// Copyright (c) 2006-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of "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:
// t_sqlsecurity4 application has capabilities allowing read/write access to the test database
// 
//

#include <e32test.h>
#include <bautils.h>
#include <sqldb.h>

///////////////////////////////////////////////////////////////////////////////////////
//The test database has:
//  SCHEMA database policy: ECapabilityReadDeviceData, ECapabilityWriteUserData, ECapabilityReadUserData
//  WRITE database policy:  ECapabilityWriteUserData
//  READ database policy:   ECapabilityReadUserData
//
//Database tables:
//  TABLE A(F1 INTEGER, B1 BLOB)
//  TABLE B(F2 INTEGER, F3 TEXT, B2 BLOB)
//
//Database data:
//  TABLE A: {1, x'41414141414141414141'}, {2, x'42424242424242424242'}, {3, x'43434343434343434343'}, {4, x'44444444444444444444'}
//  TABLE B: {2, "ABC", x'45454545454545454545'}, {4, "DEF", x'46464646464646464646'}

///////////////////////////////////////////////////////////////////////////////////////

#define UNUSED_VAR(a) (a) = (a)

RSqlDatabase TheDb;
RTest TheTest(_L("t_sqlsecurity4 test"));

_LIT(KTestDbName, "c:[21212125]t_ab.db");
_LIT(KTestDbName2, "c:\\test\\t_sqlsecurity4_2.db");

///////////////////////////////////////////////////////////////////////////////////////
//Restore original test database function
void RestoreOriginalDb()
	{
	TheDb.Close();
	TheDb.Open(KTestDbName);
	
	// Delete and restore the content of table A (unconditional DELETE, no READ operations)
	TheDb.Exec(_L("DELETE FROM A"));
	TheDb.Exec(_L("INSERT INTO A(F1,B1) VALUES(1,x'41414141414141414141');INSERT INTO A(F1,B1) VALUES(2,x'42424242424242424242');INSERT INTO A(F1,B1) VALUES(3,x'43434343434343434343');INSERT INTO A(F1,B1) VALUES(4,x'44444444444444444444');"));

	// Delete and restore the content of table B (unconditional DELETE, no READ operations)
	TheDb.Exec(_L("DELETE FROM B"));
	TheDb.Exec(_L("INSERT INTO B(F2,F3,B2) VALUES(2, 'ABC',x'45454545454545454545');INSERT INTO B(F2,F3,B2) VALUES(4,'DEF',x'46464646464646464646');"));

	TheDb.Close();	
	}

///////////////////////////////////////////////////////////////////////////////////////
//Test macros and functions
void Check1(TInt aValue, TInt aLine)
	{
	if(!aValue)
		{
		RestoreOriginalDb();
		RDebug::Print(_L("*** Line %d\r\n"), aLine);
		TheTest(EFalse, aLine);
		}
	}
void Check2(TInt aValue, TInt aExpected, TInt aLine)
	{
	if(aValue != aExpected)
		{
		RestoreOriginalDb();
		RDebug::Print(_L("*** Line %d, Expected error: %d, got: %d\r\n"), aLine, aExpected, aValue);
		TheTest(EFalse, aLine);
		}
	}
#define TEST(arg) ::Check1((arg), __LINE__)
#define TEST2(aValue, aExpected) ::Check2(aValue, aExpected, __LINE__)

///////////////////////////////////////////////////////////////////////////////////////

//This functnion is called while there is an open secure connection.
//The function will create a new, non-secure connection and check that the non-secure database schema can be modified,
//while there is another alive, secure database connection.
void NonSecureDbTest()
    {
    (void)RSqlDatabase::Delete(KTestDbName2);
    RSqlDatabase db;
    TInt err = db.Create(KTestDbName2);
    TEST2(err, KErrNone);
    
    err = db.Exec(_L("CREATE TABLE A(I1 INTEGER, I2 INTEGER)"));
    TEST(err >= 0);
    err = db.Exec(_L("CREATE TEMP TABLE B(I1 INTEGER, I2 INTEGER)"));
    TEST(err >= 0);

    //"CREATE VIRTUAL TABLE" statement not supported
    err = db.Exec(_L("CREATE VIRTUAL TABLE V1 USING FTS3(ColOne TEXT, ColTwo DATETIME)"));
    TPtrC msg = db.LastErrorMessage();
    TheTest.Printf(_L("*** \"CREATE VIRTUAL TABLE\" expected failure, msg=\"%S\", err=%d\r\n"), &msg, err);
    TEST(err != KErrNone);
    
    err = db.Exec(_L("CREATE TRIGGER T1 AFTER INSERT ON A BEGIN INSERT INTO B VALUES(new.I1, new.I2); END;"));
    TEST(err >= 0);
    err = db.Exec(_L("DROP TRIGGER T1"));
    TEST(err >= 0);
    err = db.Exec(_L("CREATE TEMP TRIGGER T2 AFTER UPDATE OF I1 ON A BEGIN UPDATE B SET I1 = new.I1; END;"));
    TEST(err >= 0);
    err = db.Exec(_L("DROP TRIGGER T2"));
    TEST(err >= 0);

    err = db.Exec(_L("CREATE VIEW V1 AS SELECT * FROM A"));
    TEST(err >= 0);
    err = db.Exec(_L("DROP VIEW V1"));
    TEST(err >= 0);
    err = db.Exec(_L("CREATE TEMP VIEW V2 AS SELECT * FROM A"));
    TEST(err >= 0);
    err = db.Exec(_L("DROP VIEW V2"));
    TEST(err >= 0);

    err = db.Exec(_L("CREATE INDEX Idx1 ON A(I1)"));
    TEST(err >= 0);
    err = db.Exec(_L("ANALYZE A"));
    TEST(err >= 0);
    err = db.Exec(_L("DROP INDEX Idx1"));
    TEST(err >= 0);
    err = db.Exec(_L("CREATE INDEX Idx2 ON B(I1)"));
    TEST(err >= 0);
    err = db.Exec(_L("DROP INDEX Idx2"));
    TEST(err >= 0);
        
    err = db.Exec(_L("DROP TABLE B"));
    TEST(err >= 0);
    err = db.Exec(_L("DROP TABLE A"));
    TEST(err >= 0);
    
    db.Close();
    (void)RSqlDatabase::Delete(KTestDbName2);
    }

/**
@SYMTestCaseID			SYSLIB-SQL-CT-1646
@SYMTestCaseDesc		Testing database operations on a secure database.
						The test application's capabilities allow read/write access to the test secure database.
						Verify that any other kind of a database operation will fail with KErrPermissionDenied error.
@SYMTestPriority		High
@SYMTestActions			Testing database operations on a secure database.
@SYMTestExpectedResults Test must not fail
@SYMREQ					REQ5792
                        REQ5793
*/	
void ReadWriteDatabaseTest()
	{
	RSqlDatabase db;
	TInt err = TheDb.Open(KTestDbName);
	TEST2(err, KErrNone);
	
	//Attempt to modify the database schema
	err = TheDb.Exec(_L("CREATE TABLE C(FFF TEXT)"));
	TEST2(err, KErrPermissionDenied);
    err = TheDb.Exec(_L("CREATE TEMP TABLE TBL1(COL1 INTEGER, COL2 INTEGER)"));
    TEST(err >= 0);
    err = TheDb.Exec(_L("CREATE TEMP TRIGGER del1 AFTER DELETE ON TBL1 BEGIN DELETE FROM A; END;"));
    TEST(err >= 0);
    err = TheDb.Exec(_L("DROP TRIGGER del1"));
    TEST(err >= 0);
    err = TheDb.Exec(_L("CREATE TEMP VIEW V1 AS SELECT * FROM TBL1"));
    TEST(err >= 0);
    err = TheDb.Exec(_L("DROP VIEW V1"));
    TEST(err >= 0);
    err = TheDb.Exec(_L("CREATE INDEX I1 ON TBL1(COL2)"));
    TEST(err >= 0);
    err = TheDb.Exec(_L("DROP INDEX I1"));
    TEST(err >= 0);
    err = TheDb.Exec(_L("DROP TABLE TBL1"));
    TEST(err >= 0);
    err = TheDb.Exec(_L("ANALYZE A"));
    TEST2(err, KErrPermissionDenied);
    err = TheDb.Exec(_L("CREATE VIEW V2 AS SELECT * FROM A"));
    TEST2(err, KErrPermissionDenied);
	//Attempt to update the user data (but it includes a READ operation)
	err = TheDb.Exec(_L("UPDATE A SET F1 = 11 WHERE F1 = 1"));
	TEST(err >= 0);	
	//Attempt to update the user data (unconditional UPDATE, no READ operations)
	err = TheDb.Exec(_L("UPDATE A SET F1 = 11"));
	TEST(err >= 0);	
	//Attempt to delete the user data (but it includes a READ operation)
	err = TheDb.Exec(_L("DELETE FROM B WHERE F2 = 2"));
	TEST(err >= 0);	
	//Attempt to delete the user data (unconditional DELETE, no READ operations)
	err = TheDb.Exec(_L("DELETE FROM A"));
	TEST(err >= 0);	
	//Restore the deleted table A
	err = TheDb.Exec(_L("INSERT INTO A(F1,B1) VALUES(1,x'41414141414141414141');INSERT INTO A(F1,B1) VALUES(2,x'42424242424242424242');INSERT INTO A(F1,B1) VALUES(3,x'43434343434343434343');INSERT INTO A(F1,B1) VALUES(4,x'44444444444444444444');"));
	TEST(err >= 0);	
	//Restore the deleted record in table B
	err = TheDb.Exec(_L("INSERT INTO B(F2, F3, B2) VALUES(2, 'ABC', x'45454545454545454545');"));
	TEST2(err, 1);
	//Attempt to insert new user data
	err = TheDb.Exec(_L("INSERT INTO B(F2, F3, B2) VALUES(6, 'GHI', x'47474747474747474747');"));
	TEST2(err, 1);
	//Attempt to read the user data
	RSqlStatement stmt;
	err = stmt.Prepare(TheDb, _L("SELECT A.F1 FROM B,A WHERE A.F1 = B.F2"));
	TEST2(err, KErrNone);
	//ColumnCount() has no capabilities assigned
	TInt colCnt = stmt.ColumnCount();
	TEST2(colCnt, 1);
	//DeclaredColumnType() has no capabilities assigned
	TSqlColumnType colType;
	err = stmt.DeclaredColumnType(0, colType);
	TEST2(err, KErrNone);
	TEST2(colType, ESqlInt);
	err = stmt.Next();
	TEST2(err, KSqlAtRow);
	RDebug::Print(_L("Value=%d\r\n"), stmt.ColumnInt(0));
	err = stmt.Next();
	TEST2(err, KSqlAtRow);
	RDebug::Print(_L("Value=%d\r\n"), stmt.ColumnInt(0));
	stmt.Close();
	//Attempt to read the system data
	err = stmt.Prepare(TheDb, _L("SELECT * FROM SQLITE_MASTER"));
	TEST2(err, KErrNone);
	err = stmt.Next();
	TEST2(err, KSqlAtRow);
	TPtrC p;
	err = stmt.ColumnText(0, p);
	TEST2(err, KErrNone);
	RDebug::Print(_L("Value=%S\r\n"), &p);
	stmt.Close();
	
	NonSecureDbTest();
	
	TheDb.Close();
	}
	
/**
@SYMTestCaseID			SYSLIB-SQL-UT-4097
@SYMTestCaseDesc		Testing incremental blob reads and writes on a secure database.
						The test application's capabilities allow read and write access to the blobs.
						Verify that both reads and writes are allowed.
@SYMTestPriority		Medium
@SYMTestActions			Testing incremental blob reads and writes on a secure database.
@SYMTestExpectedResults Test must not fail
@SYMREQ					REQ5794
*/	
void ReadWriteBlobTestL()
	{
	// Current database data:
	// TABLE A: {1, x'41414141414141414141'}, {2, x'42424242424242424242'}, {3, x'43434343434343434343'}, {4, x'44444444444444444444'}
	// TABLE B: {4, "DEF", x'46464646464646464646'} <- ROWID = 2, {2, "ABC", x'45454545454545454545'} <- ROWID = 3, {6, "GHI", x'47474747474747474747'} <- ROWID = 4

	RSqlDatabase db;
	TInt err = TheDb.Open(KTestDbName);
	TEST2(err, KErrNone);
			
	// Attempt to read the blobs in tables A and B
	RSqlBlobReadStream rdStrm;
	CleanupClosePushL(rdStrm);
	TBuf8<20> data;
	TRAP(err, rdStrm.OpenL(TheDb, _L("A"), _L("B1"), 1));
	TEST2(err, KErrNone);
	TRAP(err, rdStrm.ReadL(data, 3));
	TEST2(err, KErrNone);
	TEST(data.Compare(_L8("AAA")) == 0);
	rdStrm.Close();
	TRAP(err, rdStrm.OpenL(TheDb, _L("B"), _L("B2"), 3));
	TEST2(err, KErrNone);
	TRAP(err, rdStrm.ReadL(data, 10));
	TEST2(err, KErrNone);
	TEST(data.Compare(_L8("EEEEEEEEEE")) == 0);
	CleanupStack::PopAndDestroy(&rdStrm);	

	HBufC8* wholeBuf = TSqlBlob::GetLC(TheDb, _L("A"), _L("B1"), 4);
	TEST(wholeBuf->Des().Compare(_L8("DDDDDDDDDD")) == 0);	
	CleanupStack::PopAndDestroy(wholeBuf);
	wholeBuf = TSqlBlob::GetLC(TheDb, _L("B"), _L("B2"), 2);
	TEST(wholeBuf->Des().Compare(_L8("FFFFFFFFFF")) == 0);	
	CleanupStack::PopAndDestroy(wholeBuf);

	HBufC8* buf = HBufC8::NewLC(10);	
	TPtr8 bufPtr(buf->Des());	  
	err = TSqlBlob::Get(TheDb, _L("A"), _L("B1"), bufPtr, 2);
	TEST2(err, KErrNone); 
	TEST(bufPtr.Compare(_L8("BBBBBBBBBB")) == 0);	
	err = TSqlBlob::Get(TheDb, _L("B"), _L("B2"), bufPtr, 4);
	TEST2(err, KErrNone); 
	TEST(bufPtr.Compare(_L8("GGGGGGGGGG")) == 0);
	CleanupStack::PopAndDestroy(buf); 
	
	// Attempt to write the blobs in tables A and B
	RSqlBlobWriteStream wrStrm;
	CleanupClosePushL(wrStrm);
	TRAP(err, wrStrm.OpenL(TheDb, _L("A"), _L("B1"), 1));
	TEST2(err, KErrNone);
	TRAP(err, wrStrm.WriteL(_L8("ZZZ")));
	TEST2(err, KErrNone);
	wrStrm.Close();
	TRAP(err, wrStrm.OpenL(TheDb, _L("B"), _L("B2"), 2));
	TEST2(err, KErrNone);
	TRAP(err, wrStrm.WriteL(_L8("XXXXXXXXX")));
	TEST2(err, KErrNone);
	CleanupStack::PopAndDestroy(&wrStrm);	

	TRAP(err, TSqlBlob::SetL(TheDb, _L("A"), _L("B1"), _L8("UUUUUUUU"), 4));
	TEST2(err, KErrNone);
	TRAP(err, TSqlBlob::SetL(TheDb, _L("B"), _L("B2"), _L8("TT"), 2));
	TEST2(err, KErrNone);
	
	// SQLite and system tables
	
	// Attempt to read from and write to the SQLite master table -
	// reads should be permitted because read capability is enough for this, 
	// writes should not be permitted because schema capability is required for this
	CleanupClosePushL(rdStrm);
	TRAP(err, rdStrm.OpenL(TheDb, _L("sqlite_master"), _L("tbl_name"), 1)); // TEXT column
	TEST2(err, KErrNone);
	TRAP(err, rdStrm.ReadL(data, 1));
	TEST2(err, KErrNone);
	CleanupStack::PopAndDestroy(&rdStrm); 	

	wholeBuf = TSqlBlob::GetLC(TheDb, _L("sqlite_master"), _L("tbl_name"), 1);
	TEST(wholeBuf->Length() > 0);	
	CleanupStack::PopAndDestroy(wholeBuf);  	

	buf = HBufC8::NewLC(100);
	bufPtr.Set(buf->Des());	 	  
	err = TSqlBlob::Get(TheDb, _L("sqlite_master"), _L("tbl_name"), bufPtr, 1);
	TEST2(err, KErrNone); 
	TEST(bufPtr.Length() > 0);	
	CleanupStack::PopAndDestroy(buf); 
	
	CleanupClosePushL(wrStrm);
	TRAP(err, wrStrm.OpenL(TheDb, _L("sqlite_master"), _L("tbl_name"), 1));
	TEST2(err, KErrPermissionDenied);
	CleanupStack::PopAndDestroy(&wrStrm);	

	TRAP(err, TSqlBlob::SetL(TheDb, _L("sqlite_master"), _L("tbl_name"), _L8("VVVV"), 1));
	TEST2(err, KErrPermissionDenied);

	// Attempt to read from and write to the system tables - neither reads nor writes should be permitted
	CleanupClosePushL(rdStrm);
	TRAP(err, rdStrm.OpenL(TheDb, _L("symbian_security"), _L("PolicyData"), 1)); // BLOB column
	TEST2(err, KErrPermissionDenied);
	CleanupStack::PopAndDestroy(&rdStrm);	

	TRAP(err, wholeBuf = TSqlBlob::GetLC(TheDb, _L("symbian_security"), _L("PolicyData"), 1));
	TEST2(err, KErrPermissionDenied);

	buf = HBufC8::NewLC(100);	
	bufPtr.Set(buf->Des());	  
	err = TSqlBlob::Get(TheDb, _L("symbian_security"), _L("PolicyData"), bufPtr, 1);
	TEST2(err, KErrPermissionDenied); 
	CleanupStack::PopAndDestroy(buf); 
	
	CleanupClosePushL(wrStrm);
	TRAP(err, wrStrm.OpenL(TheDb, _L("symbian_security"), _L("PolicyData"), 1));
	TEST2(err, KErrPermissionDenied);
	CleanupStack::PopAndDestroy(&wrStrm);	

	TRAP(err, TSqlBlob::SetL(TheDb, _L("symbian_security"), _L("PolicyData"), _L8("VVVV"), 1));
	TEST2(err, KErrPermissionDenied);
	
	TheDb.Close();
	}
	
void DoTestsL()
	{
	TheTest.Start(_L(" @SYMTestCaseID:SYSLIB-SQL-CT-1646 Read-write database access test "));
	ReadWriteDatabaseTest();
	
	TheTest.Next(_L(" @SYMTestCaseID:SYSLIB-SQL-UT-4097 Read-write blob access test"));
	ReadWriteBlobTestL();
	
	RestoreOriginalDb(); // the same db is used by the other t_security test exe's
	}

TInt E32Main()
	{
	TheTest.Title();
	
	CTrapCleanup* tc = CTrapCleanup::New();
	
	__UHEAP_MARK;
		
	TRAPD(err, DoTestsL());
	TEST2(err, KErrNone);

	__UHEAP_MARKEND;
	
	TheTest.End();
	TheTest.Close();
	
	delete tc;

	User::Heap().Check();
	return KErrNone;
	}