diff options
Diffstat (limited to 'registry/source/regkey.cxx')
| -rw-r--r-- | registry/source/regkey.cxx | 694 |
1 files changed, 694 insertions, 0 deletions
diff --git a/registry/source/regkey.cxx b/registry/source/regkey.cxx new file mode 100644 index 000000000..4f0d51897 --- /dev/null +++ b/registry/source/regkey.cxx @@ -0,0 +1,694 @@ +/* -*- 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 "regkey.hxx" + +#include <osl/diagnose.h> +#include "regimpl.hxx" +#include "keyimpl.hxx" + + +// acquireKey + +void REGISTRY_CALLTYPE acquireKey(RegKeyHandle hKey) +{ + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (pKey != nullptr) + { + ORegistry* pReg = pKey->getRegistry(); + (void) pReg->acquireKey(pKey); + } +} + + +// releaseKey + +void REGISTRY_CALLTYPE releaseKey(RegKeyHandle hKey) +{ + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (pKey != nullptr) + { + ORegistry* pReg = pKey->getRegistry(); + (void) pReg->releaseKey(pKey); + } +} + + +// isKeyReadOnly + +sal_Bool REGISTRY_CALLTYPE isKeyReadOnly(RegKeyHandle hKey) +{ + ORegKey* pKey = static_cast< ORegKey* >(hKey); + return pKey != nullptr && pKey->isReadOnly(); +} + + +// getKeyName + +RegError REGISTRY_CALLTYPE getKeyName(RegKeyHandle hKey, rtl_uString** pKeyName) +{ + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (pKey) + { + rtl_uString_assign( pKeyName, pKey->getName().pData ); + return RegError::NO_ERROR; + } else + { + rtl_uString_new(pKeyName); + return RegError::INVALID_KEY; + } +} + + +// createKey + +RegError REGISTRY_CALLTYPE createKey(RegKeyHandle hKey, + rtl_uString* keyName, + RegKeyHandle* phNewKey) +{ + *phNewKey = nullptr; + + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + if (pKey->isDeleted()) + return RegError::INVALID_KEY; + + if (pKey->isReadOnly()) + return RegError::REGISTRY_READONLY; + + return pKey->createKey(OUString::unacquired(&keyName), phNewKey); +} + + +// openKey + +RegError REGISTRY_CALLTYPE openKey(RegKeyHandle hKey, + rtl_uString* keyName, + RegKeyHandle* phOpenKey) +{ + *phOpenKey = nullptr; + + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + if (pKey->isDeleted()) + return RegError::INVALID_KEY; + + return pKey->openKey(OUString::unacquired(&keyName), phOpenKey); +} + + +// openSubKeys + +RegError REGISTRY_CALLTYPE openSubKeys(RegKeyHandle hKey, + rtl_uString* keyName, + RegKeyHandle** pphSubKeys, + sal_uInt32* pnSubKeys) +{ + *pphSubKeys = nullptr; + *pnSubKeys = 0; + + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + if (pKey->isDeleted()) + return RegError::INVALID_KEY; + + return pKey->openSubKeys(OUString::unacquired(&keyName), pphSubKeys, pnSubKeys); +} + + +// closeSubKeys + +RegError REGISTRY_CALLTYPE closeSubKeys(RegKeyHandle* phSubKeys, + sal_uInt32 nSubKeys) +{ + if (phSubKeys == nullptr || nSubKeys == 0) + return RegError::INVALID_KEY; + + ORegistry* pReg = static_cast<ORegKey*>(phSubKeys[0])->getRegistry(); + for (sal_uInt32 i = 0; i < nSubKeys; i++) + { + (void) pReg->closeKey(phSubKeys[i]); + } + std::free(phSubKeys); + + return RegError::NO_ERROR; +} + + +// deleteKey + +RegError REGISTRY_CALLTYPE deleteKey(RegKeyHandle hKey, + rtl_uString* keyName) +{ + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + if (pKey->isDeleted()) + return RegError::INVALID_KEY; + + if (pKey->isReadOnly()) + return RegError::REGISTRY_READONLY; + + return pKey->deleteKey(OUString::unacquired(&keyName)); +} + + +// closeKey + +RegError REGISTRY_CALLTYPE closeKey(RegKeyHandle hKey) +{ + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + return pKey->closeKey(hKey); +} + + +// setValue + +RegError REGISTRY_CALLTYPE setValue(RegKeyHandle hKey, + rtl_uString* keyName, + RegValueType valueType, + RegValue pData, + sal_uInt32 valueSize) +{ + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + if (pKey->isDeleted()) + return RegError::INVALID_KEY; + + if (pKey->isReadOnly()) + return RegError::REGISTRY_READONLY; + + OUString valueName("value"); + if (keyName->length) + { + ORegKey* pSubKey = nullptr; + RegError _ret1 = pKey->openKey(OUString::unacquired(&keyName), reinterpret_cast<RegKeyHandle*>(&pSubKey)); + if (_ret1 != RegError::NO_ERROR) + return _ret1; + + _ret1 = pSubKey->setValue(valueName, valueType, pData, valueSize); + if (_ret1 != RegError::NO_ERROR) + { + RegError _ret2 = pKey->closeKey(pSubKey); + if (_ret2 != RegError::NO_ERROR) + return _ret2; + else + return _ret1; + } + + return pKey->closeKey(pSubKey); + } + + return pKey->setValue(valueName, valueType, pData, valueSize); +} + + +// setLongValueList + +RegError REGISTRY_CALLTYPE setLongListValue(RegKeyHandle hKey, + rtl_uString* keyName, + sal_Int32 const * pValueList, + sal_uInt32 len) +{ + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + if (pKey->isDeleted()) + return RegError::INVALID_KEY; + + if (pKey->isReadOnly()) + return RegError::REGISTRY_READONLY; + + OUString valueName("value"); + if (keyName->length) + { + ORegKey* pSubKey = nullptr; + RegError _ret1 = pKey->openKey(OUString::unacquired(&keyName), reinterpret_cast<RegKeyHandle*>(&pSubKey)); + if (_ret1 != RegError::NO_ERROR) + return _ret1; + + _ret1 = pSubKey->setLongListValue(valueName, pValueList, len); + if (_ret1 != RegError::NO_ERROR) + { + RegError _ret2 = pKey->closeKey(pSubKey); + if (_ret2 != RegError::NO_ERROR) + return _ret2; + else + return _ret1; + } + + return pKey->closeKey(pSubKey); + } + + return pKey->setLongListValue(valueName, pValueList, len); +} + + +// setStringValueList + +RegError REGISTRY_CALLTYPE setStringListValue(RegKeyHandle hKey, + rtl_uString* keyName, + char** pValueList, + sal_uInt32 len) +{ + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + if (pKey->isDeleted()) + return RegError::INVALID_KEY; + + if (pKey->isReadOnly()) + return RegError::REGISTRY_READONLY; + + OUString valueName("value"); + if (keyName->length) + { + ORegKey* pSubKey = nullptr; + RegError _ret1 = pKey->openKey(OUString::unacquired(&keyName), reinterpret_cast<RegKeyHandle*>(&pSubKey)); + if (_ret1 != RegError::NO_ERROR) + return _ret1; + + _ret1 = pSubKey->setStringListValue(valueName, pValueList, len); + if (_ret1 != RegError::NO_ERROR) + { + RegError _ret2 = pKey->closeKey(pSubKey); + if (_ret2 != RegError::NO_ERROR) + return _ret2; + else + return _ret1; + } + + return pKey->closeKey(pSubKey); + } + + return pKey->setStringListValue(valueName, pValueList, len); +} + + +// setUnicodeValueList + +RegError REGISTRY_CALLTYPE setUnicodeListValue(RegKeyHandle hKey, + rtl_uString* keyName, + sal_Unicode** pValueList, + sal_uInt32 len) +{ + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + if (pKey->isDeleted()) + return RegError::INVALID_KEY; + + if (pKey->isReadOnly()) + return RegError::REGISTRY_READONLY; + + OUString valueName("value"); + if (keyName->length) + { + ORegKey* pSubKey = nullptr; + RegError _ret1 = pKey->openKey(OUString::unacquired(&keyName), reinterpret_cast<RegKeyHandle*>(&pSubKey)); + if (_ret1 != RegError::NO_ERROR) + return _ret1; + + _ret1 = pSubKey->setUnicodeListValue(valueName, pValueList, len); + if (_ret1 != RegError::NO_ERROR) + { + RegError _ret2 = pKey->closeKey(pSubKey); + if (_ret2 != RegError::NO_ERROR) + return _ret2; + else + return _ret1; + } + + return pKey->closeKey(pSubKey); + } + + return pKey->setUnicodeListValue(valueName, pValueList, len); +} + + +// getValueInfo + +RegError REGISTRY_CALLTYPE getValueInfo(RegKeyHandle hKey, + rtl_uString* keyName, + RegValueType* pValueType, + sal_uInt32* pValueSize) +{ + *pValueType = RegValueType::NOT_DEFINED; + *pValueSize = 0; + + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + if (pKey->isDeleted()) + return RegError::INVALID_KEY; + + RegValueType valueType; + sal_uInt32 valueSize; + + OUString valueName("value"); + if (keyName->length) + { + ORegKey* pSubKey = nullptr; + RegError _ret = pKey->openKey(OUString::unacquired(&keyName), reinterpret_cast<RegKeyHandle*>(&pSubKey)); + if (_ret != RegError::NO_ERROR) + return _ret; + + if (pSubKey->getValueInfo(valueName, &valueType, &valueSize) != RegError::NO_ERROR) + { + (void) pKey->releaseKey(pSubKey); + return RegError::INVALID_VALUE; + } + + *pValueType = valueType; + *pValueSize = valueSize; + + return pKey->releaseKey(pSubKey); + } + + + if (pKey->getValueInfo(valueName, &valueType, &valueSize) != RegError::NO_ERROR) + { + return RegError::INVALID_VALUE; + } + + *pValueType = valueType; + *pValueSize = valueSize; + + return RegError::NO_ERROR; +} + + +// getValueInfo + +RegError REGISTRY_CALLTYPE getValue(RegKeyHandle hKey, + rtl_uString* keyName, + RegValue pValue) +{ + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + if (pKey->isDeleted()) + return RegError::INVALID_KEY; + + OUString valueName("value"); + if (keyName->length) + { + ORegKey* pSubKey = nullptr; + RegError _ret1 = pKey->openKey(OUString::unacquired(&keyName), reinterpret_cast<RegKeyHandle*>(&pSubKey)); + if (_ret1 != RegError::NO_ERROR) + return _ret1; + + _ret1 = pSubKey->getValue(valueName, pValue); + if (_ret1 != RegError::NO_ERROR) + { + (void) pKey->releaseKey(pSubKey); + return _ret1; + } + + return pKey->releaseKey(pSubKey); + } + + return pKey->getValue(valueName, pValue); +} + + +// getLongValueList + +RegError REGISTRY_CALLTYPE getLongListValue(RegKeyHandle hKey, + rtl_uString* keyName, + sal_Int32** pValueList, + sal_uInt32* pLen) +{ + assert((pValueList != nullptr) && (pLen != nullptr) && "registry::getLongListValue(): invalid parameter"); + *pValueList = nullptr; + *pLen = 0; + + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + if (pKey->isDeleted()) + return RegError::INVALID_KEY; + + OUString valueName("value"); + if (keyName->length) + { + ORegKey* pSubKey = nullptr; + RegError _ret1 = pKey->openKey(OUString::unacquired(&keyName), reinterpret_cast<RegKeyHandle*>(&pSubKey)); + if (_ret1 != RegError::NO_ERROR) + return _ret1; + + _ret1 = pSubKey->getLongListValue(valueName, pValueList, pLen); + if (_ret1 != RegError::NO_ERROR) + { + (void) pKey->releaseKey(pSubKey); + return _ret1; + } + + return pKey->releaseKey(pSubKey); + } + + return pKey->getLongListValue(valueName, pValueList, pLen); +} + + +// getStringValueList + +RegError REGISTRY_CALLTYPE getStringListValue(RegKeyHandle hKey, + rtl_uString* keyName, + char*** pValueList, + sal_uInt32* pLen) +{ + OSL_PRECOND((pValueList != nullptr) && (pLen != nullptr), "registry::getStringListValue(): invalid parameter"); + *pValueList = nullptr; + *pLen = 0; + + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + if (pKey->isDeleted()) + return RegError::INVALID_KEY; + + OUString valueName("value"); + if (keyName->length) + { + ORegKey* pSubKey = nullptr; + RegError _ret1 = pKey->openKey(OUString::unacquired(&keyName), reinterpret_cast<RegKeyHandle*>(&pSubKey)); + if (_ret1 != RegError::NO_ERROR) + return _ret1; + + _ret1 = pSubKey->getStringListValue(valueName, pValueList, pLen); + if (_ret1 != RegError::NO_ERROR) + { + (void) pKey->releaseKey(pSubKey); + return _ret1; + } + + return pKey->releaseKey(pSubKey); + } + + return pKey->getStringListValue(valueName, pValueList, pLen); +} + +// getUnicodeListValue +RegError REGISTRY_CALLTYPE getUnicodeListValue(RegKeyHandle hKey, + rtl_uString* keyName, + sal_Unicode*** pValueList, + sal_uInt32* pLen) +{ + assert((pValueList != nullptr) && (pLen != nullptr) && "registry::getUnicodeListValue(): invalid parameter"); + *pValueList = nullptr; + *pLen = 0; + + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + if (pKey->isDeleted()) + return RegError::INVALID_KEY; + + OUString valueName("value"); + if (keyName->length) + { + ORegKey* pSubKey = nullptr; + RegError _ret1 = pKey->openKey(OUString::unacquired(&keyName), reinterpret_cast<RegKeyHandle*>(&pSubKey)); + if (_ret1 != RegError::NO_ERROR) + return _ret1; + + _ret1 = pSubKey->getUnicodeListValue(valueName, pValueList, pLen); + if (_ret1 != RegError::NO_ERROR) + { + (void) pKey->releaseKey(pSubKey); + return _ret1; + } + + return pKey->releaseKey(pSubKey); + } + + return pKey->getUnicodeListValue(valueName, pValueList, pLen); +} + + +// freeValueList + +RegError REGISTRY_CALLTYPE freeValueList(RegValueType valueType, + RegValue pValueList, + sal_uInt32 len) +{ + switch (valueType) + { + case RegValueType::LONGLIST: + { + std::free(pValueList); + } + break; + case RegValueType::STRINGLIST: + { + char** pVList = static_cast<char**>(pValueList); + for (sal_uInt32 i=0; i < len; i++) + { + std::free(pVList[i]); + } + + std::free(pVList); + } + break; + case RegValueType::UNICODELIST: + { + sal_Unicode** pVList = static_cast<sal_Unicode**>(pValueList); + for (sal_uInt32 i=0; i < len; i++) + { + std::free(pVList[i]); + } + + std::free(pVList); + } + break; + default: + return RegError::INVALID_VALUE; + } + + pValueList = nullptr; + return RegError::NO_ERROR; +} + + +// getName + +RegError REGISTRY_CALLTYPE getResolvedKeyName(RegKeyHandle hKey, + rtl_uString* keyName, + SAL_UNUSED_PARAMETER sal_Bool, + rtl_uString** pResolvedName) +{ + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + if (pKey->isDeleted()) + return RegError::INVALID_KEY; + + OUString resolvedName; + RegError _ret = pKey->getResolvedKeyName(OUString::unacquired(&keyName), resolvedName); + if (_ret == RegError::NO_ERROR) + rtl_uString_assign(pResolvedName, resolvedName.pData); + return _ret; +} + + +// getKeyNames + +RegError REGISTRY_CALLTYPE getKeyNames(RegKeyHandle hKey, + rtl_uString* keyName, + rtl_uString*** pSubKeyNames, + sal_uInt32* pnSubKeys) +{ + ORegKey* pKey = static_cast< ORegKey* >(hKey); + if (!pKey) + return RegError::INVALID_KEY; + + if (pKey->isDeleted()) + return RegError::INVALID_KEY; + + return pKey->getKeyNames(OUString::unacquired(&keyName), pSubKeyNames, pnSubKeys); +} + + +// freeKeyNames + +RegError REGISTRY_CALLTYPE freeKeyNames(rtl_uString** pKeyNames, + sal_uInt32 nKeys) +{ + for (sal_uInt32 i=0; i < nKeys; i++) + { + rtl_uString_release(pKeyNames[i]); + } + + std::free(pKeyNames); + + return RegError::NO_ERROR; +} + + +// C API + + +// reg_openKey + +RegError REGISTRY_CALLTYPE reg_openKey(RegKeyHandle hKey, + rtl_uString* keyName, + RegKeyHandle* phOpenKey) +{ + if (!hKey) + return RegError::INVALID_KEY; + + return openKey(hKey, keyName, phOpenKey); +} + + +// reg_closeKey + +RegError REGISTRY_CALLTYPE reg_closeKey(RegKeyHandle hKey) +{ + if (!hKey) + return RegError::INVALID_KEY; + + return closeKey(hKey); +} + + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |