RetroShare/libretroshare/src/serialiser/rstlvkeys.cc

716 lines
18 KiB
C++

/*
* libretroshare/src/serialiser: rstlvtypes.cc
*
* RetroShare Serialiser.
*
* Copyright 2007-2008 by Robert Fernie, Chris Parker
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License Version 2 as published by the Free Software Foundation.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
* USA.
*
* Please report all bugs and problems to "retroshare@lunamutt.com".
*
*/
#include "rstlvkeys.h"
#include "rstlvbase.h"
#include "rsbaseserial.h"
#include <iostream>
#define TLV_DEBUG 1
// This should be removed eventually, but will break backward compatibility
#define KEEP_OLD_SIGNATURE_SERIALISE_FORMAT
/************************************* RsTlvSecurityKey ************************************/
RsTlvSecurityKey::RsTlvSecurityKey()
:RsTlvItem(), keyFlags(0), startTS(0), endTS(0), keyData(TLV_TYPE_KEY_EVP_PKEY)
{
return;
}
void RsTlvSecurityKey::TlvClear()
{
keyId.clear();
keyFlags = 0;
startTS = 0;
endTS = 0;
keyData.TlvClear();
}
/* clears keyData - but doesn't delete */
void RsTlvSecurityKey::ShallowClear()
{
keyId.clear();
keyFlags = 0;
startTS = 0;
endTS = 0;
keyData.bin_data = 0;
keyData.bin_len = 0;
}
uint32_t RsTlvSecurityKey::TlvSize() const
{
uint32_t s = TLV_HEADER_SIZE; /* header + 4 for size */
/* now add comment and title length of this tlv object */
#ifdef KEEP_OLD_SIGNATURE_SERIALISE_FORMAT
s += GetTlvStringSize(keyId.toStdString()) ;
#else
s += keyId.serial_size();
#endif
s += 4;
s += 4;
s += 4;
s += keyData.TlvSize();
return s;
}
bool RsTlvSecurityKey::SetTlv(void *data, uint32_t size, uint32_t *offset) const
{
/* must check sizes */
uint32_t tlvsize = TlvSize();
uint32_t tlvend = *offset + tlvsize;
if (size < tlvend)
{
//#ifdef TLV_DEBUG
std::cerr << "RsTlvSecurityKey::SetTlv() Failed not enough space";
std::cerr << std::endl;
//#endif
return false; /* not enough space */
}
bool ok = true;
/* start at data[offset] */
/* add mandatory parts first */
ok &= SetTlvBase(data, tlvend, offset, TLV_TYPE_SECURITYKEY, tlvsize);
#ifdef KEEP_OLD_SIGNATURE_SERIALISE_FORMAT
ok &= SetTlvString(data, tlvend, offset, TLV_TYPE_STR_KEYID, keyId.toStdString());
#else
ok &= keyId.serialise(data, tlvend, *offset) ;
#endif
ok &= setRawUInt32(data, tlvend, offset, keyFlags);
ok &= setRawUInt32(data, tlvend, offset, startTS);
ok &= setRawUInt32(data, tlvend, offset, endTS);
ok &= keyData.SetTlv(data, tlvend, offset);
return ok;
}
bool RsTlvSecurityKey::GetTlv(void *data, uint32_t size, uint32_t *offset)
{
if (size < *offset + TLV_HEADER_SIZE)
return false;
uint16_t tlvtype = GetTlvType( &(((uint8_t *) data)[*offset]) );
uint32_t tlvsize = GetTlvSize( &(((uint8_t *) data)[*offset]) );
uint32_t tlvend = *offset + tlvsize;
if (size < tlvend) /* check size */
{
#ifdef TLV_DEBUG
std::cerr << "RsTlvSecurityKey::GetTlv() Fail, not enough space";
std::cerr << std::endl;
#endif
return false; /* not enough space */
}
if (tlvtype != TLV_TYPE_SECURITYKEY) /* check type */
{
#ifdef TLV_DEBUG
std::cerr << "RsTlvSecurityKey::GetTlv() Fail, wrong type";
std::cerr << std::endl;
#endif
return false;
}
bool ok = true;
/* ready to load */
TlvClear();
/* skip the header */
(*offset) += TLV_HEADER_SIZE;
#ifdef KEEP_OLD_SIGNATURE_SERIALISE_FORMAT
std::string s ;
ok &= GetTlvString(data, tlvend, offset, TLV_TYPE_STR_KEYID, s);
keyId = RsGxsId(s) ;
#else
ok &= keyId.deserialise(data, tlvend, *offset) ;
#endif
ok &= getRawUInt32(data, tlvend, offset, &(keyFlags));
ok &= getRawUInt32(data, tlvend, offset, &(startTS));
ok &= getRawUInt32(data, tlvend, offset, &(endTS));
ok &= keyData.GetTlv(data, tlvend, offset);
/***************************************************************************
* NB: extra components could be added (for future expansion of the type).
* or be present (if this code is reading an extended version).
*
* We must chew up the extra characters to conform with TLV specifications
***************************************************************************/
if (*offset != tlvend)
{
#ifdef TLV_DEBUG
std::cerr << "RsTlvSecurityKey::GetTlv() Warning extra bytes at end of item";
std::cerr << std::endl;
#endif
*offset = tlvend;
}
if (!ok)
{
#ifdef TLV_DEBUG
std::cerr << "RsTlvSecurityKey::GetTlv() Failed somewhere ok == false";
std::cerr << std::endl;
#endif
}
return ok;
}
std::ostream &RsTlvSecurityKey::print(std::ostream &out, uint16_t indent) const
{
printBase(out, "RsTlvSecurityKey", indent);
uint16_t int_Indent = indent + 2;
printIndent(out, int_Indent);
out << "KeyId:" << keyId;
out << std::endl;
printIndent(out, int_Indent);
out << "KeyFlags:" << keyFlags;
out << std::endl;
printIndent(out, int_Indent);
out << "StartTS:" << startTS;
out << std::endl;
printIndent(out, int_Indent);
out << "EndTS:" << endTS;
out << std::endl;
keyData.print(out, int_Indent);
out << std::endl;
printEnd(out, "RsTlvSecurityKey", indent);
return out;
}
/************************************* RsTlvSecurityKeySet ************************************/
void RsTlvSecurityKeySet::TlvClear()
{
groupId.clear();
keys.clear(); //empty list
}
uint32_t RsTlvSecurityKeySet::TlvSize() const
{
uint32_t s = TLV_HEADER_SIZE; /* header */
std::map<RsGxsId, RsTlvSecurityKey>::const_iterator it;
s += GetTlvStringSize(groupId);
if(!keys.empty())
{
for(it = keys.begin(); it != keys.end() ; ++it)
s += (it->second).TlvSize();
}
return s;
}
bool RsTlvSecurityKeySet::SetTlv(void *data, uint32_t size, uint32_t *offset) const
{
/* must check sizes */
uint32_t tlvsize = TlvSize();
uint32_t tlvend = *offset + tlvsize;
if (size < tlvend)
{
#ifdef TLV_DEBUG
std::cerr << "RsTlvSecurityKeySet::SetTlv() Failed not enough space";
std::cerr << std::endl;
#endif
return false; /* not enough space */
}
bool ok = true;
/* start at data[offset] */
ok &= SetTlvBase(data, tlvend, offset, TLV_TYPE_SECURITYKEYSET , tlvsize);
/* groupId */
ok &= SetTlvString(data, tlvend, offset, TLV_TYPE_STR_GROUPID, groupId);
if(!keys.empty())
{
std::map<RsGxsId, RsTlvSecurityKey>::const_iterator it;
for(it = keys.begin(); it != keys.end() ; ++it)
ok &= (it->second).SetTlv(data, size, offset);
}
return ok;
}
bool RsTlvSecurityKeySet::GetTlv(void *data, uint32_t size, uint32_t *offset)
{
if (size < *offset + TLV_HEADER_SIZE)
return false;
uint16_t tlvtype = GetTlvType( &(((uint8_t *) data)[*offset]) );
uint32_t tlvsize = GetTlvSize( &(((uint8_t *) data)[*offset]) );
uint32_t tlvend = *offset + tlvsize;
if (size < tlvend) /* check size */
return false; /* not enough space */
if (tlvtype != TLV_TYPE_SECURITYKEYSET) /* check type */
return false;
bool ok = true;
/* ready to load */
TlvClear();
/* skip the header */
(*offset) += TLV_HEADER_SIZE;
/* groupId */
ok &= GetTlvString(data, tlvend, offset, TLV_TYPE_STR_GROUPID, groupId);
/* while there is TLV */
while((*offset) + 2 < tlvend)
{
/* get the next type */
uint16_t tlvsubtype = GetTlvType( &(((uint8_t *) data)[*offset]) );
switch(tlvsubtype)
{
case TLV_TYPE_SECURITYKEY:
{
RsTlvSecurityKey key;
ok &= key.GetTlv(data, size, offset);
if (ok)
{
keys[key.keyId] = key;
key.TlvClear(); /* so that the Map can get control - should be ref counted*/
}
}
break;
default:
ok &= SkipUnknownTlv(data, tlvend, offset);
break;
}
if (!ok)
break;
}
/***************************************************************************
* NB: extra components could be added (for future expansion of the type).
* or be present (if this code is reading an extended version).
*
* We must chew up the extra characters to conform with TLV specifications
***************************************************************************/
if (*offset != tlvend)
{
#ifdef TLV_DEBUG
std::cerr << "RsTlvSecurityKeySet::GetTlv() Warning extra bytes at end of item";
std::cerr << std::endl;
#endif
*offset = tlvend;
}
return ok;
}
// prints out contents of RsTlvSecurityKeySet
std::ostream &RsTlvSecurityKeySet::print(std::ostream &out, uint16_t indent) const
{
printBase(out, "RsTlvSecurityKeySet", indent);
uint16_t int_Indent = indent + 2;
printIndent(out, int_Indent);
out << "GroupId: " << groupId;
out << std::endl;
std::map<RsGxsId, RsTlvSecurityKey>::const_iterator it;
for(it = keys.begin(); it != keys.end() ; ++it)
(it->second).print(out, int_Indent);
printEnd(out, "RsTlvSecurityKeySet", indent);
return out;
}
/************************************* RsTlvSecurityKey ************************************/
RsTlvKeySignature::RsTlvKeySignature()
:RsTlvItem(), signData(TLV_TYPE_SIGN_RSA_SHA1)
{
ShallowClear() ; // avoids uninitialized memory if the fields are not initialized.
}
void RsTlvKeySignature::TlvClear()
{
keyId.clear();
signData.TlvClear();
}
/* clears signData - but doesn't delete */
void RsTlvKeySignature::ShallowClear()
{
keyId.clear();
signData.bin_data = 0;
signData.bin_len = 0;
}
uint32_t RsTlvKeySignature::TlvSize() const
{
uint32_t s = TLV_HEADER_SIZE; /* header + 4 for size */
#ifdef KEEP_OLD_SIGNATURE_SERIALISE_FORMAT
s += GetTlvStringSize(keyId.toStdString()) ;
#else
s += keyId.serial_size() ;
#endif
s += signData.TlvSize();
return s;
}
bool RsTlvKeySignature::SetTlv(void *data, uint32_t size, uint32_t *offset) const
{
/* must check sizes */
uint32_t tlvsize = TlvSize();
uint32_t tlvend = *offset + tlvsize;
if (size < tlvend)
{
#ifdef TLV_DEBUG
std::cerr << "RsTlvKeySignature::SetTlv() Fail, not enough space";
std::cerr << std::endl;
#endif
return false; /* not enough space */
}
bool ok = true;
/* start at data[offset] */
/* add mandatory parts first */
ok &= SetTlvBase(data, tlvend, offset, TLV_TYPE_KEYSIGNATURE, tlvsize);
#ifdef KEEP_OLD_SIGNATURE_SERIALISE_FORMAT
ok &= SetTlvString(data, tlvend, offset, TLV_TYPE_STR_KEYID, keyId.toStdString());
#else
ok &= keyId.serialise(data, tlvend, *offset) ;
#endif
ok &= signData.SetTlv(data, tlvend, offset);
if (!ok)
{
#ifdef TLV_DEBUG
std::cerr << "RsTlvKeySignature::SetTlv() Failed somewhere";
std::cerr << std::endl;
#endif
}
return ok;
}
bool RsTlvKeySignature::GetTlv(void *data, uint32_t size, uint32_t *offset)
{
if (size < *offset + TLV_HEADER_SIZE)
return false;
uint16_t tlvtype = GetTlvType( &(((uint8_t *) data)[*offset]) );
uint16_t tlvsize = GetTlvSize( &(((uint8_t *) data)[*offset]) );
uint32_t tlvend = *offset + tlvsize;
if (size < tlvend) /* check size */
{
#ifdef TLV_DEBUG
std::cerr << "RsTlvKeySignature::GetTlv() Not Enough Space";
std::cerr << std::endl;
#endif
return false; /* not enough space */
}
if (tlvtype != TLV_TYPE_KEYSIGNATURE) /* check type */
{
#ifdef TLV_DEBUG
std::cerr << "RsTlvKeySignature::GetTlv() Type Fail";
std::cerr << std::endl;
#endif
return false;
}
bool ok = true;
/* ready to load */
TlvClear();
/* skip the header */
(*offset) += TLV_HEADER_SIZE;
#ifdef KEEP_OLD_SIGNATURE_SERIALISE_FORMAT
std::string s ;
ok &= GetTlvString(data, tlvend, offset, TLV_TYPE_STR_KEYID, s);
keyId = RsGxsId(s) ;
#else
ok &= keyId.deserialise(data, tlvend, *offset) ;
#endif
ok &= signData.GetTlv(data, tlvend, offset);
/***************************************************************************
* NB: extra components could be added (for future expansion of the type).
* or be present (if this code is reading an extended version).
*
* We must chew up the extra characters to conform with TLV specifications
***************************************************************************/
if (*offset != tlvend)
{
#ifdef TLV_DEBUG
std::cerr << "RsTlvKeySignature::GetTlv() Warning extra bytes at end of item";
std::cerr << std::endl;
#endif
*offset = tlvend;
}
return ok;
}
std::ostream &RsTlvKeySignature::print(std::ostream &out, uint16_t indent) const
{
printBase(out, "RsTlvKeySignature", indent);
uint16_t int_Indent = indent + 2;
printIndent(out, int_Indent);
out << "KeyId:" << keyId;
out << std::endl;
signData.print(out, int_Indent);
out << std::endl;
printEnd(out, "RsTlvKeySignature", indent);
return out;
}
/************************************* RsTlvKeySignatureSet ************************************/
RsTlvKeySignatureSet::RsTlvKeySignatureSet()
{
}
std::ostream &RsTlvKeySignatureSet::print(std::ostream &out, uint16_t indent) const
{
printBase(out, "RsTlvKeySignatureSet", indent);
uint16_t int_Indent = indent + 2;
printIndent(out, int_Indent);
std::map<SignType, RsTlvKeySignature>::const_iterator mit = keySignSet.begin();
for(; mit != keySignSet.end(); ++mit)
{
out << "SignType: " << mit->first << std::endl;
const RsTlvKeySignature& sign = mit->second;
sign.print(out, indent);
}
out << std::endl;
printEnd(out, "RsTlvKeySignatureSet", indent);
return out;
}
void RsTlvKeySignatureSet::TlvClear()
{
keySignSet.clear();
}
bool RsTlvKeySignatureSet::SetTlv(void *data, uint32_t size, uint32_t *offset) const
{
/* must check sizes */
uint32_t tlvsize = TlvSize();
uint32_t tlvend = *offset + tlvsize;
if (size < tlvend)
{
#ifdef TLV_DEBUG
std::cerr << "RsTlvKeySignatureSet::SetTlv() Failed not enough space";
std::cerr << std::endl;
#endif
return false; /* not enough space */
}
bool ok = true;
/* start at data[offset] */
ok &= SetTlvBase(data, tlvend, offset, TLV_TYPE_KEYSIGNATURESET , tlvsize);
if(!keySignSet.empty())
{
std::map<SignType, RsTlvKeySignature>::const_iterator it;
for(it = keySignSet.begin(); it != keySignSet.end() ; ++it)
{
ok &= SetTlvUInt32(data, size, offset, TLV_TYPE_KEYSIGNATURETYPE, it->first);
ok &= (it->second).SetTlv(data, size, offset);
}
}
return ok;
}
bool RsTlvKeySignatureSet::GetTlv(void *data, uint32_t size, uint32_t *offset)
{
if (size < *offset + TLV_HEADER_SIZE)
return false;
uint16_t tlvtype = GetTlvType( &(((uint8_t *) data)[*offset]) );
uint32_t tlvsize = GetTlvSize( &(((uint8_t *) data)[*offset]) );
uint32_t tlvend = *offset + tlvsize;
if (size < tlvend) /* check size */
return false; /* not enough space */
if (tlvtype != TLV_TYPE_KEYSIGNATURESET) /* check type */
return false;
bool ok = true;
/* ready to load */
TlvClear();
/* skip the header */
(*offset) += TLV_HEADER_SIZE;
SignType sign_type = 0;
/* while there is TLV */
while((*offset) + 2 < tlvend)
{
/* get the next type */
uint16_t tlvsubtype = GetTlvType( &(((uint8_t *) data)[*offset]) );
SignType currType;
switch(tlvsubtype)
{
case TLV_TYPE_KEYSIGNATURE:
{
RsTlvKeySignature sign;
ok &= sign.GetTlv(data, size, offset);
if (ok)
{
keySignSet[currType] = sign;
}
}
break;
case TLV_TYPE_KEYSIGNATURETYPE:
{
ok = GetTlvUInt32(data, size, offset, TLV_TYPE_KEYSIGNATURETYPE, &sign_type);
if(ok)
currType = sign_type;
}
break;
default:
ok &= SkipUnknownTlv(data, tlvend, offset);
break;
}
if (!ok)
break;
}
/***************************************************************************
* NB: extra components could be added (for future expansion of the type).
* or be present (if this code is reading an extended version).
*
* We must chew up the extra characters to conform with TLV specifications
***************************************************************************/
if (*offset != tlvend)
{
#ifdef TLV_DEBUG
std::cerr << "RsTlvKeySignatureSet::GetTlv() Warning extra bytes at end of item";
std::cerr << std::endl;
#endif
*offset = tlvend;
}
return ok;
}
uint32_t RsTlvKeySignatureSet::TlvSize() const
{
uint32_t s = TLV_HEADER_SIZE; // header size
std::map<SignType, RsTlvKeySignature>::const_iterator it;
for(it = keySignSet.begin(); it != keySignSet.end() ; ++it)
{
s += GetTlvUInt32Size(); // sign type
s += it->second.TlvSize(); // signature
}
return s;
}