam(aShutdownFlags))); if (FAILED(rc)) { if (rc == VBOX_E_NOT_SUPPORTED) RTPrintf("Current installed Guest Additions don't support %s the guest.", fReboot ? "rebooting" : "shutting down"); } } #endif else if (!strcmp(a->argv[1], "keyboardputscancode")) { ComPtr pKeyboard; CHECK_ERROR_BREAK(console, COMGETTER(Keyboard)(pKeyboard.asOutParam())); if (!pKeyboard) { RTMsgError("Guest not running"); rc = E_FAIL; break; } if (a->argc <= 1 + 1) { errorArgument("Missing argument to '%s'. Expected IBM PC AT set 2 keyboard scancode(s) as hex byte(s).", a->argv[1]); rc = E_FAIL; break; } std::list llScancodes; /* Process the command line. */ int i; for (i = 1 + 1; i < a->argc; i++) { if ( RT_C_IS_XDIGIT (a->argv[i][0]) && RT_C_IS_XDIGIT (a->argv[i][1]) && a->argv[i][2] == 0) { uint8_t u8Scancode; int irc = RTStrToUInt8Ex(a->argv[i], NULL, 16, &u8Scancode); if (RT_FAILURE (irc)) { RTMsgError("Converting '%s' returned %Rrc!", a->argv[i], rc); rc = E_FAIL; break; } llScancodes.push_back(u8Scancode); } else { RTMsgError("Error: '%s' is not a hex byte!", a->argv[i]); rc = E_FAIL; break; } } if (FAILED(rc)) break; rc = keyboardPutScancodes(pKeyboard, llScancodes); } else if (!strcmp(a->argv[1], "keyboardputstring")) { ComPtr pKeyboard; CHECK_ERROR_BREAK(console, COMGETTER(Keyboard)(pKeyboard.asOutParam())); if (!pKeyboard) { RTMsgError("Guest not running"); rc = E_FAIL; break; } if (a->argc <= 1 + 1) { errorArgument("Missing argument to '%s'. Expected ASCII string(s).", a->argv[1]); rc = E_FAIL; break; } rc = keyboardPutString(pKeyboard, a->argc, a->argv); } else if (!strcmp(a->argv[1], "keyboardputfile")) { ComPtr pKeyboard; CHECK_ERROR_BREAK(console, COMGETTER(Keyboard)(pKeyboard.asOutParam())); if (!pKeyboard) { RTMsgError("Guest not running"); rc = E_FAIL; break; } if (a->argc <= 1 + 1) { errorArgument("Missing argument to '%s'. Expected file name.", a->argv[1]); rc = E_FAIL; break; } rc = keyboardPutFile(pKeyboard, a->argv[2]); } else if (!strncmp(a->argv[1], "setlinkstate", 12)) { /* Get the number of network adapters */ ULONG NetworkAdapterCount = getMaxNics(a->virtualBox, sessionMachine); unsigned n = parseNum(&a->argv[1][12], NetworkAdapterCount, "NIC"); if (!n) { rc = E_FAIL; break; } if (a->argc <= 1 + 1) { errorArgument("Missing argument to '%s'", a->argv[1]); rc = E_FAIL; break; } /* get the corresponding network adapter */ ComPtr adapter; CHECK_ERROR_BREAK(sessionMachine, GetNetworkAdapter(n - 1, adapter.asOutParam())); if (adapter) { if (!strcmp(a->argv[2], "on")) { CHECK_ERROR_BREAK(adapter, COMSETTER(CableConnected)(TRUE)); } else if (!strcmp(a->argv[2], "off")) { CHECK_ERROR_BREAK(adapter, COMSETTER(CableConnected)(FALSE)); } else { errorArgument("Invalid link state '%s'", Utf8Str(a->argv[2]).c_str()); rc = E_FAIL; break; } if (SUCCEEDED(rc)) fNeedsSaving = true; } } /* here the order in which strncmp is called is important * cause nictracefile can be very well compared with * nictrace and nic and thus everything will always fail * if the order is changed */ else if (!strncmp(a->argv[1], "nictracefile", 12)) { /* Get the number of network adapters */ ULONG NetworkAdapterCount = getMaxNics(a->virtualBox, sessionMachine); unsigned n = parseNum(&a->argv[1][12], NetworkAdapterCount, "NIC"); if (!n) { rc = E_FAIL; break; } if (a->argc <= 2) { errorArgument("Missing argument to '%s'", a->argv[1]); rc = E_FAIL; break; } /* get the corresponding network adapter */ ComPtr adapter; CHECK_ERROR_BREAK(sessionMachine, GetNetworkAdapter(n - 1, adapter.asOutParam())); if (adapter) { BOOL fEnabled; adapter->COMGETTER(Enabled)(&fEnabled); if (fEnabled) { if (a->argv[2]) { CHECK_ERROR_RET(adapter, COMSETTER(TraceFile)(Bstr(a->argv[2]).raw()), RTEXITCODE_FAILURE); } else { errorArgument("Invalid filename or filename not specified for NIC %lu", n); rc = E_FAIL; break; } if (SUCCEEDED(rc)) fNeedsSaving = true; } else RTMsgError("The NIC %d is currently disabled and thus its tracefile can't be changed", n); } } else if (!strncmp(a->argv[1], "nictrace", 8)) { /* Get the number of network adapters */ ULONG NetworkAdapterCount = getMaxNics(a->virtualBox, sessionMachine); unsigned n = parseNum(&a->argv[1][8], NetworkAdapterCount, "NIC"); if (!n) { rc = E_FAIL; break; } if (a->argc <= 2) { errorArgument("Missing argument to '%s'", a->argv[1]); rc = E_FAIL; break; } /* get the corresponding network adapter */ ComPtr adapter; CHECK_ERROR_BREAK(sessionMachine, GetNetworkAdapter(n - 1, adapter.asOutParam())); if (adapter) { BOOL fEnabled; adapter->COMGETTER(Enabled)(&fEnabled); if (fEnabled) { if (!strcmp(a->argv[2], "on")) { CHECK_ERROR_RET(adapter, COMSETTER(TraceEnabled)(TRUE), RTEXITCODE_FAILURE); } else if (!strcmp(a->argv[2], "off")) { CHECK_ERROR_RET(adapter, COMSETTER(TraceEnabled)(FALSE), RTEXITCODE_FAILURE); } else { errorArgument("Invalid nictrace%lu argument '%s'", n, Utf8Str(a->argv[2]).c_str()); rc = E_FAIL; break; } if (SUCCEEDED(rc)) fNeedsSaving = true; } else RTMsgError("The NIC %d is currently disabled and thus its trace flag can't be changed", n); } } else if( a->argc > 2 && !strncmp(a->argv[1], "natpf", 5)) { /* Get the number of network adapters */ ULONG NetworkAdapterCount = getMaxNics(a->virtualBox, sessionMachine); unsigned n = parseNum(&a->argv[1][5], NetworkAdapterCount, "NIC"); if (!n) { rc = E_FAIL; break; } if (a->argc <= 2) { errorArgument("Missing argument to '%s'", a->argv[1]); rc = E_FAIL; break; } /* get the corresponding network adapter */ ComPtr adapter; CHECK_ERROR_BREAK(sessionMachine, GetNetworkAdapter(n - 1, adapter.asOutParam())); if (!adapter) { rc = E_FAIL; break; } ComPtr engine; CHECK_ERROR(adapter, COMGETTER(NATEngine)(engine.asOutParam())); if (!engine) { rc = E_FAIL; break; } if (!strcmp(a->argv[2], "delete")) { if (a->argc >= 3) CHECK_ERROR(engine, RemoveRedirect(Bstr(a->argv[3]).raw())); } else { #define ITERATE_TO_NEXT_TERM(ch) \ do { \ while (*ch != ',') \ { \ if (*ch == 0) \ { \ return errorSyntax(USAGE_CONTROLVM, \ "Missing or invalid argument to '%s'", \ a->argv[1]); \ } \ ch++; \ } \ *ch = '\0'; \ ch++; \ } while(0) char *strName; char *strProto; char *strHostIp; char *strHostPort; char *strGuestIp; char *strGuestPort; char *strRaw = RTStrDup(a->argv[2]); char *ch = strRaw; strName = RTStrStrip(ch); ITERATE_TO_NEXT_TERM(ch); strProto = RTStrStrip(ch); ITERATE_TO_NEXT_TERM(ch); strHostIp = RTStrStrip(ch); ITERATE_TO_NEXT_TERM(ch); strHostPort = RTStrStrip(ch); ITERATE_TO_NEXT_TERM(ch); strGuestIp = RTStrStrip(ch); ITERATE_TO_NEXT_TERM(ch); strGuestPort = RTStrStrip(ch); NATProtocol_T proto; if (RTStrICmp(strProto, "udp") == 0) proto = NATProtocol_UDP; else if (RTStrICmp(strProto, "tcp") == 0) proto = NATProtocol_TCP; else { return errorSyntax(USAGE_CONTROLVM, "Wrong rule proto '%s' specified -- only 'udp' and 'tcp' are allowed.", strProto); } CHECK_ERROR(engine, AddRedirect(Bstr(strName).raw(), proto, Bstr(strHostIp).raw(), RTStrToUInt16(strHostPort), Bstr(strGuestIp).raw(), RTStrToUInt16(strGuestPort))); #undef ITERATE_TO_NEXT_TERM } if (SUCCEEDED(rc)) fNeedsSaving = true; } else if (!strncmp(a->argv[1], "nicproperty", 11)) { /* Get the number of network adapters */ ULONG NetworkAdapterCount = getMaxNics(a->virtualBox, sessionMachine); unsigned n = parseNum(&a->argv[1][11], NetworkAdapterCount, "NIC"); if (!n) { rc = E_FAIL; break; } if (a->argc <= 2) { errorArgument("Missing argument to '%s'", a->argv[1]); rc = E_FAIL; break; } /* get the corresponding network adapter */ ComPtr adapter; CHECK_ERROR_BREAK(sessionMachine, GetNetworkAdapter(n - 1, adapter.asOutParam())); if (adapter) { BOOL fEnabled; adapter->COMGETTER(Enabled)(&fEnabled); if (fEnabled) { /* Parse 'name=value' */ char *pszProperty = RTStrDup(a->argv[2]); if (pszProperty) { char *pDelimiter = strchr(pszProperty, '='); if (pDelimiter) { *pDelimiter = '\0'; Bstr bstrName = pszProperty; Bstr bstrValue = &pDelimiter[1]; CHECK_ERROR(adapter, SetProperty(bstrName.raw(), bstrValue.raw())); if (SUCCEEDED(rc)) fNeedsSaving = true; } else { errorArgument("Invalid nicproperty%d argument '%s'", n, a->argv[2]); rc = E_FAIL; } RTStrFree(pszProperty); } else { RTStrmPrintf(g_pStdErr, "Error: Failed to allocate memory for nicproperty%d '%s'\n", n, a->argv[2]); rc = E_FAIL; } if (FAILED(rc)) break; } else RTMsgError("The NIC %d is currently disabled and thus its properties can't be changed", n); } } else if (!strncmp(a->argv[1], "nicpromisc", 10)) { /* Get the number of network adapters */ ULONG NetworkAdapterCount = getMaxNics(a->virtualBox, sessionMachine); unsigned n = parseNum(&a->argv[1][10], NetworkAdapterCount, "NIC"); if (!n) { rc = E_FAIL; break; } if (a->argc <= 2) { errorArgument("Missing argument to '%s'", a->argv[1]); rc = E_FAIL; break; } /* get the corresponding network adapter */ ComPtr adapter; CHECK_ERROR_BREAK(sessionMachine, GetNetworkAdapter(n - 1, adapter.asOutParam())); if (adapter) { BOOL fEnabled; adapter->COMGETTER(Enabled)(&fEnabled); if (fEnabled) { NetworkAdapterPromiscModePolicy_T enmPromiscModePolicy; if (!strcmp(a->argv[2], "deny")) enmPromiscModePolicy = NetworkAdapterPromiscModePolicy_Deny; else if ( !strcmp(a->argv[2], "allow-vms") || !strcmp(a->argv[2], "allow-network")) enmPromiscModePolicy = NetworkAdapterPromiscModePolicy_AllowNetwork; else if (!strcmp(a->argv[2], "allow-all")) enmPromiscModePolicy = NetworkAdapterPromiscModePolicy_AllowAll; else { errorArgument("Unknown promiscuous mode policy '%s'", a->argv[2]); rc = E_INVALIDARG; break; } CHECK_ERROR(adapter, COMSETTER(PromiscModePolicy)(enmPromiscModePolicy)); if (SUCCEEDED(rc)) fNeedsSaving = true; } else RTMsgError("The NIC %d is currently disabled and thus its promiscuous mode can't be changed", n); } } else if (!strncmp(a->argv[1], "nic", 3)) { /* Get the number of network adapters */ ULONG NetworkAdapterCount = getMaxNics(a->virtualBox, sessionMachine); unsigned n = parseNum(&a->argv[1][3], NetworkAdapterCount, "NIC"); if (!n) { rc = E_FAIL; break; } if (a->argc <= 2) { errorArgument("Missing argument to '%s'", a->argv[1]); rc = E_FAIL; break; } /* get the corresponding network adapter */ ComPtr adapter; CHECK_ERROR_BREAK(sessionMachine, GetNetworkAdapter(n - 1, adapter.asOutParam())); if (adapter) { BOOL fEnabled; adapter->COMGETTER(Enabled)(&fEnabled); if (fEnabled) { if (!strcmp(a->argv[2], "null")) { CHECK_ERROR_RET(adapter, COMSETTER(AttachmentType)(NetworkAttachmentType_Null), RTEXITCODE_FAILURE); } else if (!strcmp(a->argv[2], "nat")) { if (a->argc == 4) CHECK_ERROR_RET(adapter, COMSETTER(NATNetwork)(Bstr(a->argv[3]).raw()), RTEXITCODE_FAILURE); CHECK_ERROR_RET(adapter, COMSETTER(AttachmentType)(NetworkAttachmentType_NAT), RTEXITCODE_FAILURE); } else if ( !strcmp(a->argv[2], "bridged") || !strcmp(a->argv[2], "hostif")) /* backward compatibility */ { if (a->argc <= 3) { errorArgument("Missing argument to '%s'", a->argv[2]); rc = E_FAIL; break; } CHECK_ERROR_RET(adapter, COMSETTER(BridgedInterface)(Bstr(a->argv[3]).raw()), RTEXITCODE_FAILURE); CHECK_ERROR_RET(adapter, COMSETTER(AttachmentType)(NetworkAttachmentType_Bridged), RTEXITCODE_FAILURE); } else if (!strcmp(a->argv[2], "intnet")) { if (a->argc <= 3) { errorArgument("Missing argument to '%s'", a->argv[2]); rc = E_FAIL; break; } CHECK_ERROR_RET(adapter, COMSETTER(InternalNetwork)(Bstr(a->argv[3]).raw()), RTEXITCODE_FAILURE); CHECK_ERROR_RET(adapter, COMSETTER(AttachmentType)(NetworkAttachmentType_Internal), RTEXITCODE_FAILURE); } #if defined(VBOX_WITH_NETFLT) else if (!strcmp(a->argv[2], "hostonly")) { if (a->argc <= 3) { errorArgument("Missing argument to '%s'", a->argv[2]); rc = E_FAIL; break; } CHECK_ERROR_RET(adapter, COMSETTER(HostOnlyInterface)(Bstr(a->argv[3]).raw()), RTEXITCODE_FAILURE); CHECK_ERROR_RET(adapter, COMSETTER(AttachmentType)(NetworkAttachmentType_HostOnly), RTEXITCODE_FAILURE); } #endif else if (!strcmp(a->argv[2], "generic")) { if (a->argc <= 3) { errorArgument("Missing argument to '%s'", a->argv[2]); rc = E_FAIL; break; } CHECK_ERROR_RET(adapter, COMSETTER(GenericDriver)(Bstr(a->argv[3]).raw()), RTEXITCODE_FAILURE); CHECK_ERROR_RET(adapter, COMSETTER(AttachmentType)(NetworkAttachmentType_Generic), RTEXITCODE_FAILURE); } else if (!strcmp(a->argv[2], "natnetwork")) { if (a->argc <= 3) { errorArgument("Missing argument to '%s'", a->argv[2]); rc = E_FAIL; break; } CHECK_ERROR_RET(adapter, COMSETTER(NATNetwork)(Bstr(a->argv[3]).raw()), RTEXITCODE_FAILURE); CHECK_ERROR_RET(adapter, COMSETTER(AttachmentType)(NetworkAttachmentType_NATNetwork), RTEXITCODE_FAILURE); } /** @todo obsolete, remove eventually */ else if (!strcmp(a->argv[2], "vde")) { if (a->argc <= 3) { errorArgument("Missing argument to '%s'", a->argv[2]); rc = E_FAIL; break; } CHECK_ERROR_RET(adapter, COMSETTER(AttachmentType)(NetworkAttachmentType_Generic), RTEXITCODE_FAILURE); CHECK_ERROR_RET(adapter, SetProperty(Bstr("name").raw(), Bstr(a->argv[3]).raw()), RTEXITCODE_FAILURE); } else { errorArgument("Invalid type '%s' specfied for NIC %lu", Utf8Str(a->argv[2]).c_str(), n); rc = E_FAIL; break; } if (SUCCEEDED(rc)) fNeedsSaving = true; } else RTMsgError("The NIC %d is currently disabled and thus its attachment type can't be changed", n); } } else if ( !strcmp(a->argv[1], "vrde") || !strcmp(a->argv[1], "vrdp")) { if (!strcmp(a->argv[1], "vrdp")) RTStrmPrintf(g_pStdErr, "Warning: 'vrdp' is deprecated. Use 'vrde'.\n"); if (a->argc <= 1 + 1) { errorArgument("Missing argument to '%s'", a->argv[1]); rc = E_FAIL; break; } ComPtr vrdeServer; sessionMachine->COMGETTER(VRDEServer)(vrdeServer.asOutParam()); ASSERT(vrdeServer); if (vrdeServer) { if (!strcmp(a->argv[2], "on")) { CHECK_ERROR_BREAK(vrdeServer, COMSETTER(Enabled)(TRUE)); } else if (!strcmp(a->argv[2], "off")) { CHECK_ERROR_BREAK(vrdeServer, COMSETTER(Enabled)(FALSE)); } else { errorArgument("Invalid remote desktop server state '%s'", Utf8Str(a->argv[2]).c_str()); rc = E_FAIL; break; } if (SUCCEEDED(rc)) fNeedsSaving = true; } } else if ( !strcmp(a->argv[1], "vrdeport") || !strcmp(a->argv[1], "vrdpport")) { if (!strcmp(a->argv[1], "vrdpport")) RTStrmPrintf(g_pStdErr, "Warning: 'vrdpport' is deprecated. Use 'vrdeport'.\n"); if (a->argc <= 1 + 1) { errorArgument("Missing argument to '%s'", a->argv[1]); rc = E_FAIL; break; } ComPtr vrdeServer; sessionMachine->COMGETTER(VRDEServer)(vrdeServer.asOutParam()); ASSERT(vrdeServer); if (vrdeServer) { Bstr ports; if (!strcmp(a->argv[2], "default")) ports = "0"; else ports = a->argv[2]; CHECK_ERROR_BREAK(vrdeServer, SetVRDEProperty(Bstr("TCP/Ports").raw(), ports.raw())); if (SUCCEEDED(rc)) fNeedsSaving = true; } } else if ( !strcmp(a->argv[1], "vrdevideochannelquality") || !strcmp(a->argv[1], "vrdpvideochannelquality")) { if (!strcmp(a->argv[1], "vrdpvideochannelquality")) RTStrmPrintf(g_pStdErr, "Warning: 'vrdpvideochannelquality' is deprecated. Use 'vrdevideochannelquality'.\n"); if (a->argc <= 1 + 1) { errorArgument("Missing argument to '%s'", a->argv[1]); rc = E_FAIL; break; } ComPtr vrdeServer; sessionMachine->COMGETTER(VRDEServer)(vrdeServer.asOutParam()); ASSERT(vrdeServer); if (vrdeServer) { Bstr value = a->argv[2]; CHECK_ERROR(vrdeServer, SetVRDEProperty(Bstr("VideoChannel/Quality").raw(), value.raw())); if (SUCCEEDED(rc)) fNeedsSaving = true; } } else if (!strcmp(a->argv[1], "vrdeproperty")) { if (a->argc <= 1 + 1) { errorArgument("Missing argument to '%s'", a->argv[1]); rc = E_FAIL; break; } ComPtr vrdeServer; sessionMachine->COMGETTER(VRDEServer)(vrdeServer.asOutParam()); ASSERT(vrdeServer); if (vrdeServer) { /* Parse 'name=value' */ char *pszProperty = RTStrDup(a->argv[2]); if (pszProperty) { char *pDelimiter = strchr(pszProperty, '='); if (pDelimiter) { *pDelimiter = '\0'; Bstr bstrName = pszProperty; Bstr bstrValue = &pDelimiter[1]; CHECK_ERROR(vrdeServer, SetVRDEProperty(bstrName.raw(), bstrValue.raw())); if (SUCCEEDED(rc)) fNeedsSaving = true; } else { errorArgument("Invalid vrdeproperty argument '%s'", a->argv[2]); rc = E_FAIL; } RTStrFree(pszProperty); } else { RTStrmPrintf(g_pStdErr, "Error: Failed to allocate memory for VRDE property '%s'\n", a->argv[2]); rc = E_FAIL; } } if (FAILED(rc)) { break; } } else if ( !strcmp(a->argv[1], "usbattach") || !strcmp(a->argv[1], "usbdetach")) { if (a->argc < 3) { errorSyntax(USAGE_CONTROLVM, "Not enough parameters"); rc = E_FAIL; break; } else if (a->argc == 4 || a->argc > 5) { errorSyntax(USAGE_CONTROLVM, "Wrong number of arguments"); rc = E_FAIL; break; } bool attach = !strcmp(a->argv[1], "usbattach"); Bstr usbId = a->argv[2]; Bstr captureFilename; if (a->argc == 5) { if (!strcmp(a->argv[3], "--capturefile")) captureFilename = a->argv[4]; else { errorArgument("Invalid parameter '%s'", a->argv[3]); rc = E_FAIL; break; } } Guid guid(usbId); if (!guid.isValid()) { // assume address if (attach) { ComPtr host; CHECK_ERROR_BREAK(a->virtualBox, COMGETTER(Host)(host.asOutParam())); SafeIfaceArray coll; CHECK_ERROR_BREAK(host, COMGETTER(USBDevices)(ComSafeArrayAsOutParam(coll))); ComPtr dev; CHECK_ERROR_BREAK(host, FindUSBDeviceByAddress(Bstr(a->argv[2]).raw(), dev.asOutParam())); CHECK_ERROR_BREAK(dev, COMGETTER(Id)(usbId.asOutParam())); } else { SafeIfaceArray coll; CHECK_ERROR_BREAK(console, COMGETTER(USBDevices)(ComSafeArrayAsOutParam(coll))); ComPtr dev; CHECK_ERROR_BREAK(console, FindUSBDeviceByAddress(Bstr(a->argv[2]).raw(), dev.asOutParam())); CHECK_ERROR_BREAK(dev, COMGETTER(Id)(usbId.asOutParam())); } } else if (guid.isZero()) { errorArgument("Zero UUID argument '%s'", a->argv[2]); rc = E_FAIL; break; } if (attach) CHECK_ERROR_BREAK(console, AttachUSBDevice(usbId.raw(), captureFilename.raw())); else { ComPtr dev; CHECK_ERROR_BREAK(console, DetachUSBDevice(usbId.raw(), dev.asOutParam())); } } else if (!strcmp(a->argv[1], "setvideomodehint")) { if (a->argc != 5 && a->argc != 6 && a->argc != 7 && a->argc != 9) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } bool fEnabled = true; uint32_t uXRes = RTStrToUInt32(a->argv[2]); uint32_t uYRes = RTStrToUInt32(a->argv[3]); uint32_t uBpp = RTStrToUInt32(a->argv[4]); uint32_t uDisplayIdx = 0; bool fChangeOrigin = false; int32_t iOriginX = 0; int32_t iOriginY = 0; if (a->argc >= 6) uDisplayIdx = RTStrToUInt32(a->argv[5]); if (a->argc >= 7) { int vrc = parseBool(a->argv[6], &fEnabled); if (RT_FAILURE(vrc)) { errorSyntax(USAGE_CONTROLVM, "Either \"yes\" or \"no\" is expected"); rc = E_FAIL; break; } fEnabled = !RTStrICmp(a->argv[6], "yes"); } if (a->argc == 9) { iOriginX = RTStrToInt32(a->argv[7]); iOriginY = RTStrToInt32(a->argv[8]); fChangeOrigin = true; } ComPtr pDisplay; CHECK_ERROR_BREAK(console, COMGETTER(Display)(pDisplay.asOutParam())); if (!pDisplay) { RTMsgError("Guest not running"); rc = E_FAIL; break; } CHECK_ERROR_BREAK(pDisplay, SetVideoModeHint(uDisplayIdx, fEnabled, fChangeOrigin, iOriginX, iOriginY, uXRes, uYRes, uBpp, true)); } else if (!strcmp(a->argv[1], "setscreenlayout")) { if (a->argc < 4) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } ComPtr pDisplay; CHECK_ERROR_BREAK(console, COMGETTER(Display)(pDisplay.asOutParam())); if (!pDisplay) { RTMsgError("Guest not running"); rc = E_FAIL; break; } com::SafeIfaceArray aGuestScreenInfos; /* Parse " on|primary | off" sequences. */ int argc = a->argc - 2; char **argv = &a->argv[2]; while (argc >= 2) { ULONG aDisplay = RTStrToUInt32(argv[0]); BOOL aPrimary = FALSE; GuestMonitorStatus_T aStatus; if (RTStrICmp(argv[1], "primary") == 0) { aStatus = GuestMonitorStatus_Enabled; aPrimary = TRUE; } else if (RTStrICmp(argv[1], "on") == 0) aStatus = GuestMonitorStatus_Enabled; else if (RTStrICmp(argv[1], "off") == 0) aStatus = GuestMonitorStatus_Disabled; else { errorSyntax(USAGE_CONTROLVM, "Display status must be or "); rc = E_FAIL; break; } BOOL aChangeOrigin = FALSE; LONG aOriginX = 0; LONG aOriginY = 0; ULONG aWidth = 0; ULONG aHeight = 0; ULONG aBitsPerPixel = 0; if (aStatus == GuestMonitorStatus_Enabled) { if (argc < 7) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } aChangeOrigin = TRUE; aOriginX = RTStrToUInt32(argv[2]); aOriginY = RTStrToUInt32(argv[3]); aWidth = RTStrToUInt32(argv[4]); aHeight = RTStrToUInt32(argv[5]); aBitsPerPixel = RTStrToUInt32(argv[6]); argc -= 7; argv += 7; } else { argc -= 2; argv += 2; } ComPtr pInfo; CHECK_ERROR_BREAK(pDisplay, CreateGuestScreenInfo(aDisplay, aStatus, aPrimary, aChangeOrigin, aOriginX, aOriginY, aWidth, aHeight, aBitsPerPixel, pInfo.asOutParam())); aGuestScreenInfos.push_back(pInfo); } if (FAILED(rc)) break; CHECK_ERROR_BREAK(pDisplay, SetScreenLayout(ScreenLayoutMode_Apply, ComSafeArrayAsInParam(aGuestScreenInfos))); } else if (!strcmp(a->argv[1], "setcredentials")) { bool fAllowLocalLogon = true; if ( a->argc == 7 || ( a->argc == 8 && ( !strcmp(a->argv[3], "-p") || !strcmp(a->argv[3], "--passwordfile")))) { if ( strcmp(a->argv[5 + (a->argc - 7)], "--allowlocallogon") && strcmp(a->argv[5 + (a->argc - 7)], "-allowlocallogon")) { errorArgument("Invalid parameter '%s'", a->argv[5]); rc = E_FAIL; break; } if (!strcmp(a->argv[6 + (a->argc - 7)], "no")) fAllowLocalLogon = false; } else if ( a->argc != 5 && ( a->argc != 6 || ( strcmp(a->argv[3], "-p") && strcmp(a->argv[3], "--passwordfile")))) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } Utf8Str passwd, domain; if (a->argc == 5 || a->argc == 7) { passwd = a->argv[3]; domain = a->argv[4]; } else { RTEXITCODE rcExit = readPasswordFile(a->argv[4], &passwd); if (rcExit != RTEXITCODE_SUCCESS) { rc = E_FAIL; break; } domain = a->argv[5]; } ComPtr pGuest; CHECK_ERROR_BREAK(console, COMGETTER(Guest)(pGuest.asOutParam())); if (!pGuest) { RTMsgError("Guest not running"); rc = E_FAIL; break; } CHECK_ERROR_BREAK(pGuest, SetCredentials(Bstr(a->argv[2]).raw(), Bstr(passwd).raw(), Bstr(domain).raw(), fAllowLocalLogon)); } #if 0 /** @todo review & remove */ else if (!strcmp(a->argv[1], "dvdattach")) { Bstr uuid; if (a->argc != 3) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } ComPtr dvdMedium; /* unmount? */ if (!strcmp(a->argv[2], "none")) { /* nothing to do, NULL object will cause unmount */ } /* host drive? */ else if (!strncmp(a->argv[2], "host:", 5)) { ComPtr host; CHECK_ERROR(a->virtualBox, COMGETTER(Host)(host.asOutParam())); rc = host->FindHostDVDDrive(Bstr(a->argv[2] + 5), dvdMedium.asOutParam()); if (!dvdMedium) { errorArgument("Invalid host DVD drive name \"%s\"", a->argv[2] + 5); rc = E_FAIL; break; } } else { /* first assume it's a UUID */ uuid = a->argv[2]; rc = a->virtualBox->GetDVDImage(uuid, dvdMedium.asOutParam()); if (FAILED(rc) || !dvdMedium) { /* must be a filename, check if it's in the collection */ rc = a->virtualBox->FindDVDImage(Bstr(a->argv[2]), dvdMedium.asOutParam()); /* not registered, do that on the fly */ if (!dvdMedium) { Bstr emptyUUID; CHECK_ERROR(a->virtualBox, OpenDVDImage(Bstr(a->argv[2]), emptyUUID, dvdMedium.asOutParam())); } } if (!dvdMedium) { rc = E_FAIL; break; } } /** @todo generalize this, allow arbitrary number of DVD drives * and as a consequence multiple attachments and different * storage controllers. */ if (dvdMedium) dvdMedium->COMGETTER(Id)(uuid.asOutParam()); else uuid = Guid().toString(); CHECK_ERROR(sessionMachine, MountMedium(Bstr("IDE Controller"), 1, 0, uuid, FALSE /* aForce */)); } else if (!strcmp(a->argv[1], "floppyattach")) { Bstr uuid; if (a->argc != 3) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } ComPtr floppyMedium; /* unmount? */ if (!strcmp(a->argv[2], "none")) { /* nothing to do, NULL object will cause unmount */ } /* host drive? */ else if (!strncmp(a->argv[2], "host:", 5)) { ComPtr host; CHECK_ERROR(a->virtualBox, COMGETTER(Host)(host.asOutParam())); host->FindHostFloppyDrive(Bstr(a->argv[2] + 5), floppyMedium.asOutParam()); if (!floppyMedium) { errorArgument("Invalid host floppy drive name \"%s\"", a->argv[2] + 5); rc = E_FAIL; break; } } else { /* first assume it's a UUID */ uuid = a->argv[2]; rc = a->virtualBox->GetFloppyImage(uuid, floppyMedium.asOutParam()); if (FAILED(rc) || !floppyMedium) { /* must be a filename, check if it's in the collection */ rc = a->virtualBox->FindFloppyImage(Bstr(a->argv[2]), floppyMedium.asOutParam()); /* not registered, do that on the fly */ if (!floppyMedium) { Bstr emptyUUID; CHECK_ERROR(a->virtualBox, OpenFloppyImage(Bstr(a->argv[2]), emptyUUID, floppyMedium.asOutParam())); } } if (!floppyMedium) { rc = E_FAIL; break; } } floppyMedium->COMGETTER(Id)(uuid.asOutParam()); CHECK_ERROR(sessionMachine, MountMedium(Bstr("Floppy Controller"), 0, 0, uuid, FALSE /* aForce */)); } #endif /* obsolete dvdattach/floppyattach */ else if (!strcmp(a->argv[1], "guestmemoryballoon")) { if (a->argc != 3) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } uint32_t uVal; int vrc; vrc = RTStrToUInt32Ex(a->argv[2], NULL, 0, &uVal); if (vrc != VINF_SUCCESS) { errorArgument("Error parsing guest memory balloon size '%s'", a->argv[2]); rc = E_FAIL; break; } /* guest is running; update IGuest */ ComPtr pGuest; rc = console->COMGETTER(Guest)(pGuest.asOutParam()); if (SUCCEEDED(rc)) { if (!pGuest) { RTMsgError("Guest not running"); rc = E_FAIL; break; } CHECK_ERROR(pGuest, COMSETTER(MemoryBalloonSize)(uVal)); } } else if (!strcmp(a->argv[1], "teleport")) { Bstr bstrHostname; uint32_t uMaxDowntime = 250 /*ms*/; uint32_t uPort = UINT32_MAX; uint32_t cMsTimeout = 0; Utf8Str strPassword; static const RTGETOPTDEF s_aTeleportOptions[] = { { "--host", 'h', RTGETOPT_REQ_STRING }, /** @todo RTGETOPT_FLAG_MANDATORY */ { "--hostname", 'h', RTGETOPT_REQ_STRING }, /** @todo remove this */ { "--maxdowntime", 'd', RTGETOPT_REQ_UINT32 }, { "--port", 'P', RTGETOPT_REQ_UINT32 }, /** @todo RTGETOPT_FLAG_MANDATORY */ { "--passwordfile", 'p', RTGETOPT_REQ_STRING }, { "--password", 'W', RTGETOPT_REQ_STRING }, { "--timeout", 't', RTGETOPT_REQ_UINT32 }, { "--detailed-progress", 'D', RTGETOPT_REQ_NOTHING } }; RTGETOPTSTATE GetOptState; RTGetOptInit(&GetOptState, a->argc, a->argv, s_aTeleportOptions, RT_ELEMENTS(s_aTeleportOptions), 2, RTGETOPTINIT_FLAGS_NO_STD_OPTS); int ch; RTGETOPTUNION Value; while ( SUCCEEDED(rc) && (ch = RTGetOpt(&GetOptState, &Value))) { switch (ch) { case 'h': bstrHostname = Value.psz; break; case 'd': uMaxDowntime = Value.u32; break; case 'D': g_fDetailedProgress = true; break; case 'P': uPort = Value.u32; break; case 'p': { RTEXITCODE rcExit = readPasswordFile(Value.psz, &strPassword); if (rcExit != RTEXITCODE_SUCCESS) rc = E_FAIL; break; } case 'W': strPassword = Value.psz; break; case 't': cMsTimeout = Value.u32; break; default: errorGetOpt(USAGE_CONTROLVM, ch, &Value); rc = E_FAIL; break; } } if (FAILED(rc)) break; ComPtr progress; CHECK_ERROR_BREAK(console, Teleport(bstrHostname.raw(), uPort, Bstr(strPassword).raw(), uMaxDowntime, progress.asOutParam())); if (cMsTimeout) { rc = progress->COMSETTER(Timeout)(cMsTimeout); if (FAILED(rc) && rc != VBOX_E_INVALID_OBJECT_STATE) CHECK_ERROR_BREAK(progress, COMSETTER(Timeout)(cMsTimeout)); /* lazyness */ } rc = showProgress(progress); CHECK_PROGRESS_ERROR(progress, ("Teleportation failed")); } else if (!strcmp(a->argv[1], "screenshotpng")) { if (a->argc <= 2 || a->argc > 4) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } int vrc; uint32_t iScreen = 0; if (a->argc == 4) { vrc = RTStrToUInt32Ex(a->argv[3], NULL, 0, &iScreen); if (vrc != VINF_SUCCESS) { errorArgument("Error parsing display number '%s'", a->argv[3]); rc = E_FAIL; break; } } ComPtr pDisplay; CHECK_ERROR_BREAK(console, COMGETTER(Display)(pDisplay.asOutParam())); if (!pDisplay) { RTMsgError("Guest not running"); rc = E_FAIL; break; } ULONG width, height, bpp; LONG xOrigin, yOrigin; GuestMonitorStatus_T monitorStatus; CHECK_ERROR_BREAK(pDisplay, GetScreenResolution(iScreen, &width, &height, &bpp, &xOrigin, &yOrigin, &monitorStatus)); com::SafeArray saScreenshot; CHECK_ERROR_BREAK(pDisplay, TakeScreenShotToArray(iScreen, width, height, BitmapFormat_PNG, ComSafeArrayAsOutParam(saScreenshot))); RTFILE pngFile = NIL_RTFILE; vrc = RTFileOpen(&pngFile, a->argv[2], RTFILE_O_OPEN_CREATE | RTFILE_O_WRITE | RTFILE_O_TRUNCATE | RTFILE_O_DENY_ALL); if (RT_FAILURE(vrc)) { RTMsgError("Failed to create file '%s' (%Rrc)", a->argv[2], vrc); rc = E_FAIL; break; } vrc = RTFileWrite(pngFile, saScreenshot.raw(), saScreenshot.size(), NULL); if (RT_FAILURE(vrc)) { RTMsgError("Failed to write screenshot to file '%s' (%Rrc)", a->argv[2], vrc); rc = E_FAIL; } RTFileClose(pngFile); } #ifdef VBOX_WITH_RECORDING else if ( !strcmp(a->argv[1], "recording") || !strcmp(a->argv[1], "videocap") /* legacy command */) { if (a->argc < 3) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } ComPtr recordingSettings; CHECK_ERROR_BREAK(sessionMachine, COMGETTER(RecordingSettings)(recordingSettings.asOutParam())); SafeIfaceArray saRecordingScreenScreens; CHECK_ERROR_BREAK(recordingSettings, COMGETTER(Screens)(ComSafeArrayAsOutParam(saRecordingScreenScreens))); ComPtr pGraphicsAdapter; CHECK_ERROR_BREAK(sessionMachine, COMGETTER(GraphicsAdapter)(pGraphicsAdapter.asOutParam())); /* Note: For now all screens have the same configuration. */ /* * Note: Commands starting with "vcp" are the deprecated versions and are * kept to ensure backwards compatibility. */ if (!strcmp(a->argv[2], "on")) { CHECK_ERROR_RET(recordingSettings, COMSETTER(Enabled)(TRUE), RTEXITCODE_FAILURE); } else if (!strcmp(a->argv[2], "off")) { CHECK_ERROR_RET(recordingSettings, COMSETTER(Enabled)(FALSE), RTEXITCODE_FAILURE); } else if (!strcmp(a->argv[2], "screens")) { ULONG cMonitors = 64; CHECK_ERROR_BREAK(pGraphicsAdapter, COMGETTER(MonitorCount)(&cMonitors)); com::SafeArray saScreens(cMonitors); if ( a->argc == 4 && !strcmp(a->argv[3], "all")) { /* enable all screens */ for (unsigned i = 0; i < cMonitors; i++) saScreens[i] = true; } else if ( a->argc == 4 && !strcmp(a->argv[3], "none")) { /* disable all screens */ for (unsigned i = 0; i < cMonitors; i++) saScreens[i] = false; /** @todo r=andy What if this is specified? */ } else { /* enable selected screens */ for (unsigned i = 0; i < cMonitors; i++) saScreens[i] = false; for (int i = 3; SUCCEEDED(rc) && i < a->argc; i++) { uint32_t iScreen; int vrc = RTStrToUInt32Ex(a->argv[i], NULL, 0, &iScreen); if (vrc != VINF_SUCCESS) { errorArgument("Error parsing display number '%s'", a->argv[i]); rc = E_FAIL; break; } if (iScreen >= cMonitors) { errorArgument("Invalid screen ID specified '%u'", iScreen); rc = E_FAIL; break; } saScreens[iScreen] = true; } } for (size_t i = 0; i < saRecordingScreenScreens.size(); ++i) CHECK_ERROR_BREAK(saRecordingScreenScreens[i], COMSETTER(Enabled)(saScreens[i])); } else if (!strcmp(a->argv[2], "filename")) { if (a->argc != 4) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } for (size_t i = 0; i < saRecordingScreenScreens.size(); ++i) CHECK_ERROR_BREAK(saRecordingScreenScreens[i], COMSETTER(Filename)(Bstr(a->argv[3]).raw())); } else if ( !strcmp(a->argv[2], "videores") || !strcmp(a->argv[2], "videoresolution")) { if (a->argc != 5) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } uint32_t uWidth; int vrc = RTStrToUInt32Ex(a->argv[3], NULL, 0, &uWidth); if (RT_FAILURE(vrc)) { errorArgument("Error parsing video width '%s'", a->argv[3]); rc = E_FAIL; break; } uint32_t uHeight; vrc = RTStrToUInt32Ex(a->argv[4], NULL, 0, &uHeight); if (RT_FAILURE(vrc)) { errorArgument("Error parsing video height '%s'", a->argv[4]); rc = E_FAIL; break; } for (size_t i = 0; i < saRecordingScreenScreens.size(); ++i) { CHECK_ERROR_BREAK(saRecordingScreenScreens[i], COMSETTER(VideoWidth)(uWidth)); CHECK_ERROR_BREAK(saRecordingScreenScreens[i], COMSETTER(VideoHeight)(uHeight)); } } else if (!strcmp(a->argv[2], "videorate")) { if (a->argc != 4) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } uint32_t uRate; int vrc = RTStrToUInt32Ex(a->argv[3], NULL, 0, &uRate); if (RT_FAILURE(vrc)) { errorArgument("Error parsing video rate '%s'", a->argv[3]); rc = E_FAIL; break; } for (size_t i = 0; i < saRecordingScreenScreens.size(); ++i) CHECK_ERROR_BREAK(saRecordingScreenScreens[i], COMSETTER(VideoRate)(uRate)); } else if (!strcmp(a->argv[2], "videofps")) { if (a->argc != 4) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } uint32_t uFPS; int vrc = RTStrToUInt32Ex(a->argv[3], NULL, 0, &uFPS); if (RT_FAILURE(vrc)) { errorArgument("Error parsing video FPS '%s'", a->argv[3]); rc = E_FAIL; break; } for (size_t i = 0; i < saRecordingScreenScreens.size(); ++i) CHECK_ERROR_BREAK(saRecordingScreenScreens[i], COMSETTER(VideoFPS)(uFPS)); } else if (!strcmp(a->argv[2], "maxtime")) { if (a->argc != 4) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } uint32_t uMaxTime; int vrc = RTStrToUInt32Ex(a->argv[3], NULL, 0, &uMaxTime); if (RT_FAILURE(vrc)) { errorArgument("Error parsing maximum time '%s'", a->argv[3]); rc = E_FAIL; break; } for (size_t i = 0; i < saRecordingScreenScreens.size(); ++i) CHECK_ERROR_BREAK(saRecordingScreenScreens[i], COMSETTER(MaxTime)(uMaxTime)); } else if (!strcmp(a->argv[2], "maxfilesize")) { if (a->argc != 4) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } uint32_t uMaxFileSize; int vrc = RTStrToUInt32Ex(a->argv[3], NULL, 0, &uMaxFileSize); if (RT_FAILURE(vrc)) { errorArgument("Error parsing maximum file size '%s'", a->argv[3]); rc = E_FAIL; break; } for (size_t i = 0; i < saRecordingScreenScreens.size(); ++i) CHECK_ERROR_BREAK(saRecordingScreenScreens[i], COMSETTER(MaxFileSize)(uMaxFileSize)); } else if (!strcmp(a->argv[2], "opts")) { if (a->argc != 4) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); rc = E_FAIL; break; } for (size_t i = 0; i < saRecordingScreenScreens.size(); ++i) CHECK_ERROR_BREAK(saRecordingScreenScreens[i], COMSETTER(Options)(Bstr(a->argv[3]).raw())); } } #endif /* VBOX_WITH_RECORDING */ else if (!strcmp(a->argv[1], "webcam")) { if (a->argc < 3) { errorArgument("Missing argument to '%s'", a->argv[1]); rc = E_FAIL; break; } ComPtr pEmulatedUSB; CHECK_ERROR_BREAK(console, COMGETTER(EmulatedUSB)(pEmulatedUSB.asOutParam())); if (!pEmulatedUSB) { RTMsgError("Guest not running"); rc = E_FAIL; break; } if (!strcmp(a->argv[2], "attach")) { Bstr path(""); if (a->argc >= 4) path = a->argv[3]; Bstr settings(""); if (a->argc >= 5) settings = a->argv[4]; CHECK_ERROR_BREAK(pEmulatedUSB, WebcamAttach(path.raw(), settings.raw())); } else if (!strcmp(a->argv[2], "detach")) { Bstr path(""); if (a->argc >= 4) path = a->argv[3]; CHECK_ERROR_BREAK(pEmulatedUSB, WebcamDetach(path.raw())); } else if (!strcmp(a->argv[2], "list")) { com::SafeArray webcams; CHECK_ERROR_BREAK(pEmulatedUSB, COMGETTER(Webcams)(ComSafeArrayAsOutParam(webcams))); for (size_t i = 0; i < webcams.size(); ++i) { RTPrintf("%ls\n", webcams[i][0]? webcams[i]: Bstr("default").raw()); } } else { errorArgument("Invalid argument to '%s'", a->argv[1]); rc = E_FAIL; break; } } else if (!strcmp(a->argv[1], "addencpassword")) { if ( a->argc != 4 && a->argc != 6) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); break; } BOOL fRemoveOnSuspend = FALSE; if (a->argc == 6) { if ( strcmp(a->argv[4], "--removeonsuspend") || ( strcmp(a->argv[5], "yes") && strcmp(a->argv[5], "no"))) { errorSyntax(USAGE_CONTROLVM, "Invalid parameters"); break; } if (!strcmp(a->argv[5], "yes")) fRemoveOnSuspend = TRUE; } Bstr bstrPwId(a->argv[2]); Utf8Str strPassword; if (!RTStrCmp(a->argv[3], "-")) { /* Get password from console. */ RTEXITCODE rcExit = readPasswordFromConsole(&strPassword, "Enter password:"); if (rcExit == RTEXITCODE_FAILURE) break; } else { RTEXITCODE rcExit = readPasswordFile(a->argv[3], &strPassword); if (rcExit == RTEXITCODE_FAILURE) { RTMsgError("Failed to read new password from file"); break; } } CHECK_ERROR_BREAK(console, AddDiskEncryptionPassword(bstrPwId.raw(), Bstr(strPassword).raw(), fRemoveOnSuspend)); } else if (!strcmp(a->argv[1], "removeencpassword")) { if (a->argc != 3) { errorSyntax(USAGE_CONTROLVM, "Incorrect number of parameters"); break; } Bstr bstrPwId(a->argv[2]); CHECK_ERROR_BREAK(console, RemoveDiskEncryptionPassword(bstrPwId.raw())); } else if (!strcmp(a->argv[1], "removeallencpasswords")) { CHECK_ERROR_BREAK(console, ClearAllDiskEncryptionPasswords()); } else if (!strncmp(a->argv[1], "changeuartmode", 14)) { unsigned n = parseNum(&a->argv[1][14], 4, "UART"); if (!n) { rc = E_FAIL; break; } if (a->argc < 3) { errorArgument("Missing argument to '%s'", a->argv[1]); rc = E_FAIL; break; } ComPtr uart; CHECK_ERROR_BREAK(sessionMachine, GetSerialPort(n - 1, uart.asOutParam())); ASSERT(uart); if (!RTStrICmp(a->argv[2], "disconnected")) { if (a->argc != 3) { errorArgument("Incorrect arguments to '%s'", a->argv[1]); rc = E_FAIL; break; } CHECK_ERROR(uart, COMSETTER(HostMode)(PortMode_Disconnected)); } else if ( !RTStrICmp(a->argv[2], "server") || !RTStrICmp(a->argv[2], "client") || !RTStrICmp(a->argv[2], "tcpserver") || !RTStrICmp(a->argv[2], "tcpclient") || !RTStrICmp(a->argv[2], "file")) { const char *pszMode = a->argv[2]; if (a->argc != 4) { errorArgument("Incorrect arguments to '%s'", a->argv[1]); rc = E_FAIL; break; } CHECK_ERROR(uart, COMSETTER(Path)(Bstr(a->argv[3]).raw())); /* * Change to disconnected first to get changes in just a parameter causing * the correct changes later on. */ CHECK_ERROR(uart, COMSETTER(HostMode)(PortMode_Disconnected)); if (!RTStrICmp(pszMode, "server")) { CHECK_ERROR(uart, COMSETTER(Server)(TRUE)); CHECK_ERROR(uart, COMSETTER(HostMode)(PortMode_HostPipe)); } else if (!RTStrICmp(pszMode, "client")) { CHECK_ERROR(uart, COMSETTER(Server)(FALSE)); CHECK_ERROR(uart, COMSETTER(HostMode)(PortMode_HostPipe)); } else if (!RTStrICmp(pszMode, "tcpserver")) { CHECK_ERROR(uart, COMSETTER(Server)(TRUE)); CHECK_ERROR(uart, COMSETTER(HostMode)(PortMode_TCP)); } else if (!RTStrICmp(pszMode, "tcpclient")) { CHECK_ERROR(uart, COMSETTER(Server)(FALSE)); CHECK_ERROR(uart, COMSETTER(HostMode)(PortMode_TCP)); } else if (!RTStrICmp(pszMode, "file")) { CHECK_ERROR(uart, COMSETTER(HostMode)(PortMode_RawFile)); } } else { if (a->argc != 3) { errorArgument("Incorrect arguments to '%s'", a->argv[1]); rc = E_FAIL; break; } CHECK_ERROR(uart, COMSETTER(Path)(Bstr(a->argv[2]).raw())); CHECK_ERROR(uart, COMSETTER(HostMode)(PortMode_HostDevice)); } } else if (!strncmp(a->argv[1], "vm-process-priority", 14)) { if (a->argc != 3) { errorArgument("Incorrect arguments to '%s'", a->argv[1]); rc = E_FAIL; break; } VMProcPriority_T enmPriority = nameToVMProcPriority(a->argv[2]); if (enmPriority == VMProcPriority_Invalid) { errorArgument("Invalid vm-process-priority '%s'", a->argv[2]); rc = E_FAIL; } else { CHECK_ERROR(sessionMachine, COMSETTER(VMProcessPriority)(enmPriority)); } break; } else { errorSyntax(USAGE_CONTROLVM, "Invalid parameter '%s'", a->argv[1]); rc = E_FAIL; } } while (0); /* The client has to trigger saving the state explicitely. */ if (fNeedsSaving) CHECK_ERROR(sessionMachine, SaveSettings()); a->session->UnlockMachine(); return SUCCEEDED(rc) ? RTEXITCODE_SUCCESS : RTEXITCODE_FAILURE; }