/* $Id: VBoxServiceVMInfo.cpp 70196 2017-12-18 13:40:49Z vboxsync $ */ /** @file * VBoxService - Virtual Machine Information for the Host. */ /* * Copyright (C) 2009-2017 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. */ /** @page pg_vgsvc_vminfo VBoxService - VM Information * * The VM Information subservice provides heaps of useful information about the * VM via guest properties. * * Guest properties is a limited database maintained by the HGCM GuestProperties * service in cooperation with the Main API (VBoxSVC). Properties have a name * (ours are path like), a string value, and a nanosecond timestamp (unix * epoch). The timestamp lets the user see how recent the information is. As * an laternative to polling on changes, it is also possible to wait on changes * via the Main API or VBoxManage on the host side and VBoxControl in the guest. * * The namespace "/VirtualBox/" is reserved for value provided by VirtualBox. * This service provides all the information under "/VirtualBox/GuestInfo/". * * * @section sec_vgsvc_vminfo_beacons Beacons * * The subservice does not write properties unless there are changes. So, in * order for the host side to know that information is up to date despite an * oldish timestamp we define a couple of values that are always updated and can * reliably used to figure how old the information actually is. * * For the networking part "/VirtualBox/GuestInfo/Net/Count" is the value to * watch out for. * * For the login part, it's possible that we intended to use * "/VirtualBox/GuestInfo/OS/LoggedInUsers" for this, however it is not defined * correctly and current does NOT work as a beacon. * */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #ifdef RT_OS_WINDOWS # include # include # include # include # include #else # define __STDC_LIMIT_MACROS # include # include # include # include # include # include # include /* getpwuid */ # include # if !defined(RT_OS_OS2) && !defined(RT_OS_FREEBSD) && !defined(RT_OS_HAIKU) # include /** @todo FreeBSD 9 should have this. */ # endif # ifdef RT_OS_OS2 # include # endif # ifdef RT_OS_SOLARIS # include # include # endif # if defined(RT_OS_DARWIN) || defined(RT_OS_FREEBSD) || defined(RT_OS_NETBSD) # include /* getifaddrs, freeifaddrs */ # include /* LLADDR */ # include /* getnameinfo */ # endif # ifdef VBOX_WITH_DBUS # include # endif #endif #include #include #include #include #include #include #include #include #include #include "VBoxServiceInternal.h" #include "VBoxServiceUtils.h" #include "VBoxServicePropCache.h" /** Structure containing information about a location awarness * client provided by the host. */ /** @todo Move this (and functions) into VbglR3. */ typedef struct VBOXSERVICELACLIENTINFO { uint32_t uID; char *pszName; char *pszLocation; char *pszDomain; bool fAttached; uint64_t uAttachedTS; } VBOXSERVICELACLIENTINFO, *PVBOXSERVICELACLIENTINFO; /********************************************************************************************************************************* * Global Variables * *********************************************************************************************************************************/ /** The vminfo interval (milliseconds). */ static uint32_t g_cMsVMInfoInterval = 0; /** The semaphore we're blocking on. */ static RTSEMEVENTMULTI g_hVMInfoEvent = NIL_RTSEMEVENTMULTI; /** The guest property service client ID. */ static uint32_t g_uVMInfoGuestPropSvcClientID = 0; /** Number of currently logged in users in OS. */ static uint32_t g_cVMInfoLoggedInUsers = 0; /** The guest property cache. */ static VBOXSERVICEVEPROPCACHE g_VMInfoPropCache; static const char *g_pszPropCacheValLoggedInUsersList = "/VirtualBox/GuestInfo/OS/LoggedInUsersList"; static const char *g_pszPropCacheValLoggedInUsers = "/VirtualBox/GuestInfo/OS/LoggedInUsers"; static const char *g_pszPropCacheValNoLoggedInUsers = "/VirtualBox/GuestInfo/OS/NoLoggedInUsers"; static const char *g_pszPropCacheValNetCount = "/VirtualBox/GuestInfo/Net/Count"; /** A guest user's guest property root key. */ static const char *g_pszPropCacheValUser = "/VirtualBox/GuestInfo/User/"; /** The VM session ID. Changes whenever the VM is restored or reset. */ static uint64_t g_idVMInfoSession; /** The last attached locartion awareness (LA) client timestamp. */ static uint64_t g_LAClientAttachedTS = 0; /** The current LA client info. */ static VBOXSERVICELACLIENTINFO g_LAClientInfo; /** User idle threshold (in ms). This specifies the minimum time a user is considered * as being idle and then will be reported to the host. Default is 5s. */ uint32_t g_uVMInfoUserIdleThresholdMS = 5 * 1000; /********************************************************************************************************************************* * Defines * *********************************************************************************************************************************/ static const char *g_pszLAActiveClient = "/VirtualBox/HostInfo/VRDP/ActiveClient"; #ifdef VBOX_WITH_DBUS /** @name ConsoleKit defines (taken from 0.4.5). * @{ */ # define CK_NAME "org.freedesktop.ConsoleKit" # define CK_PATH "/org/freedesktop/ConsoleKit" # define CK_INTERFACE "org.freedesktop.ConsoleKit" # define CK_MANAGER_PATH "/org/freedesktop/ConsoleKit/Manager" # define CK_MANAGER_INTERFACE "org.freedesktop.ConsoleKit.Manager" # define CK_SEAT_INTERFACE "org.freedesktop.ConsoleKit.Seat" # define CK_SESSION_INTERFACE "org.freedesktop.ConsoleKit.Session" /** @} */ #endif /** * Signals the event so that a re-enumeration of VM-specific * information (like logged in users) can happen. * * @return IPRT status code. */ int VGSvcVMInfoSignal(void) { /* Trigger a re-enumeration of all logged-in users by unblocking * the multi event semaphore of the VMInfo thread. */ if (g_hVMInfoEvent) return RTSemEventMultiSignal(g_hVMInfoEvent); return VINF_SUCCESS; } /** * @interface_method_impl{VBOXSERVICE,pfnPreInit} */ static DECLCALLBACK(int) vbsvcVMInfoPreInit(void) { return VINF_SUCCESS; } /** * @interface_method_impl{VBOXSERVICE,pfnOption} */ static DECLCALLBACK(int) vbsvcVMInfoOption(const char **ppszShort, int argc, char **argv, int *pi) { /** @todo Use RTGetOpt here. */ int rc = -1; if (ppszShort) /* no short options */; else if (!strcmp(argv[*pi], "--vminfo-interval")) rc = VGSvcArgUInt32(argc, argv, "", pi, &g_cMsVMInfoInterval, 1, UINT32_MAX - 1); else if (!strcmp(argv[*pi], "--vminfo-user-idle-threshold")) rc = VGSvcArgUInt32(argc, argv, "", pi, &g_uVMInfoUserIdleThresholdMS, 1, UINT32_MAX - 1); return rc; } /** * @interface_method_impl{VBOXSERVICE,pfnInit} */ static DECLCALLBACK(int) vbsvcVMInfoInit(void) { /* * If not specified, find the right interval default. * Then create the event sem to block on. */ if (!g_cMsVMInfoInterval) g_cMsVMInfoInterval = g_DefaultInterval * 1000; if (!g_cMsVMInfoInterval) { /* Set it to 5s by default for location awareness checks. */ g_cMsVMInfoInterval = 5 * 1000; } int rc = RTSemEventMultiCreate(&g_hVMInfoEvent); AssertRCReturn(rc, rc); VbglR3GetSessionId(&g_idVMInfoSession); /* The status code is ignored as this information is not available with VBox < 3.2.10. */ /* Initialize the LA client object. */ RT_ZERO(g_LAClientInfo); rc = VbglR3GuestPropConnect(&g_uVMInfoGuestPropSvcClientID); if (RT_SUCCESS(rc)) VGSvcVerbose(3, "Property Service Client ID: %#x\n", g_uVMInfoGuestPropSvcClientID); else { /* If the service was not found, we disable this service without causing VBoxService to fail. */ if (rc == VERR_HGCM_SERVICE_NOT_FOUND) /* Host service is not available. */ { VGSvcVerbose(0, "Guest property service is not available, disabling the service\n"); rc = VERR_SERVICE_DISABLED; } else VGSvcError("Failed to connect to the guest property service! Error: %Rrc\n", rc); RTSemEventMultiDestroy(g_hVMInfoEvent); g_hVMInfoEvent = NIL_RTSEMEVENTMULTI; } if (RT_SUCCESS(rc)) { VGSvcPropCacheCreate(&g_VMInfoPropCache, g_uVMInfoGuestPropSvcClientID); /* * Declare some guest properties with flags and reset values. */ int rc2 = VGSvcPropCacheUpdateEntry(&g_VMInfoPropCache, g_pszPropCacheValLoggedInUsersList, VGSVCPROPCACHE_FLAGS_TEMPORARY | VGSVCPROPCACHE_FLAGS_TRANSIENT, NULL /* Delete on exit */); if (RT_FAILURE(rc2)) VGSvcError("Failed to init property cache value '%s', rc=%Rrc\n", g_pszPropCacheValLoggedInUsersList, rc2); rc2 = VGSvcPropCacheUpdateEntry(&g_VMInfoPropCache, g_pszPropCacheValLoggedInUsers, VGSVCPROPCACHE_FLAGS_TEMPORARY | VGSVCPROPCACHE_FLAGS_TRANSIENT, "0"); if (RT_FAILURE(rc2)) VGSvcError("Failed to init property cache value '%s', rc=%Rrc\n", g_pszPropCacheValLoggedInUsers, rc2); rc2 = VGSvcPropCacheUpdateEntry(&g_VMInfoPropCache, g_pszPropCacheValNoLoggedInUsers, VGSVCPROPCACHE_FLAGS_TEMPORARY | VGSVCPROPCACHE_FLAGS_TRANSIENT, "true"); if (RT_FAILURE(rc2)) VGSvcError("Failed to init property cache value '%s', rc=%Rrc\n", g_pszPropCacheValNoLoggedInUsers, rc2); rc2 = VGSvcPropCacheUpdateEntry(&g_VMInfoPropCache, g_pszPropCacheValNetCount, VGSVCPROPCACHE_FLAGS_TEMPORARY | VGSVCPROPCACHE_FLAGS_ALWAYS_UPDATE, NULL /* Delete on exit */); if (RT_FAILURE(rc2)) VGSvcError("Failed to init property cache value '%s', rc=%Rrc\n", g_pszPropCacheValNetCount, rc2); /* * Get configuration guest properties from the host. * Note: All properties should have sensible defaults in case the lookup here fails. */ char *pszValue; rc2 = VGSvcReadHostProp(g_uVMInfoGuestPropSvcClientID, "/VirtualBox/GuestAdd/VBoxService/--vminfo-user-idle-threshold", true /* Read only */, &pszValue, NULL /* Flags */, NULL /* Timestamp */); if (RT_SUCCESS(rc2)) { AssertPtr(pszValue); g_uVMInfoUserIdleThresholdMS = RT_CLAMP(RTStrToUInt32(pszValue), 1000, UINT32_MAX - 1); RTStrFree(pszValue); } } return rc; } /** * Retrieves a specifiy client LA property. * * @return IPRT status code. * @param uClientID LA client ID to retrieve property for. * @param pszProperty Property (without path) to retrieve. * @param ppszValue Where to store value of property. * @param puTimestamp Timestamp of property to retrieve. Optional. */ static int vgsvcGetLAClientValue(uint32_t uClientID, const char *pszProperty, char **ppszValue, uint64_t *puTimestamp) { AssertReturn(uClientID, VERR_INVALID_PARAMETER); AssertPtrReturn(pszProperty, VERR_INVALID_POINTER); int rc; char pszClientPath[255]; /** @todo r=bird: Another pointless RTStrPrintf test with wrong status code to boot. */ if (RTStrPrintf(pszClientPath, sizeof(pszClientPath), "/VirtualBox/HostInfo/VRDP/Client/%RU32/%s", uClientID, pszProperty)) { rc = VGSvcReadHostProp(g_uVMInfoGuestPropSvcClientID, pszClientPath, true /* Read only */, ppszValue, NULL /* Flags */, puTimestamp); } else rc = VERR_NO_MEMORY; return rc; } /** * Retrieves LA client information. On success the returned structure will have allocated * objects which need to be free'd with vboxServiceFreeLAClientInfo. * * @return IPRT status code. * @param uClientID Client ID to retrieve information for. * @param pClient Pointer where to store the client information. */ static int vgsvcGetLAClientInfo(uint32_t uClientID, PVBOXSERVICELACLIENTINFO pClient) { AssertReturn(uClientID, VERR_INVALID_PARAMETER); AssertPtrReturn(pClient, VERR_INVALID_POINTER); int rc = vgsvcGetLAClientValue(uClientID, "Name", &pClient->pszName, NULL /* Timestamp */); if (RT_SUCCESS(rc)) { char *pszAttach; rc = vgsvcGetLAClientValue(uClientID, "Attach", &pszAttach, &pClient->uAttachedTS); if (RT_SUCCESS(rc)) { AssertPtr(pszAttach); pClient->fAttached = RTStrICmp(pszAttach, "1") == 0; RTStrFree(pszAttach); } } if (RT_SUCCESS(rc)) rc = vgsvcGetLAClientValue(uClientID, "Location", &pClient->pszLocation, NULL /* Timestamp */); if (RT_SUCCESS(rc)) rc = vgsvcGetLAClientValue(uClientID, "Domain", &pClient->pszDomain, NULL /* Timestamp */); if (RT_SUCCESS(rc)) pClient->uID = uClientID; return rc; } /** * Frees all allocated LA client information of a structure. * * @param pClient Pointer to client information structure to free. */ static void vgsvcFreeLAClientInfo(PVBOXSERVICELACLIENTINFO pClient) { if (pClient) { if (pClient->pszName) { RTStrFree(pClient->pszName); pClient->pszName = NULL; } if (pClient->pszLocation) { RTStrFree(pClient->pszLocation); pClient->pszLocation = NULL; } if (pClient->pszDomain) { RTStrFree(pClient->pszDomain); pClient->pszDomain = NULL; } } } /** * Updates a per-guest user guest property inside the given property cache. * * @return IPRT status code. * @param pCache Pointer to guest property cache to update user in. * @param pszUser Name of guest user to update. * @param pszDomain Domain of guest user to update. Optional. * @param pszKey Key name of guest property to update. * @param pszValueFormat Guest property value to set. Pass NULL for deleting * the property. */ int VGSvcUserUpdateF(PVBOXSERVICEVEPROPCACHE pCache, const char *pszUser, const char *pszDomain, const char *pszKey, const char *pszValueFormat, ...) { AssertPtrReturn(pCache, VERR_INVALID_POINTER); AssertPtrReturn(pszUser, VERR_INVALID_POINTER); /* pszDomain is optional. */ AssertPtrReturn(pszKey, VERR_INVALID_POINTER); /* pszValueFormat is optional. */ int rc = VINF_SUCCESS; char *pszName; if (pszDomain) { /** @todo r=bird: RTStrAPrintf returns -1, not zero on failure! */ if (!RTStrAPrintf(&pszName, "%s%s@%s/%s", g_pszPropCacheValUser, pszUser, pszDomain, pszKey)) rc = VERR_NO_MEMORY; } else { /** @todo r=bird: RTStrAPrintf returns -1, not zero on failure! You got it * right 5 lines further down... */ if (!RTStrAPrintf(&pszName, "%s%s/%s", g_pszPropCacheValUser, pszUser, pszKey)) rc = VERR_NO_MEMORY; } char *pszValue = NULL; if ( RT_SUCCESS(rc) && pszValueFormat) { va_list va; va_start(va, pszValueFormat); if (RTStrAPrintfV(&pszValue, pszValueFormat, va) < 0) rc = VERR_NO_MEMORY; va_end(va); if ( RT_SUCCESS(rc) && !pszValue) rc = VERR_NO_STR_MEMORY; } if (RT_SUCCESS(rc)) rc = VGSvcPropCacheUpdate(pCache, pszName, pszValue); if (rc == VINF_SUCCESS) /* VGSvcPropCacheUpdate will also return VINF_NO_CHANGE. */ { /** @todo Combine updating flags w/ updating the actual value. */ rc = VGSvcPropCacheUpdateEntry(pCache, pszName, VGSVCPROPCACHE_FLAGS_TEMPORARY | VGSVCPROPCACHE_FLAGS_TRANSIENT, NULL /* Delete on exit */); } RTStrFree(pszValue); RTStrFree(pszName); return rc; } /** * Writes the properties that won't change while the service is running. * * Errors are ignored. */ static void vgsvcVMInfoWriteFixedProperties(void) { /* * First get OS information that won't change. */ char szInfo[256]; int rc = RTSystemQueryOSInfo(RTSYSOSINFO_PRODUCT, szInfo, sizeof(szInfo)); VGSvcWritePropF(g_uVMInfoGuestPropSvcClientID, "/VirtualBox/GuestInfo/OS/Product", "%s", RT_FAILURE(rc) ? "" : szInfo); rc = RTSystemQueryOSInfo(RTSYSOSINFO_RELEASE, szInfo, sizeof(szInfo)); VGSvcWritePropF(g_uVMInfoGuestPropSvcClientID, "/VirtualBox/GuestInfo/OS/Release", "%s", RT_FAILURE(rc) ? "" : szInfo); rc = RTSystemQueryOSInfo(RTSYSOSINFO_VERSION, szInfo, sizeof(szInfo)); VGSvcWritePropF(g_uVMInfoGuestPropSvcClientID, "/VirtualBox/GuestInfo/OS/Version", "%s", RT_FAILURE(rc) ? "" : szInfo); rc = RTSystemQueryOSInfo(RTSYSOSINFO_SERVICE_PACK, szInfo, sizeof(szInfo)); VGSvcWritePropF(g_uVMInfoGuestPropSvcClientID, "/VirtualBox/GuestInfo/OS/ServicePack", "%s", RT_FAILURE(rc) ? "" : szInfo); /* * Retrieve version information about Guest Additions and installed files (components). */ char *pszAddVer; char *pszAddVerExt; char *pszAddRev; rc = VbglR3GetAdditionsVersion(&pszAddVer, &pszAddVerExt, &pszAddRev); VGSvcWritePropF(g_uVMInfoGuestPropSvcClientID, "/VirtualBox/GuestAdd/Version", "%s", RT_FAILURE(rc) ? "" : pszAddVer); VGSvcWritePropF(g_uVMInfoGuestPropSvcClientID, "/VirtualBox/GuestAdd/VersionExt", "%s", RT_FAILURE(rc) ? "" : pszAddVerExt); VGSvcWritePropF(g_uVMInfoGuestPropSvcClientID, "/VirtualBox/GuestAdd/Revision", "%s", RT_FAILURE(rc) ? "" : pszAddRev); if (RT_SUCCESS(rc)) { RTStrFree(pszAddVer); RTStrFree(pszAddVerExt); RTStrFree(pszAddRev); } #ifdef RT_OS_WINDOWS /* * Do windows specific properties. */ char *pszInstDir; rc = VbglR3GetAdditionsInstallationPath(&pszInstDir); VGSvcWritePropF(g_uVMInfoGuestPropSvcClientID, "/VirtualBox/GuestAdd/InstallDir", "%s", RT_FAILURE(rc) ? "" : pszInstDir); if (RT_SUCCESS(rc)) RTStrFree(pszInstDir); VGSvcVMInfoWinGetComponentVersions(g_uVMInfoGuestPropSvcClientID); #endif } #if defined(VBOX_WITH_DBUS) && defined(RT_OS_LINUX) /* Not yet for Solaris/FreeBSB. */ /* * Simple wrapper to work around compiler-specific va_list madness. */ static dbus_bool_t vboxService_dbus_message_get_args(DBusMessage *message, DBusError *error, int first_arg_type, ...) { va_list va; va_start(va, first_arg_type); dbus_bool_t ret = dbus_message_get_args_valist(message, error, first_arg_type, va); va_end(va); return ret; } #endif /** * Provide information about active users. */ static int vgsvcVMInfoWriteUsers(void) { int rc; char *pszUserList = NULL; uint32_t cUsersInList = 0; #ifdef RT_OS_WINDOWS rc = VGSvcVMInfoWinWriteUsers(&g_VMInfoPropCache, &pszUserList, &cUsersInList); #elif defined(RT_OS_FREEBSD) /** @todo FreeBSD: Port logged on user info retrieval. * However, FreeBSD 9 supports utmpx, so we could use the code * block below (?). */ rc = VERR_NOT_IMPLEMENTED; #elif defined(RT_OS_HAIKU) /** @todo Haiku: Port logged on user info retrieval. */ rc = VERR_NOT_IMPLEMENTED; #elif defined(RT_OS_OS2) /** @todo OS/2: Port logged on (LAN/local/whatever) user info retrieval. */ rc = VERR_NOT_IMPLEMENTED; #else setutxent(); utmpx *ut_user; uint32_t cListSize = 32; /* Allocate a first array to hold 32 users max. */ char **papszUsers = (char **)RTMemAllocZ(cListSize * sizeof(char *)); if (papszUsers) rc = VINF_SUCCESS; else rc = VERR_NO_MEMORY; /* Process all entries in the utmp file. * Note: This only handles */ while ( (ut_user = getutxent()) && RT_SUCCESS(rc)) { # ifdef RT_OS_DARWIN /* No ut_user->ut_session on Darwin */ VGSvcVerbose(4, "Found entry '%s' (type: %d, PID: %RU32)\n", ut_user->ut_user, ut_user->ut_type, ut_user->ut_pid); # else VGSvcVerbose(4, "Found entry '%s' (type: %d, PID: %RU32, session: %RU32)\n", ut_user->ut_user, ut_user->ut_type, ut_user->ut_pid, ut_user->ut_session); # endif if (cUsersInList > cListSize) { cListSize += 32; void *pvNew = RTMemRealloc(papszUsers, cListSize * sizeof(char*)); AssertBreakStmt(pvNew, cListSize -= 32); papszUsers = (char **)pvNew; } /* Make sure we don't add user names which are not * part of type USER_PROCES. */ if (ut_user->ut_type == USER_PROCESS) /* Regular user process. */ { bool fFound = false; for (uint32_t i = 0; i < cUsersInList && !fFound; i++) fFound = strcmp(papszUsers[i], ut_user->ut_user) == 0; if (!fFound) { VGSvcVerbose(4, "Adding user '%s' (type: %d) to list\n", ut_user->ut_user, ut_user->ut_type); rc = RTStrDupEx(&papszUsers[cUsersInList], (const char *)ut_user->ut_user); if (RT_FAILURE(rc)) break; cUsersInList++; } } } # ifdef VBOX_WITH_DBUS # if defined(RT_OS_LINUX) /* Not yet for Solaris/FreeBSB. */ DBusError dbErr; DBusConnection *pConnection = NULL; int rc2 = RTDBusLoadLib(); bool fHaveLibDbus = false; if (RT_SUCCESS(rc2)) { /* Handle desktop sessions using ConsoleKit. */ VGSvcVerbose(4, "Checking ConsoleKit sessions ...\n"); fHaveLibDbus = true; dbus_error_init(&dbErr); pConnection = dbus_bus_get(DBUS_BUS_SYSTEM, &dbErr); } if ( pConnection && !dbus_error_is_set(&dbErr)) { /* Get all available sessions. */ /** @todo r=bird: What's the point of hardcoding things here when we've taken the pain of defining CK_XXX constants at the top of the file (or vice versa)? */ DBusMessage *pMsgSessions = dbus_message_new_method_call("org.freedesktop.ConsoleKit", "/org/freedesktop/ConsoleKit/Manager", "org.freedesktop.ConsoleKit.Manager", "GetSessions"); if ( pMsgSessions && dbus_message_get_type(pMsgSessions) == DBUS_MESSAGE_TYPE_METHOD_CALL) { DBusMessage *pReplySessions = dbus_connection_send_with_reply_and_block(pConnection, pMsgSessions, 30 * 1000 /* 30s timeout */, &dbErr); if ( pReplySessions && !dbus_error_is_set(&dbErr)) { char **ppszSessions; int cSessions; if ( dbus_message_get_type(pMsgSessions) == DBUS_MESSAGE_TYPE_METHOD_CALL && vboxService_dbus_message_get_args(pReplySessions, &dbErr, DBUS_TYPE_ARRAY, DBUS_TYPE_OBJECT_PATH, &ppszSessions, &cSessions, DBUS_TYPE_INVALID /* Termination */)) { VGSvcVerbose(4, "ConsoleKit: retrieved %RU16 session(s)\n", cSessions); char **ppszCurSession = ppszSessions; for (ppszCurSession; ppszCurSession && *ppszCurSession; ppszCurSession++) { VGSvcVerbose(4, "ConsoleKit: processing session '%s' ...\n", *ppszCurSession); /* Only respect active sessions .*/ bool fActive = false; DBusMessage *pMsgSessionActive = dbus_message_new_method_call("org.freedesktop.ConsoleKit", *ppszCurSession, "org.freedesktop.ConsoleKit.Session", "IsActive"); if ( pMsgSessionActive && dbus_message_get_type(pMsgSessionActive) == DBUS_MESSAGE_TYPE_METHOD_CALL) { DBusMessage *pReplySessionActive = dbus_connection_send_with_reply_and_block(pConnection, pMsgSessionActive, 30 * 1000 /*sec*/, &dbErr); if ( pReplySessionActive && !dbus_error_is_set(&dbErr)) { DBusMessageIter itMsg; if ( dbus_message_iter_init(pReplySessionActive, &itMsg) && dbus_message_iter_get_arg_type(&itMsg) == DBUS_TYPE_BOOLEAN) { /* Get uid from message. */ int val; dbus_message_iter_get_basic(&itMsg, &val); fActive = val >= 1; } if (pReplySessionActive) dbus_message_unref(pReplySessionActive); } if (pMsgSessionActive) dbus_message_unref(pMsgSessionActive); } VGSvcVerbose(4, "ConsoleKit: session '%s' is %s\n", *ppszCurSession, fActive ? "active" : "not active"); /* *ppszCurSession now contains the object path * (e.g. "/org/freedesktop/ConsoleKit/Session1"). */ DBusMessage *pMsgUnixUser = dbus_message_new_method_call("org.freedesktop.ConsoleKit", *ppszCurSession, "org.freedesktop.ConsoleKit.Session", "GetUnixUser"); if ( fActive && pMsgUnixUser && dbus_message_get_type(pMsgUnixUser) == DBUS_MESSAGE_TYPE_METHOD_CALL) { DBusMessage *pReplyUnixUser = dbus_connection_send_with_reply_and_block(pConnection, pMsgUnixUser, 30 * 1000 /* 30s timeout */, &dbErr); if ( pReplyUnixUser && !dbus_error_is_set(&dbErr)) { DBusMessageIter itMsg; if ( dbus_message_iter_init(pReplyUnixUser, &itMsg) && dbus_message_iter_get_arg_type(&itMsg) == DBUS_TYPE_UINT32) { /* Get uid from message. */ uint32_t uid; dbus_message_iter_get_basic(&itMsg, &uid); /** @todo Add support for getting UID_MIN (/etc/login.defs on * Debian). */ uint32_t uid_min = 1000; /* Look up user name (realname) from uid. */ setpwent(); struct passwd *ppwEntry = getpwuid(uid); if ( ppwEntry && ppwEntry->pw_name) { if (ppwEntry->pw_uid >= uid_min /* Only respect users, not daemons etc. */) { VGSvcVerbose(4, "ConsoleKit: session '%s' -> %s (uid: %RU32)\n", *ppszCurSession, ppwEntry->pw_name, uid); bool fFound = false; for (uint32_t i = 0; i < cUsersInList && !fFound; i++) fFound = strcmp(papszUsers[i], ppwEntry->pw_name) == 0; if (!fFound) { VGSvcVerbose(4, "ConsoleKit: adding user '%s' to list\n", ppwEntry->pw_name); rc = RTStrDupEx(&papszUsers[cUsersInList], (const char *)ppwEntry->pw_name); if (RT_FAILURE(rc)) break; cUsersInList++; } } /* else silently ignore the user */ } else VGSvcError("ConsoleKit: unable to lookup user name for uid=%RU32\n", uid); } else AssertMsgFailed(("ConsoleKit: GetUnixUser returned a wrong argument type\n")); } if (pReplyUnixUser) dbus_message_unref(pReplyUnixUser); } else if (fActive) /* don't bitch about inactive users */ { static int s_iBitchedAboutConsoleKit = 0; if (s_iBitchedAboutConsoleKit < 1) { s_iBitchedAboutConsoleKit++; VGSvcError("ConsoleKit: unable to retrieve user for session '%s' (msg type=%d): %s\n", *ppszCurSession, dbus_message_get_type(pMsgUnixUser), dbus_error_is_set(&dbErr) ? dbErr.message : "No error information available"); } } if (pMsgUnixUser) dbus_message_unref(pMsgUnixUser); } dbus_free_string_array(ppszSessions); } else VGSvcError("ConsoleKit: unable to retrieve session parameters (msg type=%d): %s\n", dbus_message_get_type(pMsgSessions), dbus_error_is_set(&dbErr) ? dbErr.message : "No error information available"); dbus_message_unref(pReplySessions); } if (pMsgSessions) { dbus_message_unref(pMsgSessions); pMsgSessions = NULL; } } else { static int s_iBitchedAboutConsoleKit = 0; if (s_iBitchedAboutConsoleKit < 3) { s_iBitchedAboutConsoleKit++; VGSvcError("Unable to invoke ConsoleKit (%d/3) -- maybe not installed / used? Error: %s\n", s_iBitchedAboutConsoleKit, dbus_error_is_set(&dbErr) ? dbErr.message : "No error information available"); } } if (pMsgSessions) dbus_message_unref(pMsgSessions); } else { static int s_iBitchedAboutDBus = 0; if (s_iBitchedAboutDBus < 3) { s_iBitchedAboutDBus++; VGSvcError("Unable to connect to system D-Bus (%d/3): %s\n", s_iBitchedAboutDBus, fHaveLibDbus && dbus_error_is_set(&dbErr) ? dbErr.message : "D-Bus not installed"); } } if ( fHaveLibDbus && dbus_error_is_set(&dbErr)) dbus_error_free(&dbErr); # endif /* RT_OS_LINUX */ # endif /* VBOX_WITH_DBUS */ /** @todo Fedora/others: Handle systemd-loginctl. */ /* Calc the string length. */ size_t cchUserList = 0; if (RT_SUCCESS(rc)) for (uint32_t i = 0; i < cUsersInList; i++) cchUserList += (i != 0) + strlen(papszUsers[i]); /* Build the user list. */ if (cchUserList > 0) { if (RT_SUCCESS(rc)) rc = RTStrAllocEx(&pszUserList, cchUserList + 1); if (RT_SUCCESS(rc)) { char *psz = pszUserList; for (uint32_t i = 0; i < cUsersInList; i++) { if (i != 0) *psz++ = ','; size_t cch = strlen(papszUsers[i]); memcpy(psz, papszUsers[i], cch); psz += cch; } *psz = '\0'; } } /* Cleanup. */ for (uint32_t i = 0; i < cUsersInList; i++) RTStrFree(papszUsers[i]); RTMemFree(papszUsers); endutxent(); /* Close utmpx file. */ #endif /* !RT_OS_WINDOWS && !RT_OS_FREEBSD && !RT_OS_HAIKU && !RT_OS_OS2 */ Assert(RT_FAILURE(rc) || cUsersInList == 0 || (pszUserList && *pszUserList)); /* * If the user enumeration above failed, reset the user count to 0 except * we didn't have enough memory anymore. In that case we want to preserve * the previous user count in order to not confuse third party tools which * rely on that count. */ if (RT_FAILURE(rc)) { if (rc == VERR_NO_MEMORY) { static int s_iVMInfoBitchedOOM = 0; if (s_iVMInfoBitchedOOM++ < 3) VGSvcVerbose(0, "Warning: Not enough memory available to enumerate users! Keeping old value (%RU32)\n", g_cVMInfoLoggedInUsers); cUsersInList = g_cVMInfoLoggedInUsers; } else cUsersInList = 0; } else /* Preserve logged in users count. */ g_cVMInfoLoggedInUsers = cUsersInList; VGSvcVerbose(4, "cUsersInList=%RU32, pszUserList=%s, rc=%Rrc\n", cUsersInList, pszUserList ? pszUserList : "", rc); if (pszUserList) { AssertMsg(cUsersInList, ("pszUserList contains users whereas cUsersInList is 0\n")); rc = VGSvcPropCacheUpdate(&g_VMInfoPropCache, g_pszPropCacheValLoggedInUsersList, "%s", pszUserList); } else rc = VGSvcPropCacheUpdate(&g_VMInfoPropCache, g_pszPropCacheValLoggedInUsersList, NULL); if (RT_FAILURE(rc)) VGSvcError("Error writing logged in users list, rc=%Rrc\n", rc); rc = VGSvcPropCacheUpdate(&g_VMInfoPropCache, g_pszPropCacheValLoggedInUsers, "%RU32", cUsersInList); if (RT_FAILURE(rc)) VGSvcError("Error writing logged in users count, rc=%Rrc\n", rc); /** @todo r=bird: What's this 'beacon' nonsense here? It's _not_ defined with * the VGSVCPROPCACHE_FLAGS_ALWAYS_UPDATE flag set!! */ rc = VGSvcPropCacheUpdate(&g_VMInfoPropCache, g_pszPropCacheValNoLoggedInUsers, cUsersInList == 0 ? "true" : "false"); if (RT_FAILURE(rc)) VGSvcError("Error writing no logged in users beacon, rc=%Rrc\n", rc); if (pszUserList) RTStrFree(pszUserList); VGSvcVerbose(4, "Writing users returned with rc=%Rrc\n", rc); return rc; } /** * Provide information about the guest network. */ static int vgsvcVMInfoWriteNetwork(void) { uint32_t cIfsReported = 0; char szPropPath[256]; #ifdef RT_OS_WINDOWS /* */ if ( !g_pfnGetAdaptersInfo && ( !g_pfnWSAIoctl || !g_pfnWSASocketA || !g_pfnWSAGetLastError || !g_pfninet_ntoa || !g_pfnclosesocket) ) return VINF_SUCCESS; ULONG cbAdpInfo = sizeof(IP_ADAPTER_INFO); IP_ADAPTER_INFO *pAdpInfo = (IP_ADAPTER_INFO *)RTMemAlloc(cbAdpInfo); if (!pAdpInfo) { VGSvcError("VMInfo/Network: Failed to allocate IP_ADAPTER_INFO\n"); return VERR_NO_MEMORY; } DWORD dwRet = g_pfnGetAdaptersInfo ? g_pfnGetAdaptersInfo(pAdpInfo, &cbAdpInfo) : ERROR_NO_DATA; if (dwRet == ERROR_BUFFER_OVERFLOW) { IP_ADAPTER_INFO *pAdpInfoNew = (IP_ADAPTER_INFO*)RTMemRealloc(pAdpInfo, cbAdpInfo); if (pAdpInfoNew) { pAdpInfo = pAdpInfoNew; dwRet = g_pfnGetAdaptersInfo(pAdpInfo, &cbAdpInfo); } } else if (dwRet == ERROR_NO_DATA) { VGSvcVerbose(3, "VMInfo/Network: No network adapters available\n"); /* If no network adapters available / present in the * system we pretend success to not bail out too early. */ dwRet = ERROR_SUCCESS; } if (dwRet != ERROR_SUCCESS) { RTMemFree(pAdpInfo); VGSvcError("VMInfo/Network: Failed to get adapter info: Error %d\n", dwRet); return RTErrConvertFromWin32(dwRet); } SOCKET sd = g_pfnWSASocketA(AF_INET, SOCK_DGRAM, 0, 0, 0, 0); if (sd == SOCKET_ERROR) /* Socket invalid. */ { int wsaErr = g_pfnWSAGetLastError(); /* Don't complain/bail out with an error if network stack is not up; can happen * on NT4 due to start up when not connected shares dialogs pop up. */ if (WSAENETDOWN == wsaErr) { VGSvcVerbose(0, "VMInfo/Network: Network is not up yet.\n"); wsaErr = VINF_SUCCESS; } else VGSvcError("VMInfo/Network: Failed to get a socket: Error %d\n", wsaErr); if (pAdpInfo) RTMemFree(pAdpInfo); return RTErrConvertFromWin32(wsaErr); } INTERFACE_INFO aInterfaces[20] = {0}; DWORD cbReturned = 0; # ifdef RT_ARCH_x86 /* Workaround for uninitialized variable used in memcpy in GetTcpipInterfaceList (NT4SP1 at least). It seems to be happy enough with garbages, no failure returns so far, so we just need to prevent it from crashing by filling the stack with valid pointer values prior to the API call. */ _asm { mov edx, edi lea eax, aInterfaces mov [esp - 0x1000], eax mov [esp - 0x2000], eax mov ecx, 0x2000/4 - 1 cld lea edi, [esp - 0x2000] rep stosd mov edi, edx } # endif int rc = g_pfnWSAIoctl(sd, SIO_GET_INTERFACE_LIST, NULL, /* pvInBuffer */ 0, /* cbInBuffer */ &aInterfaces[0], /* pvOutBuffer */ sizeof(aInterfaces), /* cbOutBuffer */ &cbReturned, NULL, /* pOverlapped */ NULL); /* pCompletionRoutine */ if (rc == SOCKET_ERROR) { VGSvcError("VMInfo/Network: Failed to WSAIoctl() on socket: Error: %d\n", g_pfnWSAGetLastError()); if (pAdpInfo) RTMemFree(pAdpInfo); g_pfnclosesocket(sd); return RTErrConvertFromWin32(g_pfnWSAGetLastError()); } g_pfnclosesocket(sd); int cIfacesSystem = cbReturned / sizeof(INTERFACE_INFO); /** @todo Use GetAdaptersInfo() and GetAdapterAddresses (IPv4 + IPv6) for more information. */ for (int i = 0; i < cIfacesSystem; ++i) { sockaddr_in *pAddress; u_long nFlags = 0; if (aInterfaces[i].iiFlags & IFF_LOOPBACK) /* Skip loopback device. */ continue; nFlags = aInterfaces[i].iiFlags; pAddress = (sockaddr_in *)&(aInterfaces[i].iiAddress); Assert(pAddress); char szIp[32]; RTStrPrintf(szIp, sizeof(szIp), "%s", g_pfninet_ntoa(pAddress->sin_addr)); RTStrPrintf(szPropPath, sizeof(szPropPath), "/VirtualBox/GuestInfo/Net/%RU32/V4/IP", cIfsReported); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, "%s", szIp); pAddress = (sockaddr_in *) & (aInterfaces[i].iiBroadcastAddress); RTStrPrintf(szPropPath, sizeof(szPropPath), "/VirtualBox/GuestInfo/Net/%RU32/V4/Broadcast", cIfsReported); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, "%s", g_pfninet_ntoa(pAddress->sin_addr)); pAddress = (sockaddr_in *)&(aInterfaces[i].iiNetmask); RTStrPrintf(szPropPath, sizeof(szPropPath), "/VirtualBox/GuestInfo/Net/%RU32/V4/Netmask", cIfsReported); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, "%s", g_pfninet_ntoa(pAddress->sin_addr)); RTStrPrintf(szPropPath, sizeof(szPropPath), "/VirtualBox/GuestInfo/Net/%RU32/Status", cIfsReported); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, nFlags & IFF_UP ? "Up" : "Down"); if (pAdpInfo) { IP_ADAPTER_INFO *pAdp; for (pAdp = pAdpInfo; pAdp; pAdp = pAdp->Next) if (!strcmp(pAdp->IpAddressList.IpAddress.String, szIp)) break; RTStrPrintf(szPropPath, sizeof(szPropPath), "/VirtualBox/GuestInfo/Net/%RU32/MAC", cIfsReported); if (pAdp) { char szMac[32]; RTStrPrintf(szMac, sizeof(szMac), "%02X%02X%02X%02X%02X%02X", pAdp->Address[0], pAdp->Address[1], pAdp->Address[2], pAdp->Address[3], pAdp->Address[4], pAdp->Address[5]); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, "%s", szMac); } else VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, NULL); } cIfsReported++; } if (pAdpInfo) RTMemFree(pAdpInfo); #elif defined(RT_OS_HAIKU) /** @todo Haiku: implement network info. retreival */ return VERR_NOT_IMPLEMENTED; #elif defined(RT_OS_DARWIN) || defined(RT_OS_FREEBSD) || defined(RT_OS_NETBSD) struct ifaddrs *pIfHead = NULL; /* Get all available interfaces */ int rc = getifaddrs(&pIfHead); if (rc < 0) { rc = RTErrConvertFromErrno(errno); VGSvcError("VMInfo/Network: Failed to get all interfaces: Error %Rrc\n"); return rc; } /* Loop through all interfaces and set the data. */ for (struct ifaddrs *pIfCurr = pIfHead; pIfCurr; pIfCurr = pIfCurr->ifa_next) { /* * Only AF_INET and no loopback interfaces */ /** @todo IPv6 interfaces */ if ( pIfCurr->ifa_addr->sa_family == AF_INET && !(pIfCurr->ifa_flags & IFF_LOOPBACK)) { char szInetAddr[NI_MAXHOST]; memset(szInetAddr, 0, NI_MAXHOST); getnameinfo(pIfCurr->ifa_addr, sizeof(struct sockaddr_in), szInetAddr, NI_MAXHOST, NULL, 0, NI_NUMERICHOST); RTStrPrintf(szPropPath, sizeof(szPropPath), "/VirtualBox/GuestInfo/Net/%RU32/V4/IP", cIfsReported); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, "%s", szInetAddr); memset(szInetAddr, 0, NI_MAXHOST); getnameinfo(pIfCurr->ifa_broadaddr, sizeof(struct sockaddr_in), szInetAddr, NI_MAXHOST, NULL, 0, NI_NUMERICHOST); RTStrPrintf(szPropPath, sizeof(szPropPath), "/VirtualBox/GuestInfo/Net/%RU32/V4/Broadcast", cIfsReported); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, "%s", szInetAddr); memset(szInetAddr, 0, NI_MAXHOST); getnameinfo(pIfCurr->ifa_netmask, sizeof(struct sockaddr_in), szInetAddr, NI_MAXHOST, NULL, 0, NI_NUMERICHOST); RTStrPrintf(szPropPath, sizeof(szPropPath), "/VirtualBox/GuestInfo/Net/%RU32/V4/Netmask", cIfsReported); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, "%s", szInetAddr); /* Search for the AF_LINK interface of the current AF_INET one and get the mac. */ for (struct ifaddrs *pIfLinkCurr = pIfHead; pIfLinkCurr; pIfLinkCurr = pIfLinkCurr->ifa_next) { if ( pIfLinkCurr->ifa_addr->sa_family == AF_LINK && !strcmp(pIfCurr->ifa_name, pIfLinkCurr->ifa_name)) { char szMac[32]; uint8_t *pu8Mac = NULL; struct sockaddr_dl *pLinkAddress = (struct sockaddr_dl *)pIfLinkCurr->ifa_addr; AssertPtr(pLinkAddress); pu8Mac = (uint8_t *)LLADDR(pLinkAddress); RTStrPrintf(szMac, sizeof(szMac), "%02X%02X%02X%02X%02X%02X", pu8Mac[0], pu8Mac[1], pu8Mac[2], pu8Mac[3], pu8Mac[4], pu8Mac[5]); RTStrPrintf(szPropPath, sizeof(szPropPath), "/VirtualBox/GuestInfo/Net/%RU32/MAC", cIfsReported); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, "%s", szMac); break; } } RTStrPrintf(szPropPath, sizeof(szPropPath), "/VirtualBox/GuestInfo/Net/%RU32/Status", cIfsReported); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, pIfCurr->ifa_flags & IFF_UP ? "Up" : "Down"); cIfsReported++; } } /* Free allocated resources. */ freeifaddrs(pIfHead); #else /* !RT_OS_WINDOWS && !RT_OS_FREEBSD */ /* * Use SIOCGIFCONF to get a list of interface/protocol configurations. * * See "UNIX Network Programming Volume 1" by W. R. Stevens, section 17.6 * for details on this ioctl. */ int sd = socket(AF_INET, SOCK_DGRAM, 0); if (sd < 0) { int rc = RTErrConvertFromErrno(errno); VGSvcError("VMInfo/Network: Failed to get a socket: Error %Rrc\n", rc); return rc; } /* Call SIOCGIFCONF with the right sized buffer (remember the size). */ static int s_cbBuf = 256; // 1024 int cbBuf = s_cbBuf; char *pchBuf; struct ifconf IfConf; int rc = VINF_SUCCESS; for (;;) { pchBuf = (char *)RTMemTmpAllocZ(cbBuf); if (!pchBuf) { rc = VERR_NO_TMP_MEMORY; break; } IfConf.ifc_len = cbBuf; IfConf.ifc_buf = pchBuf; if (ioctl(sd, SIOCGIFCONF, &IfConf) >= 0) { /* Hard to anticipate how space an address might possibly take, so making some generous assumptions here to avoid performing the query twice with different buffer sizes. */ if (IfConf.ifc_len + 128 < cbBuf) break; } else if (errno != EOVERFLOW) { rc = RTErrConvertFromErrno(errno); break; } /* grow the buffer */ s_cbBuf = cbBuf *= 2; RTMemFree(pchBuf); } if (RT_FAILURE(rc)) { close(sd); RTMemTmpFree(pchBuf); VGSvcError("VMInfo/Network: Error doing SIOCGIFCONF (cbBuf=%d): %Rrc\n", cbBuf, rc); return rc; } /* * Iterate the interface/protocol configurations. * * Note! The current code naively assumes one IPv4 address per interface. * This means that guest assigning more than one address to an * interface will get multiple entries for one physical interface. */ # ifdef RT_OS_OS2 struct ifreq *pPrevLinkAddr = NULL; # endif struct ifreq *pCur = IfConf.ifc_req; size_t cbLeft = IfConf.ifc_len; while (cbLeft >= sizeof(*pCur)) { # if defined(RT_OS_SOLARIS) || defined(RT_OS_LINUX) /* These two do not provide the sa_len member but only support address * families which do not need extra bytes on the end. */ # define SA_LEN(pAddr) sizeof(struct sockaddr) # elif !defined(SA_LEN) # define SA_LEN(pAddr) (pAddr)->sa_len # endif /* Figure the size of the current request. */ size_t cbCur = RT_OFFSETOF(struct ifreq, ifr_addr) + SA_LEN(&pCur->ifr_addr); cbCur = RT_MAX(cbCur, sizeof(struct ifreq)); # if defined(RT_OS_SOLARIS) || defined(RT_OS_LINUX) Assert(pCur->ifr_addr.sa_family == AF_INET); # endif AssertBreak(cbCur <= cbLeft); # ifdef RT_OS_OS2 /* On OS/2 we get the MAC address in the AF_LINK that the BSD 4.4 stack emits. We boldly ASSUME these always comes first. */ if ( pCur->ifr_addr.sa_family == AF_LINK && ((struct sockaddr_dl *)&pCur->ifr_addr)->sdl_alen == 6) pPrevLinkAddr = pCur; # endif /* Skip it if it's not the kind of address we're looking for. */ struct ifreq IfReqTmp; bool fIfUp = false; bool fSkip = false; if (pCur->ifr_addr.sa_family != AF_INET) fSkip = true; else { /* Get the interface flags so we can detect loopback and check if it's up. */ IfReqTmp = *pCur; if (ioctl(sd, SIOCGIFFLAGS, &IfReqTmp) < 0) { rc = RTErrConvertFromErrno(errno); VGSvcError("VMInfo/Network: Failed to ioctl(SIOCGIFFLAGS,%s) on socket: Error %Rrc\n", pCur->ifr_name, rc); break; } fIfUp = !!(IfReqTmp.ifr_flags & IFF_UP); if (IfReqTmp.ifr_flags & IFF_LOOPBACK) /* Skip the loopback device. */ fSkip = true; } if (!fSkip) { size_t offSubProp = RTStrPrintf(szPropPath, sizeof(szPropPath), "/VirtualBox/GuestInfo/Net/%RU32", cIfsReported); sockaddr_in *pAddress = (sockaddr_in *)&pCur->ifr_addr; strcpy(&szPropPath[offSubProp], "/V4/IP"); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, "%s", inet_ntoa(pAddress->sin_addr)); /* Get the broadcast address. */ IfReqTmp = *pCur; if (ioctl(sd, SIOCGIFBRDADDR, &IfReqTmp) < 0) { rc = RTErrConvertFromErrno(errno); VGSvcError("VMInfo/Network: Failed to ioctl(SIOCGIFBRDADDR) on socket: Error %Rrc\n", rc); break; } pAddress = (sockaddr_in *)&IfReqTmp.ifr_broadaddr; strcpy(&szPropPath[offSubProp], "/V4/Broadcast"); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, "%s", inet_ntoa(pAddress->sin_addr)); /* Get the net mask. */ IfReqTmp = *pCur; if (ioctl(sd, SIOCGIFNETMASK, &IfReqTmp) < 0) { rc = RTErrConvertFromErrno(errno); VGSvcError("VMInfo/Network: Failed to ioctl(SIOCGIFNETMASK) on socket: Error %Rrc\n", rc); break; } # if defined(RT_OS_OS2) || defined(RT_OS_SOLARIS) pAddress = (sockaddr_in *)&IfReqTmp.ifr_addr; # else pAddress = (sockaddr_in *)&IfReqTmp.ifr_netmask; # endif strcpy(&szPropPath[offSubProp], "/V4/Netmask"); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, "%s", inet_ntoa(pAddress->sin_addr)); # if defined(RT_OS_SOLARIS) /* * "ifreq" is obsolete on Solaris. We use the recommended "lifreq". * We might fail if the interface has not been assigned an IP address. * That doesn't matter; as long as it's plumbed we can pick it up. * But, if it has not acquired an IP address we cannot obtain it's MAC * address this way, so we just use all zeros there. */ RTMAC IfMac; struct lifreq IfReq; RT_ZERO(IfReq); AssertCompile(sizeof(IfReq.lifr_name) >= sizeof(pCur->ifr_name)); strncpy(IfReq.lifr_name, pCur->ifr_name, sizeof(pCur->ifr_name)); if (ioctl(sd, SIOCGLIFADDR, &IfReq) >= 0) { struct arpreq ArpReq; RT_ZERO(ArpReq); memcpy(&ArpReq.arp_pa, &IfReq.lifr_addr, sizeof(struct sockaddr_in)); if (ioctl(sd, SIOCGARP, &ArpReq) >= 0) memcpy(&IfMac, ArpReq.arp_ha.sa_data, sizeof(IfMac)); else { rc = RTErrConvertFromErrno(errno); VGSvcError("VMInfo/Network: failed to ioctl(SIOCGARP) on socket: Error %Rrc\n", rc); break; } } else { VGSvcVerbose(2, "VMInfo/Network: Interface '%s' has no assigned IP address, skipping ...\n", pCur->ifr_name); continue; } # elif defined(RT_OS_OS2) RTMAC IfMac; if ( pPrevLinkAddr && strncmp(pCur->ifr_name, pPrevLinkAddr->ifr_name, sizeof(pCur->ifr_name)) == 0) { struct sockaddr_dl *pDlAddr = (struct sockaddr_dl *)&pPrevLinkAddr->ifr_addr; IfMac = *(PRTMAC)&pDlAddr->sdl_data[pDlAddr->sdl_nlen]; } else RT_ZERO(IfMac); #else if (ioctl(sd, SIOCGIFHWADDR, &IfReqTmp) < 0) { rc = RTErrConvertFromErrno(errno); VGSvcError("VMInfo/Network: Failed to ioctl(SIOCGIFHWADDR) on socket: Error %Rrc\n", rc); break; } RTMAC IfMac = *(PRTMAC)&IfReqTmp.ifr_hwaddr.sa_data[0]; # endif strcpy(&szPropPath[offSubProp], "/MAC"); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, "%02X%02X%02X%02X%02X%02X", IfMac.au8[0], IfMac.au8[1], IfMac.au8[2], IfMac.au8[3], IfMac.au8[4], IfMac.au8[5]); strcpy(&szPropPath[offSubProp], "/Status"); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, fIfUp ? "Up" : "Down"); /* The name. */ int rc2 = RTStrValidateEncodingEx(pCur->ifr_name, sizeof(pCur->ifr_name), 0); if (RT_SUCCESS(rc2)) { strcpy(&szPropPath[offSubProp], "/Name"); VGSvcPropCacheUpdate(&g_VMInfoPropCache, szPropPath, "%.*s", sizeof(pCur->ifr_name), pCur->ifr_name); } cIfsReported++; } /* * Next interface/protocol configuration. */ pCur = (struct ifreq *)((uintptr_t)pCur + cbCur); cbLeft -= cbCur; } RTMemTmpFree(pchBuf); close(sd); if (RT_FAILURE(rc)) VGSvcError("VMInfo/Network: Network enumeration for interface %RU32 failed with error %Rrc\n", cIfsReported, rc); #endif /* !RT_OS_WINDOWS */ #if 0 /* Zapping not enabled yet, needs more testing first. */ /* * Zap all stale network interface data if the former (saved) network ifaces count * is bigger than the current one. */ /* Get former count. */ uint32_t cIfsReportedOld; rc = VGSvcReadPropUInt32(g_uVMInfoGuestPropSvcClientID, g_pszPropCacheValNetCount, &cIfsReportedOld, 0 /* Min */, UINT32_MAX /* Max */); if ( RT_SUCCESS(rc) && cIfsReportedOld > cIfsReported) /* Are some ifaces not around anymore? */ { VGSvcVerbose(3, "VMInfo/Network: Stale interface data detected (%RU32 old vs. %RU32 current)\n", cIfsReportedOld, cIfsReported); uint32_t uIfaceDeleteIdx = cIfsReported; do { VGSvcVerbose(3, "VMInfo/Network: Deleting stale data of interface %d ...\n", uIfaceDeleteIdx); rc = VGSvcPropCacheUpdateByPath(&g_VMInfoPropCache, NULL /* Value, delete */, 0 /* Flags */, "/VirtualBox/GuestInfo/Net/%RU32", uIfaceDeleteIdx++); } while (RT_SUCCESS(rc)); } else if ( RT_FAILURE(rc) && rc != VERR_NOT_FOUND) { VGSvcError("VMInfo/Network: Failed retrieving old network interfaces count with error %Rrc\n", rc); } #endif /* * This property is a beacon which is _always_ written, even if the network configuration * does not change. If this property is missing, the host assumes that all other GuestInfo * properties are no longer valid. */ VGSvcPropCacheUpdate(&g_VMInfoPropCache, g_pszPropCacheValNetCount, "%RU32", cIfsReported); /* Don't fail here; just report everything we got. */ return VINF_SUCCESS; } /** * @interface_method_impl{VBOXSERVICE,pfnWorker} */ static DECLCALLBACK(int) vbsvcVMInfoWorker(bool volatile *pfShutdown) { int rc; /* * Tell the control thread that it can continue * spawning services. */ RTThreadUserSignal(RTThreadSelf()); #ifdef RT_OS_WINDOWS /* Required for network information (must be called per thread). */ if (g_pfnWSAStartup) { WSADATA wsaData; RT_ZERO(wsaData); if (g_pfnWSAStartup(MAKEWORD(2, 2), &wsaData)) VGSvcError("VMInfo/Network: WSAStartup failed! Error: %Rrc\n", RTErrConvertFromWin32(g_pfnWSAGetLastError())); } #endif /* * Write the fixed properties first. */ vgsvcVMInfoWriteFixedProperties(); /* * Now enter the loop retrieving runtime data continuously. */ for (;;) { rc = vgsvcVMInfoWriteUsers(); if (RT_FAILURE(rc)) break; rc = vgsvcVMInfoWriteNetwork(); if (RT_FAILURE(rc)) break; /* Whether to wait for event semaphore or not. */ bool fWait = true; /* Check for location awareness. This most likely only * works with VBox (latest) 4.1 and up. */ /* Check for new connection. */ char *pszLAClientID = NULL; int rc2 = VGSvcReadHostProp(g_uVMInfoGuestPropSvcClientID, g_pszLAActiveClient, true /* Read only */, &pszLAClientID, NULL /* Flags */, NULL /* Timestamp */); if (RT_SUCCESS(rc2)) { AssertPtr(pszLAClientID); if (RTStrICmp(pszLAClientID, "0")) /* Is a client connected? */ { uint32_t uLAClientID = RTStrToInt32(pszLAClientID); uint64_t uLAClientAttachedTS; /* Peek at "Attach" value to figure out if hotdesking happened. */ char *pszAttach = NULL; rc2 = vgsvcGetLAClientValue(uLAClientID, "Attach", &pszAttach, &uLAClientAttachedTS); if ( RT_SUCCESS(rc2) && ( !g_LAClientAttachedTS || (g_LAClientAttachedTS != uLAClientAttachedTS))) { vgsvcFreeLAClientInfo(&g_LAClientInfo); /* Note: There is a race between setting the guest properties by the host and getting them by * the guest. */ rc2 = vgsvcGetLAClientInfo(uLAClientID, &g_LAClientInfo); if (RT_SUCCESS(rc2)) { VGSvcVerbose(1, "VRDP: Hotdesk client %s with ID=%RU32, Name=%s, Domain=%s\n", /* If g_LAClientAttachedTS is 0 this means there already was an active * hotdesk session when VBoxService started. */ !g_LAClientAttachedTS ? "already active" : g_LAClientInfo.fAttached ? "connected" : "disconnected", uLAClientID, g_LAClientInfo.pszName, g_LAClientInfo.pszDomain); g_LAClientAttachedTS = g_LAClientInfo.uAttachedTS; /* Don't wait for event semaphore below anymore because we now know that the client * changed. This means we need to iterate all VM information again immediately. */ fWait = false; } else { static int s_iBitchedAboutLAClientInfo = 0; if (s_iBitchedAboutLAClientInfo < 10) { s_iBitchedAboutLAClientInfo++; VGSvcError("Error getting active location awareness client info, rc=%Rrc\n", rc2); } } } else if (RT_FAILURE(rc2)) VGSvcError("Error getting attached value of location awareness client %RU32, rc=%Rrc\n", uLAClientID, rc2); if (pszAttach) RTStrFree(pszAttach); } else { VGSvcVerbose(1, "VRDP: UTTSC disconnected from VRDP server\n"); vgsvcFreeLAClientInfo(&g_LAClientInfo); } RTStrFree(pszLAClientID); } else { static int s_iBitchedAboutLAClient = 0; if ( (rc2 != VERR_NOT_FOUND) /* No location awareness installed, skip. */ && s_iBitchedAboutLAClient < 3) { s_iBitchedAboutLAClient++; VGSvcError("VRDP: Querying connected location awareness client failed with rc=%Rrc\n", rc2); } } VGSvcVerbose(3, "VRDP: Handling location awareness done\n"); /* * Flush all properties if we were restored. */ uint64_t idNewSession = g_idVMInfoSession; VbglR3GetSessionId(&idNewSession); if (idNewSession != g_idVMInfoSession) { VGSvcVerbose(3, "The VM session ID changed, flushing all properties\n"); vgsvcVMInfoWriteFixedProperties(); VGSvcPropCacheFlush(&g_VMInfoPropCache); g_idVMInfoSession = idNewSession; } /* * Block for a while. * * The event semaphore takes care of ignoring interruptions and it * allows us to implement service wakeup later. */ if (*pfShutdown) break; if (fWait) rc2 = RTSemEventMultiWait(g_hVMInfoEvent, g_cMsVMInfoInterval); if (*pfShutdown) break; if (rc2 != VERR_TIMEOUT && RT_FAILURE(rc2)) { VGSvcError("RTSemEventMultiWait failed; rc2=%Rrc\n", rc2); rc = rc2; break; } else if (RT_LIKELY(RT_SUCCESS(rc2))) { /* Reset event semaphore if it got triggered. */ rc2 = RTSemEventMultiReset(g_hVMInfoEvent); if (RT_FAILURE(rc2)) rc2 = VGSvcError("RTSemEventMultiReset failed; rc2=%Rrc\n", rc2); } } #ifdef RT_OS_WINDOWS if (g_pfnWSACleanup) g_pfnWSACleanup(); #endif return rc; } /** * @interface_method_impl{VBOXSERVICE,pfnStop} */ static DECLCALLBACK(void) vbsvcVMInfoStop(void) { RTSemEventMultiSignal(g_hVMInfoEvent); } /** * @interface_method_impl{VBOXSERVICE,pfnTerm} */ static DECLCALLBACK(void) vbsvcVMInfoTerm(void) { if (g_hVMInfoEvent != NIL_RTSEMEVENTMULTI) { /** @todo temporary solution: Zap all values which are not valid * anymore when VM goes down (reboot/shutdown ). Needs to * be replaced with "temporary properties" later. * * One idea is to introduce a (HGCM-)session guest property * flag meaning that a guest property is only valid as long * as the HGCM session isn't closed (e.g. guest application * terminates). [don't remove till implemented] */ /** @todo r=bird: Drop the VbglR3GuestPropDelSet call here and use the cache * since it remembers what we've written. */ /* Delete the "../Net" branch. */ const char *apszPat[1] = { "/VirtualBox/GuestInfo/Net/*" }; int rc = VbglR3GuestPropDelSet(g_uVMInfoGuestPropSvcClientID, &apszPat[0], RT_ELEMENTS(apszPat)); /* Destroy LA client info. */ vgsvcFreeLAClientInfo(&g_LAClientInfo); /* Destroy property cache. */ VGSvcPropCacheDestroy(&g_VMInfoPropCache); /* Disconnect from guest properties service. */ rc = VbglR3GuestPropDisconnect(g_uVMInfoGuestPropSvcClientID); if (RT_FAILURE(rc)) VGSvcError("Failed to disconnect from guest property service! Error: %Rrc\n", rc); g_uVMInfoGuestPropSvcClientID = 0; RTSemEventMultiDestroy(g_hVMInfoEvent); g_hVMInfoEvent = NIL_RTSEMEVENTMULTI; } } /** * The 'vminfo' service description. */ VBOXSERVICE g_VMInfo = { /* pszName. */ "vminfo", /* pszDescription. */ "Virtual Machine Information", /* pszUsage. */ " [--vminfo-interval ] [--vminfo-user-idle-threshold ]" , /* pszOptions. */ " --vminfo-interval Specifies the interval at which to retrieve the\n" " VM information. The default is 10000 ms.\n" " --vminfo-user-idle-threshold \n" " Specifies the user idle threshold (in ms) for\n" " considering a guest user as being idle. The default\n" " is 5000 (5 seconds).\n" , /* methods */ vbsvcVMInfoPreInit, vbsvcVMInfoOption, vbsvcVMInfoInit, vbsvcVMInfoWorker, vbsvcVMInfoStop, vbsvcVMInfoTerm };