/* $Id: VBoxSmcUtil-darwin.cpp 57358 2015-08-14 15:16:38Z vboxsync $ */ /** @file * VBoxSmcUtil - Quick hack for viewing SMC data on a mac. */ /* * Copyright (C) 2013-2015 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 /********************************************************************************************************************************* * Structures and Typedefs * *********************************************************************************************************************************/ enum { kSMCSuccess = 0, kSMCError = 1 }; typedef enum { kSMCUserClientOpen = 0, kSMCUserClientClose, kSMCHandleYPCEvent, kSMCPlaceholder1, kSMCNumberOfMethods, kSMCReadKey, kSMCWriteKey, kSMCGetKeyCount, kSMCGetKeyFromIndex, kSMCGetKeyInfo, kSMCFireInterrupt, kSMCGetPLimits, kSMCGetVers, kSMCPlaceholder2, kSMCReadStatus, kSMCReadResult, kSMCVariableCommand } KSMCFUNCTION; typedef struct { RTUINT32U uKey; struct { uint8_t uMajor; uint8_t uMinor; uint8_t uBuild; uint8_t uReserved; uint16_t uRelease; } Version; struct { uint16_t uVer; uint16_t cb; uint32_t uCpuPLimit; uint32_t uGpuPLimit; uint32_t uMemPLimit; } SMCPLimitData; struct { IOByteCount cbData; RTUINT32U uDataType; uint8_t fAttr; } KeyInfo; uint8_t uResult; uint8_t fStatus; uint8_t bData; uint32_t u32Data; uint8_t abValue[32]; } SMCPARAM; /********************************************************************************************************************************* * Global Variables * *********************************************************************************************************************************/ io_service_t g_hSmcService = IO_OBJECT_NULL; io_connect_t g_hSmcConnect = IO_OBJECT_NULL; static int ConnectToSmc(void) { g_hSmcService = IOServiceGetMatchingService(kIOMasterPortDefault, IOServiceMatching("AppleSMC")); if (g_hSmcService == IO_OBJECT_NULL) return VERR_NOT_FOUND; IOReturn rcIo = IOServiceOpen(g_hSmcService, mach_task_self(), 1, &g_hSmcConnect); if (rcIo == kIOReturnSuccess && g_hSmcConnect != IO_OBJECT_NULL) { rcIo = IOConnectCallMethod(g_hSmcConnect, kSMCUserClientOpen, NULL, 0, NULL, 0, NULL, NULL, NULL, NULL); if (rcIo == kIOReturnSuccess) return VINF_SUCCESS; RTMsgError("kSMCUserClientOpen failed: %#x (%#x)\n", rcIo, rcIo); } else { RTMsgError("IOServiceOpen failed: %#x (%#x)\n", rcIo, rcIo); g_hSmcConnect = IO_OBJECT_NULL; } return RTErrConvertFromDarwinIO(rcIo); } static void DisconnectFromSmc(void) { if (g_hSmcConnect) { IOConnectCallMethod(g_hSmcConnect, kSMCUserClientClose, NULL, 0, NULL, 0, NULL, NULL, NULL, NULL); IOServiceClose(g_hSmcConnect); g_hSmcConnect = IO_OBJECT_NULL; } if (g_hSmcService) { IOServiceClose(g_hSmcService); g_hSmcService = IO_OBJECT_NULL; } } static int CallSmc(KSMCFUNCTION enmFunction, SMCPARAM *pIn, SMCPARAM *pOut) { RT_ZERO(*pOut); pIn->bData = enmFunction; size_t cbOut = sizeof(*pOut); IOReturn rcIo = IOConnectCallStructMethod(g_hSmcConnect, kSMCHandleYPCEvent, pIn, sizeof(*pIn), pOut, &cbOut); if (rcIo == kIOReturnSuccess) return VINF_SUCCESS; RTMsgError("SMC call %d failed: rcIo=%d (%#x)\n", enmFunction, rcIo, rcIo); return RTErrConvertFromDarwinIO(rcIo); } static int GetKeyCount(uint32_t *pcKeys) { SMCPARAM In; SMCPARAM Out; RT_ZERO(In); RT_ZERO(Out); In.KeyInfo.cbData = sizeof(uint32_t); int rc = CallSmc(kSMCGetKeyCount, &In, &Out); if (RT_SUCCESS(rc)) *pcKeys = RT_BE2H_U32(Out.u32Data); else *pcKeys = 1; return rc; } static int GetKeyByIndex(uint32_t iKey, SMCPARAM *pKeyData) { SMCPARAM In; RT_ZERO(In); In.u32Data = iKey; int rc = CallSmc(kSMCGetKeyFromIndex, &In, pKeyData); if (RT_SUCCESS(rc)) { if (pKeyData->uResult == kSMCSuccess) { SMCPARAM Tmp = *pKeyData; /* Get the key info. */ RT_ZERO(In); In.uKey.u = Tmp.uKey.u; rc = CallSmc(kSMCGetKeyInfo, &In, pKeyData); if (RT_SUCCESS(rc) && pKeyData->uResult == kSMCSuccess) { Tmp.KeyInfo = pKeyData->KeyInfo; /* Get the key value. */ RT_ZERO(In); In.uKey = Tmp.uKey; In.KeyInfo = Tmp.KeyInfo; rc = CallSmc(kSMCReadKey, &In, pKeyData); if (RT_SUCCESS(rc) && (pKeyData->uResult == kSMCSuccess || pKeyData->uResult == 0x85 /* not readable */)) { pKeyData->uKey = Tmp.uKey; pKeyData->KeyInfo = Tmp.KeyInfo; rc = VINF_SUCCESS; } else if (RT_SUCCESS(rc)) { RTMsgError("kSMCReadKey failed on #%x/%.4s: %#x\n", iKey, Tmp.uKey.au8, pKeyData->uResult); rc = VERR_IO_GEN_FAILURE; } } else if (RT_SUCCESS(rc)) { RTMsgError("kSMCGetKeyInfo failed on #%x/%.4s: %#x\n", iKey, Tmp.uKey.au8, pKeyData->uResult); rc = VERR_IO_GEN_FAILURE; } } else { RTMsgError("kSMCGetKeyFromIndex failed on #%x: %#x\n", iKey, pKeyData->uResult); rc = VERR_IO_GEN_FAILURE; } } return rc; } static int GetKeyByName(uint32_t uKey, SMCPARAM *pKeyData) { SMCPARAM In; RT_ZERO(In); In.uKey.u = uKey; int rc = CallSmc(kSMCGetKeyInfo, &In, pKeyData); if (RT_SUCCESS(rc) && pKeyData->uResult == kSMCSuccess) { SMCPARAM Tmp = *pKeyData; /* Get the key value. */ RT_ZERO(In); In.uKey.u = uKey; In.KeyInfo = Tmp.KeyInfo; rc = CallSmc(kSMCReadKey, &In, pKeyData); if (RT_SUCCESS(rc) && (pKeyData->uResult == kSMCSuccess || pKeyData->uResult == 0x85 /* not readable */)) { pKeyData->uKey.u = uKey; pKeyData->KeyInfo = Tmp.KeyInfo; rc = VINF_SUCCESS; } else if (RT_SUCCESS(rc)) { RTMsgError("kSMCReadKey failed on %.4s: %#x\n", &uKey, pKeyData->uResult); rc = VERR_IO_GEN_FAILURE; } } else if (RT_SUCCESS(rc)) { RTMsgError("kSMCGetKeyInfo failed on %.4s: %#x\n", &uKey, pKeyData->uResult); rc = VERR_IO_GEN_FAILURE; } return rc; } static void DisplayKey(SMCPARAM *pKey) { pKey->uKey.u = RT_BE2H_U32(pKey->uKey.u); pKey->KeyInfo.uDataType.u = RT_BE2H_U32(pKey->KeyInfo.uDataType.u); RTPrintf("key=%4.4s type=%4.4s cb=%#04x fAttr=%#04x", pKey->uKey.au8, pKey->KeyInfo.uDataType.au8, pKey->KeyInfo.cbData, pKey->KeyInfo.fAttr); if (pKey->uResult == kSMCSuccess) { bool fPrintable = true; for (uint32_t off = 0; off < pKey->KeyInfo.cbData; off++) if (!RT_C_IS_PRINT(pKey->abValue[off])) { fPrintable = false; break; } if (fPrintable) RTPrintf(" %.*s\n", pKey->KeyInfo.cbData, pKey->abValue); else RTPrintf(" %.*Rhxs\n", pKey->KeyInfo.cbData, pKey->abValue); } else if (pKey->uResult == 0x85) RTPrintf(" \n"); } static void DisplayKeyByName(uint32_t uKey) { SMCPARAM Key; int rc = GetKeyByName(uKey, &Key); if (RT_SUCCESS(rc)) DisplayKey(&Key); } int main(int argc, char **argv) { int rc = RTR3InitExe(argc, &argv, 0); if (RT_FAILURE(rc)) return RTMsgInitFailure(rc); rc = ConnectToSmc(); if (RT_SUCCESS(rc)) { /* * Dump the keys. */ uint32_t cKeys; rc = GetKeyCount(&cKeys); if (RT_SUCCESS(rc)) RTPrintf("#Keys=%u\n", cKeys); for (uint32_t iKey = 0; iKey < cKeys; iKey++) { SMCPARAM Key; rc = GetKeyByIndex(iKey, &Key); if (RT_SUCCESS(rc)) { RTPrintf("%#06x: ", iKey); DisplayKey(&Key); } } /* * Known keys that doesn't make it into the enumeration. */ DisplayKeyByName('OSK0'); DisplayKeyByName('OSK1'); DisplayKeyByName('OSK2'); /* Negative checks, sometimes maybe. */ DisplayKeyByName('$Num'); DisplayKeyByName('MSTf'); DisplayKeyByName('MSDS'); DisplayKeyByName('LSOF'); } DisconnectFromSmc(); if (RT_SUCCESS(rc)) return RTEXITCODE_SUCCESS; return RTEXITCODE_FAILURE; }