/** * @file llsdmessagereader.cpp * @brief LLSDMessageReader class implementation. * * $LicenseInfo:firstyear=2007&license=viewergpl$ * * Copyright (c) 2007-2008, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlifegrid.net/programs/open_source/licensing/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at http://secondlifegrid.net/programs/open_source/licensing/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. * $/LicenseInfo$ */ #include "linden_common.h" #include "llsdmessagereader.h" #include "llmessagebuilder.h" #include "llsdmessagebuilder.h" #include "llsdutil.h" #include "v3math.h" #include "v4math.h" #include "v3dmath.h" #include "v2math.h" #include "llquaternion.h" #include "v4color.h" LLSDMessageReader::LLSDMessageReader() : mMessageName(NULL) { } //virtual LLSDMessageReader::~LLSDMessageReader() { } LLSD getLLSD(const LLSD& input, const char* block, const char* var, S32 blocknum) { // babbage: log error to llerrs if variable not found to mimic // LLTemplateMessageReader::getData behaviour if(NULL == block) { llerrs << "NULL block name" << llendl; return LLSD(); } if(NULL == var) { llerrs << "NULL var name" << llendl; return LLSD(); } if(! input[block].isArray()) { // NOTE: babbage: need to return default for missing blocks to allow // backwards/forwards compatibility - handlers must cope with default // values. llwarns << "block " << block << " not found" << llendl; return LLSD(); } LLSD result = input[block][blocknum][var]; if(result.isUndefined()) { // NOTE: babbage: need to return default for missing vars to allow // backwards/forwards compatibility - handlers must cope with default // values. llwarns << "var " << var << " not found" << llendl; } return result; } //virtual void LLSDMessageReader::getBinaryData(const char *block, const char *var, void *datap, S32 size, S32 blocknum, S32 max_size) { std::vector data = getLLSD(mMessage, block, var, blocknum); S32 data_size = (S32)data.size(); if (size && data_size != size) { return; } if (max_size < data_size) { data_size = max_size; } memcpy(datap, &(data[0]), data_size); } //virtual void LLSDMessageReader::getBOOL(const char *block, const char *var, BOOL &data, S32 blocknum) { data = getLLSD(mMessage, block, var, blocknum); } //virtual void LLSDMessageReader::getS8(const char *block, const char *var, S8 &data, S32 blocknum) { data = getLLSD(mMessage, block, var, blocknum).asInteger(); } //virtual void LLSDMessageReader::getU8(const char *block, const char *var, U8 &data, S32 blocknum) { data = getLLSD(mMessage, block, var, blocknum).asInteger(); } //virtual void LLSDMessageReader::getS16(const char *block, const char *var, S16 &data, S32 blocknum) { data = getLLSD(mMessage, block, var, blocknum).asInteger(); } //virtual void LLSDMessageReader::getU16(const char *block, const char *var, U16 &data, S32 blocknum) { data = getLLSD(mMessage, block, var, blocknum).asInteger(); } //virtual void LLSDMessageReader::getS32(const char *block, const char *var, S32 &data, S32 blocknum) { data = getLLSD(mMessage, block, var, blocknum); } //virtual void LLSDMessageReader::getF32(const char *block, const char *var, F32 &data, S32 blocknum) { data = (F32)getLLSD(mMessage, block, var, blocknum).asReal(); } //virtual void LLSDMessageReader::getU32(const char *block, const char *var, U32 &data, S32 blocknum) { data = ll_U32_from_sd(getLLSD(mMessage, block, var, blocknum)); } //virtual void LLSDMessageReader::getU64(const char *block, const char *var, U64 &data, S32 blocknum) { data = ll_U64_from_sd(getLLSD(mMessage, block, var, blocknum)); } //virtual void LLSDMessageReader::getF64(const char *block, const char *var, F64 &data, S32 blocknum) { data = getLLSD(mMessage, block, var, blocknum); } //virtual void LLSDMessageReader::getVector3(const char *block, const char *var, LLVector3 &vec, S32 blocknum) { vec = ll_vector3_from_sd(getLLSD(mMessage, block, var, blocknum)); } //virtual void LLSDMessageReader::getVector4(const char *block, const char *var, LLVector4 &vec, S32 blocknum) { vec = ll_vector4_from_sd(getLLSD(mMessage, block, var, blocknum)); } //virtual void LLSDMessageReader::getVector3d(const char *block, const char *var, LLVector3d &vec, S32 blocknum) { vec = ll_vector3d_from_sd(getLLSD(mMessage, block, var, blocknum)); } //virtual void LLSDMessageReader::getQuat(const char *block, const char *var, LLQuaternion &q, S32 blocknum) { q = ll_quaternion_from_sd(getLLSD(mMessage, block, var, blocknum)); } //virtual void LLSDMessageReader::getUUID(const char *block, const char *var, LLUUID &uuid, S32 blocknum) { uuid = getLLSD(mMessage, block, var, blocknum); } //virtual void LLSDMessageReader::getIPAddr(const char *block, const char *var, U32 &ip, S32 blocknum) { ip = ll_ipaddr_from_sd(getLLSD(mMessage, block, var, blocknum)); } //virtual void LLSDMessageReader::getIPPort(const char *block, const char *var, U16 &port, S32 blocknum) { port = getLLSD(mMessage, block, var, blocknum).asInteger(); } //virtual void LLSDMessageReader::getString(const char *block, const char *var, S32 buffer_size, char *buffer, S32 blocknum) { if(buffer_size <= 0) { llwarns << "buffer_size <= 0" << llendl; return; } std::string data = getLLSD(mMessage, block, var, blocknum); S32 data_size = data.size(); if (data_size >= buffer_size) { data_size = buffer_size - 1; } memcpy(buffer, data.data(), data_size); buffer[data_size] = '\0'; } //virtual void LLSDMessageReader::getString(const char *block, const char *var, std::string& outstr, S32 blocknum) { outstr = getLLSD(mMessage, block, var, blocknum).asString(); } //virtual S32 LLSDMessageReader::getNumberOfBlocks(const char *blockname) { return mMessage[blockname].size(); } S32 getElementSize(const LLSD& llsd) { LLSD::Type type = llsd.type(); switch(type) { case LLSD::TypeBoolean: return sizeof(bool); case LLSD::TypeInteger: return sizeof(S32); case LLSD::TypeReal: return sizeof(F64); case LLSD::TypeString: return llsd.asString().size(); case LLSD::TypeUUID: return sizeof(LLUUID); case LLSD::TypeDate: return sizeof(LLDate); case LLSD::TypeURI: return sizeof(LLURI); case LLSD::TypeBinary: { std::vector data = llsd; return data.size() * sizeof(U8); } case LLSD::TypeMap: case LLSD::TypeArray: case LLSD::TypeUndefined: return 0; } return 0; } //virtual //Mainly used to find size of binary block of data S32 LLSDMessageReader::getSize(const char *blockname, const char *varname) { return getElementSize(mMessage[blockname][0][varname]); } //virtual S32 LLSDMessageReader::getSize(const char *blockname, S32 blocknum, const char *varname) { return getElementSize(mMessage[blockname][blocknum][varname]); } //virtual void LLSDMessageReader::clearMessage() { mMessage = LLSD(); } //virtual const char* LLSDMessageReader::getMessageName() const { return mMessageName; } // virtual S32 LLSDMessageReader::getMessageSize() const { return 0; } //virtual void LLSDMessageReader::copyToBuilder(LLMessageBuilder& builder) const { builder.copyFromLLSD(mMessage); } void LLSDMessageReader::setMessage(const char* name, const LLSD& message) { mMessageName = name; // TODO: Validate mMessage = message; }