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/*
* BinTreeNodeReader.cpp
*
* Created on: 26/06/2012
* Author: Antonio
*/
#include "../stdafx.h" // #TODO Remove Miranda-dependency
#include "BinTreeNodeReader.h"
#include "WAException.h"
#include "ProtocolTreeNode.h"
#include "utilities.h"
extern const char *dictionary[], *extended_dict[];
BinTreeNodeReader::BinTreeNodeReader(WAConnection *conn, ISocketConnection *connection) :
buf(BUFFER_SIZE)
{
this->conn = conn;
this->rawIn = connection;
this->readSize = 1;
this->in = NULL;
}
BinTreeNodeReader::~BinTreeNodeReader()
{
delete this->in;
}
ProtocolTreeNode* BinTreeNodeReader::nextTreeInternal()
{
int b = this->in->read();
int size = readListSize(b);
b = this->in->read();
if (b == 2)
return NULL;
std::string* tag = this->readStringAsString(b);
if ((size == 0) || (tag == NULL))
throw WAException("nextTree sees 0 list or null tag", WAException::CORRUPT_STREAM_EX, -1);
int attribCount = (size - 2 + size % 2) / 2;
std::map<string, string>* attribs = readAttributes(attribCount);
if (size % 2 == 1) {
ProtocolTreeNode* ret = new ProtocolTreeNode(*tag); ret->attributes = attribs;
delete tag;
return ret;
}
b = this->in->read();
if (isListTag(b)) {
ProtocolTreeNode* ret = new ProtocolTreeNode(*tag, NULL, readList(b)); ret->attributes = attribs;
delete tag;
return ret;
}
ReadData* obj = this->readString(b);
std::vector<unsigned char>* data;
if (obj->type == STRING) {
std::string* s = (std::string*) obj->data;
data = new std::vector<unsigned char>(s->begin(), s->end());
delete s;
}
else data = (std::vector<unsigned char>*) obj->data;
ProtocolTreeNode* ret = new ProtocolTreeNode(*tag, data); ret->attributes = attribs;
delete obj;
delete tag;
return ret;
}
bool BinTreeNodeReader::isListTag(int b)
{
return (b == 248) || (b == 0) || (b == 249);
}
void BinTreeNodeReader::decodeStream(int flags, int offset, int length)
{
unsigned char *pData = (unsigned char*)&buf[0];
if ((flags & 8) != 0) {
if (length < 4)
throw WAException("invalid length" + length, WAException::CORRUPT_STREAM_EX, 0);
length -= 4;
this->conn->inputKey.decodeMessage(pData, offset + length, 0, length);
}
if (this->in != NULL)
delete this->in;
this->in = new ByteArrayInputStream(&this->buf, offset, length);
}
std::map<string, string>* BinTreeNodeReader::readAttributes(int attribCount)
{
std::map<string, string>* attribs = new std::map<string, string>();
for (int i = 0; i < attribCount; i++) {
std::string* key = readStringAsString();
std::string* value = readStringAsString();
(*attribs)[*key] = *value;
delete key;
delete value;
}
return attribs;
}
std::vector<ProtocolTreeNode*>* BinTreeNodeReader::readList(int token)
{
int size = readListSize(token);
std::vector<ProtocolTreeNode*>* list = new std::vector<ProtocolTreeNode*>(size);
for (int i = 0; i < size; i++)
(*list)[i] = nextTreeInternal();
return list;
}
int BinTreeNodeReader::readListSize(int token)
{
switch (token) {
case 0: return 0;
case 248: return readInt8(this->in);
case 249: return readInt16(this->in);
default:
throw new WAException("invalid list size in readListSize: token " + token, WAException::CORRUPT_STREAM_EX, 0);
}
return 0;
}
std::vector<ProtocolTreeNode*>* BinTreeNodeReader::readList()
{
return readList(this->in->read());
}
ReadData* BinTreeNodeReader::readString()
{
return readString(this->in->read());
}
ReadData* BinTreeNodeReader::readString(int token)
{
if (token == -1)
throw WAException("-1 token in readString", WAException::CORRUPT_STREAM_EX, -1);
int bSize;
ReadData *ret = new ReadData();
if (token > 2 && token <= 236) {
if (token != 236)
ret->data = new std::string(dictionary[token]);
else {
token = readInt8(this->in);
ret->data = new std::string(extended_dict[token]);
}
ret->type = STRING;
return ret;
}
switch (token) {
case 0:
delete ret;
return NULL;
case 252:
bSize = readInt8(this->in);
{
std::vector<unsigned char>* buf8 = new std::vector<unsigned char>(bSize);
fillArray(*buf8, bSize, this->in);
ret->type = ARRAY;
ret->data = buf8;
}
return ret;
case 253:
bSize = readInt24(this->in);
{
std::vector<unsigned char>* buf24 = new std::vector<unsigned char>(bSize);
fillArray(*buf24, bSize, this->in);
ret->type = ARRAY;
ret->data = buf24;
}
return ret;
case 255:
bSize = readInt8(this->in);
{
int size = bSize & 0x7f;
int numnibbles = size * 2 - ((bSize & 0x80) ? 1 : 0);
std::vector<unsigned char> tmp(size);
fillArray(tmp, size, this->in);
std::string s;
for (int i = 0; i < numnibbles; i++) {
char c = (tmp[i / 2] >> (4 - ((i & 1) << 2))) & 0xF;
if (c < 10) s += (c + '0');
else s += (c - 10 + '-');
}
ret->type = STRING;
ret->data = new std::string(s);
}
return ret;
case 250:
std::string* user = readStringAsString();
std::string* server = readStringAsString();
if ((user != NULL) && (server != NULL)) {
std::string* result = new std::string(*user + "@" + *server);
delete user;
delete server;
ret->type = STRING;
ret->data = result;
return ret;
}
if (server != NULL) {
ret->type = STRING;
ret->data = server;
return ret;
}
throw WAException("readString couldn't reconstruct jid", WAException::CORRUPT_STREAM_EX, -1);
}
throw WAException("readString couldn't match token" + (int)token, WAException::CORRUPT_STREAM_EX, -1);
}
std::string* BinTreeNodeReader::objectAsString(ReadData* o)
{
if (o->type == STRING)
return (std::string*) o->data;
if (o->type == ARRAY) {
std::vector<unsigned char>* v = (std::vector<unsigned char>*) o->data;
std::string* ret = new std::string(v->begin(), v->end());
delete v;
return ret;
}
return NULL;
}
std::string* BinTreeNodeReader::readStringAsString()
{
ReadData* o = this->readString();
std::string* ret = this->objectAsString(o);
delete o;
return ret;
}
std::string* BinTreeNodeReader::readStringAsString(int token)
{
ReadData* o = this->readString(token);
std::string* ret = this->objectAsString(o);
delete o;
return ret;
}
void BinTreeNodeReader::fillArray(std::vector<unsigned char>& buff, int len, ByteArrayInputStream* in)
{
int count = 0;
while (count < len)
count += in->read(buff, count, len - count);
}
void BinTreeNodeReader::fillArray(std::vector<unsigned char>& buff, int len, ISocketConnection *in)
{
int count = 0;
while (count < len)
count += in->read(buff, count, len - count);
}
void BinTreeNodeReader::getTopLevelStream()
{
int stanzaSize = readInt24(this->rawIn);
int flags = (stanzaSize >> 20);
stanzaSize &= 0x0FFFFF;
if (this->buf.size() < (size_t)stanzaSize) {
int newsize = max((int)(this->buf.size() * 3 / 2), stanzaSize);
this->buf.resize(newsize);
}
fillArray(this->buf, stanzaSize, this->rawIn);
this->decodeStream(flags, 0, stanzaSize);
}
int BinTreeNodeReader::readInt8(ByteArrayInputStream* in)
{
return in->read();
}
int BinTreeNodeReader::readInt16(ByteArrayInputStream* in)
{
int intTop = in->read();
int intBot = in->read();
int value = (intTop << 8) + intBot;
return value;
}
int BinTreeNodeReader::readInt24(ByteArrayInputStream* in)
{
int int1 = in->read();
int int2 = in->read();
int int3 = in->read();
int value = (int1 << 16) + (int2 << 8) + int3;
return value;
}
ProtocolTreeNode* BinTreeNodeReader::nextTree()
{
this->getTopLevelStream();
return nextTreeInternal();
}
void BinTreeNodeReader::streamStart()
{
this->getTopLevelStream();
int tag = this->in->read();
int size = readListSize(tag);
tag = this->in->read();
if (tag != 1)
throw WAException("expecting STREAM_START in streamStart", WAException::CORRUPT_STREAM_EX, 0);
int attribCount = (size - 2 + size % 2) / 2;
std::map<string, string>* attributes = readAttributes(attribCount);
delete attributes;
}
int BinTreeNodeReader::readInt8(ISocketConnection *in)
{
return in->read();
}
int BinTreeNodeReader::readInt16(ISocketConnection *in)
{
unsigned char data[2];
in->read(data, 2);
return (int(data[0]) << 8) + int(data[1]);
}
int BinTreeNodeReader::readInt24(ISocketConnection *in)
{
unsigned char data[3];
in->read(data, 3);
return (int(data[0]) << 16) + (int(data[1]) << 8) + int(data[2]);
}
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