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|
/**
* @file llsdserialize_xml.cpp
* @brief XML parsers and formatters for LLSD
*
* $LicenseInfo:firstyear=2006&license=viewergpl$
*
* Copyright (c) 2006-2009, 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 "llsdserialize_xml.h"
#include <iostream>
#include <deque>
#include "apr_base64.h"
extern "C"
{
#ifdef LL_STANDALONE
# include <expat.h>
#else
# include "expat/expat.h"
#endif
}
/**
* LLSDXMLFormatter
*/
LLSDXMLFormatter::LLSDXMLFormatter()
{
}
// virtual
LLSDXMLFormatter::~LLSDXMLFormatter()
{
}
// virtual
S32 LLSDXMLFormatter::format(const LLSD& data, std::ostream& ostr, U32 options) const
{
std::streamsize old_precision = ostr.precision(25);
std::string post;
if (options & LLSDFormatter::OPTIONS_PRETTY)
{
post = "\n";
}
ostr << "<llsd>" << post;
S32 rv = format_impl(data, ostr, options, 1);
ostr << "</llsd>\n";
ostr.precision(old_precision);
return rv;
}
S32 LLSDXMLFormatter::format_impl(const LLSD& data, std::ostream& ostr, U32 options, U32 level) const
{
S32 format_count = 1;
std::string pre;
std::string post;
if (options & LLSDFormatter::OPTIONS_PRETTY)
{
for (U32 i = 0; i < level; i++)
{
pre += " ";
}
post = "\n";
}
switch(data.type())
{
case LLSD::TypeMap:
if(0 == data.size())
{
ostr << pre << "<map />" << post;
}
else
{
ostr << pre << "<map>" << post;
LLSD::map_const_iterator iter = data.beginMap();
LLSD::map_const_iterator end = data.endMap();
for(; iter != end; ++iter)
{
ostr << pre << "<key>" << escapeString((*iter).first) << "</key>" << post;
format_count += format_impl((*iter).second, ostr, options, level + 1);
}
ostr << pre << "</map>" << post;
}
break;
case LLSD::TypeArray:
if(0 == data.size())
{
ostr << pre << "<array />" << post;
}
else
{
ostr << pre << "<array>" << post;
LLSD::array_const_iterator iter = data.beginArray();
LLSD::array_const_iterator end = data.endArray();
for(; iter != end; ++iter)
{
format_count += format_impl(*iter, ostr, options, level + 1);
}
ostr << pre << "</array>" << post;
}
break;
case LLSD::TypeUndefined:
ostr << pre << "<undef />" << post;
break;
case LLSD::TypeBoolean:
ostr << pre << "<boolean>";
if(mBoolAlpha ||
#if( LL_WINDOWS || __GNUC__ > 2)
(ostr.flags() & std::ios::boolalpha)
#else
(ostr.flags() & 0x0100)
#endif
)
{
ostr << (data.asBoolean() ? "true" : "false");
}
else
{
ostr << (data.asBoolean() ? 1 : 0);
}
ostr << "</boolean>" << post;
break;
case LLSD::TypeInteger:
ostr << pre << "<integer>" << data.asInteger() << "</integer>" << post;
break;
case LLSD::TypeReal:
ostr << pre << "<real>";
if(mRealFormat.empty())
{
ostr << data.asReal();
}
else
{
formatReal(data.asReal(), ostr);
}
ostr << "</real>" << post;
break;
case LLSD::TypeUUID:
if(data.asUUID().isNull()) ostr << pre << "<uuid />" << post;
else ostr << pre << "<uuid>" << data.asUUID() << "</uuid>" << post;
break;
case LLSD::TypeString:
if(data.asString().empty()) ostr << pre << "<string />" << post;
else ostr << pre << "<string>" << escapeString(data.asString()) <<"</string>" << post;
break;
case LLSD::TypeDate:
ostr << pre << "<date>" << data.asDate() << "</date>" << post;
break;
case LLSD::TypeURI:
ostr << pre << "<uri>" << escapeString(data.asString()) << "</uri>" << post;
break;
case LLSD::TypeBinary:
{
LLSD::Binary buffer = data.asBinary();
if(buffer.empty())
{
ostr << pre << "<binary />" << post;
}
else
{
// *FIX: memory inefficient.
// *TODO: convert to use LLBase64
ostr << pre << "<binary encoding=\"base64\">";
int b64_buffer_length = apr_base64_encode_len(buffer.size());
char* b64_buffer = new char[b64_buffer_length];
b64_buffer_length = apr_base64_encode_binary(
b64_buffer,
&buffer[0],
buffer.size());
ostr.write(b64_buffer, b64_buffer_length - 1);
delete[] b64_buffer;
ostr << "</binary>" << post;
}
break;
}
default:
// *NOTE: This should never happen.
ostr << pre << "<undef />" << post;
break;
}
return format_count;
}
// static
std::string LLSDXMLFormatter::escapeString(const std::string& in)
{
std::ostringstream out;
std::string::const_iterator it = in.begin();
std::string::const_iterator end = in.end();
for(; it != end; ++it)
{
switch((*it))
{
case '<':
out << "<";
break;
case '>':
out << ">";
break;
case '&':
out << "&";
break;
case '\'':
out << "'";
break;
case '"':
out << """;
break;
default:
out << (*it);
break;
}
}
return out.str();
}
class LLSDXMLParser::Impl
{
public:
Impl();
~Impl();
S32 parse(std::istream& input, LLSD& data);
S32 parseLines(std::istream& input, LLSD& data);
void parsePart(const char *buf, int len);
void reset();
private:
void startElementHandler(const XML_Char* name, const XML_Char** attributes);
void endElementHandler(const XML_Char* name);
void characterDataHandler(const XML_Char* data, int length);
static void sStartElementHandler(
void* userData, const XML_Char* name, const XML_Char** attributes);
static void sEndElementHandler(
void* userData, const XML_Char* name);
static void sCharacterDataHandler(
void* userData, const XML_Char* data, int length);
void startSkipping();
enum Element {
ELEMENT_LLSD,
ELEMENT_UNDEF,
ELEMENT_BOOL,
ELEMENT_INTEGER,
ELEMENT_REAL,
ELEMENT_STRING,
ELEMENT_UUID,
ELEMENT_DATE,
ELEMENT_URI,
ELEMENT_BINARY,
ELEMENT_MAP,
ELEMENT_ARRAY,
ELEMENT_KEY,
ELEMENT_UNKNOWN
};
static Element readElement(const XML_Char* name);
static const XML_Char* findAttribute(const XML_Char* name, const XML_Char** pairs);
XML_Parser mParser;
LLSD mResult;
S32 mParseCount;
bool mInLLSDElement; // true if we're on LLSD
bool mGracefullStop; // true if we found the </llsd
typedef std::deque<LLSD*> LLSDRefStack;
LLSDRefStack mStack;
int mDepth;
bool mSkipping;
int mSkipThrough;
std::string mCurrentKey; // Current XML <tag>
std::string mCurrentContent; // String data between <tag> and </tag>
};
LLSDXMLParser::Impl::Impl()
{
mParser = XML_ParserCreate(NULL);
reset();
}
LLSDXMLParser::Impl::~Impl()
{
XML_ParserFree(mParser);
}
inline bool is_eol(char c)
{
return (c == '\n' || c == '\r');
}
void clear_eol(std::istream& input)
{
char c = input.peek();
while (input.good() && is_eol(c))
{
input.get(c);
c = input.peek();
}
}
static unsigned get_till_eol(std::istream& input, char *buf, unsigned bufsize)
{
unsigned count = 0;
while (count < bufsize && input.good())
{
char c = input.get();
buf[count++] = c;
if (is_eol(c))
break;
}
return count;
}
S32 LLSDXMLParser::Impl::parse(std::istream& input, LLSD& data)
{
XML_Status status;
static const int BUFFER_SIZE = 1024;
void* buffer = NULL;
int count = 0;
while (input.good() && !input.eof())
{
buffer = XML_GetBuffer(mParser, BUFFER_SIZE);
/*
* If we happened to end our last buffer right at the end of the llsd, but the
* stream is still going we will get a null buffer here. Check for mGracefullStop.
*/
if (!buffer)
{
break;
}
count = get_till_eol(input, (char *)buffer, BUFFER_SIZE);
if (!count)
{
break;
}
status = XML_ParseBuffer(mParser, count, false);
if (status == XML_STATUS_ERROR)
{
break;
}
}
// *FIX.: This code is buggy - if the stream was empty or not
// good, there is not buffer to parse, both the call to
// XML_ParseBuffer and the buffer manipulations are illegal
// futhermore, it isn't clear that the expat buffer semantics are
// preserved
status = XML_ParseBuffer(mParser, 0, true);
if (status == XML_STATUS_ERROR && !mGracefullStop)
{
if (buffer)
{
((char*) buffer)[count ? count - 1 : 0] = '\0';
}
llinfos << "LLSDXMLParser::Impl::parse: XML_STATUS_ERROR parsing:" << (char*) buffer << llendl;
data = LLSD();
return LLSDParser::PARSE_FAILURE;
}
clear_eol(input);
data = mResult;
return mParseCount;
}
S32 LLSDXMLParser::Impl::parseLines(std::istream& input, LLSD& data)
{
XML_Status status = XML_STATUS_OK;
data = LLSD();
static const int BUFFER_SIZE = 1024;
//static char last_buffer[ BUFFER_SIZE ];
//std::streamsize last_num_read;
// Must get rid of any leading \n, otherwise the stream gets into an error/eof state
clear_eol(input);
while( !mGracefullStop
&& input.good()
&& !input.eof())
{
void* buffer = XML_GetBuffer(mParser, BUFFER_SIZE);
/*
* If we happened to end our last buffer right at the end of the llsd, but the
* stream is still going we will get a null buffer here. Check for mGracefullStop.
* -- I don't think this is actually true - zero 2008-05-09
*/
if (!buffer)
{
break;
}
// Get one line
input.getline((char*)buffer, BUFFER_SIZE);
std::streamsize num_read = input.gcount();
//memcpy( last_buffer, buffer, num_read );
//last_num_read = num_read;
if ( num_read > 0 )
{
if (!input.good() )
{ // Clear state that's set when we run out of buffer
input.clear();
}
// Re-insert with the \n that was absorbed by getline()
char * text = (char *) buffer;
if ( text[num_read - 1] == 0)
{
text[num_read - 1] = '\n';
}
}
status = XML_ParseBuffer(mParser, num_read, false);
if (status == XML_STATUS_ERROR)
{
break;
}
}
if (status != XML_STATUS_ERROR
&& !mGracefullStop)
{ // Parse last bit
status = XML_ParseBuffer(mParser, 0, true);
}
if (status == XML_STATUS_ERROR
&& !mGracefullStop)
{
llinfos << "LLSDXMLParser::Impl::parseLines: XML_STATUS_ERROR" << llendl;
return LLSDParser::PARSE_FAILURE;
}
clear_eol(input);
data = mResult;
return mParseCount;
}
void LLSDXMLParser::Impl::reset()
{
mResult.clear();
mParseCount = 0;
mInLLSDElement = false;
mDepth = 0;
mGracefullStop = false;
mStack.clear();
mSkipping = false;
#if( LL_WINDOWS || __GNUC__ > 2)
mCurrentKey.clear();
#else
mCurrentKey = std::string();
#endif
XML_ParserReset(mParser, "utf-8");
XML_SetUserData(mParser, this);
XML_SetElementHandler(mParser, sStartElementHandler, sEndElementHandler);
XML_SetCharacterDataHandler(mParser, sCharacterDataHandler);
}
void LLSDXMLParser::Impl::startSkipping()
{
mSkipping = true;
mSkipThrough = mDepth;
}
const XML_Char*
LLSDXMLParser::Impl::findAttribute(const XML_Char* name, const XML_Char** pairs)
{
while (NULL != pairs && NULL != *pairs)
{
if(0 == strcmp(name, *pairs))
{
return *(pairs + 1);
}
pairs += 2;
}
return NULL;
}
void LLSDXMLParser::Impl::parsePart(const char* buf, int len)
{
if ( buf != NULL
&& len > 0 )
{
XML_Status status = XML_Parse(mParser, buf, len, false);
if (status == XML_STATUS_ERROR)
{
llinfos << "Unexpected XML parsing error at start" << llendl;
}
}
}
// Performance testing code
//#define XML_PARSER_PERFORMANCE_TESTS
#ifdef XML_PARSER_PERFORMANCE_TESTS
extern LL_COMMON_API U64 totalTime();
U64 readElementTime = 0;
U64 startElementTime = 0;
U64 endElementTime = 0;
U64 charDataTime = 0;
U64 parseTime = 0;
class XML_Timer
{
public:
XML_Timer( U64 * sum ) : mSum( sum )
{
mStart = totalTime();
}
~XML_Timer()
{
*mSum += (totalTime() - mStart);
}
U64 * mSum;
U64 mStart;
};
#endif // XML_PARSER_PERFORMANCE_TESTS
void LLSDXMLParser::Impl::startElementHandler(const XML_Char* name, const XML_Char** attributes)
{
#ifdef XML_PARSER_PERFORMANCE_TESTS
XML_Timer timer( &startElementTime );
#endif // XML_PARSER_PERFORMANCE_TESTS
++mDepth;
if (mSkipping)
{
return;
}
Element element = readElement(name);
mCurrentContent.clear();
switch (element)
{
case ELEMENT_LLSD:
if (mInLLSDElement) { return startSkipping(); }
mInLLSDElement = true;
return;
case ELEMENT_KEY:
if (mStack.empty() || !(mStack.back()->isMap()))
{
return startSkipping();
}
return;
case ELEMENT_BINARY:
{
const XML_Char* encoding = findAttribute("encoding", attributes);
if(encoding && strcmp("base64", encoding) != 0) { return startSkipping(); }
break;
}
default:
// all rest are values, fall through
;
}
if (!mInLLSDElement) { return startSkipping(); }
if (mStack.empty())
{
mStack.push_back(&mResult);
}
else if (mStack.back()->isMap())
{
if (mCurrentKey.empty()) { return startSkipping(); }
LLSD& map = *mStack.back();
LLSD& newElement = map[mCurrentKey];
mStack.push_back(&newElement);
#if( LL_WINDOWS || __GNUC__ > 2)
mCurrentKey.clear();
#else
mCurrentKey = std::string();
#endif
}
else if (mStack.back()->isArray())
{
LLSD& array = *mStack.back();
array.append(LLSD());
LLSD& newElement = array[array.size()-1];
mStack.push_back(&newElement);
}
else {
// improperly nested value in a non-structure
return startSkipping();
}
++mParseCount;
switch (element)
{
case ELEMENT_MAP:
*mStack.back() = LLSD::emptyMap();
break;
case ELEMENT_ARRAY:
*mStack.back() = LLSD::emptyArray();
break;
default:
// all the other values will be set in the end element handler
;
}
}
void LLSDXMLParser::Impl::endElementHandler(const XML_Char* name)
{
#ifdef XML_PARSER_PERFORMANCE_TESTS
XML_Timer timer( &endElementTime );
#endif // XML_PARSER_PERFORMANCE_TESTS
--mDepth;
if (mSkipping)
{
if (mDepth < mSkipThrough)
{
mSkipping = false;
}
return;
}
Element element = readElement(name);
switch (element)
{
case ELEMENT_LLSD:
if (mInLLSDElement)
{
mInLLSDElement = false;
mGracefullStop = true;
XML_StopParser(mParser, false);
}
return;
case ELEMENT_KEY:
mCurrentKey = mCurrentContent;
return;
default:
// all rest are values, fall through
;
}
if (!mInLLSDElement) { return; }
LLSD& value = *mStack.back();
mStack.pop_back();
switch (element)
{
case ELEMENT_UNDEF:
value.clear();
break;
case ELEMENT_BOOL:
value = (mCurrentContent == "true" || mCurrentContent == "1");
break;
case ELEMENT_INTEGER:
{
S32 i;
if ( sscanf(mCurrentContent.c_str(), "%d", &i ) == 1 )
{ // See if sscanf works - it's faster
value = i;
}
else
{
value = LLSD(mCurrentContent).asInteger();
}
}
break;
case ELEMENT_REAL:
{
F64 r;
if ( sscanf(mCurrentContent.c_str(), "%lf", &r ) == 1 )
{ // See if sscanf works - it's faster
value = r;
}
else
{
value = LLSD(mCurrentContent).asReal();
}
}
break;
case ELEMENT_STRING:
value = mCurrentContent;
break;
case ELEMENT_UUID:
value = LLSD(mCurrentContent).asUUID();
break;
case ELEMENT_DATE:
value = LLSD(mCurrentContent).asDate();
break;
case ELEMENT_URI:
value = LLSD(mCurrentContent).asURI();
break;
case ELEMENT_BINARY:
{
S32 len = apr_base64_decode_len(mCurrentContent.c_str());
std::vector<U8> data;
data.resize(len);
len = apr_base64_decode_binary(&data[0], mCurrentContent.c_str());
data.resize(len);
value = data;
break;
}
case ELEMENT_UNKNOWN:
value.clear();
break;
default:
// other values, map and array, have already been set
break;
}
mCurrentContent.clear();
}
void LLSDXMLParser::Impl::characterDataHandler(const XML_Char* data, int length)
{
#ifdef XML_PARSER_PERFORMANCE_TESTS
XML_Timer timer( &charDataTime );
#endif // XML_PARSER_PERFORMANCE_TESTS
mCurrentContent.append(data, length);
}
void LLSDXMLParser::Impl::sStartElementHandler(
void* userData, const XML_Char* name, const XML_Char** attributes)
{
((LLSDXMLParser::Impl*)userData)->startElementHandler(name, attributes);
}
void LLSDXMLParser::Impl::sEndElementHandler(
void* userData, const XML_Char* name)
{
((LLSDXMLParser::Impl*)userData)->endElementHandler(name);
}
void LLSDXMLParser::Impl::sCharacterDataHandler(
void* userData, const XML_Char* data, int length)
{
((LLSDXMLParser::Impl*)userData)->characterDataHandler(data, length);
}
/*
This code is time critical
This is a sample of tag occurances of text in simstate file with ~8000 objects.
A tag pair (<key>something</key>) counts is counted as two:
key - 2680178
real - 1818362
integer - 906078
array - 295682
map - 191818
uuid - 177903
binary - 175748
string - 53482
undef - 40353
boolean - 33874
llsd - 16332
uri - 38
date - 1
*/
LLSDXMLParser::Impl::Element LLSDXMLParser::Impl::readElement(const XML_Char* name)
{
#ifdef XML_PARSER_PERFORMANCE_TESTS
XML_Timer timer( &readElementTime );
#endif // XML_PARSER_PERFORMANCE_TESTS
XML_Char c = *name;
switch (c)
{
case 'k':
if (strcmp(name, "key") == 0) { return ELEMENT_KEY; }
break;
case 'r':
if (strcmp(name, "real") == 0) { return ELEMENT_REAL; }
break;
case 'i':
if (strcmp(name, "integer") == 0) { return ELEMENT_INTEGER; }
break;
case 'a':
if (strcmp(name, "array") == 0) { return ELEMENT_ARRAY; }
break;
case 'm':
if (strcmp(name, "map") == 0) { return ELEMENT_MAP; }
break;
case 'u':
if (strcmp(name, "uuid") == 0) { return ELEMENT_UUID; }
if (strcmp(name, "undef") == 0) { return ELEMENT_UNDEF; }
if (strcmp(name, "uri") == 0) { return ELEMENT_URI; }
break;
case 'b':
if (strcmp(name, "binary") == 0) { return ELEMENT_BINARY; }
if (strcmp(name, "boolean") == 0) { return ELEMENT_BOOL; }
break;
case 's':
if (strcmp(name, "string") == 0) { return ELEMENT_STRING; }
break;
case 'l':
if (strcmp(name, "llsd") == 0) { return ELEMENT_LLSD; }
break;
case 'd':
if (strcmp(name, "date") == 0) { return ELEMENT_DATE; }
break;
}
return ELEMENT_UNKNOWN;
}
/**
* LLSDXMLParser
*/
LLSDXMLParser::LLSDXMLParser() : impl(* new Impl)
{
}
LLSDXMLParser::~LLSDXMLParser()
{
delete &impl;
}
void LLSDXMLParser::parsePart(const char *buf, int len)
{
impl.parsePart(buf, len);
}
// virtual
S32 LLSDXMLParser::doParse(std::istream& input, LLSD& data) const
{
#ifdef XML_PARSER_PERFORMANCE_TESTS
XML_Timer timer( &parseTime );
#endif // XML_PARSER_PERFORMANCE_TESTS
if (mParseLines)
{
// Use line-based reading (faster code)
return impl.parseLines(input, data);
}
return impl.parse(input, data);
}
// virtual
void LLSDXMLParser::doReset()
{
impl.reset();
}
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