Move the Security package to EPL, and add the implementations of the cryptographic algorithms
/*
* Copyright (c) 1998-2009 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of the License "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description:
*
*/
#include <x509gn.h>
#include "asn1dec.h"
/*
* __SECURITY_PLATSEC_ARCH__: Changes for platform security
*
* If this macro is defined, the represenation of TPtrC arrays is changed from
* using CPtrCArray to RArray<TPtrC>. This is because CPtrCArray is supplied by
* bafl.dll, which is not trusted for TCB. x509 needs to be trusted for TCB so
* it can be used by software install, hence this dependency was removed.
*
* This changes is implmented as a series of macros for the basic operations,
* to minimise the amount of conditional compilation.
*/
#define REP_INIT_L /* do nothing */
#define REP_FINAL iRep.Close()
#define REP_APPEND_L(X) User::LeaveIfError(iRep.Append(X))
#define REP_COUNT iRep.Count()
#define REP_AT(X) iRep[X]
#define REP_VAL iRep
#define REP_VAL_TYPE RArray<TPtrC>
_LIT(KX509RFC822HostDomainSeparator,"@");
_LIT(KX509SubdomainSeparator,".");
_LIT(KX509URISchemeSpecificStart, "//");
_LIT(KX509URIUserPasswordEnd, "@");
_LIT(KX509URIPortStart, ":");
_LIT(KX509URIurlPathStart, "/");
const TInt KX509URISchemeSpecificStartLength = 2;
const TInt KX509URIUserPasswordEndLength = 1;
const TInt KX509MaxDNSNameLabelLength = 63;
//superclass: common functionality for DNS names & RFC 822 email addresses
EXPORT_C CX509DomainName::~CX509DomainName()
{
REP_FINAL;
delete iName;
}
CX509DomainName::CX509DomainName()
{
}
EXPORT_C TPtrC CX509DomainName::Name() const
{
return *iName;
}
EXPORT_C TBool CX509DomainName::IsWithinSubtree(const CX509DomainName& aName) const
{
TInt myCount = REP_COUNT;
TInt otherCount = aName.REP_COUNT;
if (otherCount > myCount)
{
return EFalse;
}
for (TInt i = otherCount-1; i >= 0; i--)
{
myCount--;
if ( KErrNotFound == REP_AT(myCount).MatchF(aName.REP_AT(i)) )
{
return EFalse;
}
}
return ETrue;
}
TBool CX509DomainName::AddDomainL(TInt& aPos)
{
TInt end = iName->Length();
FOREVER
{
if (!(AddSubdomainL(aPos)))
{
return EFalse;
}
if (aPos == end)
{
break;
}
AddSubdomainSeparatorL(aPos);
}
return ETrue;
}
TBool CX509DomainName::AddSubdomainL(TInt& aPos)
{
TBool res = EFalse;
TInt end = iName->Length();
if (aPos >= end)
{
return res;
}
TPtrC whatsLeft(&(iName->operator[] (aPos)), end - aPos);
TInt subdomainEnd = whatsLeft.FindF(KX509SubdomainSeparator);
if (subdomainEnd == 0)
{
return res;
}
if (subdomainEnd == KErrNotFound)
{
subdomainEnd = end - aPos;
}
TPtrC subdomain(&whatsLeft[0], subdomainEnd);
if (IsValidString(subdomain))
{
REP_APPEND_L(subdomain);
res = ETrue;
}
aPos = aPos + subdomainEnd;
return res;
}
TBool CX509DomainName::AddSubdomainSeparatorL(TInt& aPos)
{
TBool res = EFalse;
TInt end = iName->Length();
if (end <= aPos)
{
return res;
}
TPtrC whatsLeft(&(iName->operator[] (aPos)), end - aPos);
TInt separatorEnd = whatsLeft.FindF(KX509SubdomainSeparator);
if (separatorEnd == 0)
{
TPtrC separator(&whatsLeft[0], 1);
REP_APPEND_L(separator);
aPos++;
res = ETrue;
}
return res;
}
TBool CX509DomainName::IsValidString(const TDesC& aStr) const
{
TInt pos=0;
TInt end=aStr.Length()-1;
if (end < 0)
{
return ETrue;
}
while (pos<end && IsValidChar(aStr[pos]))
{
pos++;
}
return (pos==end && IsValidChar(aStr[end]));
}
TBool CX509DomainName::IsAlpha(const TChar& aChar) const
{
return ( ((aChar >= 97) && (aChar <= 122)) ||
((aChar >= 65) && (aChar <= 90)) );
}
TBool CX509DomainName::IsAlphaOrNum(const TChar& aChar) const
{
return ((IsAlpha(aChar)) ||
((aChar >= 48) && (aChar <= 57)) || (aChar == 42));
}
TBool CX509DomainName::IsValidChar(const TChar& aChar) const
{
//default implementation: must be letter, number or hyphen
return ((IsAlphaOrNum(aChar)) ||
(aChar == 45) || (aChar == 42));
}
//RFC 822 email address
//subtree
EXPORT_C CX509RFC822NameSubtree* CX509RFC822NameSubtree::NewL(const TDesC8& aBinaryData)
{
CX509RFC822NameSubtree* self = CX509RFC822NameSubtree::NewLC(aBinaryData);
CleanupStack::Pop();//self
return self;
}
EXPORT_C CX509RFC822NameSubtree* CX509RFC822NameSubtree::NewLC(const TDesC8& aBinaryData)
{
CX509RFC822NameSubtree* self = new(ELeave) CX509RFC822NameSubtree;
CleanupStack::PushL(self);
self->ConstructL(aBinaryData);
return self;
}
void CX509RFC822NameSubtree::ConstructL(const TDesC8& aBinaryData)
{
TInt pos = 0;
TASN1DecIA5String encStr;
iName = encStr.DecodeDERL(aBinaryData, pos);
REP_INIT_L;
//now, parse your data
pos = 0;
AddLocalHostL(pos);
AddSubdomainSeparatorL(pos);
if (!(AddDomainL(pos)))
{
User::Leave(KErrArgument);
}
}
TBool CX509RFC822NameSubtree::AddLocalHostL(TInt& aPos)
{
TInt localHostLength = iName->FindF(KX509RFC822HostDomainSeparator);
if ((localHostLength != KErrNotFound) && (localHostLength > 0))
{
TPtrC localHost(&(iName->operator[] (aPos)), localHostLength);
//the local host name is not checked here as it caused defect PDEF108960
//and for compatability with IE and Firefox.
REP_APPEND_L(localHost);
aPos = aPos + localHostLength;
aPos++; //skip the @ symbol
return ETrue;
}
return EFalse; //local host not found
}
EXPORT_C const REP_VAL_TYPE& CX509RFC822NameSubtree::Rep() const
{
return REP_VAL;
}
TBool CX509RFC822NameSubtree::IsValidChar(const TChar& aChar) const
{
//we permit "." here, 'cos it's allowed in local host names
//and must have been stripped out by domain parsing code,
//since it's the separator char
return ( (aChar == 33) ||
((aChar >= 35) && (aChar <= 40)) ||
(aChar == 42) ||
(aChar == 43) ||
((aChar >= 45) && (aChar <= 57)) ||
(aChar == 61) ||
(aChar == 63) ||
((aChar >= 65) && (aChar <= 90)) ||
((aChar >= 94) && (aChar <= 126)) );
}
//full rfc 822 name: exactly as subtree, but requires local host and full domain name
EXPORT_C CX509RFC822Name* CX509RFC822Name::NewL(const TDesC8& aBinaryData)
{
CX509RFC822Name* self = CX509RFC822Name::NewLC(aBinaryData);
CleanupStack::Pop();//self
return self;
}
EXPORT_C CX509RFC822Name* CX509RFC822Name::NewLC(const TDesC8& aBinaryData)
{
CX509RFC822Name* self = new(ELeave) CX509RFC822Name;
CleanupStack::PushL(self);
self->ConstructL(aBinaryData);
return self;
}
void CX509RFC822Name::ConstructL(const TDesC8& aBinaryData)
{
TInt pos = 0;
TASN1DecIA5String encStr;
iName = encStr.DecodeDERL(aBinaryData, pos);
REP_INIT_L;
//now, parse your data
pos = 0;
if (! ((AddLocalHostL(pos)) && (AddDomainL(pos))) )
{
User::Leave(KErrArgument);
}
}
//DNS Name subtree
EXPORT_C CX509DNSNameSubtree* CX509DNSNameSubtree::NewL(const TDesC8& aBinaryData)
{
CX509DNSNameSubtree* self = CX509DNSNameSubtree::NewLC(aBinaryData);
CleanupStack::Pop();//self
return self;
}
EXPORT_C CX509DNSNameSubtree* CX509DNSNameSubtree::NewLC(const TDesC8& aBinaryData)
{
CX509DNSNameSubtree* self = new(ELeave) CX509DNSNameSubtree;
CleanupStack::PushL(self);
self->ConstructL(aBinaryData);
return self;
}
void CX509DNSNameSubtree::ConstructL(const TDesC8& aBinaryData)
{
TInt pos = 0;
TASN1DecIA5String encStr;
iName = encStr.DecodeDERL(aBinaryData, pos);
REP_INIT_L;
pos = 0;
AddSubdomainSeparatorL(pos);//a subtree may start with a period
if (!(AddDomainL(pos)))
{
User::Leave(KErrArgument);
}
}
EXPORT_C const REP_VAL_TYPE& CX509DNSNameSubtree::Rep() const
{
return REP_VAL;
}
TBool CX509DNSNameSubtree::IsValidString(const TDesC& aStr) const
{
//must be <= 63 chars long
//must start with letter, end with letter or number
TInt len = aStr.Length();
return ( (len <= KX509MaxDNSNameLabelLength) &&
(IsAlphaOrNum(aStr[0])) &&
(IsAlphaOrNum(aStr[len-1])) &&
(CX509DomainName::IsValidString(aStr)) );
}
//dns name: exactly as subtree but requires full domain name
EXPORT_C CX509DNSName* CX509DNSName::NewL(const TDesC8& aBinaryData)
{
CX509DNSName* self = CX509DNSName::NewLC(aBinaryData);
CleanupStack::Pop();//self
return self;
}
EXPORT_C CX509DNSName* CX509DNSName::NewLC(const TDesC8& aBinaryData)
{
CX509DNSName* self = new(ELeave) CX509DNSName;
CleanupStack::PushL(self);
self->ConstructL(aBinaryData);
return self;
}
EXPORT_C CX509DNSName* CX509DNSName::NewL(const CX509DNSName& aName)
{
CX509DNSName* self = CX509DNSName::NewLC(aName);
CleanupStack::Pop();//self
return self;
}
EXPORT_C CX509DNSName* CX509DNSName::NewLC(const CX509DNSName& aName)
{
CX509DNSName* self = new(ELeave) CX509DNSName;
CleanupStack::PushL(self);
self->ConstructL(aName);
return self;
}
EXPORT_C CX509DNSName* CX509DNSName::NewL(const TDesC& aNameString)
{
CX509DNSName* self = CX509DNSName::NewLC(aNameString);
CleanupStack::Pop();//self
return self;
}
EXPORT_C CX509DNSName* CX509DNSName::NewLC(const TDesC& aNameString)
{
CX509DNSName* self = new(ELeave) CX509DNSName;
CleanupStack::PushL(self);
self->ConstructL(aNameString);
return self;
}
void CX509DNSName::ConstructL(const TDesC& aNameString)
{
TInt pos = 0;
REP_INIT_L;
iName = aNameString.AllocL();
AddSubdomainSeparatorL(pos);//a subtree may start with a period
if (!(AddDomainL(pos)))
{
User::Leave(KErrArgument);
}
}
void CX509DNSName::ConstructL(const TDesC8& aBinaryData)
{
TInt pos = 0;
TASN1DecIA5String encStr;
iName = encStr.DecodeDERL(aBinaryData, pos);
ParseNameL();
}
void CX509DNSName::ConstructL(const CX509DNSName& aName)
{
iName = aName.iName->AllocL();
ParseNameL();
}
void CX509DNSName::ParseNameL()
{
REP_INIT_L;
TInt pos = 0;
if (!AddDomainL(pos))
{
User::Leave(KErrArgument);
}
}
//URI: must be of 'ip-based' form (rfc 1738 section 3.1)
//_and_ contain a domain name (not an IP address)
EXPORT_C CX509IPBasedURI* CX509IPBasedURI::NewL(const TDesC8& aBinaryData)
{
CX509IPBasedURI* self = CX509IPBasedURI::NewLC(aBinaryData);
CleanupStack::Pop();//self
return self;
}
EXPORT_C CX509IPBasedURI* CX509IPBasedURI::NewLC(const TDesC8& aBinaryData)
{
CX509IPBasedURI* self = new(ELeave) CX509IPBasedURI;
CleanupStack::PushL(self);
self->ConstructL(aBinaryData);
return self;
}
void CX509IPBasedURI::ConstructL(const TDesC8& aBinaryData)
{
TInt pos = 0;
TASN1DecIA5String encStr;
iName = encStr.DecodeDERL(aBinaryData, pos);
iHost = CX509DNSName::NewL(ExtractHostNameL());
}
EXPORT_C CX509IPBasedURI::~CX509IPBasedURI()
{
delete iName;
delete iHost;
}
CX509IPBasedURI::CX509IPBasedURI()
:iHost(NULL), iName(NULL)
{
}
EXPORT_C const CX509DNSName& CX509IPBasedURI::Host() const
{
return *iHost;
}
EXPORT_C TPtrC CX509IPBasedURI::Name() const
{
return iName->Des();
}
TPtrC CX509IPBasedURI::ExtractHostNameL() const
{
TInt hostStart;
TInt hostEnd;
TInt len = iName->Length();
TInt schemeSpecificStart = (iName->FindF(KX509URISchemeSpecificStart) + KX509URISchemeSpecificStartLength);
TInt userPasswordEnd = (iName->FindF(KX509URIUserPasswordEnd)) + KX509URIUserPasswordEndLength;
hostStart = ((userPasswordEnd == 0)? schemeSpecificStart : userPasswordEnd);
if (hostStart == KErrNotFound)
{
User::Leave(KErrArgument);
}
TPtrC whatsLeft(&(iName->operator[](hostStart)), len - hostStart);
TInt newlen = whatsLeft.Length();
TInt portStart = whatsLeft.FindF(KX509URIPortStart);
TInt urlPathStart = whatsLeft.FindF(KX509URIurlPathStart);
if (portStart == KErrNotFound)
{
if (urlPathStart == KErrNotFound)
{
hostEnd = newlen;
}
else
{
hostEnd = urlPathStart;
}
}
else
{
if (urlPathStart == KErrNotFound)
{
hostEnd = portStart;
}
else //both are there, choose the first one
{
hostEnd = ((urlPathStart > portStart)? portStart: urlPathStart);
}
}
TPtrC host(&(iName->operator[](hostStart)), hostEnd);
return host;
}
//IP Address
//subnet mask
EXPORT_C CX509IPSubnetMask* CX509IPSubnetMask::NewL(const TDesC8& aBinaryData)
{
CX509IPSubnetMask* self = CX509IPSubnetMask::NewLC(aBinaryData);
CleanupStack::Pop();//self;
return self;
}
EXPORT_C CX509IPSubnetMask* CX509IPSubnetMask::NewLC(const TDesC8& aBinaryData)
{
CX509IPSubnetMask* self = new(ELeave) CX509IPSubnetMask;
CleanupStack::PushL(self);
self->ConstructL(aBinaryData);
return self;
}
void CX509IPSubnetMask::ConstructL(const TDesC8& aBinaryData)
{
//!!!need to correct this when we have octet strings going!!!
TASN1DecGeneric encAddr(aBinaryData);
encAddr.InitL();
iName = encAddr.GetContentDER().AllocL();// = CASN1OctetString::DecodeDERL(aBinaryData, pos);
TInt len = iName->Length();
if (!((len == 8) || (len == 32)))
{
User::Leave(KErrArgument);
}
}
EXPORT_C CX509IPSubnetMask::~CX509IPSubnetMask()
{
delete iName;
}
EXPORT_C TPtrC8 CX509IPSubnetMask::BaseAddress() const
{
TInt half = iName->Length()/2;
TPtrC8 ptr(&(iName->operator [] (0)), half);
return ptr;
}
EXPORT_C TPtrC8 CX509IPSubnetMask::Mask() const
{
TInt half = iName->Length()/2;
TPtrC8 ptr(&(iName->operator [] (half)), half);
return ptr;
}
CX509IPSubnetMask::CX509IPSubnetMask()
:iName(NULL)
{
}
//ip address
EXPORT_C CX509IPAddress* CX509IPAddress::NewL(const TDesC8& aBinaryData)
{
CX509IPAddress* self = CX509IPAddress::NewLC(aBinaryData);
CleanupStack::Pop();//self
return self;
}
EXPORT_C CX509IPAddress* CX509IPAddress::NewLC(const TDesC8& aBinaryData)
{
CX509IPAddress* self = new(ELeave) CX509IPAddress;
CleanupStack::PushL(self);
self->ConstructL(aBinaryData);
return self;
}
void CX509IPAddress::ConstructL(const TDesC8& aBinaryData)
{
TASN1DecGeneric encAddr(aBinaryData);
encAddr.InitL();
iName = encAddr.GetContentDER().AllocL();
TInt len = iName->Length();
if (!(len == 4 || len == 16))
{
User::Leave(KErrArgument);
}
}
EXPORT_C CX509IPAddress::~CX509IPAddress()
{
delete iName;
}
EXPORT_C TBool CX509IPAddress::IsWithinSubtree(const CX509IPSubnetMask& aName) const
{
TInt addrLen = iName->Length();
if (((aName.iName->Length())/2) != addrLen)
{
return EFalse;
}
for (TInt i = 0; i < addrLen; i++)
{
//stop stupid compiler warning
TUint8 masked = (TUint8) ((iName->operator [] (i)) & (aName.iName->operator [] (i + addrLen)));
if (masked != (aName.iName->operator [] (i)))
{
return EFalse;
}
}
return ETrue;
}
EXPORT_C TPtrC8 CX509IPAddress::Address() const
{
return iName->Des();
}
CX509IPAddress::CX509IPAddress()
:iName(NULL)
{
}
//*******************X.509 General Name**********************//
EXPORT_C CX509GeneralName* CX509GeneralName::NewL(const TDesC8& aBinaryData)
{
TInt pos = 0;
return CX509GeneralName::NewL(aBinaryData, pos);
}
EXPORT_C CX509GeneralName* CX509GeneralName::NewLC(const TDesC8& aBinaryData)
{
TInt pos = 0;
return CX509GeneralName::NewLC(aBinaryData, pos);
}
EXPORT_C CX509GeneralName* CX509GeneralName::NewL(const TDesC8& aBinaryData, TInt& aPos)
{
CX509GeneralName* self = CX509GeneralName::NewLC(aBinaryData, aPos);
CleanupStack::Pop();
return self;
}
EXPORT_C CX509GeneralName* CX509GeneralName::NewLC(const TDesC8& aBinaryData, TInt& aPos)
{
CX509GeneralName* self = new(ELeave) CX509GeneralName;
CleanupStack::PushL(self);
self->ConstructL(aBinaryData, aPos);
return self;
}
EXPORT_C CX509GeneralName* CX509GeneralName::NewL(const CX509GeneralName& aName)
{
CX509GeneralName* self = CX509GeneralName::NewLC(aName);
CleanupStack::Pop();
return self;
}
EXPORT_C CX509GeneralName* CX509GeneralName::NewLC(const CX509GeneralName& aName)
{
CX509GeneralName* self = new(ELeave) CX509GeneralName(aName.iTag);
CleanupStack::PushL(self);
self->ConstructL(aName.iData->Des());
return self;
}
void CX509GeneralName::ConstructL(const TDesC8& aBinaryData, TInt& aPos)
{
TASN1DecGeneric gen(aBinaryData.Right(aBinaryData.Length() - aPos));
gen.InitL();
aPos += gen.LengthDER();//add on header info
if (gen.Class() != EContextSpecific)
{
User::Leave(KErrArgument);
}
iData = gen.Tag() == 4 ? gen.GetContentDER().AllocL(): gen.Encoding().AllocL();
iTag = gen.Tag();
}
void CX509GeneralName::ConstructL(const TDesC8& aData)
{
iData = aData.AllocL();
}
CX509GeneralName::CX509GeneralName(TGNType aType)
:iTag(aType)
{
}
CX509GeneralName::CX509GeneralName()
{
}
EXPORT_C TGNType CX509GeneralName::Tag() const
{
return iTag;
}
EXPORT_C TPtrC8 CX509GeneralName::Data() const
{
return iData->Des();
}
EXPORT_C TBool CX509GeneralName::ExactMatch(const CX509GeneralName& /*aName*/) const
{
return EFalse;
}
EXPORT_C CX509GeneralName::~CX509GeneralName()
{
delete iData;
}