/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include using namespace com::sun::star; namespace { struct oslThreadIdentifier_equal { bool operator()(oslThreadIdentifier s1, oslThreadIdentifier s2) const; }; } bool oslThreadIdentifier_equal::operator()(oslThreadIdentifier s1, oslThreadIdentifier s2) const { bool result = s1 == s2; return result; } namespace { struct oslThreadIdentifier_hash { size_t operator()(oslThreadIdentifier s1) const; }; } size_t oslThreadIdentifier_hash::operator()(oslThreadIdentifier s1) const { return s1; } typedef std::unordered_map ThreadMap; namespace { std::mutex s_threadMap_mutex; ThreadMap s_threadMap; } static void s_setCurrent(uno_Environment * pEnv) { oslThreadIdentifier threadId = osl::Thread::getCurrentIdentifier(); std::scoped_lock guard(s_threadMap_mutex); if (pEnv) { s_threadMap[threadId] = pEnv; } else { ThreadMap::iterator iEnv = s_threadMap.find(threadId); if( iEnv != s_threadMap.end()) s_threadMap.erase(iEnv); } } static uno_Environment * s_getCurrent() { uno_Environment * pEnv = nullptr; oslThreadIdentifier threadId = osl::Thread::getCurrentIdentifier(); std::scoped_lock guard(s_threadMap_mutex); ThreadMap::iterator iEnv = s_threadMap.find(threadId); if(iEnv != s_threadMap.end()) pEnv = iEnv->second; return pEnv; } extern "C" void SAL_CALL uno_getCurrentEnvironment(uno_Environment ** ppEnv, rtl_uString * pTypeName) SAL_THROW_EXTERN_C() { if (*ppEnv) { (*ppEnv)->release(*ppEnv); *ppEnv = nullptr; } OUString currPurpose; uno_Environment * pCurrEnv = s_getCurrent(); if (pCurrEnv) // no environment means no purpose currPurpose = cppu::EnvDcp::getPurpose(pCurrEnv->pTypeName); if (pTypeName && rtl_uString_getLength(pTypeName)) { OUString envDcp = OUString::unacquired(&pTypeName) + currPurpose; uno_getEnvironment(ppEnv, envDcp.pData, nullptr); } else { if (pCurrEnv) { *ppEnv = pCurrEnv; (*ppEnv)->acquire(*ppEnv); } else { OUString uno_envDcp(UNO_LB_UNO); uno_getEnvironment(ppEnv, uno_envDcp.pData, nullptr); } } } static OUString s_getPrefix(OUString const & str1, OUString const & str2) { sal_Int32 nIndex1 = 0; sal_Int32 nIndex2 = 0; sal_Int32 sim = 0; OUString token1; OUString token2; do { token1 = str1.getToken(0, ':', nIndex1); token2 = str2.getToken(0, ':', nIndex2); if (token1 == token2) sim += token1.getLength() + 1; } while(nIndex1 == nIndex2 && nIndex1 >= 0 && token1 == token2); OUString result; if (sim) result = str1.copy(0, sim - 1); return result; } static int s_getNextEnv(uno_Environment ** ppEnv, uno_Environment * pCurrEnv, uno_Environment * pTargetEnv) { int res = 0; OUString nextPurpose; OUString currPurpose; if (pCurrEnv) currPurpose = cppu::EnvDcp::getPurpose(pCurrEnv->pTypeName); OUString targetPurpose; if (pTargetEnv) targetPurpose = cppu::EnvDcp::getPurpose(pTargetEnv->pTypeName); OUString intermPurpose(s_getPrefix(currPurpose, targetPurpose)); if (currPurpose.getLength() > intermPurpose.getLength()) { sal_Int32 idx = currPurpose.lastIndexOf(':'); nextPurpose = currPurpose.copy(0, idx); res = -1; } else if (intermPurpose.getLength() < targetPurpose.getLength()) { sal_Int32 idx = targetPurpose.indexOf(':', intermPurpose.getLength() + 1); if (idx == -1) nextPurpose = targetPurpose; else nextPurpose = targetPurpose.copy(0, idx); res = 1; } if (!nextPurpose.isEmpty()) { OUString next_envDcp = UNO_LB_UNO + nextPurpose; uno_getEnvironment(ppEnv, next_envDcp.pData, nullptr); } else { if (*ppEnv) (*ppEnv)->release(*ppEnv); *ppEnv = nullptr; } return res; } extern "C" { static void s_pull(va_list * pParam) { uno_EnvCallee * pCallee = va_arg(*pParam, uno_EnvCallee *); va_list * pXparam = va_arg(*pParam, va_list *); pCallee(pXparam); }} static void s_callInto_v(uno_Environment * pEnv, uno_EnvCallee * pCallee, va_list * pParam) { cppu::Enterable * pEnterable = static_cast(pEnv->pReserved); if (pEnterable) pEnterable->callInto(s_pull, pCallee, pParam); else pCallee(pParam); } static void s_callInto(uno_Environment * pEnv, uno_EnvCallee * pCallee, ...) { va_list param; va_start(param, pCallee); s_callInto_v(pEnv, pCallee, ¶m); va_end(param); } static void s_callOut_v(uno_Environment * pEnv, uno_EnvCallee * pCallee, va_list * pParam) { cppu::Enterable * pEnterable = static_cast(pEnv->pReserved); if (pEnterable) pEnterable->callOut_v(pCallee, pParam); else pCallee(pParam); } static void s_callOut(uno_Environment * pEnv, uno_EnvCallee * pCallee, ...) { va_list param; va_start(param, pCallee); s_callOut_v(pEnv, pCallee, ¶m); va_end(param); } static void s_environment_invoke_v(uno_Environment *, uno_Environment *, uno_EnvCallee *, va_list *); extern "C" { static void s_environment_invoke_vv(va_list * pParam) { uno_Environment * pCurrEnv = va_arg(*pParam, uno_Environment *); uno_Environment * pTargetEnv = va_arg(*pParam, uno_Environment *); uno_EnvCallee * pCallee = va_arg(*pParam, uno_EnvCallee *); va_list * pXparam = va_arg(*pParam, va_list *); s_environment_invoke_v(pCurrEnv, pTargetEnv, pCallee, pXparam); }} static void s_environment_invoke_v(uno_Environment * pCurrEnv, uno_Environment * pTargetEnv, uno_EnvCallee * pCallee, va_list * pParam) { uno_Environment * pNextEnv = nullptr; switch(s_getNextEnv(&pNextEnv, pCurrEnv, pTargetEnv)) { case -1: s_setCurrent(pNextEnv); s_callOut(pCurrEnv, s_environment_invoke_vv, pNextEnv, pTargetEnv, pCallee, pParam); s_setCurrent(pCurrEnv); break; case 0: { uno_Environment * hld = s_getCurrent(); s_setCurrent(pCurrEnv); pCallee(pParam); s_setCurrent(hld); } break; case 1: s_setCurrent(pNextEnv); s_callInto(pNextEnv, s_environment_invoke_vv, pNextEnv, pTargetEnv, pCallee, pParam); s_setCurrent(pCurrEnv); break; } if (pNextEnv) pNextEnv->release(pNextEnv); } extern "C" void SAL_CALL uno_Environment_invoke_v(uno_Environment * pTargetEnv, uno_EnvCallee * pCallee, va_list * pParam) SAL_THROW_EXTERN_C() { s_environment_invoke_v(s_getCurrent(), pTargetEnv, pCallee, pParam); } extern "C" void SAL_CALL uno_Environment_invoke(uno_Environment * pEnv, uno_EnvCallee * pCallee, ...) SAL_THROW_EXTERN_C() { va_list param; va_start(param, pCallee); uno_Environment_invoke_v(pEnv, pCallee, ¶m); va_end(param); } extern "C" void SAL_CALL uno_Environment_enter(uno_Environment * pTargetEnv) SAL_THROW_EXTERN_C() { uno_Environment * pNextEnv = nullptr; uno_Environment * pCurrEnv = s_getCurrent(); int res; while ( (res = s_getNextEnv(&pNextEnv, pCurrEnv, pTargetEnv)) != 0) { cppu::Enterable * pEnterable; switch(res) { case -1: pEnterable = static_cast(pCurrEnv->pReserved); if (pEnterable) pEnterable->leave(); pCurrEnv->release(pCurrEnv); break; case 1: pNextEnv->acquire(pNextEnv); pEnterable = static_cast(pNextEnv->pReserved); if (pEnterable) pEnterable->enter(); break; } s_setCurrent(pNextEnv); pCurrEnv = pNextEnv; } } int SAL_CALL uno_Environment_isValid(uno_Environment * pEnv, rtl_uString ** pReason) SAL_THROW_EXTERN_C() { int result = 1; OUString typeName(cppu::EnvDcp::getTypeName(pEnv->pTypeName)); if (typeName == UNO_LB_UNO) { cppu::Enterable * pEnterable = static_cast(pEnv->pReserved); if (pEnterable) result = pEnterable->isValid(reinterpret_cast(pReason)); } else { OUString envDcp = UNO_LB_UNO + cppu::EnvDcp::getPurpose(pEnv->pTypeName); uno::Environment env(envDcp); result = env.isValid(reinterpret_cast(pReason)); } return result; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */