--- a/commondrm/drmutility/src/drmutilitywmdrmutilities.cpp Fri Mar 12 15:43:46 2010 +0200
+++ b/commondrm/drmutility/src/drmutilitywmdrmutilities.cpp Mon Mar 15 12:41:43 2010 +0200
@@ -19,9 +19,9 @@
#include <e32std.h>
#include <DRMRights.h>
-#include "drmclockclient.h"
+#include "DRMClockClient.h"
#include "drmutilitywmdrmutilities.h"
-#include "drmrights.h"
+#include "DRMRights.h"
// CONSTANTS
_LIT( KLicenseType, "licensetype=" );
@@ -63,7 +63,7 @@
{
TBool found( EFalse );
aLex.Mark();
-
+
while ( !aLex.Eos() && found == EFalse )
{
TChar ch;
@@ -77,7 +77,7 @@
aPtr.Set( aLex.MarkedToken() );
aLex.Get();
}
- else
+ else
{
aPtr.Set( aLex.MarkedToken() );
}
@@ -98,134 +98,134 @@
TTime localTime( Time::NullTTime() );
TTime universalTime( Time::NullTTime() );
TTimeIntervalSeconds timeDifference( 0 ); // local time - secure time
- TInt years, months, days, hours, minutes, secs;
+ TInt years, months, days, hours, minutes, secs;
TChar ch;
TLex lex;
TTime drmTime;
TInt timeZone;
-
+
DRMClock::ESecurityLevel secLevel = DRMClock::KInsecure;
-
+
// The format of the start and end time strings is the following:
// "starttime=yy-mm-ddThh:mins:ssZ
// "endtime=yy-mm-ddThh:mins:ssZ
- // where yy = years, mm = months, dd = days, hh = hours,
- // mins = minutes and ss = seconds, "-", "T", ":" and "Z"
- // are separators.
+ // where yy = years, mm = months, dd = days, hh = hours,
+ // mins = minutes and ss = seconds, "-", "T", ":" and "Z"
+ // are separators.
while ( !aLex.Eos() && ( aLex.Peek() != 0 ) )
{
// The next string should be start time, end time or then
// it does not exist.
ParseString( '=', aLex, token );
-
+
if ( token.CompareF( KStartTime ) == 0 )
{
times |= KFoundStartTime;
- }
+ }
else if ( token.CompareF( KEndTime ) == 0 )
{
times |= KFoundEndTime;
}
- else
+ else
{
- // No start time ("starttime=") or end time ("endtime=")
- // string was found -> return
+ // No start time ("starttime=") or end time ("endtime=")
+ // string was found -> return
return;
}
-
+
if ( ( times & KFoundStartTime ) || ( times & KFoundEndTime ) )
- {
- // Search for years, months, days, hours, minutes, secs
+ {
+ // Search for years, months, days, hours, minutes, secs
if ( ParseString( '-', aLex, token ) )
{
TLex lexYear( token );
User::LeaveIfError( lexYear.Val( years ) );
}
- else
+ else
{
- User::Leave( KErrNotFound );
+ User::Leave( KErrNotFound );
}
-
+
if ( ParseString( '-', aLex, token ) )
{
TLex lexMonths( token );
User::LeaveIfError( lexMonths.Val( months ) );
}
- else
+ else
{
- User::Leave( KErrNotFound );
+ User::Leave( KErrNotFound );
}
-
+
if ( ParseString( 'T', aLex, token ) )
{
TLex lexDays( token );
User::LeaveIfError( lexDays.Val( days ) );
}
- else
+ else
{
- User::Leave( KErrNotFound );
+ User::Leave( KErrNotFound );
}
-
+
if( ParseString( ':', aLex, token ) )
{
TLex lexHours( token );
User::LeaveIfError( lexHours.Val( hours ) );
}
- else
+ else
{
User::Leave( KErrNotFound );
}
-
+
if ( ParseString( ':', aLex, token ) )
{
TLex lexMinutes( token );
User::LeaveIfError( lexMinutes.Val( minutes ) );
}
- else
+ else
{
User::Leave( KErrNotFound );
}
-
+
if( ParseString( 'Z', aLex, token ) )
{
TLex lexSeconds( token );
User::LeaveIfError( lexSeconds.Val( secs ) );
}
- else
+ else
{
User::Leave( KErrNotFound );
- }
-
+ }
+
ParseString( ';', aLex, token );
token.Set( NULL, 0 );
-
- TDateTime date( years, (TMonth)( months - 1 ), days - 1, hours,
+
+ TDateTime date( years, (TMonth)( months - 1 ), days - 1, hours,
minutes, secs, 0 );
TTime dateTime( date );
-
- // Get secure time from DRM clock
+
+ // Get secure time from DRM clock
RDRMClockClient client;
-
+
User::LeaveIfError( client.Connect() );
client.GetSecureTime( drmTime, timeZone, secLevel );
client.Close();
-
- localTime.HomeTime();
-
- if ( secLevel == DRMClock::KSecure )
- {
- // Calculate the difference between local time and secure time
- localTime.SecondsFrom( drmTime, timeDifference );
- }
- else
- {
- // Calculate the difference between local and universal time
- universalTime.UniversalTime();
- localTime.SecondsFrom( universalTime, timeDifference );
- }
-
- dateTime += timeDifference;
-
+
+ localTime.HomeTime();
+
+ if ( secLevel == DRMClock::KSecure )
+ {
+ // Calculate the difference between local time and secure time
+ localTime.SecondsFrom( drmTime, timeDifference );
+ }
+ else
+ {
+ // Calculate the difference between local and universal time
+ universalTime.UniversalTime();
+ localTime.SecondsFrom( universalTime, timeDifference );
+ }
+
+ dateTime += timeDifference;
+
if ( times & KFoundStartTime )
{
aStartTime = dateTime;
@@ -248,12 +248,12 @@
TUint32& aCounts )
{
TPtrC16 token( NULL, 0 );
- TInt counts( 0 );
+ TInt counts( 0 );
TChar ch;
TLex lex;
-
+
ParseString( '=', aLex, token );
-
+
if ( token.CompareF( KCountLeft ) == 0 )
{
ParseString( ';', aLex, token );
@@ -261,8 +261,8 @@
User::LeaveIfError( lexCount.Val( counts ) );
aCounts = counts;
return ETrue;
- }
- else
+ }
+ else
{
// No counts left ("countleft=") string was found.
// -> No count information was found, return EFalse
@@ -274,15 +274,15 @@
// DrmUtilityWmDrmUtilities::ParseWmDrmDurationRightsL
// ----------------------------------------------------------------------------
//
-EXPORT_C TBool DrmUtilityWmDrmUtilities::ParseWmDrmDurationRightsL( TLex& aLex,
+EXPORT_C TBool DrmUtilityWmDrmUtilities::ParseWmDrmDurationRightsL( TLex& aLex,
TTimeIntervalSeconds& aDuration )
{
TPtrC16 token( NULL, 0 );
TChar ch;
TInt duration( 0 );
-
+
ParseString( '=', aLex, token );
-
+
if ( token.CompareF( KDurationLeft ) == 0 )
{
ParseString( ';', aLex, token );
@@ -291,12 +291,12 @@
aDuration = duration;
return ETrue;
}
- else
+ else
{
// No duration left ("durationleft=") string was found.
// -> No duration information was found, return EFalse
return EFalse;
- }
+ }
}
// ----------------------------------------------------------------------------
@@ -307,49 +307,49 @@
ContentAccess::CRightsInfo& aRights,
CDRMRightsConstraints*& aRightsConstraint )
{
-
- __ASSERT_DEBUG( !aRightsConstraint,
+
+ __ASSERT_DEBUG( !aRightsConstraint,
User::Panic( KWmDrmUtilitiesDebugPanicMessage,
KWmDrmUtilitiesDebugPanicCode ) );
-
+
TChar ch;
TTime startTime( Time::NullTTime() );
TTime endTime( Time::NullTTime() );
TTimeIntervalSeconds duration( 0 );
TUint32 counter( 0 );
-
+
TPtrC16 token( NULL, 0 );
-
+
// Parse the WM DRM rights string
TLex lex( aRights.Description() );
-
- // First, find the license type format string ("licensetype=")
+
+ // First, find the license type format string ("licensetype=")
ParseString( '=', lex, token );
-
+
if ( token.CompareF( KLicenseType ) != 0 )
{
- // License type format string was not found
+ // License type format string was not found
User::Leave( KErrArgument );
}
-
- // Peek for the end of string (eos) in case of (licensetype="")
+
+ // Peek for the end of string (eos) in case of (licensetype="")
ch = lex.Peek();
- if ( ch == 0 )
+ if ( ch == 0 )
{
return;
}
-
+
// Check the license type
ParseString( ';', lex, token );
-
+
aRightsConstraint = CDRMRightsConstraints::NewL();
CleanupStack::PushL( aRightsConstraint );
-
+
// Check what kind of rights are in question by parsing the string
// onward. The possible rights are date time (start time and/or end time),
// count, duration, time count (count and/or date time) and unlimited
// rights. The substrings for certain rights are further parsed in
- // specific methods.
+ // specific methods.
if ( token.CompareF( KTime ) == 0 )
{
ParseWmDrmTimeRightsL( lex, startTime, endTime );
@@ -395,24 +395,24 @@
}
else if ( token.CompareF( KUnlimited ) != 0 )
{
- // Unknown license type
+ // Unknown license type
User::Leave( KErrArgument );
}
-
+
CleanupStack::Pop( aRightsConstraint );
-
+
}
// -----------------------------------------------------------------------------
// DrmUtilityWmDrmUtilities::CheckWmDrmRightsL
// -----------------------------------------------------------------------------
//
-EXPORT_C void DrmUtilityWmDrmUtilities::CheckWmDrmRightsL( TBool& aUnconstrained,
+EXPORT_C void DrmUtilityWmDrmUtilities::CheckWmDrmRightsL( TBool& aUnconstrained,
TTimeIntervalSeconds& aTime,
- TInt& aCounts,
+ TInt& aCounts,
ContentAccess::CRightsInfo& aRights )
{
-
+
TChar ch;
TPtrC16 token( NULL, 0 );
TInt constraints( 0 );
@@ -424,34 +424,34 @@
// End time of rights when duration is taken into account.
TTime durationEndTime( Time::NullTTime() );
TTimeIntervalSeconds secondsLeft( 0 ); // seconds to end of time based rights
-
- // Parse WM DRM rights string
+
+ // Parse WM DRM rights string
TLex lex( aRights.Description() );
-
- // First, find the license type format string ("licensetype=")
+
+ // First, find the license type format string ("licensetype=")
ParseString( '=', lex, token );
-
+
if ( token.CompareF( KLicenseType ) != 0 )
{
- // License type format string was not found
+ // License type format string was not found
User::Leave( KErrArgument );
}
-
- // Peek for the end of string (Eos) in case of (licensetype="")
+
+ // Peek for the end of string (Eos) in case of (licensetype="")
ch = lex.Peek();
- if ( ch == 0 )
+ if ( ch == 0 )
{
return;
}
-
+
// Check the license type
ParseString( ';', lex, token );
-
+
// Check what kind of rights are in question by parsing the string
// onward. The possible rights are date time (start time and/or end time),
// count, duration, time count (count and/or date time) and unlimited
// rights. The substrings for certain rights are further parsed in
- // specific methods.
+ // specific methods.
if ( token.CompareF( KTime ) == 0 )
{
ParseWmDrmTimeRightsL( lex, startTime, endTime );
@@ -470,7 +470,7 @@
{
aCounts = counter;
constraints |= KWmDrmConstraintCount;
- }
+ }
}
else if ( token.CompareF( KDuration ) == 0 )
{
@@ -499,69 +499,69 @@
{
constraints |= KWmDrmConstraintEndTime;
}
- }
- else if ( token.CompareF( KUnlimited ) == 0 )
+ }
+ else if ( token.CompareF( KUnlimited ) == 0 )
{
aUnconstrained = ETrue;
return;
}
- else
+ else
{
// Unknown license type
User::Leave( KErrArgument );
}
-
+
// Get current time
now.HomeTime();
-
+
// The rights are not constrained
if ( !constraints )
{
aUnconstrained = ETrue;
}
-
+
if ( constraints & KWmDrmConstraintStartTime )
{
// The start time is in the past or the current time
- if ( ( now >= startTime ) &&
+ if ( ( now >= startTime ) &&
!( constraints & KWmDrmConstraintEndTime ) &&
!( constraints & KWmDrmConstraintCount ) )
{
aUnconstrained = ETrue;
}
-
+
// This use case is unclear and should be specified later.
// There are counts for the content, but the start time has
- // not been reached.
+ // not been reached.
if ( ( constraints & KWmDrmConstraintCount ) &&
- ( now < startTime ) )
+ ( now < startTime ) )
{
aCounts = 0;
- }
+ }
}
-
+
// Find out the amount of time that the rights have left in
// case the rights have end time constraint.
if ( constraints & KWmDrmConstraintEndTime )
{
error = endTime.SecondsFrom( now, secondsLeft );
-
+
// The difference between current time and the end time does not
// fit to 32-bit number, the start time has been reached and there
// are no count constraints defined.
- if ( ( error == KErrOverflow ) &&
- ( !( constraints & KWmDrmConstraintStartTime ) ||
+ if ( ( error == KErrOverflow ) &&
+ ( !( constraints & KWmDrmConstraintStartTime ) ||
( now >= startTime ) ) && !( constraints & KWmDrmConstraintCount ) )
{
aUnconstrained = ETrue;
}
-
+
// End time has not been reached and start time has been reached
if ( ( secondsLeft > (TTimeIntervalSeconds)0 ) && ( now >= startTime ) )
{
aTime = secondsLeft;
}
-
+
// This use case is unclear and should be specified later.
// There are counts for the content, but the end time has
// been reached.
@@ -571,10 +571,9 @@
aCounts = 0;
}
}
-
+
return;
-
+
}
-
+
// End of File
-
\ No newline at end of file