/* $Id: GuestCtrlImplPrivate.h 84857 2020-06-17 07:46:06Z vboxsync $ */ /** @file * Internal helpers/structures for guest control functionality. */ /* * Copyright (C) 2011-2020 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ #ifndef MAIN_INCLUDED_GuestCtrlImplPrivate_h #define MAIN_INCLUDED_GuestCtrlImplPrivate_h #ifndef RT_WITHOUT_PRAGMA_ONCE # pragma once #endif #include "ConsoleImpl.h" #include "Global.h" #include #include #include #include #include #include #include #include #include /* VERR_GSTCTL_GUEST_ERROR */ #include #include using namespace com; #ifdef VBOX_WITH_GUEST_CONTROL # include # include using namespace guestControl; #endif /** Vector holding a process' CPU affinity. */ typedef std::vector ProcessAffinity; /** Vector holding process startup arguments. */ typedef std::vector ProcessArguments; class GuestProcessStreamBlock; class GuestSession; /** * Simple structure mantaining guest credentials. */ struct GuestCredentials { Utf8Str mUser; Utf8Str mPassword; Utf8Str mDomain; }; /** * Wrapper around the RTEnv API, unusable base class. * * @remarks Feel free to elevate this class to iprt/cpp/env.h as RTCEnv. */ class GuestEnvironmentBase { public: /** * Default constructor. * * The user must invoke one of the init methods before using the object. */ GuestEnvironmentBase(void) : m_hEnv(NIL_RTENV) , m_cRefs(1) , m_fFlags(0) { } /** * Destructor. */ virtual ~GuestEnvironmentBase(void) { Assert(m_cRefs <= 1); int rc = RTEnvDestroy(m_hEnv); AssertRC(rc); m_hEnv = NIL_RTENV; } /** * Retains a reference to this object. * @returns New reference count. * @remarks Sharing an object is currently only safe if no changes are made to * it because RTENV does not yet implement any locking. For the only * purpose we need this, implementing IGuestProcess::environment by * using IGuestSession::environmentBase, that's fine as the session * base environment is immutable. */ uint32_t retain(void) { uint32_t cRefs = ASMAtomicIncU32(&m_cRefs); Assert(cRefs > 1); Assert(cRefs < _1M); return cRefs; } /** Useful shortcut. */ uint32_t retainConst(void) const { return unconst(this)->retain(); } /** * Releases a reference to this object, deleting the object when reaching zero. * @returns New reference count. */ uint32_t release(void) { uint32_t cRefs = ASMAtomicDecU32(&m_cRefs); Assert(cRefs < _1M); if (cRefs == 0) delete this; return cRefs; } /** Useful shortcut. */ uint32_t releaseConst(void) const { return unconst(this)->retain(); } /** * Checks if the environment has been successfully initialized or not. * * @returns @c true if initialized, @c false if not. */ bool isInitialized(void) const { return m_hEnv != NIL_RTENV; } /** * Returns the variable count. * @return Number of variables. * @sa RTEnvCountEx */ uint32_t count(void) const { return RTEnvCountEx(m_hEnv); } /** * Deletes the environment change record entirely. * * The count() method will return zero after this call. * * @sa RTEnvReset */ void reset(void) { int rc = RTEnvReset(m_hEnv); AssertRC(rc); } /** * Exports the environment change block as an array of putenv style strings. * * * @returns VINF_SUCCESS or VERR_NO_MEMORY. * @param pArray The output array. */ int queryPutEnvArray(std::vector *pArray) const { uint32_t cVars = RTEnvCountEx(m_hEnv); try { pArray->resize(cVars); for (uint32_t iVar = 0; iVar < cVars; iVar++) { const char *psz = RTEnvGetByIndexRawEx(m_hEnv, iVar); AssertReturn(psz, VERR_INTERNAL_ERROR_3); /* someone is racing us! */ (*pArray)[iVar] = psz; } return VINF_SUCCESS; } catch (std::bad_alloc &) { return VERR_NO_MEMORY; } } /** * Applies an array of putenv style strings. * * @returns IPRT status code. * @param rArray The array with the putenv style strings. * @param pidxError Where to return the index causing trouble on * failure. Optional. * @sa RTEnvPutEx */ int applyPutEnvArray(const std::vector &rArray, size_t *pidxError = NULL) { size_t const cArray = rArray.size(); for (size_t i = 0; i < cArray; i++) { int rc = RTEnvPutEx(m_hEnv, rArray[i].c_str()); if (RT_FAILURE(rc)) { if (pidxError) *pidxError = i; return rc; } } return VINF_SUCCESS; } /** * Applies the changes from another environment to this. * * @returns IPRT status code. * @param rChanges Reference to an environment which variables will be * imported and, if it's a change record, schedule * variable unsets will be applied. * @sa RTEnvApplyChanges */ int applyChanges(const GuestEnvironmentBase &rChanges) { return RTEnvApplyChanges(m_hEnv, rChanges.m_hEnv); } /** * See RTEnvQueryUtf8Block for details. * @returns IPRT status code. * @param ppszzBlock Where to return the block pointer. * @param pcbBlock Where to optionally return the block size. * @sa RTEnvQueryUtf8Block */ int queryUtf8Block(char **ppszzBlock, size_t *pcbBlock) { return RTEnvQueryUtf8Block(m_hEnv, true /*fSorted*/, ppszzBlock, pcbBlock); } /** * Frees what queryUtf8Block returned, NULL ignored. * @sa RTEnvFreeUtf8Block */ static void freeUtf8Block(char *pszzBlock) { return RTEnvFreeUtf8Block(pszzBlock); } /** * Applies a block on the format returned by queryUtf8Block. * * @returns IPRT status code. * @param pszzBlock Pointer to the block. * @param cbBlock The size of the block. * @param fNoEqualMeansUnset Whether the lack of a '=' (equal) sign in a * string means it should be unset (@c true), or if * it means the variable should be defined with an * empty value (@c false, the default). * @todo move this to RTEnv! */ int copyUtf8Block(const char *pszzBlock, size_t cbBlock, bool fNoEqualMeansUnset = false) { int rc = VINF_SUCCESS; while (cbBlock > 0 && *pszzBlock != '\0') { const char *pszEnd = (const char *)memchr(pszzBlock, '\0', cbBlock); if (!pszEnd) return VERR_BUFFER_UNDERFLOW; int rc2; if (fNoEqualMeansUnset || strchr(pszzBlock, '=')) rc2 = RTEnvPutEx(m_hEnv, pszzBlock); else rc2 = RTEnvSetEx(m_hEnv, pszzBlock, ""); if (RT_FAILURE(rc2) && RT_SUCCESS(rc)) rc = rc2; /* Advance. */ cbBlock -= pszEnd - pszzBlock; if (cbBlock < 2) return VERR_BUFFER_UNDERFLOW; cbBlock--; pszzBlock = pszEnd + 1; } /* The remainder must be zero padded. */ if (RT_SUCCESS(rc)) { if (ASMMemIsZero(pszzBlock, cbBlock)) return VINF_SUCCESS; return VERR_TOO_MUCH_DATA; } return rc; } /** * Get an environment variable. * * @returns IPRT status code. * @param rName The variable name. * @param pValue Where to return the value. * @sa RTEnvGetEx */ int getVariable(const com::Utf8Str &rName, com::Utf8Str *pValue) const { size_t cchNeeded; int rc = RTEnvGetEx(m_hEnv, rName.c_str(), NULL, 0, &cchNeeded); if ( RT_SUCCESS(rc) || rc == VERR_BUFFER_OVERFLOW) { try { pValue->reserve(cchNeeded + 1); rc = RTEnvGetEx(m_hEnv, rName.c_str(), pValue->mutableRaw(), pValue->capacity(), NULL); pValue->jolt(); } catch (std::bad_alloc &) { rc = VERR_NO_STR_MEMORY; } } return rc; } /** * Checks if the given variable exists. * * @returns @c true if it exists, @c false if not or if it's an scheduled unset * in a environment change record. * @param rName The variable name. * @sa RTEnvExistEx */ bool doesVariableExist(const com::Utf8Str &rName) const { return RTEnvExistEx(m_hEnv, rName.c_str()); } /** * Set an environment variable. * * @returns IPRT status code. * @param rName The variable name. * @param rValue The value of the variable. * @sa RTEnvSetEx */ int setVariable(const com::Utf8Str &rName, const com::Utf8Str &rValue) { return RTEnvSetEx(m_hEnv, rName.c_str(), rValue.c_str()); } /** * Unset an environment variable. * * @returns IPRT status code. * @param rName The variable name. * @sa RTEnvUnsetEx */ int unsetVariable(const com::Utf8Str &rName) { return RTEnvUnsetEx(m_hEnv, rName.c_str()); } protected: /** * Copy constructor. * @throws HRESULT */ GuestEnvironmentBase(const GuestEnvironmentBase &rThat, bool fChangeRecord, uint32_t fFlags = 0) : m_hEnv(NIL_RTENV) , m_cRefs(1) , m_fFlags(fFlags) { int rc = cloneCommon(rThat, fChangeRecord); if (RT_FAILURE(rc)) throw (Global::vboxStatusCodeToCOM(rc)); } /** * Common clone/copy method with type conversion abilities. * * @returns IPRT status code. * @param rThat The object to clone. * @param fChangeRecord Whether the this instance is a change record (true) * or normal (false) environment. */ int cloneCommon(const GuestEnvironmentBase &rThat, bool fChangeRecord) { int rc = VINF_SUCCESS; RTENV hNewEnv = NIL_RTENV; if (rThat.m_hEnv != NIL_RTENV) { /* * Clone it. */ if (RTEnvIsChangeRecord(rThat.m_hEnv) == fChangeRecord) rc = RTEnvClone(&hNewEnv, rThat.m_hEnv); else { /* Need to type convert it. */ if (fChangeRecord) rc = RTEnvCreateChangeRecordEx(&hNewEnv, rThat.m_fFlags); else rc = RTEnvCreateEx(&hNewEnv, rThat.m_fFlags); if (RT_SUCCESS(rc)) { rc = RTEnvApplyChanges(hNewEnv, rThat.m_hEnv); if (RT_FAILURE(rc)) RTEnvDestroy(hNewEnv); } } } else { /* * Create an empty one so the object works smoothly. * (Relevant for GuestProcessStartupInfo and internal commands.) */ if (fChangeRecord) rc = RTEnvCreateChangeRecordEx(&hNewEnv, rThat.m_fFlags); else rc = RTEnvCreateEx(&hNewEnv, rThat.m_fFlags); } if (RT_SUCCESS(rc)) { RTEnvDestroy(m_hEnv); m_hEnv = hNewEnv; m_fFlags = rThat.m_fFlags; } return rc; } /** The environment change record. */ RTENV m_hEnv; /** Reference counter. */ uint32_t volatile m_cRefs; /** RTENV_CREATE_F_XXX. */ uint32_t m_fFlags; }; class GuestEnvironmentChanges; /** * Wrapper around the RTEnv API for a normal environment. */ class GuestEnvironment : public GuestEnvironmentBase { public: /** * Default constructor. * * The user must invoke one of the init methods before using the object. */ GuestEnvironment(void) : GuestEnvironmentBase() { } /** * Copy operator. * @param rThat The object to copy. * @throws HRESULT */ GuestEnvironment(const GuestEnvironment &rThat) : GuestEnvironmentBase(rThat, false /*fChangeRecord*/) { } /** * Copy operator. * @param rThat The object to copy. * @throws HRESULT */ GuestEnvironment(const GuestEnvironmentBase &rThat) : GuestEnvironmentBase(rThat, false /*fChangeRecord*/) { } /** * Initialize this as a normal environment block. * @returns IPRT status code. * @param fFlags RTENV_CREATE_F_XXX */ int initNormal(uint32_t fFlags) { AssertReturn(m_hEnv == NIL_RTENV, VERR_WRONG_ORDER); m_fFlags = fFlags; return RTEnvCreateEx(&m_hEnv, fFlags); } /** * Replaces this environemnt with that in @a rThat. * * @returns IPRT status code * @param rThat The environment to copy. If it's a different type * we'll convert the data to a normal environment block. */ int copy(const GuestEnvironmentBase &rThat) { return cloneCommon(rThat, false /*fChangeRecord*/); } /** * @copydoc copy() */ GuestEnvironment &operator=(const GuestEnvironmentBase &rThat) { int rc = copy(rThat); if (RT_FAILURE(rc)) throw (Global::vboxStatusCodeToCOM(rc)); return *this; } /** @copydoc copy() */ GuestEnvironment &operator=(const GuestEnvironment &rThat) { return operator=((const GuestEnvironmentBase &)rThat); } /** @copydoc copy() */ GuestEnvironment &operator=(const GuestEnvironmentChanges &rThat) { return operator=((const GuestEnvironmentBase &)rThat); } }; /** * Wrapper around the RTEnv API for a environment change record. * * This class is used as a record of changes to be applied to a different * environment block (in VBoxService before launching a new process). */ class GuestEnvironmentChanges : public GuestEnvironmentBase { public: /** * Default constructor. * * The user must invoke one of the init methods before using the object. */ GuestEnvironmentChanges(void) : GuestEnvironmentBase() { } /** * Copy operator. * @param rThat The object to copy. * @throws HRESULT */ GuestEnvironmentChanges(const GuestEnvironmentChanges &rThat) : GuestEnvironmentBase(rThat, true /*fChangeRecord*/) { } /** * Copy operator. * @param rThat The object to copy. * @throws HRESULT */ GuestEnvironmentChanges(const GuestEnvironmentBase &rThat) : GuestEnvironmentBase(rThat, true /*fChangeRecord*/) { } /** * Initialize this as a environment change record. * @returns IPRT status code. * @param fFlags RTENV_CREATE_F_XXX */ int initChangeRecord(uint32_t fFlags) { AssertReturn(m_hEnv == NIL_RTENV, VERR_WRONG_ORDER); m_fFlags = fFlags; return RTEnvCreateChangeRecordEx(&m_hEnv, fFlags); } /** * Replaces this environemnt with that in @a rThat. * * @returns IPRT status code * @param rThat The environment to copy. If it's a different type * we'll convert the data to a set of changes. */ int copy(const GuestEnvironmentBase &rThat) { return cloneCommon(rThat, true /*fChangeRecord*/); } /** * @copydoc copy() */ GuestEnvironmentChanges &operator=(const GuestEnvironmentBase &rThat) { int rc = copy(rThat); if (RT_FAILURE(rc)) throw (Global::vboxStatusCodeToCOM(rc)); return *this; } /** @copydoc copy() */ GuestEnvironmentChanges &operator=(const GuestEnvironmentChanges &rThat) { return operator=((const GuestEnvironmentBase &)rThat); } /** @copydoc copy() */ GuestEnvironmentChanges &operator=(const GuestEnvironment &rThat) { return operator=((const GuestEnvironmentBase &)rThat); } }; /** * Class for keeping guest error information. */ class GuestErrorInfo { public: /** * Enumeration for specifying the guest error type. */ enum Type { /** Guest error is anonymous. Avoid this. */ Type_Anonymous = 0, /** Guest error is from a guest session. */ Type_Session, /** Guest error is from a guest process. */ Type_Process, /** Guest error is from a guest file object. */ Type_File, /** Guest error is from a guest directory object. */ Type_Directory, /** Guest error is from a the built-in toolbox "vbox_cat" command. */ Type_ToolCat, /** Guest error is from a the built-in toolbox "vbox_ls" command. */ Type_ToolLs, /** Guest error is from a the built-in toolbox "vbox_rm" command. */ Type_ToolRm, /** Guest error is from a the built-in toolbox "vbox_mkdir" command. */ Type_ToolMkDir, /** Guest error is from a the built-in toolbox "vbox_mktemp" command. */ Type_ToolMkTemp, /** Guest error is from a the built-in toolbox "vbox_stat" command. */ Type_ToolStat, /** The usual 32-bit hack. */ Type_32BIT_HACK = 0x7fffffff }; /** * Initialization constructor. * * @param eType Error type to use. * @param rc IPRT-style rc to use. * @param pcszWhat Subject to use. */ GuestErrorInfo(GuestErrorInfo::Type eType, int rc, const char *pcszWhat) { int rc2 = setV(eType, rc, pcszWhat); if (RT_FAILURE(rc2)) throw rc2; } /** * Returns the (IPRT-style) rc of this error. * * @returns VBox status code. */ int getRc(void) const { return mRc; } /** * Returns the type of this error. * * @returns Error type. */ Type getType(void) const { return mType; } /** * Returns the subject of this error. * * @returns Subject as a string. */ Utf8Str getWhat(void) const { return mWhat; } /** * Sets the error information using a variable arguments list (va_list). * * @returns VBox status code. * @param eType Error type to use. * @param rc IPRT-style rc to use. * @param pcszWhat Subject to use. */ int setV(GuestErrorInfo::Type eType, int rc, const char *pcszWhat) { mType = eType; mRc = rc; mWhat = pcszWhat; return VINF_SUCCESS; } protected: /** Error type. */ Type mType; /** IPRT-style error code. */ int mRc; /** Subject string related to this error. */ Utf8Str mWhat; }; /** * Structure for keeping all the relevant guest directory * information around. */ struct GuestDirectoryOpenInfo { GuestDirectoryOpenInfo(void) : mFlags(0) { } /** The directory path. */ Utf8Str mPath; /** Then open filter. */ Utf8Str mFilter; /** Opening flags. */ uint32_t mFlags; }; /** * Structure for keeping all the relevant guest file * information around. */ struct GuestFileOpenInfo { GuestFileOpenInfo(void) : mAccessMode((FileAccessMode_T)0) , mOpenAction((FileOpenAction_T)0) , mSharingMode((FileSharingMode_T)0) , mCreationMode(0) , mfOpenEx(0) { } /** * Validates a file open info. * * @returns \c true if valid, \c false if not. */ bool IsValid(void) const { if (mfOpenEx) /** @todo Open flags not implemented yet. */ return false; switch (mOpenAction) { case FileOpenAction_OpenExisting: break; case FileOpenAction_OpenOrCreate: break; case FileOpenAction_CreateNew: break; case FileOpenAction_CreateOrReplace: break; case FileOpenAction_OpenExistingTruncated: { if ( mAccessMode == FileAccessMode_ReadOnly || mAccessMode == FileAccessMode_AppendOnly || mAccessMode == FileAccessMode_AppendRead) return false; break; } case FileOpenAction_AppendOrCreate: /* Deprecated, do not use. */ break; default: AssertFailedReturn(false); break; } return true; /** @todo Do we need more checks here? */ } /** The filename. */ Utf8Str mFilename; /** The file access mode. */ FileAccessMode_T mAccessMode; /** The file open action. */ FileOpenAction_T mOpenAction; /** The file sharing mode. */ FileSharingMode_T mSharingMode; /** Octal creation mode. */ uint32_t mCreationMode; /** Extended open flags (currently none defined). */ uint32_t mfOpenEx; }; /** * Structure representing information of a * file system object. */ struct GuestFsObjData { GuestFsObjData(void) : mType(FsObjType_Unknown) , mObjectSize(0) , mAllocatedSize(0) , mAccessTime(0) , mBirthTime(0) , mChangeTime(0) , mModificationTime(0) , mUID(0) , mGID(0) , mNodeID(0) , mNodeIDDevice(0) , mNumHardLinks(0) , mDeviceNumber(0) , mGenerationID(0) , mUserFlags(0) { } /** @name Helper functions to extract the data from a certin VBoxService tool's guest stream block. * @{ */ int FromLs(const GuestProcessStreamBlock &strmBlk, bool fLong); int FromStat(const GuestProcessStreamBlock &strmBlk); int FromMkTemp(const GuestProcessStreamBlock &strmBlk); /** @} */ /** @name Static helper functions to work with time from stream block keys. * @{ */ static PRTTIMESPEC TimeSpecFromKey(const GuestProcessStreamBlock &strmBlk, const Utf8Str &strKey, PRTTIMESPEC pTimeSpec); static int64_t UnixEpochNsFromKey(const GuestProcessStreamBlock &strmBlk, const Utf8Str &strKey); /** @} */ /** @name helper functions to work with IPRT stuff. * @{ */ RTFMODE GetFileMode(void) const; /** @} */ Utf8Str mName; FsObjType_T mType; Utf8Str mFileAttrs; int64_t mObjectSize; int64_t mAllocatedSize; int64_t mAccessTime; int64_t mBirthTime; int64_t mChangeTime; int64_t mModificationTime; Utf8Str mUserName; int32_t mUID; int32_t mGID; Utf8Str mGroupName; Utf8Str mACL; int64_t mNodeID; uint32_t mNodeIDDevice; uint32_t mNumHardLinks; uint32_t mDeviceNumber; uint32_t mGenerationID; uint32_t mUserFlags; }; /** * Structure for keeping all the relevant guest session * startup parameters around. */ class GuestSessionStartupInfo { public: GuestSessionStartupInfo(void) : mID(UINT32_MAX) , mIsInternal(false /* Non-internal session */) , mOpenTimeoutMS(30 * 1000 /* 30s opening timeout */) , mOpenFlags(0 /* No opening flags set */) { } /** The session's friendly name. Optional. */ Utf8Str mName; /** The session's unique ID. Used to encode a context ID. * UINT32_MAX if not initialized. */ uint32_t mID; /** Flag indicating if this is an internal session * or not. Internal session are not accessible by * public API clients. */ bool mIsInternal; /** Timeout (in ms) used for opening the session. */ uint32_t mOpenTimeoutMS; /** Session opening flags. */ uint32_t mOpenFlags; }; /** * Structure for keeping all the relevant guest process * startup parameters around. */ class GuestProcessStartupInfo { public: GuestProcessStartupInfo(void) : mFlags(ProcessCreateFlag_None) , mTimeoutMS(UINT32_MAX /* No timeout by default */) , mPriority(ProcessPriority_Default) , mAffinity(0) { } /** The process' friendly name. */ Utf8Str mName; /** The executable. */ Utf8Str mExecutable; /** Arguments vector (starting with argument \#0). */ ProcessArguments mArguments; /** The process environment change record. */ GuestEnvironmentChanges mEnvironmentChanges; /** Process creation flags. */ uint32_t mFlags; /** Timeout (in ms) the process is allowed to run. * Specify UINT32_MAX if no timeout (unlimited run time) is given. */ ULONG mTimeoutMS; /** Process priority. */ ProcessPriority_T mPriority; /** Process affinity. At the moment we * only support 64 VCPUs. API and * guest can do more already! */ uint64_t mAffinity; }; /** * Class representing the "value" side of a "key=value" pair. */ class GuestProcessStreamValue { public: GuestProcessStreamValue(void) { } GuestProcessStreamValue(const char *pszValue) : mValue(pszValue) {} GuestProcessStreamValue(const GuestProcessStreamValue& aThat) : mValue(aThat.mValue) { } /** Copy assignment operator. */ GuestProcessStreamValue &operator=(GuestProcessStreamValue const &a_rThat) RT_NOEXCEPT { mValue = a_rThat.mValue; return *this; } Utf8Str mValue; }; /** Map containing "key=value" pairs of a guest process stream. */ typedef std::pair< Utf8Str, GuestProcessStreamValue > GuestCtrlStreamPair; typedef std::map < Utf8Str, GuestProcessStreamValue > GuestCtrlStreamPairMap; typedef std::map < Utf8Str, GuestProcessStreamValue >::iterator GuestCtrlStreamPairMapIter; typedef std::map < Utf8Str, GuestProcessStreamValue >::const_iterator GuestCtrlStreamPairMapIterConst; /** * Class representing a block of stream pairs (key=value). Each block in a raw guest * output stream is separated by "\0\0", each pair is separated by "\0". The overall * end of a guest stream is marked by "\0\0\0\0". */ class GuestProcessStreamBlock { public: GuestProcessStreamBlock(void); virtual ~GuestProcessStreamBlock(void); public: void Clear(void); #ifdef DEBUG void DumpToLog(void) const; #endif const char *GetString(const char *pszKey) const; size_t GetCount(void) const; int GetRc(void) const; int GetInt64Ex(const char *pszKey, int64_t *piVal) const; int64_t GetInt64(const char *pszKey) const; int GetUInt32Ex(const char *pszKey, uint32_t *puVal) const; uint32_t GetUInt32(const char *pszKey, uint32_t uDefault = 0) const; int32_t GetInt32(const char *pszKey, int32_t iDefault = 0) const; bool IsEmpty(void) { return mPairs.empty(); } int SetValue(const char *pszKey, const char *pszValue); protected: GuestCtrlStreamPairMap mPairs; }; /** Vector containing multiple allocated stream pair objects. */ typedef std::vector< GuestProcessStreamBlock > GuestCtrlStreamObjects; typedef std::vector< GuestProcessStreamBlock >::iterator GuestCtrlStreamObjectsIter; typedef std::vector< GuestProcessStreamBlock >::const_iterator GuestCtrlStreamObjectsIterConst; /** * Class for parsing machine-readable guest process output by VBoxService' * toolbox commands ("vbox_ls", "vbox_stat" etc), aka "guest stream". */ class GuestProcessStream { public: GuestProcessStream(); virtual ~GuestProcessStream(); public: int AddData(const BYTE *pbData, size_t cbData); void Destroy(); #ifdef DEBUG void Dump(const char *pszFile); #endif size_t GetOffset() { return m_offBuffer; } size_t GetSize() { return m_cbUsed; } int ParseBlock(GuestProcessStreamBlock &streamBlock); protected: /** Maximum allowed size the stream buffer can grow to. * Defaults to 32 MB. */ size_t m_cbMax; /** Currently allocated size of internal stream buffer. */ size_t m_cbAllocated; /** Currently used size at m_offBuffer. */ size_t m_cbUsed; /** Current byte offset within the internal stream buffer. */ size_t m_offBuffer; /** Internal stream buffer. */ BYTE *m_pbBuffer; }; class Guest; class Progress; class GuestWaitEventPayload { public: GuestWaitEventPayload(void) : uType(0), cbData(0), pvData(NULL) { } /** * Initialization constructor. Will throw() VBox status code (rc). * * @param uTypePayload Payload type to set. * @param pvPayload Pointer to payload data to set (deep copy). * @param cbPayload Size (in bytes) of payload data to set. */ GuestWaitEventPayload(uint32_t uTypePayload, const void *pvPayload, uint32_t cbPayload) : uType(0), cbData(0), pvData(NULL) { int rc = copyFrom(uTypePayload, pvPayload, cbPayload); if (RT_FAILURE(rc)) throw rc; } virtual ~GuestWaitEventPayload(void) { Clear(); } GuestWaitEventPayload& operator=(const GuestWaitEventPayload &that) { CopyFromDeep(that); return *this; } public: void Clear(void) { if (pvData) { Assert(cbData); RTMemFree(pvData); cbData = 0; pvData = NULL; } uType = 0; } int CopyFromDeep(const GuestWaitEventPayload &payload) { return copyFrom(payload.uType, payload.pvData, payload.cbData); } const void* Raw(void) const { return pvData; } size_t Size(void) const { return cbData; } uint32_t Type(void) const { return uType; } void* MutableRaw(void) { return pvData; } Utf8Str ToString(void) { const char *pszStr = (const char *)pvData; size_t cbStr = cbData; if (RT_FAILURE(RTStrValidateEncodingEx(pszStr, cbStr, RTSTR_VALIDATE_ENCODING_ZERO_TERMINATED | RTSTR_VALIDATE_ENCODING_EXACT_LENGTH))) { AssertFailed(); return ""; } return Utf8Str(pszStr, cbStr); } protected: int copyFrom(uint32_t uTypePayload, const void *pvPayload, uint32_t cbPayload) { if (cbPayload > _64K) /* Paranoia. */ return VERR_TOO_MUCH_DATA; Clear(); int rc = VINF_SUCCESS; if (cbPayload) { pvData = RTMemAlloc(cbPayload); if (pvData) { uType = uTypePayload; memcpy(pvData, pvPayload, cbPayload); cbData = cbPayload; } else rc = VERR_NO_MEMORY; } else { uType = uTypePayload; pvData = NULL; cbData = 0; } return rc; } protected: /** Type of payload. */ uint32_t uType; /** Size (in bytes) of payload. */ uint32_t cbData; /** Pointer to actual payload data. */ void *pvData; }; class GuestWaitEventBase { protected: GuestWaitEventBase(void); virtual ~GuestWaitEventBase(void); public: uint32_t ContextID(void) { return mCID; }; int GuestResult(void) { return mGuestRc; } int Result(void) { return mRc; } GuestWaitEventPayload & Payload(void) { return mPayload; } int SignalInternal(int rc, int guestRc, const GuestWaitEventPayload *pPayload); int Wait(RTMSINTERVAL uTimeoutMS); protected: int Init(uint32_t uCID); protected: /* Shutdown indicator. */ bool mfAborted; /* Associated context ID (CID). */ uint32_t mCID; /** The event semaphore for triggering * the actual event. */ RTSEMEVENT mEventSem; /** The event's overall result. If * set to VERR_GSTCTL_GUEST_ERROR, * mGuestRc will contain the actual * error code from the guest side. */ int mRc; /** The event'S overall result from the * guest side. If used, mRc must be * set to VERR_GSTCTL_GUEST_ERROR. */ int mGuestRc; /** The event's payload data. Optional. */ GuestWaitEventPayload mPayload; }; /** List of public guest event types. */ typedef std::list < VBoxEventType_T > GuestEventTypes; class GuestWaitEvent : public GuestWaitEventBase { public: GuestWaitEvent(void); virtual ~GuestWaitEvent(void); public: int Init(uint32_t uCID); int Init(uint32_t uCID, const GuestEventTypes &lstEvents); int Cancel(void); const ComPtr Event(void) { return mEvent; } bool HasGuestError(void) const { return mRc == VERR_GSTCTL_GUEST_ERROR; } int GetGuestError(void) const { return mGuestRc; } int SignalExternal(IEvent *pEvent); const GuestEventTypes &Types(void) { return mEventTypes; } size_t TypeCount(void) { return mEventTypes.size(); } protected: /** List of public event types this event should * be signalled on. Optional. */ GuestEventTypes mEventTypes; /** Pointer to the actual public event, if any. */ ComPtr mEvent; }; /** Map of pointers to guest events. The primary key * contains the context ID. */ typedef std::map < uint32_t, GuestWaitEvent* > GuestWaitEvents; /** Map of wait events per public guest event. Nice for * faster lookups when signalling a whole event group. */ typedef std::map < VBoxEventType_T, GuestWaitEvents > GuestEventGroup; class GuestBase { public: GuestBase(void); virtual ~GuestBase(void); public: /** Signals a wait event using a public guest event; also used for * for external event listeners. */ int signalWaitEvent(VBoxEventType_T aType, IEvent *aEvent); /** Signals a wait event using a guest rc. */ int signalWaitEventInternal(PVBOXGUESTCTRLHOSTCBCTX pCbCtx, int guestRc, const GuestWaitEventPayload *pPayload); /** Signals a wait event without letting public guest events know, * extended director's cut version. */ int signalWaitEventInternalEx(PVBOXGUESTCTRLHOSTCBCTX pCbCtx, int rc, int guestRc, const GuestWaitEventPayload *pPayload); public: int baseInit(void); void baseUninit(void); int cancelWaitEvents(void); int dispatchGeneric(PVBOXGUESTCTRLHOSTCBCTX pCtxCb, PVBOXGUESTCTRLHOSTCALLBACK pSvcCb); int generateContextID(uint32_t uSessionID, uint32_t uObjectID, uint32_t *puContextID); int registerWaitEvent(uint32_t uSessionID, uint32_t uObjectID, GuestWaitEvent **ppEvent); int registerWaitEventEx(uint32_t uSessionID, uint32_t uObjectID, const GuestEventTypes &lstEvents, GuestWaitEvent **ppEvent); int unregisterWaitEvent(GuestWaitEvent *pEvent); int waitForEvent(GuestWaitEvent *pEvent, uint32_t uTimeoutMS, VBoxEventType_T *pType, IEvent **ppEvent); #ifndef VBOX_GUESTCTRL_TEST_CASE HRESULT setErrorExternal(VirtualBoxBase *pInterface, const Utf8Str &strAction, const GuestErrorInfo &guestErrorInfo); #endif public: static FsObjType_T fileModeToFsObjType(RTFMODE fMode); static Utf8Str getErrorAsString(const Utf8Str &strAction, const GuestErrorInfo& guestErrorInfo); static Utf8Str getErrorAsString(const GuestErrorInfo &guestErrorInfo); protected: /** Pointer to the console object. Needed * for HGCM (VMMDev) communication. */ Console *mConsole; /** The next context ID counter component for this object. */ uint32_t mNextContextID; /** Local listener for handling the waiting events * internally. */ ComPtr mLocalListener; /** Critical section for wait events access. */ RTCRITSECT mWaitEventCritSect; /** Map of registered wait events per event group. */ GuestEventGroup mWaitEventGroups; /** Map of registered wait events. */ GuestWaitEvents mWaitEvents; }; /** * Virtual class (interface) for guest objects (processes, files, ...) -- * contains all per-object callback management. */ class GuestObject : public GuestBase { friend class GuestSession; public: GuestObject(void); virtual ~GuestObject(void); public: ULONG getObjectID(void) { return mObjectID; } protected: /** * Called by IGuestSession when the session status has been changed. * * @returns VBox status code. * @param enmSessionStatus New session status. */ virtual int i_onSessionStatusChange(GuestSessionStatus_T enmSessionStatus) = 0; /** * Called by IGuestSession right before this object gets * unregistered (removed) from the public object list. */ virtual int i_onUnregister(void) = 0; /** Callback dispatcher -- must be implemented by the actual object. */ virtual int i_callbackDispatcher(PVBOXGUESTCTRLHOSTCBCTX pCbCtx, PVBOXGUESTCTRLHOSTCALLBACK pSvcCb) = 0; protected: int bindToSession(Console *pConsole, GuestSession *pSession, uint32_t uObjectID); int registerWaitEvent(const GuestEventTypes &lstEvents, GuestWaitEvent **ppEvent); int sendMessage(uint32_t uFunction, uint32_t cParms, PVBOXHGCMSVCPARM paParms); protected: /** @name Common parameters for all derived objects. They have their own * mData structure to keep their specific data around. * @{ */ /** Pointer to parent session. Per definition * this objects *always* lives shorter than the * parent. * @todo r=bird: When wanting to use mSession in the * IGuestProcess::getEnvironment() implementation I wanted to access * GuestSession::mData::mpBaseEnvironment. Seeing the comment in * GuestProcess::terminate() saying: * "Now only API clients still can hold references to it." * and recalling seeing similar things in VirtualBox.xidl or some such place, * I'm wondering how this "per definition" behavior is enforced. Is there any * GuestProcess:uninit() call or similar magic that invalidates objects that * GuestSession loses track of in place like GuestProcess::terminate() that I've * failed to spot? * * Please enlighten me. */ GuestSession *mSession; /** The object ID -- must be unique for each guest * object and is encoded into the context ID. Must * be set manually when initializing the object. * * For guest processes this is the internal PID, * for guest files this is the internal file ID. */ uint32_t mObjectID; /** @} */ }; #endif /* !MAIN_INCLUDED_GuestCtrlImplPrivate_h */