/* $Id: VBoxSharedClipboardSvc.cpp $ */ /** @file * Shared Clipboard Service - Host service entry points. */ /* * Copyright (C) 2006-2023 Oracle and/or its affiliates. * * This file is part of VirtualBox base platform packages, as * available from https://www.virtualbox.org. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation, in version 3 of the * License. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . * * SPDX-License-Identifier: GPL-3.0-only */ /** @page pg_hostclip The Shared Clipboard Host Service * * The shared clipboard host service is the host half of the clibpoard proxying * between the host and the guest. The guest parts live in VBoxClient, VBoxTray * and VBoxService depending on the OS, with code shared between host and guest * under src/VBox/GuestHost/SharedClipboard/. * * The service is split into a platform-independent core and platform-specific * backends. The service defines two communication protocols - one to * communicate with the clipboard service running on the guest, and one to * communicate with the backend. These will be described in a very skeletal * fashion here. * * r=bird: The "two communication protocols" does not seems to be factual, there * is only one protocol, the first one mentioned. It cannot be backend * specific, because the guest/host protocol is platform and backend agnostic in * nature. You may call it versions, but I take a great dislike to "protocol * versions" here, as you've just extended the existing protocol with a feature * that allows to transfer files and directories too. See @bugref{9437#c39}. * * * @section sec_hostclip_guest_proto The guest communication protocol * * The guest clipboard service communicates with the host service over HGCM * (the host is a HGCM service). HGCM is connection based, so the guest side * has to connect before anything else can be done. (Windows hosts currently * only support one simultaneous connection.) Once it has connected, it can * send messages to the host services, some of which will receive immediate * replies from the host, others which will block till a reply becomes * available. The latter is because HGCM does't allow the host to initiate * communication, it must be guest triggered. The HGCM service is single * threaded, so it doesn't matter if the guest tries to send lots of requests in * parallel, the service will process them one at the time. * * There are currently four messages defined. The first is * VBOX_SHCL_GUEST_FN_MSG_GET / VBOX_SHCL_GUEST_FN_MSG_OLD_GET_WAIT, which waits * for a message from the host. If a host message is sent while the guest is * not waiting, it will be queued until the guest requests it. The host code * only supports a single simultaneous GET call from one client guest. * * The second guest message is VBOX_SHCL_GUEST_FN_REPORT_FORMATS, which tells * the host that the guest has new clipboard data available. The third is * VBOX_SHCL_GUEST_FN_DATA_READ, which asks the host to send its clipboard data * and waits until it arrives. The host supports at most one simultaneous * VBOX_SHCL_GUEST_FN_DATA_READ call from a guest - if a second call is made * before the first has returned, the first will be aborted. * * The last guest message is VBOX_SHCL_GUEST_FN_DATA_WRITE, which is used to * send the contents of the guest clipboard to the host. This call should be * used after the host has requested data from the guest. * * * @section sec_hostclip_backend_proto The communication protocol with the * platform-specific backend * * The initial protocol implementation (called protocol v0) was very simple, * and could only handle simple data (like copied text and so on). It also * was limited to two (2) fixed parameters at all times. * * Since VBox 6.1 a newer protocol (v1) has been established to also support * file transfers. This protocol uses a (per-client) message queue instead * (see VBOX_SHCL_GUEST_FN_MSG_OLD_GET_WAIT vs. VBOX_SHCL_GUEST_FN_GET_HOST_MSG). * * To distinguish the old (legacy) or new(er) protocol, the VBOX_SHCL_GUEST_FN_CONNECT * message has been introduced. If an older guest does not send this message, * an appropriate translation will be done to serve older Guest Additions (< 6.1). * * The protocol also support out-of-order messages by using so-called "context IDs", * which are generated by the host. A context ID consists of a so-called "source event ID" * and a so-called "event ID". Each HGCM client has an own, random, source event ID and * generates non-deterministic event IDs so that the guest side does not known what * comes next; the guest side has to reply with the same conext ID which was sent by * the host request. * * Also see the protocol changelog at VBoxShClSvc.h. * * * @section sec_uri_intro Transferring files * * Since VBox x.x.x transferring files via Shared Clipboard is supported. * See the VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS define for supported / enabled * platforms. This is called "Shared Clipboard transfers". * * Copying files / directories from guest A to guest B requires the host * service to act as a proxy and cache, as we don't allow direct VM-to-VM * communication. Copying from / to the host also is taken into account. * * At the moment a transfer is a all-or-nothing operation, e.g. it either * completes or fails completely. There might be callbacks in the future * to e.g. skip failing entries. * * Known limitations: * * - Support for VRDE (VRDP) is not implemented yet (see #9498). * - Unicode support on Windows hosts / guests is not enabled (yet). * - Symbolic links / Windows junctions are not allowed. * - Windows alternate data streams (ADS) are not allowed. * - No support for ACLs yet. * - No (maybe never) support for NT4. * @section sec_transfer_structure Transfer handling structure * * All structures / classes are designed for running on both, on the guest * (via VBoxTray / VBoxClient) or on the host (host service) to avoid code * duplication where applicable. * * Per HGCM client there is a so-called "transfer context", which in turn can * have one or mulitple so-called "Shared Clipboard transfer" objects. At the * moment we only support on concurrent Shared Clipboard transfer per transfer * context. It's being used for reading from a source or writing to destination, * depening on its direction. An Shared Clipboard transfer can have optional * callbacks which might be needed by various implementations. Also, transfers * optionally can run in an asynchronous thread to prevent blocking the UI while * running. * * @section sec_transfer_providers Transfer providers * * For certain implementations (for example on Windows guests / hosts, using * IDataObject and IStream objects) a more flexible approach reqarding reading / * writing is needed. For this so-called transfer providers abstract the way of how * data is being read / written in the current context (host / guest), while * the rest of the code stays the same. * * @section sec_transfer_protocol Transfer protocol * * The host service issues commands which the guest has to respond with an own * message to. The protocol itself is designed so that it has primitives to list * directories and open/close/read/write file system objects. * * Note that this is different from the DnD approach, as Shared Clipboard transfers * need to be deeper integrated within the host / guest OS (i.e. for progress UI), * and this might require non-monolithic / random access APIs to achieve. * * As there can be multiple file system objects (fs objects) selected for transfer, * a transfer can be queried for its root entries, which then contains the top-level * elements. Based on these elements, (a) (recursive) listing(s) can be performed * to (partially) walk down into directories and query fs object information. The * provider provides appropriate interface for this, even if not all implementations * might need this mechanism. * * An Shared Clipboard transfer has three stages: * - 1. Announcement: An Shared Clipboard transfer-compatible format (currently only one format available) * has been announced, the destination side creates a transfer object, which then, * depending on the actual implementation, can be used to tell the OS that * there is transfer (file) data available. * At this point this just acts as a (kind-of) promise to the OS that we * can provide (file) data at some later point in time. * * - 2. Initialization: As soon as the OS requests the (file) data, mostly triggered * by the user starting a paste operation (CTRL + V), the transfer get initialized * on the destination side, which in turn lets the source know that a transfer * is going to happen. * * - 3. Transfer: At this stage the actual transfer from source to the destination takes * place. How the actual transfer is structurized (e.g. which files / directories * are transferred in which order) depends on the destination implementation. This * is necessary in order to fulfill requirements on the destination side with * regards to ETA calculation or other dependencies. * Both sides can abort or cancel the transfer at any time. */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #define LOG_GROUP LOG_GROUP_SHARED_CLIPBOARD #include #include /* must be included before hgcmsvc.h */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "VBoxSharedClipboardSvc-internal.h" #ifdef VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS # include "VBoxSharedClipboardSvc-transfers.h" #endif using namespace HGCM; /********************************************************************************************************************************* * Defined Constants And Macros * *********************************************************************************************************************************/ /** @name The saved state versions for the shared clipboard service. * * @note We set bit 31 because prior to version 0x80000002 there would be a * structure size rather than a version number. Setting bit 31 dispells * any possible ambiguity. * * @{ */ /** The current saved state version. */ #define VBOX_SHCL_SAVED_STATE_VER_CURRENT VBOX_SHCL_SAVED_STATE_LEGACY_CID /** Adds the legacy context ID list. */ #define VBOX_SHCL_SAVED_STATE_LEGACY_CID UINT32_C(0x80000005) /** Adds the client's POD state and client state flags. * @since 6.1 RC1 */ #define VBOX_SHCL_SAVED_STATE_VER_6_1RC1 UINT32_C(0x80000004) /** First attempt saving state during @bugref{9437} development. * @since 6.1 BETA 2 */ #define VBOX_SHCL_SAVED_STATE_VER_6_1B2 UINT32_C(0x80000003) /** First structured version. * @since 3.1 / r53668 */ #define VBOX_SHCL_SAVED_STATE_VER_3_1 UINT32_C(0x80000002) /** This was just a state memory dump, including pointers and everything. * @note This is not supported any more. Sorry. */ #define VBOX_SHCL_SAVED_STATE_VER_NOT_SUPP (ARCH_BITS == 64 ? UINT32_C(72) : UINT32_C(48)) /** @} */ /********************************************************************************************************************************* * Global Variables * *********************************************************************************************************************************/ /** The backend instance data. * Only one backend at a time is supported currently. */ SHCLBACKEND g_ShClBackend; PVBOXHGCMSVCHELPERS g_pHelpers; static RTCRITSECT g_CritSect; /** @todo r=andy Put this into some instance struct, avoid globals. */ /** Global Shared Clipboard mode. */ static uint32_t g_uMode = VBOX_SHCL_MODE_OFF; #ifdef VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS /** Global Shared Clipboard (file) transfer mode. */ uint32_t g_fTransferMode = VBOX_SHCL_TRANSFER_MODE_DISABLED; #endif /** Is the clipboard running in headless mode? */ static bool g_fHeadless = false; /** Holds the service extension state. */ SHCLEXTSTATE g_ExtState = { 0 }; /** Global map of all connected clients. */ ClipboardClientMap g_mapClients; /** Global list of all clients which are queued up (deferred return) and ready * to process new commands. The key is the (unique) client ID. */ ClipboardClientQueue g_listClientsDeferred; /** Host feature mask (VBOX_SHCL_HF_0_XXX) for VBOX_SHCL_GUEST_FN_REPORT_FEATURES * and VBOX_SHCL_GUEST_FN_QUERY_FEATURES. */ static uint64_t const g_fHostFeatures0 = VBOX_SHCL_HF_0_CONTEXT_ID #ifdef VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS | VBOX_SHCL_HF_0_TRANSFERS #endif ; /** * Returns the current Shared Clipboard service mode. * * @returns Current Shared Clipboard service mode. */ uint32_t ShClSvcGetMode(void) { return g_uMode; } /** * Returns the Shared Clipboard backend in use. * * @returns Pointer to backend instance. */ PSHCLBACKEND ShClSvcGetBackend(void) { return &g_ShClBackend; } /** * Getter for headless setting. Also needed by testcase. * * @returns Whether service currently running in headless mode or not. */ bool ShClSvcGetHeadless(void) { return g_fHeadless; } static int shClSvcModeSet(uint32_t uMode) { int rc = VERR_NOT_SUPPORTED; switch (uMode) { case VBOX_SHCL_MODE_OFF: RT_FALL_THROUGH(); case VBOX_SHCL_MODE_HOST_TO_GUEST: RT_FALL_THROUGH(); case VBOX_SHCL_MODE_GUEST_TO_HOST: RT_FALL_THROUGH(); case VBOX_SHCL_MODE_BIDIRECTIONAL: { g_uMode = uMode; rc = VINF_SUCCESS; break; } default: { g_uMode = VBOX_SHCL_MODE_OFF; break; } } LogFlowFuncLeaveRC(rc); return rc; } /** * Takes the global Shared Clipboard service lock. * * @returns \c true if locking was successful, or \c false if not. */ bool ShClSvcLock(void) { return RT_SUCCESS(RTCritSectEnter(&g_CritSect)); } /** * Unlocks the formerly locked global Shared Clipboard service lock. */ void ShClSvcUnlock(void) { int rc2 = RTCritSectLeave(&g_CritSect); AssertRC(rc2); } /** * Resets a client's state message queue. * * @param pClient Pointer to the client data structure to reset message queue for. * @note Caller enters pClient->CritSect. */ void shClSvcMsgQueueReset(PSHCLCLIENT pClient) { Assert(RTCritSectIsOwner(&pClient->CritSect)); LogFlowFuncEnter(); while (!RTListIsEmpty(&pClient->MsgQueue)) { PSHCLCLIENTMSG pMsg = RTListRemoveFirst(&pClient->MsgQueue, SHCLCLIENTMSG, ListEntry); shClSvcMsgFree(pClient, pMsg); } pClient->cMsgAllocated = 0; while (!RTListIsEmpty(&pClient->Legacy.lstCID)) { PSHCLCLIENTLEGACYCID pCID = RTListRemoveFirst(&pClient->Legacy.lstCID, SHCLCLIENTLEGACYCID, Node); RTMemFree(pCID); } pClient->Legacy.cCID = 0; } /** * Allocates a new clipboard message. * * @returns Allocated clipboard message, or NULL on failure. * @param pClient The client which is target of this message. * @param idMsg The message ID (VBOX_SHCL_HOST_MSG_XXX) to use * @param cParms The number of parameters the message takes. */ PSHCLCLIENTMSG shClSvcMsgAlloc(PSHCLCLIENT pClient, uint32_t idMsg, uint32_t cParms) { RT_NOREF(pClient); PSHCLCLIENTMSG pMsg = (PSHCLCLIENTMSG)RTMemAllocZ(RT_UOFFSETOF_DYN(SHCLCLIENTMSG, aParms[cParms])); if (pMsg) { uint32_t cAllocated = ASMAtomicIncU32(&pClient->cMsgAllocated); if (cAllocated <= 4096) { RTListInit(&pMsg->ListEntry); pMsg->cParms = cParms; pMsg->idMsg = idMsg; return pMsg; } AssertMsgFailed(("Too many messages allocated for client %u! (%u)\n", pClient->State.uClientID, cAllocated)); ASMAtomicDecU32(&pClient->cMsgAllocated); RTMemFree(pMsg); } return NULL; } /** * Frees a formerly allocated clipboard message. * * @param pClient The client which was the target of this message. * @param pMsg Clipboard message to free. */ void shClSvcMsgFree(PSHCLCLIENT pClient, PSHCLCLIENTMSG pMsg) { RT_NOREF(pClient); /** @todo r=bird: Do accounting. */ if (pMsg) { pMsg->idMsg = UINT32_C(0xdeadface); RTMemFree(pMsg); uint32_t cAllocated = ASMAtomicDecU32(&pClient->cMsgAllocated); Assert(cAllocated < UINT32_MAX / 2); RT_NOREF(cAllocated); } } /** * Sets the VBOX_SHCL_GUEST_FN_MSG_PEEK_WAIT and VBOX_SHCL_GUEST_FN_MSG_PEEK_NOWAIT * return parameters. * * @param pMsg Message to set return parameters to. * @param paDstParms The peek parameter vector. * @param cDstParms The number of peek parameters (at least two). * @remarks ASSUMES the parameters has been cleared by clientMsgPeek. */ static void shClSvcMsgSetPeekReturn(PSHCLCLIENTMSG pMsg, PVBOXHGCMSVCPARM paDstParms, uint32_t cDstParms) { Assert(cDstParms >= 2); if (paDstParms[0].type == VBOX_HGCM_SVC_PARM_32BIT) paDstParms[0].u.uint32 = pMsg->idMsg; else paDstParms[0].u.uint64 = pMsg->idMsg; paDstParms[1].u.uint32 = pMsg->cParms; uint32_t i = RT_MIN(cDstParms, pMsg->cParms + 2); while (i-- > 2) switch (pMsg->aParms[i - 2].type) { case VBOX_HGCM_SVC_PARM_32BIT: paDstParms[i].u.uint32 = ~(uint32_t)sizeof(uint32_t); break; case VBOX_HGCM_SVC_PARM_64BIT: paDstParms[i].u.uint32 = ~(uint32_t)sizeof(uint64_t); break; case VBOX_HGCM_SVC_PARM_PTR: paDstParms[i].u.uint32 = pMsg->aParms[i - 2].u.pointer.size; break; } } /** * Sets the VBOX_SHCL_GUEST_FN_MSG_OLD_GET_WAIT return parameters. * * @returns VBox status code. * @param pMsg The message which parameters to return to the guest. * @param paDstParms The peek parameter vector. * @param cDstParms The number of peek parameters should be exactly two */ static int shClSvcMsgSetOldWaitReturn(PSHCLCLIENTMSG pMsg, PVBOXHGCMSVCPARM paDstParms, uint32_t cDstParms) { /* * Assert sanity. */ AssertPtr(pMsg); AssertPtrReturn(paDstParms, VERR_INVALID_POINTER); AssertReturn(cDstParms >= 2, VERR_INVALID_PARAMETER); Assert(pMsg->cParms == 2); Assert(pMsg->aParms[0].u.uint32 == pMsg->idMsg); switch (pMsg->idMsg) { case VBOX_SHCL_HOST_MSG_READ_DATA: case VBOX_SHCL_HOST_MSG_FORMATS_REPORT: break; default: AssertFailed(); } /* * Set the parameters. */ if (pMsg->cParms > 0) paDstParms[0] = pMsg->aParms[0]; if (pMsg->cParms > 1) paDstParms[1] = pMsg->aParms[1]; return VINF_SUCCESS; } /** * Adds a new message to a client'S message queue. * * @param pClient Pointer to the client data structure to add new message to. * @param pMsg Pointer to message to add. The queue then owns the pointer. * @param fAppend Whether to append or prepend the message to the queue. * * @note Caller must enter critical section. */ void shClSvcMsgAdd(PSHCLCLIENT pClient, PSHCLCLIENTMSG pMsg, bool fAppend) { Assert(RTCritSectIsOwner(&pClient->CritSect)); AssertPtr(pMsg); LogFlowFunc(("idMsg=%s (%RU32) cParms=%RU32 fAppend=%RTbool\n", ShClHostMsgToStr(pMsg->idMsg), pMsg->idMsg, pMsg->cParms, fAppend)); if (fAppend) RTListAppend(&pClient->MsgQueue, &pMsg->ListEntry); else RTListPrepend(&pClient->MsgQueue, &pMsg->ListEntry); } /** * Appends a message to the client's queue and wake it up. * * @returns VBox status code, though the message is consumed regardless of what * is returned. * @param pClient The client to queue the message on. * @param pMsg The message to queue. Ownership is always * transfered to the queue. * * @note Caller must enter critical section. */ int shClSvcMsgAddAndWakeupClient(PSHCLCLIENT pClient, PSHCLCLIENTMSG pMsg) { Assert(RTCritSectIsOwner(&pClient->CritSect)); AssertPtr(pMsg); AssertPtr(pClient); LogFlowFunc(("idMsg=%s (%u) cParms=%u\n", ShClHostMsgToStr(pMsg->idMsg), pMsg->idMsg, pMsg->cParms)); RTListAppend(&pClient->MsgQueue, &pMsg->ListEntry); return shClSvcClientWakeup(pClient); } /** * Initializes a Shared Clipboard client. * * @param pClient Client to initialize. * @param uClientID HGCM client ID to assign client to. */ int shClSvcClientInit(PSHCLCLIENT pClient, uint32_t uClientID) { AssertPtrReturn(pClient, VERR_INVALID_POINTER); /* Assign the client ID. */ pClient->State.uClientID = uClientID; RTListInit(&pClient->MsgQueue); pClient->cMsgAllocated = 0; RTListInit(&pClient->Legacy.lstCID); pClient->Legacy.cCID = 0; LogFlowFunc(("[Client %RU32]\n", pClient->State.uClientID)); int rc = RTCritSectInit(&pClient->CritSect); if (RT_SUCCESS(rc)) { /* Create the client's own event source. */ rc = ShClEventSourceCreate(&pClient->EventSrc, 0 /* ID, ignored */); if (RT_SUCCESS(rc)) { LogFlowFunc(("[Client %RU32] Using event source %RU32\n", uClientID, pClient->EventSrc.uID)); /* Reset the client state. */ shclSvcClientStateReset(&pClient->State); /* (Re-)initialize the client state. */ rc = shClSvcClientStateInit(&pClient->State, uClientID); #ifdef VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS if (RT_SUCCESS(rc)) rc = ShClTransferCtxInit(&pClient->Transfers.Ctx); #endif } } LogFlowFuncLeaveRC(rc); return rc; } /** * Destroys a Shared Clipboard client. * * @param pClient Client to destroy. */ void shClSvcClientDestroy(PSHCLCLIENT pClient) { AssertPtrReturnVoid(pClient); LogFlowFunc(("[Client %RU32]\n", pClient->State.uClientID)); /* Make sure to send a quit message to the guest so that it can terminate gracefully. */ RTCritSectEnter(&pClient->CritSect); if (pClient->Pending.uType) { if (pClient->Pending.cParms > 1) HGCMSvcSetU32(&pClient->Pending.paParms[0], VBOX_SHCL_HOST_MSG_QUIT); if (pClient->Pending.cParms > 2) HGCMSvcSetU32(&pClient->Pending.paParms[1], 0); g_pHelpers->pfnCallComplete(pClient->Pending.hHandle, VINF_SUCCESS); pClient->Pending.uType = 0; pClient->Pending.cParms = 0; pClient->Pending.hHandle = NULL; pClient->Pending.paParms = NULL; } RTCritSectLeave(&pClient->CritSect); ShClEventSourceDestroy(&pClient->EventSrc); shClSvcClientStateDestroy(&pClient->State); PSHCLCLIENTLEGACYCID pCidIter, pCidIterNext; RTListForEachSafe(&pClient->Legacy.lstCID, pCidIter, pCidIterNext, SHCLCLIENTLEGACYCID, Node) { RTMemFree(pCidIter); } int rc2 = RTCritSectDelete(&pClient->CritSect); AssertRC(rc2); ClipboardClientMap::iterator itClient = g_mapClients.find(pClient->State.uClientID); if (itClient != g_mapClients.end()) g_mapClients.erase(itClient); else AssertFailed(); LogFlowFuncLeave(); } void shClSvcClientLock(PSHCLCLIENT pClient) { int rc2 = RTCritSectEnter(&pClient->CritSect); AssertRC(rc2); } void shClSvcClientUnlock(PSHCLCLIENT pClient) { int rc2 = RTCritSectLeave(&pClient->CritSect); AssertRC(rc2); } /** * Resets a Shared Clipboard client. * * @param pClient Client to reset. */ void shClSvcClientReset(PSHCLCLIENT pClient) { if (!pClient) return; LogFlowFunc(("[Client %RU32]\n", pClient->State.uClientID)); RTCritSectEnter(&pClient->CritSect); /* Reset message queue. */ shClSvcMsgQueueReset(pClient); /* Reset event source. */ ShClEventSourceReset(&pClient->EventSrc); /* Reset pending state. */ RT_ZERO(pClient->Pending); #ifdef VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS shClSvcClientTransfersReset(pClient); #endif shclSvcClientStateReset(&pClient->State); RTCritSectLeave(&pClient->CritSect); } static int shClSvcClientNegogiateChunkSize(PSHCLCLIENT pClient, VBOXHGCMCALLHANDLE hCall, uint32_t cParms, VBOXHGCMSVCPARM paParms[]) { /* * Validate the request. */ ASSERT_GUEST_RETURN(cParms == VBOX_SHCL_CPARMS_NEGOTIATE_CHUNK_SIZE, VERR_WRONG_PARAMETER_COUNT); ASSERT_GUEST_RETURN(paParms[0].type == VBOX_HGCM_SVC_PARM_32BIT, VERR_WRONG_PARAMETER_TYPE); uint32_t const cbClientMaxChunkSize = paParms[0].u.uint32; ASSERT_GUEST_RETURN(paParms[1].type == VBOX_HGCM_SVC_PARM_32BIT, VERR_WRONG_PARAMETER_TYPE); uint32_t const cbClientChunkSize = paParms[1].u.uint32; uint32_t const cbHostMaxChunkSize = VBOX_SHCL_MAX_CHUNK_SIZE; /** @todo Make this configurable. */ /* * Do the work. */ if (cbClientChunkSize == 0) /* Does the client want us to choose? */ { paParms[0].u.uint32 = cbHostMaxChunkSize; /* Maximum */ paParms[1].u.uint32 = RT_MIN(pClient->State.cbChunkSize, cbHostMaxChunkSize); /* Preferred */ } else /* The client told us what it supports, so update and report back. */ { paParms[0].u.uint32 = RT_MIN(cbClientMaxChunkSize, cbHostMaxChunkSize); /* Maximum */ paParms[1].u.uint32 = RT_MIN(cbClientMaxChunkSize, pClient->State.cbChunkSize); /* Preferred */ } int rc = g_pHelpers->pfnCallComplete(hCall, VINF_SUCCESS); if (RT_SUCCESS(rc)) { Log(("[Client %RU32] chunk size: %#RU32, max: %#RU32\n", pClient->State.uClientID, paParms[1].u.uint32, paParms[0].u.uint32)); } else LogFunc(("pfnCallComplete -> %Rrc\n", rc)); return VINF_HGCM_ASYNC_EXECUTE; } /** * Implements VBOX_SHCL_GUEST_FN_REPORT_FEATURES. * * @returns VBox status code. * @retval VINF_HGCM_ASYNC_EXECUTE on success (we complete the message here). * @retval VERR_ACCESS_DENIED if not master * @retval VERR_INVALID_PARAMETER if bit 63 in the 2nd parameter isn't set. * @retval VERR_WRONG_PARAMETER_COUNT * * @param pClient The client state. * @param hCall The client's call handle. * @param cParms Number of parameters. * @param paParms Array of parameters. */ static int shClSvcClientReportFeatures(PSHCLCLIENT pClient, VBOXHGCMCALLHANDLE hCall, uint32_t cParms, VBOXHGCMSVCPARM paParms[]) { /* * Validate the request. */ ASSERT_GUEST_RETURN(cParms == 2, VERR_WRONG_PARAMETER_COUNT); ASSERT_GUEST_RETURN(paParms[0].type == VBOX_HGCM_SVC_PARM_64BIT, VERR_WRONG_PARAMETER_TYPE); uint64_t const fFeatures0 = paParms[0].u.uint64; ASSERT_GUEST_RETURN(paParms[1].type == VBOX_HGCM_SVC_PARM_64BIT, VERR_WRONG_PARAMETER_TYPE); uint64_t const fFeatures1 = paParms[1].u.uint64; ASSERT_GUEST_RETURN(fFeatures1 & VBOX_SHCL_GF_1_MUST_BE_ONE, VERR_INVALID_PARAMETER); /* * Do the work. */ paParms[0].u.uint64 = g_fHostFeatures0; paParms[1].u.uint64 = 0; int rc = g_pHelpers->pfnCallComplete(hCall, VINF_SUCCESS); if (RT_SUCCESS(rc)) { pClient->State.fGuestFeatures0 = fFeatures0; pClient->State.fGuestFeatures1 = fFeatures1; LogRel2(("Shared Clipboard: Guest reported the following features: %#RX64\n", pClient->State.fGuestFeatures0)); /* Note: fFeatures1 not used yet. */ if (pClient->State.fGuestFeatures0 & VBOX_SHCL_GF_0_TRANSFERS) LogRel2(("Shared Clipboard: Guest supports file transfers\n")); } else LogFunc(("pfnCallComplete -> %Rrc\n", rc)); return VINF_HGCM_ASYNC_EXECUTE; } /** * Implements VBOX_SHCL_GUEST_FN_QUERY_FEATURES. * * @returns VBox status code. * @retval VINF_HGCM_ASYNC_EXECUTE on success (we complete the message here). * @retval VERR_WRONG_PARAMETER_COUNT * * @param hCall The client's call handle. * @param cParms Number of parameters. * @param paParms Array of parameters. */ static int shClSvcClientQueryFeatures(VBOXHGCMCALLHANDLE hCall, uint32_t cParms, VBOXHGCMSVCPARM paParms[]) { /* * Validate the request. */ ASSERT_GUEST_RETURN(cParms == 2, VERR_WRONG_PARAMETER_COUNT); ASSERT_GUEST_RETURN(paParms[0].type == VBOX_HGCM_SVC_PARM_64BIT, VERR_WRONG_PARAMETER_TYPE); ASSERT_GUEST_RETURN(paParms[1].type == VBOX_HGCM_SVC_PARM_64BIT, VERR_WRONG_PARAMETER_TYPE); ASSERT_GUEST(paParms[1].u.uint64 & RT_BIT_64(63)); /* * Do the work. */ paParms[0].u.uint64 = g_fHostFeatures0; paParms[1].u.uint64 = 0; int rc = g_pHelpers->pfnCallComplete(hCall, VINF_SUCCESS); if (RT_FAILURE(rc)) LogFunc(("pfnCallComplete -> %Rrc\n", rc)); return VINF_HGCM_ASYNC_EXECUTE; } /** * Implements VBOX_SHCL_GUEST_FN_MSG_PEEK_WAIT and VBOX_SHCL_GUEST_FN_MSG_PEEK_NOWAIT. * * @returns VBox status code. * @retval VINF_SUCCESS if a message was pending and is being returned. * @retval VERR_TRY_AGAIN if no message pending and not blocking. * @retval VERR_RESOURCE_BUSY if another read already made a waiting call. * @retval VINF_HGCM_ASYNC_EXECUTE if message wait is pending. * * @param pClient The client state. * @param hCall The client's call handle. * @param cParms Number of parameters. * @param paParms Array of parameters. * @param fWait Set if we should wait for a message, clear if to return * immediately. * * @note Caller takes and leave the client's critical section. */ static int shClSvcClientMsgPeek(PSHCLCLIENT pClient, VBOXHGCMCALLHANDLE hCall, uint32_t cParms, VBOXHGCMSVCPARM paParms[], bool fWait) { /* * Validate the request. */ ASSERT_GUEST_MSG_RETURN(cParms >= 2, ("cParms=%u!\n", cParms), VERR_WRONG_PARAMETER_COUNT); uint64_t idRestoreCheck = 0; uint32_t i = 0; if (paParms[i].type == VBOX_HGCM_SVC_PARM_64BIT) { idRestoreCheck = paParms[0].u.uint64; paParms[0].u.uint64 = 0; i++; } for (; i < cParms; i++) { ASSERT_GUEST_MSG_RETURN(paParms[i].type == VBOX_HGCM_SVC_PARM_32BIT, ("#%u type=%u\n", i, paParms[i].type), VERR_WRONG_PARAMETER_TYPE); paParms[i].u.uint32 = 0; } /* * Check restore session ID. */ if (idRestoreCheck != 0) { uint64_t idRestore = g_pHelpers->pfnGetVMMDevSessionId(g_pHelpers); if (idRestoreCheck != idRestore) { paParms[0].u.uint64 = idRestore; LogFlowFunc(("[Client %RU32] VBOX_SHCL_GUEST_FN_MSG_PEEK_XXX -> VERR_VM_RESTORED (%#RX64 -> %#RX64)\n", pClient->State.uClientID, idRestoreCheck, idRestore)); return VERR_VM_RESTORED; } Assert(!g_pHelpers->pfnIsCallRestored(hCall)); } /* * Return information about the first message if one is pending in the list. */ PSHCLCLIENTMSG pFirstMsg = RTListGetFirst(&pClient->MsgQueue, SHCLCLIENTMSG, ListEntry); if (pFirstMsg) { shClSvcMsgSetPeekReturn(pFirstMsg, paParms, cParms); LogFlowFunc(("[Client %RU32] VBOX_SHCL_GUEST_FN_MSG_PEEK_XXX -> VINF_SUCCESS (idMsg=%s (%u), cParms=%u)\n", pClient->State.uClientID, ShClHostMsgToStr(pFirstMsg->idMsg), pFirstMsg->idMsg, pFirstMsg->cParms)); return VINF_SUCCESS; } /* * If we cannot wait, fail the call. */ if (!fWait) { LogFlowFunc(("[Client %RU32] GUEST_MSG_PEEK_NOWAIT -> VERR_TRY_AGAIN\n", pClient->State.uClientID)); return VERR_TRY_AGAIN; } /* * Wait for the host to queue a message for this client. */ ASSERT_GUEST_MSG_RETURN(pClient->Pending.uType == 0, ("Already pending! (idClient=%RU32)\n", pClient->State.uClientID), VERR_RESOURCE_BUSY); pClient->Pending.hHandle = hCall; pClient->Pending.cParms = cParms; pClient->Pending.paParms = paParms; pClient->Pending.uType = VBOX_SHCL_GUEST_FN_MSG_PEEK_WAIT; LogFlowFunc(("[Client %RU32] Is now in pending mode...\n", pClient->State.uClientID)); return VINF_HGCM_ASYNC_EXECUTE; } /** * Implements VBOX_SHCL_GUEST_FN_MSG_OLD_GET_WAIT. * * @returns VBox status code. * @retval VINF_SUCCESS if a message was pending and is being returned. * @retval VINF_HGCM_ASYNC_EXECUTE if message wait is pending. * * @param pClient The client state. * @param hCall The client's call handle. * @param cParms Number of parameters. * @param paParms Array of parameters. * * @note Caller takes and leave the client's critical section. */ static int shClSvcClientMsgOldGet(PSHCLCLIENT pClient, VBOXHGCMCALLHANDLE hCall, uint32_t cParms, VBOXHGCMSVCPARM paParms[]) { /* * Validate input. */ ASSERT_GUEST_RETURN(cParms == VBOX_SHCL_CPARMS_GET_HOST_MSG_OLD, VERR_WRONG_PARAMETER_COUNT); ASSERT_GUEST_RETURN(paParms[0].type == VBOX_HGCM_SVC_PARM_32BIT, VERR_WRONG_PARAMETER_TYPE); /* id32Msg */ ASSERT_GUEST_RETURN(paParms[1].type == VBOX_HGCM_SVC_PARM_32BIT, VERR_WRONG_PARAMETER_TYPE); /* f32Formats */ paParms[0].u.uint32 = 0; paParms[1].u.uint32 = 0; /* * If there is a message pending we can return immediately. */ int rc; PSHCLCLIENTMSG pFirstMsg = RTListGetFirst(&pClient->MsgQueue, SHCLCLIENTMSG, ListEntry); if (pFirstMsg) { LogFlowFunc(("[Client %RU32] uMsg=%s (%RU32), cParms=%RU32\n", pClient->State.uClientID, ShClHostMsgToStr(pFirstMsg->idMsg), pFirstMsg->idMsg, pFirstMsg->cParms)); rc = shClSvcMsgSetOldWaitReturn(pFirstMsg, paParms, cParms); AssertPtr(g_pHelpers); rc = g_pHelpers->pfnCallComplete(hCall, rc); if (rc != VERR_CANCELLED) { RTListNodeRemove(&pFirstMsg->ListEntry); shClSvcMsgFree(pClient, pFirstMsg); rc = VINF_HGCM_ASYNC_EXECUTE; /* The caller must not complete it. */ } } /* * Otherwise we must wait. */ else { ASSERT_GUEST_MSG_RETURN(pClient->Pending.uType == 0, ("Already pending! (idClient=%RU32)\n", pClient->State.uClientID), VERR_RESOURCE_BUSY); pClient->Pending.hHandle = hCall; pClient->Pending.cParms = cParms; pClient->Pending.paParms = paParms; pClient->Pending.uType = VBOX_SHCL_GUEST_FN_MSG_OLD_GET_WAIT; rc = VINF_HGCM_ASYNC_EXECUTE; /* The caller must not complete it. */ LogFlowFunc(("[Client %RU32] Is now in pending mode...\n", pClient->State.uClientID)); } LogFlowFunc(("[Client %RU32] rc=%Rrc\n", pClient->State.uClientID, rc)); return rc; } /** * Implements VBOX_SHCL_GUEST_FN_MSG_GET. * * @returns VBox status code. * @retval VINF_SUCCESS if message retrieved and removed from the pending queue. * @retval VERR_TRY_AGAIN if no message pending. * @retval VERR_BUFFER_OVERFLOW if a parmeter buffer is too small. The buffer * size was updated to reflect the required size, though this isn't yet * forwarded to the guest. (The guest is better of using peek with * parameter count + 2 parameters to get the sizes.) * @retval VERR_MISMATCH if the incoming message ID does not match the pending. * @retval VINF_HGCM_ASYNC_EXECUTE if message was completed already. * * @param pClient The client state. * @param hCall The client's call handle. * @param cParms Number of parameters. * @param paParms Array of parameters. * * @note Called from within pClient->CritSect. */ static int shClSvcClientMsgGet(PSHCLCLIENT pClient, VBOXHGCMCALLHANDLE hCall, uint32_t cParms, VBOXHGCMSVCPARM paParms[]) { /* * Validate the request. */ uint32_t const idMsgExpected = cParms > 0 && paParms[0].type == VBOX_HGCM_SVC_PARM_32BIT ? paParms[0].u.uint32 : cParms > 0 && paParms[0].type == VBOX_HGCM_SVC_PARM_64BIT ? paParms[0].u.uint64 : UINT32_MAX; /* * Return information about the first message if one is pending in the list. */ PSHCLCLIENTMSG pFirstMsg = RTListGetFirst(&pClient->MsgQueue, SHCLCLIENTMSG, ListEntry); if (pFirstMsg) { LogFlowFunc(("First message is: %s (%u), cParms=%RU32\n", ShClHostMsgToStr(pFirstMsg->idMsg), pFirstMsg->idMsg, pFirstMsg->cParms)); ASSERT_GUEST_MSG_RETURN(pFirstMsg->idMsg == idMsgExpected || idMsgExpected == UINT32_MAX, ("idMsg=%u (%s) cParms=%u, caller expected %u (%s) and %u\n", pFirstMsg->idMsg, ShClHostMsgToStr(pFirstMsg->idMsg), pFirstMsg->cParms, idMsgExpected, ShClHostMsgToStr(idMsgExpected), cParms), VERR_MISMATCH); ASSERT_GUEST_MSG_RETURN(pFirstMsg->cParms == cParms, ("idMsg=%u (%s) cParms=%u, caller expected %u (%s) and %u\n", pFirstMsg->idMsg, ShClHostMsgToStr(pFirstMsg->idMsg), pFirstMsg->cParms, idMsgExpected, ShClHostMsgToStr(idMsgExpected), cParms), VERR_WRONG_PARAMETER_COUNT); /* Check the parameter types. */ for (uint32_t i = 0; i < cParms; i++) ASSERT_GUEST_MSG_RETURN(pFirstMsg->aParms[i].type == paParms[i].type, ("param #%u: type %u, caller expected %u (idMsg=%u %s)\n", i, pFirstMsg->aParms[i].type, paParms[i].type, pFirstMsg->idMsg, ShClHostMsgToStr(pFirstMsg->idMsg)), VERR_WRONG_PARAMETER_TYPE); /* * Copy out the parameters. * * No assertions on buffer overflows, and keep going till the end so we can * communicate all the required buffer sizes. */ int rc = VINF_SUCCESS; for (uint32_t i = 0; i < cParms; i++) switch (pFirstMsg->aParms[i].type) { case VBOX_HGCM_SVC_PARM_32BIT: paParms[i].u.uint32 = pFirstMsg->aParms[i].u.uint32; break; case VBOX_HGCM_SVC_PARM_64BIT: paParms[i].u.uint64 = pFirstMsg->aParms[i].u.uint64; break; case VBOX_HGCM_SVC_PARM_PTR: { uint32_t const cbSrc = pFirstMsg->aParms[i].u.pointer.size; uint32_t const cbDst = paParms[i].u.pointer.size; paParms[i].u.pointer.size = cbSrc; /** @todo Check if this is safe in other layers... * Update: Safe, yes, but VMMDevHGCM doesn't pass it along. */ if (cbSrc <= cbDst) memcpy(paParms[i].u.pointer.addr, pFirstMsg->aParms[i].u.pointer.addr, cbSrc); else { AssertMsgFailed(("#%u: cbSrc=%RU32 is bigger than cbDst=%RU32\n", i, cbSrc, cbDst)); rc = VERR_BUFFER_OVERFLOW; } break; } default: AssertMsgFailed(("#%u: %u\n", i, pFirstMsg->aParms[i].type)); rc = VERR_INTERNAL_ERROR; break; } if (RT_SUCCESS(rc)) { /* * Complete the message and remove the pending message unless the * guest raced us and cancelled this call in the meantime. */ AssertPtr(g_pHelpers); rc = g_pHelpers->pfnCallComplete(hCall, rc); LogFlowFunc(("[Client %RU32] pfnCallComplete -> %Rrc\n", pClient->State.uClientID, rc)); if (rc != VERR_CANCELLED) { RTListNodeRemove(&pFirstMsg->ListEntry); shClSvcMsgFree(pClient, pFirstMsg); } return VINF_HGCM_ASYNC_EXECUTE; /* The caller must not complete it. */ } LogFlowFunc(("[Client %RU32] Returning %Rrc\n", pClient->State.uClientID, rc)); return rc; } paParms[0].u.uint32 = 0; paParms[1].u.uint32 = 0; LogFlowFunc(("[Client %RU32] -> VERR_TRY_AGAIN\n", pClient->State.uClientID)); return VERR_TRY_AGAIN; } /** * Implements VBOX_SHCL_GUEST_FN_MSG_GET. * * @returns VBox status code. * @retval VINF_SUCCESS if message retrieved and removed from the pending queue. * @retval VERR_TRY_AGAIN if no message pending. * @retval VERR_MISMATCH if the incoming message ID does not match the pending. * @retval VINF_HGCM_ASYNC_EXECUTE if message was completed already. * * @param pClient The client state. * @param cParms Number of parameters. * * @note Called from within pClient->CritSect. */ static int shClSvcClientMsgCancel(PSHCLCLIENT pClient, uint32_t cParms) { /* * Validate the request. */ ASSERT_GUEST_MSG_RETURN(cParms == 0, ("cParms=%u!\n", cParms), VERR_WRONG_PARAMETER_COUNT); /* * Execute. */ if (pClient->Pending.uType != 0) { LogFlowFunc(("[Client %RU32] Cancelling waiting thread, isPending=%d, pendingNumParms=%RU32, m_idSession=%x\n", pClient->State.uClientID, pClient->Pending.uType, pClient->Pending.cParms, pClient->State.uSessionID)); /* * The PEEK call is simple: At least two parameters, all set to zero before sleeping. */ int rcComplete; if (pClient->Pending.uType == VBOX_SHCL_GUEST_FN_MSG_PEEK_WAIT) { Assert(pClient->Pending.cParms >= 2); if (pClient->Pending.paParms[0].type == VBOX_HGCM_SVC_PARM_64BIT) HGCMSvcSetU64(&pClient->Pending.paParms[0], VBOX_SHCL_HOST_MSG_CANCELED); else HGCMSvcSetU32(&pClient->Pending.paParms[0], VBOX_SHCL_HOST_MSG_CANCELED); rcComplete = VINF_TRY_AGAIN; } /* * The MSG_OLD call is complicated, though we're * generally here to wake up someone who is peeking and have two parameters. * If there aren't two parameters, fail the call. */ else { Assert(pClient->Pending.uType == VBOX_SHCL_GUEST_FN_MSG_OLD_GET_WAIT); if (pClient->Pending.cParms > 0) HGCMSvcSetU32(&pClient->Pending.paParms[0], VBOX_SHCL_HOST_MSG_CANCELED); if (pClient->Pending.cParms > 1) HGCMSvcSetU32(&pClient->Pending.paParms[1], 0); rcComplete = pClient->Pending.cParms == 2 ? VINF_SUCCESS : VERR_TRY_AGAIN; } g_pHelpers->pfnCallComplete(pClient->Pending.hHandle, rcComplete); pClient->Pending.hHandle = NULL; pClient->Pending.paParms = NULL; pClient->Pending.cParms = 0; pClient->Pending.uType = 0; return VINF_SUCCESS; } return VWRN_NOT_FOUND; } /** * Wakes up a pending client (i.e. waiting for new messages). * * @returns VBox status code. * @retval VINF_NO_CHANGE if the client is not in pending mode. * * @param pClient Client to wake up. * @note Caller must enter pClient->CritSect. */ int shClSvcClientWakeup(PSHCLCLIENT pClient) { Assert(RTCritSectIsOwner(&pClient->CritSect)); int rc = VINF_NO_CHANGE; if (pClient->Pending.uType != 0) { LogFunc(("[Client %RU32] Waking up ...\n", pClient->State.uClientID)); PSHCLCLIENTMSG pFirstMsg = RTListGetFirst(&pClient->MsgQueue, SHCLCLIENTMSG, ListEntry); AssertReturn(pFirstMsg, VERR_INTERNAL_ERROR); LogFunc(("[Client %RU32] Current host message is %s (%RU32), cParms=%RU32\n", pClient->State.uClientID, ShClHostMsgToStr(pFirstMsg->idMsg), pFirstMsg->idMsg, pFirstMsg->cParms)); if (pClient->Pending.uType == VBOX_SHCL_GUEST_FN_MSG_PEEK_WAIT) shClSvcMsgSetPeekReturn(pFirstMsg, pClient->Pending.paParms, pClient->Pending.cParms); else if (pClient->Pending.uType == VBOX_SHCL_GUEST_FN_MSG_OLD_GET_WAIT) /* Legacy, Guest Additions < 6.1. */ shClSvcMsgSetOldWaitReturn(pFirstMsg, pClient->Pending.paParms, pClient->Pending.cParms); else AssertMsgFailedReturn(("pClient->Pending.uType=%u\n", pClient->Pending.uType), VERR_INTERNAL_ERROR_3); rc = g_pHelpers->pfnCallComplete(pClient->Pending.hHandle, VINF_SUCCESS); if ( rc != VERR_CANCELLED && pClient->Pending.uType == VBOX_SHCL_GUEST_FN_MSG_OLD_GET_WAIT) { RTListNodeRemove(&pFirstMsg->ListEntry); shClSvcMsgFree(pClient, pFirstMsg); } pClient->Pending.hHandle = NULL; pClient->Pending.paParms = NULL; pClient->Pending.cParms = 0; pClient->Pending.uType = 0; } else LogFunc(("[Client %RU32] Not in pending state, skipping wakeup\n", pClient->State.uClientID)); return rc; } /** * Requests to read clipboard data from the guest. * * @returns VBox status code. * @param pClient Client to request to read data form. * @param fFormats The formats being requested, OR'ed together (VBOX_SHCL_FMT_XXX). * @param ppEvent Where to return the event for waiting for new data on success. Optional. * Must be released by the caller with ShClEventRelease(). */ int ShClSvcGuestDataRequest(PSHCLCLIENT pClient, SHCLFORMATS fFormats, PSHCLEVENT *ppEvent) { AssertPtrReturn(pClient, VERR_INVALID_POINTER); LogFlowFunc(("fFormats=%#x\n", fFormats)); int rc = VERR_NOT_SUPPORTED; /* Generate a separate message for every (valid) format we support. */ while (fFormats) { /* Pick the next format to get from the mask: */ /** @todo Make format reporting precedence configurable? */ SHCLFORMAT fFormat; if (fFormats & VBOX_SHCL_FMT_UNICODETEXT) fFormat = VBOX_SHCL_FMT_UNICODETEXT; else if (fFormats & VBOX_SHCL_FMT_BITMAP) fFormat = VBOX_SHCL_FMT_BITMAP; else if (fFormats & VBOX_SHCL_FMT_HTML) fFormat = VBOX_SHCL_FMT_HTML; else AssertMsgFailedBreak(("%#x\n", fFormats)); /* Remove it from the mask. */ fFormats &= ~fFormat; #ifdef LOG_ENABLED char *pszFmt = ShClFormatsToStrA(fFormat); AssertPtrReturn(pszFmt, VERR_NO_MEMORY); LogRel2(("Shared Clipboard: Requesting guest clipboard data in format '%s'\n", pszFmt)); RTStrFree(pszFmt); #endif /* * Allocate messages, one for each format. */ PSHCLCLIENTMSG pMsg = shClSvcMsgAlloc(pClient, pClient->State.fGuestFeatures0 & VBOX_SHCL_GF_0_CONTEXT_ID ? VBOX_SHCL_HOST_MSG_READ_DATA_CID : VBOX_SHCL_HOST_MSG_READ_DATA, 2); if (pMsg) { /* * Enter the critical section and generate an event. */ RTCritSectEnter(&pClient->CritSect); PSHCLEVENT pEvent; rc = ShClEventSourceGenerateAndRegisterEvent(&pClient->EventSrc, &pEvent); if (RT_SUCCESS(rc)) { LogFlowFunc(("fFormats=%#x -> fFormat=%#x, idEvent=%#x\n", fFormats, fFormat, pEvent->idEvent)); const uint64_t uCID = VBOX_SHCL_CONTEXTID_MAKE(pClient->State.uSessionID, pClient->EventSrc.uID, pEvent->idEvent); rc = VINF_SUCCESS; /* Save the context ID in our legacy cruft if we have to deal with old(er) Guest Additions (< 6.1). */ if (!(pClient->State.fGuestFeatures0 & VBOX_SHCL_GF_0_CONTEXT_ID)) { AssertStmt(pClient->Legacy.cCID < 4096, rc = VERR_TOO_MUCH_DATA); if (RT_SUCCESS(rc)) { PSHCLCLIENTLEGACYCID pCID = (PSHCLCLIENTLEGACYCID)RTMemAlloc(sizeof(SHCLCLIENTLEGACYCID)); if (pCID) { pCID->uCID = uCID; pCID->enmType = 0; /* Not used yet. */ pCID->uFormat = fFormat; RTListAppend(&pClient->Legacy.lstCID, &pCID->Node); pClient->Legacy.cCID++; } else rc = VERR_NO_MEMORY; } } if (RT_SUCCESS(rc)) { /* * Format the message. */ if (pMsg->idMsg == VBOX_SHCL_HOST_MSG_READ_DATA_CID) HGCMSvcSetU64(&pMsg->aParms[0], uCID); else HGCMSvcSetU32(&pMsg->aParms[0], VBOX_SHCL_HOST_MSG_READ_DATA); HGCMSvcSetU32(&pMsg->aParms[1], fFormat); shClSvcMsgAdd(pClient, pMsg, true /* fAppend */); /* Return event handle to the caller if requested. */ if (ppEvent) { *ppEvent = pEvent; } shClSvcClientWakeup(pClient); } /* Remove event from list if caller did not request event handle or in case * of failure (in this case caller should not release event). */ if ( RT_FAILURE(rc) || !ppEvent) { ShClEventRelease(pEvent); } } else rc = VERR_SHCLPB_MAX_EVENTS_REACHED; RTCritSectLeave(&pClient->CritSect); if (RT_FAILURE(rc)) shClSvcMsgFree(pClient, pMsg); } else rc = VERR_NO_MEMORY; if (RT_FAILURE(rc)) break; } if (RT_FAILURE(rc)) LogRel(("Shared Clipboard: Requesting data in formats %#x from guest failed with %Rrc\n", fFormats, rc)); LogFlowFuncLeaveRC(rc); return rc; } /** * Signals the host that clipboard data from the guest has been received. * * @returns VBox status code. Returns VERR_NOT_FOUND when related event ID was not found. * @param pClient Client the guest clipboard data was received from. * @param pCmdCtx Client command context. * @param uFormat Clipboard format of data received. * @param pvData Pointer to clipboard data received. This can be * NULL if @a cbData is zero. * @param cbData Size (in bytes) of clipboard data received. * This can be zero. */ int ShClSvcGuestDataSignal(PSHCLCLIENT pClient, PSHCLCLIENTCMDCTX pCmdCtx, SHCLFORMAT uFormat, void *pvData, uint32_t cbData) { LogFlowFuncEnter(); RT_NOREF(uFormat); /* * Validate input. */ AssertPtrReturn(pClient, VERR_INVALID_POINTER); AssertPtrReturn(pCmdCtx, VERR_INVALID_POINTER); if (cbData > 0) AssertPtrReturn(pvData, VERR_INVALID_POINTER); const SHCLEVENTID idEvent = VBOX_SHCL_CONTEXTID_GET_EVENT(pCmdCtx->uContextID); AssertMsgReturn(idEvent != NIL_SHCLEVENTID, ("NIL event in context ID %#RX64\n", pCmdCtx->uContextID), VERR_WRONG_ORDER); PSHCLEVENT pEvent = ShClEventSourceGetFromId(&pClient->EventSrc, idEvent); AssertMsgReturn(pEvent != NULL, ("Event %#x not found\n", idEvent), VERR_NOT_FOUND); /* * Make a copy of the data so we can attach it to the signal. * * Note! We still signal the waiter should we run out of memory, * because otherwise it will be stuck waiting. */ int rc = VINF_SUCCESS; PSHCLEVENTPAYLOAD pPayload = NULL; if (cbData > 0) rc = ShClPayloadAlloc(idEvent, pvData, cbData, &pPayload); /* * Signal the event. */ int rc2 = ShClEventSignal(pEvent, pPayload); if (RT_FAILURE(rc2)) { rc = rc2; ShClPayloadFree(pPayload); LogRel(("Shared Clipboard: Signalling of guest clipboard data to the host failed: %Rrc\n", rc)); } LogFlowFuncLeaveRC(rc); return rc; } /** * Reports available VBox clipboard formats to the guest. * * @note Host backend callers must check if it's active (use * ShClSvcIsBackendActive) before calling to prevent mixing up the * VRDE clipboard. * * @returns VBox status code. * @param pClient Client to report clipboard formats to. * @param fFormats The formats to report (VBOX_SHCL_FMT_XXX), zero * is okay (empty the clipboard). */ int ShClSvcHostReportFormats(PSHCLCLIENT pClient, SHCLFORMATS fFormats) { /* * Check if the service mode allows this operation and whether the guest is * supposed to be reading from the host. Otherwise, silently ignore reporting * formats and return VINF_SUCCESS in order to do not trigger client * termination in svcConnect(). */ uint32_t uMode = ShClSvcGetMode(); if ( uMode == VBOX_SHCL_MODE_BIDIRECTIONAL || uMode == VBOX_SHCL_MODE_HOST_TO_GUEST) { /* likely */ } else return VINF_SUCCESS; AssertPtrReturn(pClient, VERR_INVALID_POINTER); LogFlowFunc(("fFormats=%#x\n", fFormats)); #ifdef VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS /* * If transfer mode is set to disabled, don't report the URI list format to the guest. */ if (!(g_fTransferMode & VBOX_SHCL_TRANSFER_MODE_ENABLED)) { fFormats &= ~VBOX_SHCL_FMT_URI_LIST; LogRel2(("Shared Clipboard: File transfers are disabled, skipping reporting those to the guest\n")); } #endif #ifdef LOG_ENABLED char *pszFmts = ShClFormatsToStrA(fFormats); AssertPtrReturn(pszFmts, VERR_NO_MEMORY); LogRel2(("Shared Clipboard: Reporting formats '%s' to guest\n", pszFmts)); RTStrFree(pszFmts); #endif /* * Allocate a message, populate parameters and post it to the client. */ int rc; PSHCLCLIENTMSG pMsg = shClSvcMsgAlloc(pClient, VBOX_SHCL_HOST_MSG_FORMATS_REPORT, 2); if (pMsg) { HGCMSvcSetU32(&pMsg->aParms[0], VBOX_SHCL_HOST_MSG_FORMATS_REPORT); HGCMSvcSetU32(&pMsg->aParms[1], fFormats); RTCritSectEnter(&pClient->CritSect); shClSvcMsgAddAndWakeupClient(pClient, pMsg); RTCritSectLeave(&pClient->CritSect); #ifdef VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS /* If we announce an URI list, create a transfer locally and also tell the guest to create * a transfer on the guest side. */ if (fFormats & VBOX_SHCL_FMT_URI_LIST) { rc = shClSvcTransferStart(pClient, SHCLTRANSFERDIR_TO_REMOTE, SHCLSOURCE_LOCAL, NULL /* pTransfer */); if (RT_SUCCESS(rc)) rc = shClSvcSetSource(pClient, SHCLSOURCE_LOCAL); if (RT_FAILURE(rc)) LogRel(("Shared Clipboard: Initializing host write transfer failed with %Rrc\n", rc)); } else #endif { rc = VINF_SUCCESS; } } else rc = VERR_NO_MEMORY; if (RT_FAILURE(rc)) LogRel(("Shared Clipboard: Reporting formats %#x to guest failed with %Rrc\n", fFormats, rc)); LogFlowFuncLeaveRC(rc); return rc; } /** * Handles the VBOX_SHCL_GUEST_FN_REPORT_FORMATS message from the guest. */ static int shClSvcClientReportFormats(PSHCLCLIENT pClient, uint32_t cParms, VBOXHGCMSVCPARM paParms[]) { /* * Check if the service mode allows this operation and whether the guest is * supposed to be reading from the host. */ uint32_t uMode = ShClSvcGetMode(); if ( uMode == VBOX_SHCL_MODE_BIDIRECTIONAL || uMode == VBOX_SHCL_MODE_GUEST_TO_HOST) { /* likely */ } else return VERR_ACCESS_DENIED; /* * Digest parameters. */ ASSERT_GUEST_RETURN( cParms == VBOX_SHCL_CPARMS_REPORT_FORMATS || ( cParms == VBOX_SHCL_CPARMS_REPORT_FORMATS_61B && (pClient->State.fGuestFeatures0 & VBOX_SHCL_GF_0_CONTEXT_ID)), VERR_WRONG_PARAMETER_COUNT); uintptr_t iParm = 0; if (cParms == VBOX_SHCL_CPARMS_REPORT_FORMATS_61B) { ASSERT_GUEST_RETURN(paParms[iParm].type == VBOX_HGCM_SVC_PARM_64BIT, VERR_WRONG_PARAMETER_TYPE); /* no defined value, so just ignore it */ iParm++; } ASSERT_GUEST_RETURN(paParms[iParm].type == VBOX_HGCM_SVC_PARM_32BIT, VERR_WRONG_PARAMETER_TYPE); uint32_t const fFormats = paParms[iParm].u.uint32; iParm++; if (cParms == VBOX_SHCL_CPARMS_REPORT_FORMATS_61B) { ASSERT_GUEST_RETURN(paParms[iParm].type == VBOX_HGCM_SVC_PARM_32BIT, VERR_WRONG_PARAMETER_TYPE); ASSERT_GUEST_RETURN(paParms[iParm].u.uint32 == 0, VERR_INVALID_FLAGS); iParm++; } Assert(iParm == cParms); /* * Report the formats. * * We ignore empty reports if the guest isn't the clipboard owner, this * prevents a freshly booted guest with an empty clibpoard from clearing * the host clipboard on startup. Likewise, when a guest shutdown it will * typically issue an empty report in case it's the owner, we don't want * that to clear host content either. */ int rc; if (!fFormats && pClient->State.enmSource != SHCLSOURCE_REMOTE) rc = VINF_SUCCESS; else { rc = shClSvcSetSource(pClient, SHCLSOURCE_REMOTE); if (RT_SUCCESS(rc)) { rc = RTCritSectEnter(&g_CritSect); if (RT_SUCCESS(rc)) { if (g_ExtState.pfnExtension) { SHCLEXTPARMS parms; RT_ZERO(parms); parms.uFormat = fFormats; g_ExtState.pfnExtension(g_ExtState.pvExtension, VBOX_CLIPBOARD_EXT_FN_FORMAT_ANNOUNCE, &parms, sizeof(parms)); } else { #ifdef LOG_ENABLED char *pszFmts = ShClFormatsToStrA(fFormats); if (pszFmts) { LogRel2(("Shared Clipboard: Guest reported formats '%s' to host\n", pszFmts)); RTStrFree(pszFmts); } #endif rc = ShClBackendReportFormats(&g_ShClBackend, pClient, fFormats); if (RT_FAILURE(rc)) LogRel(("Shared Clipboard: Reporting guest clipboard formats to the host failed with %Rrc\n", rc)); } RTCritSectLeave(&g_CritSect); } else LogRel2(("Shared Clipboard: Unable to take internal lock while receiving guest clipboard announcement: %Rrc\n", rc)); } } return rc; } /** * Called when the guest wants to read host clipboard data. * Handles the VBOX_SHCL_GUEST_FN_DATA_READ message. * * @returns VBox status code. * @retval VINF_BUFFER_OVERFLOW if the guest supplied a smaller buffer than needed in order to read the host clipboard data. * @param pClient Client that wants to read host clipboard data. * @param cParms Number of HGCM parameters supplied in \a paParms. * @param paParms Array of HGCM parameters. */ static int shClSvcClientReadData(PSHCLCLIENT pClient, uint32_t cParms, VBOXHGCMSVCPARM paParms[]) { LogFlowFuncEnter(); /* * Check if the service mode allows this operation and whether the guest is * supposed to be reading from the host. */ uint32_t uMode = ShClSvcGetMode(); if ( uMode == VBOX_SHCL_MODE_BIDIRECTIONAL || uMode == VBOX_SHCL_MODE_HOST_TO_GUEST) { /* likely */ } else return VERR_ACCESS_DENIED; /* * Digest parameters. * * We are dragging some legacy here from the 6.1 dev cycle, a 5 parameter * variant which prepends a 64-bit context ID (RAZ as meaning not defined), * a 32-bit flag (MBZ, no defined meaning) and switches the last two parameters. */ ASSERT_GUEST_RETURN( cParms == VBOX_SHCL_CPARMS_DATA_READ || ( cParms == VBOX_SHCL_CPARMS_DATA_READ_61B && (pClient->State.fGuestFeatures0 & VBOX_SHCL_GF_0_CONTEXT_ID)), VERR_WRONG_PARAMETER_COUNT); uintptr_t iParm = 0; SHCLCLIENTCMDCTX cmdCtx; RT_ZERO(cmdCtx); if (cParms == VBOX_SHCL_CPARMS_DATA_READ_61B) { ASSERT_GUEST_RETURN(paParms[iParm].type == VBOX_HGCM_SVC_PARM_64BIT, VERR_WRONG_PARAMETER_TYPE); /* This has no defined meaning and was never used, however the guest passed stuff, so ignore it and leave idContext=0. */ iParm++; ASSERT_GUEST_RETURN(paParms[iParm].type == VBOX_HGCM_SVC_PARM_32BIT, VERR_WRONG_PARAMETER_TYPE); ASSERT_GUEST_RETURN(paParms[iParm].u.uint32 == 0, VERR_INVALID_FLAGS); iParm++; } SHCLFORMAT uFormat = VBOX_SHCL_FMT_NONE; uint32_t cbData = 0; void *pvData = NULL; ASSERT_GUEST_RETURN(paParms[iParm].type == VBOX_HGCM_SVC_PARM_32BIT, VERR_WRONG_PARAMETER_TYPE); uFormat = paParms[iParm].u.uint32; iParm++; if (cParms != VBOX_SHCL_CPARMS_DATA_READ_61B) { ASSERT_GUEST_RETURN(paParms[iParm].type == VBOX_HGCM_SVC_PARM_PTR, VERR_WRONG_PARAMETER_TYPE); /* Data buffer */ pvData = paParms[iParm].u.pointer.addr; cbData = paParms[iParm].u.pointer.size; iParm++; ASSERT_GUEST_RETURN(paParms[iParm].type == VBOX_HGCM_SVC_PARM_32BIT, VERR_WRONG_PARAMETER_TYPE); /*cbDataReturned*/ iParm++; } else { ASSERT_GUEST_RETURN(paParms[iParm].type == VBOX_HGCM_SVC_PARM_32BIT, VERR_WRONG_PARAMETER_TYPE); /*cbDataReturned*/ iParm++; ASSERT_GUEST_RETURN(paParms[iParm].type == VBOX_HGCM_SVC_PARM_PTR, VERR_WRONG_PARAMETER_TYPE); /* Data buffer */ pvData = paParms[iParm].u.pointer.addr; cbData = paParms[iParm].u.pointer.size; iParm++; } Assert(iParm == cParms); /* * For some reason we need to do this (makes absolutely no sense to bird). */ /** @todo r=bird: I really don't get why you need the State.POD.uFormat * member. I'm sure there is a reason. Incomplete code? */ if (!(pClient->State.fGuestFeatures0 & VBOX_SHCL_GF_0_CONTEXT_ID)) { if (pClient->State.POD.uFormat == VBOX_SHCL_FMT_NONE) pClient->State.POD.uFormat = uFormat; } #ifdef LOG_ENABLED char *pszFmt = ShClFormatsToStrA(uFormat); AssertPtrReturn(pszFmt, VERR_NO_MEMORY); LogRel2(("Shared Clipboard: Guest wants to read %RU32 bytes host clipboard data in format '%s'\n", cbData, pszFmt)); RTStrFree(pszFmt); #endif /* * Do the reading. */ uint32_t cbActual = 0; int rc = RTCritSectEnter(&g_CritSect); AssertRCReturn(rc, rc); /* If there is a service extension active, try reading data from it first. */ if (g_ExtState.pfnExtension) { SHCLEXTPARMS parms; RT_ZERO(parms); parms.uFormat = uFormat; parms.u.pvData = pvData; parms.cbData = cbData; g_ExtState.fReadingData = true; /* Read clipboard data from the extension. */ rc = g_ExtState.pfnExtension(g_ExtState.pvExtension, VBOX_CLIPBOARD_EXT_FN_DATA_READ, &parms, sizeof(parms)); LogRel2(("Shared Clipboard: Read extension clipboard data (fDelayedAnnouncement=%RTbool, fDelayedFormats=%#x, max %RU32 bytes), got %RU32 bytes: rc=%Rrc\n", g_ExtState.fDelayedAnnouncement, g_ExtState.fDelayedFormats, cbData, parms.cbData, rc)); /* Did the extension send the clipboard formats yet? * Otherwise, do this now. */ if (g_ExtState.fDelayedAnnouncement) { int rc2 = ShClSvcHostReportFormats(pClient, g_ExtState.fDelayedFormats); AssertRC(rc2); g_ExtState.fDelayedAnnouncement = false; g_ExtState.fDelayedFormats = 0; } g_ExtState.fReadingData = false; if (RT_SUCCESS(rc)) cbActual = parms.cbData; } else { rc = ShClBackendReadData(&g_ShClBackend, pClient, &cmdCtx, uFormat, pvData, cbData, &cbActual); if (RT_SUCCESS(rc)) LogRel2(("Shared Clipboard: Read host clipboard data (max %RU32 bytes), got %RU32 bytes\n", cbData, cbActual)); else LogRel(("Shared Clipboard: Reading host clipboard data failed with %Rrc\n", rc)); } if (RT_SUCCESS(rc)) { /* Return the actual size required to fullfil the request. */ if (cParms != VBOX_SHCL_CPARMS_DATA_READ_61B) HGCMSvcSetU32(&paParms[2], cbActual); else HGCMSvcSetU32(&paParms[3], cbActual); /* If the data to return exceeds the buffer the guest supplies, tell it (and let it try again). */ if (cbActual >= cbData) rc = VINF_BUFFER_OVERFLOW; } RTCritSectLeave(&g_CritSect); LogFlowFuncLeaveRC(rc); return rc; } /** * Called when the guest writes clipboard data to the host. * Handles the VBOX_SHCL_GUEST_FN_DATA_WRITE message. * * @returns VBox status code. * @param pClient Client that wants to read host clipboard data. * @param cParms Number of HGCM parameters supplied in \a paParms. * @param paParms Array of HGCM parameters. */ int shClSvcClientWriteData(PSHCLCLIENT pClient, uint32_t cParms, VBOXHGCMSVCPARM paParms[]) { LogFlowFuncEnter(); /* * Check if the service mode allows this operation and whether the guest is * supposed to be reading from the host. */ uint32_t uMode = ShClSvcGetMode(); if ( uMode == VBOX_SHCL_MODE_BIDIRECTIONAL || uMode == VBOX_SHCL_MODE_GUEST_TO_HOST) { /* likely */ } else return VERR_ACCESS_DENIED; const bool fReportsContextID = RT_BOOL(pClient->State.fGuestFeatures0 & VBOX_SHCL_GF_0_CONTEXT_ID); /* * Digest parameters. * * There are 3 different format here, formatunately no parameters have been * switch around so it's plain sailing compared to the DATA_READ message. */ ASSERT_GUEST_RETURN(fReportsContextID ? cParms == VBOX_SHCL_CPARMS_DATA_WRITE || cParms == VBOX_SHCL_CPARMS_DATA_WRITE_61B : cParms == VBOX_SHCL_CPARMS_DATA_WRITE_OLD, VERR_WRONG_PARAMETER_COUNT); uintptr_t iParm = 0; SHCLCLIENTCMDCTX cmdCtx; RT_ZERO(cmdCtx); if (cParms > VBOX_SHCL_CPARMS_DATA_WRITE_OLD) { ASSERT_GUEST_RETURN(paParms[iParm].type == VBOX_HGCM_SVC_PARM_64BIT, VERR_WRONG_PARAMETER_TYPE); cmdCtx.uContextID = paParms[iParm].u.uint64; iParm++; } else { /* Older Guest Additions (< 6.1) did not supply a context ID. * We dig it out from our saved context ID list then a bit down below. */ } if (cParms == VBOX_SHCL_CPARMS_DATA_WRITE_61B) { ASSERT_GUEST_RETURN(paParms[iParm].type == VBOX_HGCM_SVC_PARM_32BIT, VERR_WRONG_PARAMETER_TYPE); ASSERT_GUEST_RETURN(paParms[iParm].u.uint32 == 0, VERR_INVALID_FLAGS); iParm++; } SHCLFORMAT uFormat = VBOX_SHCL_FMT_NONE; uint32_t cbData = 0; void *pvData = NULL; ASSERT_GUEST_RETURN(paParms[iParm].type == VBOX_HGCM_SVC_PARM_32BIT, VERR_WRONG_PARAMETER_TYPE); /* Format bit. */ uFormat = paParms[iParm].u.uint32; iParm++; if (cParms == VBOX_SHCL_CPARMS_DATA_WRITE_61B) { ASSERT_GUEST_RETURN(paParms[iParm].type == VBOX_HGCM_SVC_PARM_32BIT, VERR_WRONG_PARAMETER_TYPE); /* "cbData" - duplicates buffer size. */ iParm++; } ASSERT_GUEST_RETURN(paParms[iParm].type == VBOX_HGCM_SVC_PARM_PTR, VERR_WRONG_PARAMETER_TYPE); /* Data buffer */ pvData = paParms[iParm].u.pointer.addr; cbData = paParms[iParm].u.pointer.size; iParm++; Assert(iParm == cParms); /* * Handle / check context ID. */ if (!fReportsContextID) /* Do we have to deal with old(er) GAs (< 6.1) which don't support context IDs? Dig out the context ID then. */ { PSHCLCLIENTLEGACYCID pCID = NULL; PSHCLCLIENTLEGACYCID pCIDIter; RTListForEach(&pClient->Legacy.lstCID, pCIDIter, SHCLCLIENTLEGACYCID, Node) /* Slow, but does the job for now. */ { if (pCIDIter->uFormat == uFormat) { pCID = pCIDIter; break; } } ASSERT_GUEST_MSG_RETURN(pCID != NULL, ("Context ID for format %#x not found\n", uFormat), VERR_INVALID_CONTEXT); cmdCtx.uContextID = pCID->uCID; /* Not needed anymore; clean up. */ Assert(pClient->Legacy.cCID); pClient->Legacy.cCID--; RTListNodeRemove(&pCID->Node); RTMemFree(pCID); } uint64_t const idCtxExpected = VBOX_SHCL_CONTEXTID_MAKE(pClient->State.uSessionID, pClient->EventSrc.uID, VBOX_SHCL_CONTEXTID_GET_EVENT(cmdCtx.uContextID)); ASSERT_GUEST_MSG_RETURN(cmdCtx.uContextID == idCtxExpected, ("Wrong context ID: %#RX64, expected %#RX64\n", cmdCtx.uContextID, idCtxExpected), VERR_INVALID_CONTEXT); /* * For some reason we need to do this (makes absolutely no sense to bird). */ /** @todo r=bird: I really don't get why you need the State.POD.uFormat * member. I'm sure there is a reason. Incomplete code? */ if (!(pClient->State.fGuestFeatures0 & VBOX_SHCL_GF_0_CONTEXT_ID)) { if (pClient->State.POD.uFormat == VBOX_SHCL_FMT_NONE) pClient->State.POD.uFormat = uFormat; } #ifdef LOG_ENABLED char *pszFmt = ShClFormatsToStrA(uFormat); if (pszFmt) { LogRel2(("Shared Clipboard: Guest writes %RU32 bytes clipboard data in format '%s' to host\n", cbData, pszFmt)); RTStrFree(pszFmt); } #endif /* * Write the data to the active host side clipboard. */ int rc = RTCritSectEnter(&g_CritSect); AssertRCReturn(rc, rc); if (g_ExtState.pfnExtension) { SHCLEXTPARMS parms; RT_ZERO(parms); parms.uFormat = uFormat; parms.u.pvData = pvData; parms.cbData = cbData; g_ExtState.pfnExtension(g_ExtState.pvExtension, VBOX_CLIPBOARD_EXT_FN_DATA_WRITE, &parms, sizeof(parms)); rc = VINF_SUCCESS; } else { /* Let the backend implementation know. */ rc = ShClBackendWriteData(&g_ShClBackend, pClient, &cmdCtx, uFormat, pvData, cbData); if (RT_FAILURE(rc)) LogRel(("Shared Clipboard: Writing guest clipboard data to the host failed with %Rrc\n", rc)); int rc2; /* Don't return internals back to the guest. */ rc2 = ShClSvcGuestDataSignal(pClient, &cmdCtx, uFormat, pvData, cbData); /* To complete pending events, if any. */ if (RT_FAILURE(rc2)) LogRel(("Shared Clipboard: Signalling host about guest clipboard data failed with %Rrc\n", rc2)); AssertRC(rc2); } RTCritSectLeave(&g_CritSect); LogFlowFuncLeaveRC(rc); return rc; } /** * Gets an error from HGCM service parameters. * * @returns VBox status code. * @param cParms Number of HGCM parameters supplied in \a paParms. * @param paParms Array of HGCM parameters. * @param pRc Where to store the received error code. */ static int shClSvcClientError(uint32_t cParms, VBOXHGCMSVCPARM paParms[], int *pRc) { AssertPtrReturn(paParms, VERR_INVALID_PARAMETER); AssertPtrReturn(pRc, VERR_INVALID_PARAMETER); int rc; if (cParms == VBOX_SHCL_CPARMS_ERROR) { rc = HGCMSvcGetU32(&paParms[1], (uint32_t *)pRc); /** @todo int vs. uint32_t !!! */ } else rc = VERR_INVALID_PARAMETER; LogFlowFuncLeaveRC(rc); return rc; } /** * Sets the transfer source type of a Shared Clipboard client. * * @returns VBox status code. * @param pClient Client to set transfer source type for. * @param enmSource Source type to set. */ int shClSvcSetSource(PSHCLCLIENT pClient, SHCLSOURCE enmSource) { if (!pClient) /* If no client connected (anymore), bail out. */ return VINF_SUCCESS; int rc = VINF_SUCCESS; if (ShClSvcLock()) { pClient->State.enmSource = enmSource; LogFlowFunc(("Source of client %RU32 is now %RU32\n", pClient->State.uClientID, pClient->State.enmSource)); ShClSvcUnlock(); } LogFlowFuncLeaveRC(rc); return rc; } static int svcInit(VBOXHGCMSVCFNTABLE *pTable) { int rc = RTCritSectInit(&g_CritSect); if (RT_SUCCESS(rc)) { shClSvcModeSet(VBOX_SHCL_MODE_OFF); rc = ShClBackendInit(ShClSvcGetBackend(), pTable); /* Clean up on failure, because 'svnUnload' will not be called * if the 'svcInit' returns an error. */ if (RT_FAILURE(rc)) { RTCritSectDelete(&g_CritSect); } } return rc; } static DECLCALLBACK(int) svcUnload(void *) { LogFlowFuncEnter(); ShClBackendDestroy(ShClSvcGetBackend()); RTCritSectDelete(&g_CritSect); return VINF_SUCCESS; } static DECLCALLBACK(int) svcDisconnect(void *, uint32_t u32ClientID, void *pvClient) { LogFunc(("u32ClientID=%RU32\n", u32ClientID)); PSHCLCLIENT pClient = (PSHCLCLIENT)pvClient; AssertPtr(pClient); /* In order to communicate with guest service, HGCM VRDP clipboard extension * needs to know its connection client ID. Currently, in svcConnect() we always * cache ID of the first ever connected client. When client disconnects, * we need to forget its ID and let svcConnect() to pick up the next ID when a new * connection will be requested by guest service (see #10115). */ if (g_ExtState.uClientID == u32ClientID) { g_ExtState.uClientID = 0; } #ifdef VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS shClSvcClientTransfersReset(pClient); #endif ShClBackendDisconnect(&g_ShClBackend, pClient); shClSvcClientDestroy(pClient); return VINF_SUCCESS; } static DECLCALLBACK(int) svcConnect(void *, uint32_t u32ClientID, void *pvClient, uint32_t fRequestor, bool fRestoring) { RT_NOREF(fRequestor, fRestoring); PSHCLCLIENT pClient = (PSHCLCLIENT)pvClient; AssertPtr(pvClient); int rc = shClSvcClientInit(pClient, u32ClientID); if (RT_SUCCESS(rc)) { /* Assign weak pointer to client map. */ /** @todo r=bird: The g_mapClients is only there for looking up * g_ExtState.uClientID (unserialized btw), so why not use store the * pClient value directly in g_ExtState instead of the ID? It cannot * crash any worse that racing map insertion/removal. */ g_mapClients[u32ClientID] = pClient; /** @todo Handle OOM / collisions? */ rc = ShClBackendConnect(&g_ShClBackend, pClient, ShClSvcGetHeadless()); if (RT_SUCCESS(rc)) { /* Sync the host clipboard content with the client. */ rc = ShClBackendSync(&g_ShClBackend, pClient); if (RT_SUCCESS(rc)) { /* For now we ASSUME that the first client that connects is in charge for communicating with the service extension. */ /** @todo This isn't optimal, but only the guest really knows which client is in * focus on the console. See @bugref{10115} for details. */ if (g_ExtState.uClientID == 0) g_ExtState.uClientID = u32ClientID; /* The sync could return VINF_NO_CHANGE if nothing has changed on the host, but older Guest Additions didn't use RT_SUCCESS to but == VINF_SUCCESS to check for success. So just return VINF_SUCCESS here to not break older Guest Additions. */ LogFunc(("Successfully connected client %#x%s\n", u32ClientID, g_ExtState.uClientID == u32ClientID ? " - Use by ExtState too" : "")); return VINF_SUCCESS; } LogFunc(("ShClBackendSync failed: %Rrc\n", rc)); ShClBackendDisconnect(&g_ShClBackend, pClient); } else LogFunc(("ShClBackendConnect failed: %Rrc\n", rc)); shClSvcClientDestroy(pClient); } else LogFunc(("shClSvcClientInit failed: %Rrc\n", rc)); LogFlowFuncLeaveRC(rc); return rc; } static DECLCALLBACK(void) svcCall(void *, VBOXHGCMCALLHANDLE callHandle, uint32_t u32ClientID, void *pvClient, uint32_t u32Function, uint32_t cParms, VBOXHGCMSVCPARM paParms[], uint64_t tsArrival) { RT_NOREF(u32ClientID, pvClient, tsArrival); PSHCLCLIENT pClient = (PSHCLCLIENT)pvClient; AssertPtr(pClient); #ifdef LOG_ENABLED Log2Func(("u32ClientID=%RU32, fn=%RU32 (%s), cParms=%RU32, paParms=%p\n", u32ClientID, u32Function, ShClGuestMsgToStr(u32Function), cParms, paParms)); for (uint32_t i = 0; i < cParms; i++) { switch (paParms[i].type) { case VBOX_HGCM_SVC_PARM_32BIT: Log3Func((" paParms[%RU32]: type uint32_t - value %RU32\n", i, paParms[i].u.uint32)); break; case VBOX_HGCM_SVC_PARM_64BIT: Log3Func((" paParms[%RU32]: type uint64_t - value %RU64\n", i, paParms[i].u.uint64)); break; case VBOX_HGCM_SVC_PARM_PTR: Log3Func((" paParms[%RU32]: type ptr - value 0x%p (%RU32 bytes)\n", i, paParms[i].u.pointer.addr, paParms[i].u.pointer.size)); break; case VBOX_HGCM_SVC_PARM_PAGES: Log3Func((" paParms[%RU32]: type pages - cb=%RU32, cPages=%RU16\n", i, paParms[i].u.Pages.cb, paParms[i].u.Pages.cPages)); break; default: AssertFailed(); } } Log2Func(("Client state: fFlags=0x%x, fGuestFeatures0=0x%x, fGuestFeatures1=0x%x\n", pClient->State.fFlags, pClient->State.fGuestFeatures0, pClient->State.fGuestFeatures1)); #endif int rc; switch (u32Function) { case VBOX_SHCL_GUEST_FN_MSG_OLD_GET_WAIT: RTCritSectEnter(&pClient->CritSect); rc = shClSvcClientMsgOldGet(pClient, callHandle, cParms, paParms); RTCritSectLeave(&pClient->CritSect); break; case VBOX_SHCL_GUEST_FN_CONNECT: LogRel(("Shared Clipboard: 6.1.0 beta or rc Guest Additions detected. Please upgrade!\n")); rc = VERR_NOT_IMPLEMENTED; break; case VBOX_SHCL_GUEST_FN_NEGOTIATE_CHUNK_SIZE: rc = shClSvcClientNegogiateChunkSize(pClient, callHandle, cParms, paParms); break; case VBOX_SHCL_GUEST_FN_REPORT_FEATURES: rc = shClSvcClientReportFeatures(pClient, callHandle, cParms, paParms); break; case VBOX_SHCL_GUEST_FN_QUERY_FEATURES: rc = shClSvcClientQueryFeatures(callHandle, cParms, paParms); break; case VBOX_SHCL_GUEST_FN_MSG_PEEK_NOWAIT: RTCritSectEnter(&pClient->CritSect); rc = shClSvcClientMsgPeek(pClient, callHandle, cParms, paParms, false /*fWait*/); RTCritSectLeave(&pClient->CritSect); break; case VBOX_SHCL_GUEST_FN_MSG_PEEK_WAIT: RTCritSectEnter(&pClient->CritSect); rc = shClSvcClientMsgPeek(pClient, callHandle, cParms, paParms, true /*fWait*/); RTCritSectLeave(&pClient->CritSect); break; case VBOX_SHCL_GUEST_FN_MSG_GET: RTCritSectEnter(&pClient->CritSect); rc = shClSvcClientMsgGet(pClient, callHandle, cParms, paParms); RTCritSectLeave(&pClient->CritSect); break; case VBOX_SHCL_GUEST_FN_MSG_CANCEL: RTCritSectEnter(&pClient->CritSect); rc = shClSvcClientMsgCancel(pClient, cParms); RTCritSectLeave(&pClient->CritSect); break; case VBOX_SHCL_GUEST_FN_REPORT_FORMATS: rc = shClSvcClientReportFormats(pClient, cParms, paParms); break; case VBOX_SHCL_GUEST_FN_DATA_READ: rc = shClSvcClientReadData(pClient, cParms, paParms); break; case VBOX_SHCL_GUEST_FN_DATA_WRITE: rc = shClSvcClientWriteData(pClient, cParms, paParms); break; case VBOX_SHCL_GUEST_FN_ERROR: { int rcGuest; rc = shClSvcClientError(cParms,paParms, &rcGuest); if (RT_SUCCESS(rc)) { LogRel(("Shared Clipboard: Error reported from guest side: %Rrc\n", rcGuest)); shClSvcClientLock(pClient); #ifdef VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS shClSvcClientTransfersReset(pClient); #endif shClSvcClientUnlock(pClient); } break; } default: { #ifdef VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS if ( u32Function <= VBOX_SHCL_GUEST_FN_LAST && (pClient->State.fGuestFeatures0 & VBOX_SHCL_GF_0_CONTEXT_ID) ) { if (g_fTransferMode & VBOX_SHCL_TRANSFER_MODE_ENABLED) rc = shClSvcTransferHandler(pClient, callHandle, u32Function, cParms, paParms, tsArrival); else { LogRel2(("Shared Clipboard: File transfers are disabled for this VM\n")); rc = VERR_ACCESS_DENIED; } } else #endif { LogRel2(("Shared Clipboard: Unknown guest function: %u (%#x)\n", u32Function, u32Function)); rc = VERR_NOT_IMPLEMENTED; } break; } } LogFlowFunc(("[Client %RU32] rc=%Rrc\n", pClient->State.uClientID, rc)); if (rc != VINF_HGCM_ASYNC_EXECUTE) g_pHelpers->pfnCallComplete(callHandle, rc); } /** * Initializes a Shared Clipboard service's client state. * * @returns VBox status code. * @param pClientState Client state to initialize. * @param uClientID Client ID (HGCM) to use for this client state. */ int shClSvcClientStateInit(PSHCLCLIENTSTATE pClientState, uint32_t uClientID) { LogFlowFuncEnter(); shclSvcClientStateReset(pClientState); /* Register the client. */ pClientState->uClientID = uClientID; return VINF_SUCCESS; } /** * Destroys a Shared Clipboard service's client state. * * @returns VBox status code. * @param pClientState Client state to destroy. */ int shClSvcClientStateDestroy(PSHCLCLIENTSTATE pClientState) { RT_NOREF(pClientState); LogFlowFuncEnter(); return VINF_SUCCESS; } /** * Resets a Shared Clipboard service's client state. * * @param pClientState Client state to reset. */ void shclSvcClientStateReset(PSHCLCLIENTSTATE pClientState) { LogFlowFuncEnter(); pClientState->fGuestFeatures0 = VBOX_SHCL_GF_NONE; pClientState->fGuestFeatures1 = VBOX_SHCL_GF_NONE; pClientState->cbChunkSize = VBOX_SHCL_DEFAULT_CHUNK_SIZE; /** @todo Make this configurable. */ pClientState->enmSource = SHCLSOURCE_INVALID; pClientState->fFlags = SHCLCLIENTSTATE_FLAGS_NONE; pClientState->POD.enmDir = SHCLTRANSFERDIR_UNKNOWN; pClientState->POD.uFormat = VBOX_SHCL_FMT_NONE; pClientState->POD.cbToReadWriteTotal = 0; pClientState->POD.cbReadWritten = 0; #ifdef VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS pClientState->Transfers.enmTransferDir = SHCLTRANSFERDIR_UNKNOWN; #endif } /* * We differentiate between a function handler for the guest and one for the host. */ static DECLCALLBACK(int) svcHostCall(void *, uint32_t u32Function, uint32_t cParms, VBOXHGCMSVCPARM paParms[]) { int rc = VINF_SUCCESS; LogFlowFunc(("u32Function=%RU32 (%s), cParms=%RU32, paParms=%p\n", u32Function, ShClHostFunctionToStr(u32Function), cParms, paParms)); switch (u32Function) { case VBOX_SHCL_HOST_FN_SET_MODE: { if (cParms != 1) { rc = VERR_INVALID_PARAMETER; } else { uint32_t u32Mode = VBOX_SHCL_MODE_OFF; rc = HGCMSvcGetU32(&paParms[0], &u32Mode); if (RT_SUCCESS(rc)) rc = shClSvcModeSet(u32Mode); } break; } #ifdef VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS case VBOX_SHCL_HOST_FN_SET_TRANSFER_MODE: { if (cParms != 1) { rc = VERR_INVALID_PARAMETER; } else { uint32_t fTransferMode; rc = HGCMSvcGetU32(&paParms[0], &fTransferMode); if (RT_SUCCESS(rc)) rc = shClSvcTransferModeSet(fTransferMode); } break; } #endif case VBOX_SHCL_HOST_FN_SET_HEADLESS: { if (cParms != 1) { rc = VERR_INVALID_PARAMETER; } else { uint32_t uHeadless; rc = HGCMSvcGetU32(&paParms[0], &uHeadless); if (RT_SUCCESS(rc)) { g_fHeadless = RT_BOOL(uHeadless); LogRel(("Shared Clipboard: Service running in %s mode\n", g_fHeadless ? "headless" : "normal")); } } break; } default: { #ifdef VBOX_WITH_SHARED_CLIPBOARD_TRANSFERS rc = shClSvcTransferHostHandler(u32Function, cParms, paParms); #else rc = VERR_NOT_IMPLEMENTED; #endif break; } } LogFlowFuncLeaveRC(rc); return rc; } #ifndef UNIT_TEST /** * SSM descriptor table for the SHCLCLIENTLEGACYCID structure. * * @note Saving the ListEntry attribute is not necessary, as this gets used on runtime only. */ static SSMFIELD const s_aShClSSMClientLegacyCID[] = { SSMFIELD_ENTRY(SHCLCLIENTLEGACYCID, uCID), SSMFIELD_ENTRY(SHCLCLIENTLEGACYCID, enmType), SSMFIELD_ENTRY(SHCLCLIENTLEGACYCID, uFormat), SSMFIELD_ENTRY_TERM() }; /** * SSM descriptor table for the SHCLCLIENTSTATE structure. * * @note Saving the session ID not necessary, as they're not persistent across * state save/restore. */ static SSMFIELD const s_aShClSSMClientState[] = { SSMFIELD_ENTRY(SHCLCLIENTSTATE, fGuestFeatures0), SSMFIELD_ENTRY(SHCLCLIENTSTATE, fGuestFeatures1), SSMFIELD_ENTRY(SHCLCLIENTSTATE, cbChunkSize), SSMFIELD_ENTRY(SHCLCLIENTSTATE, enmSource), SSMFIELD_ENTRY(SHCLCLIENTSTATE, fFlags), SSMFIELD_ENTRY_TERM() }; /** * VBox 6.1 Beta 1 version of s_aShClSSMClientState (no flags). */ static SSMFIELD const s_aShClSSMClientState61B1[] = { SSMFIELD_ENTRY(SHCLCLIENTSTATE, fGuestFeatures0), SSMFIELD_ENTRY(SHCLCLIENTSTATE, fGuestFeatures1), SSMFIELD_ENTRY(SHCLCLIENTSTATE, cbChunkSize), SSMFIELD_ENTRY(SHCLCLIENTSTATE, enmSource), SSMFIELD_ENTRY_TERM() }; /** * SSM descriptor table for the SHCLCLIENTPODSTATE structure. */ static SSMFIELD const s_aShClSSMClientPODState[] = { SSMFIELD_ENTRY(SHCLCLIENTPODSTATE, enmDir), SSMFIELD_ENTRY(SHCLCLIENTPODSTATE, uFormat), SSMFIELD_ENTRY(SHCLCLIENTPODSTATE, cbToReadWriteTotal), SSMFIELD_ENTRY(SHCLCLIENTPODSTATE, cbReadWritten), SSMFIELD_ENTRY(SHCLCLIENTPODSTATE, tsLastReadWrittenMs), SSMFIELD_ENTRY_TERM() }; /** * SSM descriptor table for the SHCLCLIENTURISTATE structure. */ static SSMFIELD const s_aShClSSMClientTransferState[] = { SSMFIELD_ENTRY(SHCLCLIENTTRANSFERSTATE, enmTransferDir), SSMFIELD_ENTRY_TERM() }; /** * SSM descriptor table for the header of the SHCLCLIENTMSG structure. * The actual message parameters will be serialized separately. */ static SSMFIELD const s_aShClSSMClientMsgHdr[] = { SSMFIELD_ENTRY(SHCLCLIENTMSG, idMsg), SSMFIELD_ENTRY(SHCLCLIENTMSG, cParms), SSMFIELD_ENTRY_TERM() }; /** * SSM descriptor table for what used to be the VBOXSHCLMSGCTX structure but is * now part of SHCLCLIENTMSG. */ static SSMFIELD const s_aShClSSMClientMsgCtx[] = { SSMFIELD_ENTRY(SHCLCLIENTMSG, idCtx), SSMFIELD_ENTRY_TERM() }; #endif /* !UNIT_TEST */ static DECLCALLBACK(int) svcSaveState(void *, uint32_t u32ClientID, void *pvClient, PSSMHANDLE pSSM, PCVMMR3VTABLE pVMM) { LogFlowFuncEnter(); #ifndef UNIT_TEST /* * When the state will be restored, pending requests will be reissued * by VMMDev. The service therefore must save state as if there were no * pending request. * Pending requests, if any, will be completed in svcDisconnect. */ RT_NOREF(u32ClientID); LogFunc(("u32ClientID=%RU32\n", u32ClientID)); PSHCLCLIENT pClient = (PSHCLCLIENT)pvClient; AssertPtr(pClient); /* Write Shared Clipboard saved state version. */ pVMM->pfnSSMR3PutU32(pSSM, VBOX_SHCL_SAVED_STATE_VER_CURRENT); int rc = pVMM->pfnSSMR3PutStructEx(pSSM, &pClient->State, sizeof(pClient->State), 0 /*fFlags*/, &s_aShClSSMClientState[0], NULL); AssertRCReturn(rc, rc); rc = pVMM->pfnSSMR3PutStructEx(pSSM, &pClient->State.POD, sizeof(pClient->State.POD), 0 /*fFlags*/, &s_aShClSSMClientPODState[0], NULL); AssertRCReturn(rc, rc); rc = pVMM->pfnSSMR3PutStructEx(pSSM, &pClient->State.Transfers, sizeof(pClient->State.Transfers), 0 /*fFlags*/, &s_aShClSSMClientTransferState[0], NULL); AssertRCReturn(rc, rc); /* Serialize the client's internal message queue. */ rc = pVMM->pfnSSMR3PutU64(pSSM, pClient->cMsgAllocated); AssertRCReturn(rc, rc); PSHCLCLIENTMSG pMsg; RTListForEach(&pClient->MsgQueue, pMsg, SHCLCLIENTMSG, ListEntry) { pVMM->pfnSSMR3PutStructEx(pSSM, pMsg, sizeof(SHCLCLIENTMSG), 0 /*fFlags*/, &s_aShClSSMClientMsgHdr[0], NULL); pVMM->pfnSSMR3PutStructEx(pSSM, pMsg, sizeof(SHCLCLIENTMSG), 0 /*fFlags*/, &s_aShClSSMClientMsgCtx[0], NULL); for (uint32_t iParm = 0; iParm < pMsg->cParms; iParm++) HGCMSvcSSMR3Put(&pMsg->aParms[iParm], pSSM, pVMM); } rc = pVMM->pfnSSMR3PutU64(pSSM, pClient->Legacy.cCID); AssertRCReturn(rc, rc); PSHCLCLIENTLEGACYCID pCID; RTListForEach(&pClient->Legacy.lstCID, pCID, SHCLCLIENTLEGACYCID, Node) { rc = pVMM->pfnSSMR3PutStructEx(pSSM, pCID, sizeof(SHCLCLIENTLEGACYCID), 0 /*fFlags*/, &s_aShClSSMClientLegacyCID[0], NULL); AssertRCReturn(rc, rc); } #else /* UNIT_TEST */ RT_NOREF(u32ClientID, pvClient, pSSM, pVMM); #endif /* UNIT_TEST */ return VINF_SUCCESS; } #ifndef UNIT_TEST static int svcLoadStateV0(uint32_t u32ClientID, void *pvClient, PSSMHANDLE pSSM, PCVMMR3VTABLE pVMM, uint32_t uVersion) { RT_NOREF(u32ClientID, pvClient, pSSM, uVersion); uint32_t uMarker; int rc = pVMM->pfnSSMR3GetU32(pSSM, &uMarker); /* Begin marker. */ AssertRC(rc); Assert(uMarker == UINT32_C(0x19200102) /* SSMR3STRUCT_BEGIN */); rc = pVMM->pfnSSMR3Skip(pSSM, sizeof(uint32_t)); /* Client ID */ AssertRCReturn(rc, rc); bool fValue; rc = pVMM->pfnSSMR3GetBool(pSSM, &fValue); /* fHostMsgQuit */ AssertRCReturn(rc, rc); rc = pVMM->pfnSSMR3GetBool(pSSM, &fValue); /* fHostMsgReadData */ AssertRCReturn(rc, rc); rc = pVMM->pfnSSMR3GetBool(pSSM, &fValue); /* fHostMsgFormats */ AssertRCReturn(rc, rc); uint32_t fFormats; rc = pVMM->pfnSSMR3GetU32(pSSM, &fFormats); /* u32RequestedFormat */ AssertRCReturn(rc, rc); rc = pVMM->pfnSSMR3GetU32(pSSM, &uMarker); /* End marker. */ AssertRCReturn(rc, rc); Assert(uMarker == UINT32_C(0x19920406) /* SSMR3STRUCT_END */); return VINF_SUCCESS; } #endif /* UNIT_TEST */ static DECLCALLBACK(int) svcLoadState(void *, uint32_t u32ClientID, void *pvClient, PSSMHANDLE pSSM, PCVMMR3VTABLE pVMM, uint32_t uVersion) { LogFlowFuncEnter(); #ifndef UNIT_TEST RT_NOREF(u32ClientID, uVersion); PSHCLCLIENT pClient = (PSHCLCLIENT)pvClient; AssertPtr(pClient); /* Restore the client data. */ uint32_t lenOrVer; int rc = pVMM->pfnSSMR3GetU32(pSSM, &lenOrVer); AssertRCReturn(rc, rc); LogFunc(("u32ClientID=%RU32, lenOrVer=%#RX64\n", u32ClientID, lenOrVer)); if (lenOrVer == VBOX_SHCL_SAVED_STATE_VER_3_1) return svcLoadStateV0(u32ClientID, pvClient, pSSM, pVMM, uVersion); if ( lenOrVer >= VBOX_SHCL_SAVED_STATE_VER_6_1B2 && lenOrVer <= VBOX_SHCL_SAVED_STATE_VER_CURRENT) { if (lenOrVer >= VBOX_SHCL_SAVED_STATE_VER_6_1RC1) { pVMM->pfnSSMR3GetStructEx(pSSM, &pClient->State, sizeof(pClient->State), 0 /* fFlags */, &s_aShClSSMClientState[0], NULL); pVMM->pfnSSMR3GetStructEx(pSSM, &pClient->State.POD, sizeof(pClient->State.POD), 0 /* fFlags */, &s_aShClSSMClientPODState[0], NULL); } else pVMM->pfnSSMR3GetStructEx(pSSM, &pClient->State, sizeof(pClient->State), 0 /* fFlags */, &s_aShClSSMClientState61B1[0], NULL); rc = pVMM->pfnSSMR3GetStructEx(pSSM, &pClient->State.Transfers, sizeof(pClient->State.Transfers), 0 /* fFlags */, &s_aShClSSMClientTransferState[0], NULL); AssertRCReturn(rc, rc); /* Load the client's internal message queue. */ uint64_t cMsgs; rc = pVMM->pfnSSMR3GetU64(pSSM, &cMsgs); AssertRCReturn(rc, rc); AssertLogRelMsgReturn(cMsgs < _16K, ("Too many messages: %u (%x)\n", cMsgs, cMsgs), VERR_SSM_DATA_UNIT_FORMAT_CHANGED); for (uint64_t i = 0; i < cMsgs; i++) { union { SHCLCLIENTMSG Msg; uint8_t abPadding[RT_UOFFSETOF(SHCLCLIENTMSG, aParms) + sizeof(VBOXHGCMSVCPARM) * 2]; } u; pVMM->pfnSSMR3GetStructEx(pSSM, &u.Msg, RT_UOFFSETOF(SHCLCLIENTMSG, aParms), 0 /*fFlags*/, &s_aShClSSMClientMsgHdr[0], NULL); rc = pVMM->pfnSSMR3GetStructEx(pSSM, &u.Msg, RT_UOFFSETOF(SHCLCLIENTMSG, aParms), 0 /*fFlags*/, &s_aShClSSMClientMsgCtx[0], NULL); AssertRCReturn(rc, rc); AssertLogRelMsgReturn(u.Msg.cParms <= VMMDEV_MAX_HGCM_PARMS, ("Too many HGCM message parameters: %u (%#x)\n", u.Msg.cParms, u.Msg.cParms), VERR_SSM_DATA_UNIT_FORMAT_CHANGED); PSHCLCLIENTMSG pMsg = shClSvcMsgAlloc(pClient, u.Msg.idMsg, u.Msg.cParms); AssertReturn(pMsg, VERR_NO_MEMORY); pMsg->idCtx = u.Msg.idCtx; for (uint32_t p = 0; p < pMsg->cParms; p++) { rc = HGCMSvcSSMR3Get(&pMsg->aParms[p], pSSM, pVMM); AssertRCReturnStmt(rc, shClSvcMsgFree(pClient, pMsg), rc); } RTCritSectEnter(&pClient->CritSect); shClSvcMsgAdd(pClient, pMsg, true /* fAppend */); RTCritSectLeave(&pClient->CritSect); } if (lenOrVer >= VBOX_SHCL_SAVED_STATE_LEGACY_CID) { uint64_t cCID; rc = pVMM->pfnSSMR3GetU64(pSSM, &cCID); AssertRCReturn(rc, rc); AssertLogRelMsgReturn(cCID < _16K, ("Too many context IDs: %u (%x)\n", cCID, cCID), VERR_SSM_DATA_UNIT_FORMAT_CHANGED); for (uint64_t i = 0; i < cCID; i++) { PSHCLCLIENTLEGACYCID pCID = (PSHCLCLIENTLEGACYCID)RTMemAlloc(sizeof(SHCLCLIENTLEGACYCID)); AssertPtrReturn(pCID, VERR_NO_MEMORY); pVMM->pfnSSMR3GetStructEx(pSSM, pCID, sizeof(SHCLCLIENTLEGACYCID), 0 /* fFlags */, &s_aShClSSMClientLegacyCID[0], NULL); RTListAppend(&pClient->Legacy.lstCID, &pCID->Node); } } } else { LogRel(("Shared Clipboard: Unsupported saved state version (%#x)\n", lenOrVer)); return VERR_SSM_DATA_UNIT_FORMAT_CHANGED; } /* Actual host data are to be reported to guest (SYNC). */ ShClBackendSync(&g_ShClBackend, pClient); #else /* UNIT_TEST */ RT_NOREF(u32ClientID, pvClient, pSSM, pVMM, uVersion); #endif /* UNIT_TEST */ return VINF_SUCCESS; } static DECLCALLBACK(int) extCallback(uint32_t u32Function, uint32_t u32Format, void *pvData, uint32_t cbData) { RT_NOREF(pvData, cbData); LogFlowFunc(("u32Function=%RU32\n", u32Function)); int rc = VINF_SUCCESS; /* Figure out if the client in charge for the service extension still is connected. */ ClipboardClientMap::const_iterator itClient = g_mapClients.find(g_ExtState.uClientID); if (itClient != g_mapClients.end()) { PSHCLCLIENT pClient = itClient->second; AssertPtr(pClient); switch (u32Function) { /* The service extension announces formats to the guest. */ case VBOX_CLIPBOARD_EXT_FN_FORMAT_ANNOUNCE: { LogFlowFunc(("VBOX_CLIPBOARD_EXT_FN_FORMAT_ANNOUNCE: g_ExtState.fReadingData=%RTbool\n", g_ExtState.fReadingData)); if (!g_ExtState.fReadingData) rc = ShClSvcHostReportFormats(pClient, u32Format); else { g_ExtState.fDelayedAnnouncement = true; g_ExtState.fDelayedFormats = u32Format; rc = VINF_SUCCESS; } break; } /* The service extension wants read data from the guest. */ case VBOX_CLIPBOARD_EXT_FN_DATA_READ: rc = ShClSvcGuestDataRequest(pClient, u32Format, NULL /* pidEvent */); break; default: /* Just skip other messages. */ break; } } else rc = VERR_NOT_FOUND; LogFlowFuncLeaveRC(rc); return rc; } static DECLCALLBACK(int) svcRegisterExtension(void *, PFNHGCMSVCEXT pfnExtension, void *pvExtension) { LogFlowFunc(("pfnExtension=%p\n", pfnExtension)); SHCLEXTPARMS parms; RT_ZERO(parms); /* * Reference counting for service extension registration is done a few * layers up (in ConsoleVRDPServer::ClipboardCreate()). */ int rc = RTCritSectEnter(&g_CritSect); AssertLogRelRCReturn(rc, rc); if (pfnExtension) { /* Install extension. */ g_ExtState.pfnExtension = pfnExtension; g_ExtState.pvExtension = pvExtension; parms.u.pfnCallback = extCallback; g_ExtState.pfnExtension(g_ExtState.pvExtension, VBOX_CLIPBOARD_EXT_FN_SET_CALLBACK, &parms, sizeof(parms)); LogRel2(("Shared Clipboard: registered service extension\n")); } else { if (g_ExtState.pfnExtension) g_ExtState.pfnExtension(g_ExtState.pvExtension, VBOX_CLIPBOARD_EXT_FN_SET_CALLBACK, &parms, sizeof(parms)); /* Uninstall extension. */ g_ExtState.pvExtension = NULL; g_ExtState.pfnExtension = NULL; LogRel2(("Shared Clipboard: de-registered service extension\n")); } RTCritSectLeave(&g_CritSect); return VINF_SUCCESS; } extern "C" DECLCALLBACK(DECLEXPORT(int)) VBoxHGCMSvcLoad(VBOXHGCMSVCFNTABLE *pTable) { int rc = VINF_SUCCESS; LogFlowFunc(("pTable=%p\n", pTable)); if (!RT_VALID_PTR(pTable)) { rc = VERR_INVALID_PARAMETER; } else { LogFunc(("pTable->cbSize = %d, ptable->u32Version = 0x%08X\n", pTable->cbSize, pTable->u32Version)); if ( pTable->cbSize != sizeof (VBOXHGCMSVCFNTABLE) || pTable->u32Version != VBOX_HGCM_SVC_VERSION) { rc = VERR_VERSION_MISMATCH; } else { g_pHelpers = pTable->pHelpers; pTable->cbClient = sizeof(SHCLCLIENT); /* Map legacy clients to root. */ pTable->idxLegacyClientCategory = HGCM_CLIENT_CATEGORY_ROOT; /* Limit the number of clients to 128 in each category (should be enough), but set kernel clients to 1. */ for (uintptr_t i = 0; i < RT_ELEMENTS(pTable->acMaxClients); i++) pTable->acMaxClients[i] = 128; pTable->acMaxClients[HGCM_CLIENT_CATEGORY_KERNEL] = 1; /* Only 16 pending calls per client (1 should be enough). */ for (uintptr_t i = 0; i < RT_ELEMENTS(pTable->acMaxClients); i++) pTable->acMaxCallsPerClient[i] = 16; pTable->pfnUnload = svcUnload; pTable->pfnConnect = svcConnect; pTable->pfnDisconnect = svcDisconnect; pTable->pfnCall = svcCall; pTable->pfnHostCall = svcHostCall; pTable->pfnSaveState = svcSaveState; pTable->pfnLoadState = svcLoadState; pTable->pfnRegisterExtension = svcRegisterExtension; pTable->pfnNotify = NULL; pTable->pvService = NULL; /* Service specific initialization. */ rc = svcInit(pTable); } } LogFlowFunc(("Returning %Rrc\n", rc)); return rc; }