// Copyright (c) 2005-2009 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:
//
#include <e32std.h>
#include <f32file.h>
#include <e32test.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <hal.h>
#include <utf.h> //CnvUtfConverter
#include "sqlite3.h"
#include "SqliteSymbian.h"
#define UNUSED_VAR(a) a = (a)
//Forward declaration
struct Mem;
static RTest TheTest(_L ("t_sqlite.exe"));
static CTrapCleanup* TheTrapCleanup = NULL;
static RFs TheFs;
//File-local buffer used for converted to UTF16 (from UTF8) strings or
//for a temporary file name buffer.
static TUint16 TheFileName[KMaxFileName + 1];
_LIT(KTestDir, "c:\\test\\");
const char KDbName1[] = "c:\\test\\t_sqlite1.db";
const char KDbName2[] = "c:\\test\\t_sqlite2.db";
_LIT(KContactsFile, "c:\\test\\Contacts.DB");
sqlite3 *TheDb1 = NULL, *TheDb2 = NULL;
static TBuf<4096> TheBuf1;
static TBuf<4096> TheBuf2;
static TBuf8<512> TheBuf3;
static TInt TheCmpFCallCnt = 0;
static TInt TheCmpCCallCnt = 0;
_LIT(KSimpleContactsSqlFile, "z:\\test\\add_simple_contacts.sql");
//In order to be able to compile the test, the following variables are defined (used inside the OS porting layer, when _SQLPROFILER macro is defined)
#ifdef _SQLPROFILER
TInt TheSqlSrvProfilerFileRead = 0;
TInt TheSqlSrvProfilerFileWrite = 0;
TInt TheSqlSrvProfilerFileSync = 0;
TInt TheSqlSrvProfilerFileSetSize = 0;
#endif
///////////////////////////////////////////////////////////////////////////////////////
//Creates TPtrC object which points to the unicode presentation of aData.
//aData argument is expected to point to UTF8 encoded, zero terminated string.
//The function returns a TPtrC, non-zero terminated object pointing to the unicode presentation of aData.
//If the length of the returned TPtrC object is 0 - it means that unicode conversion of aData failed,
//because the aData is too long or is NULL.
//Max allowed aData length is KMaxFileName (excluding terminating 0 character).
static TPtrC ConvertToUtf16(const char *aData)
{
TPtrC ptr(0, 0);
if(aData)
{
TInt len = mbstowcs(reinterpret_cast <wchar_t*> (TheFileName), aData, KMaxFileName + 1);
//Check converted string length. If it is longer than KMaxFileName characters, then aData is too long.
if(len > 0 && len <= KMaxFileName)
{
ptr.Set(TheFileName, len);
}
}
return ptr;
}
///////////////////////////////////////////////////////////////////////////////////////
static void DeleteTestFiles()
{
sqlite3_close(TheDb2);
sqlite3_close(TheDb1);
TheFs.Delete(ConvertToUtf16(KDbName2));
TheFs.Delete(ConvertToUtf16(KDbName1));
TheFs.Delete(KContactsFile);
}
///////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////////////
//Test macros and functions
static void Check(TInt aValue, TInt aLine)
{
if(!aValue)
{
DeleteTestFiles();
TheTest.Printf(_L("*** Expresssion evaluated to false\r\n"));
TheTest(EFalse, aLine);
}
}
static void Check(TInt aValue, TInt aExpected, TInt aLine)
{
if(aValue != aExpected)
{
DeleteTestFiles();
TheTest.Printf(_L("*** Expected error: %d, got: %d\r\n"), aExpected, aValue);
TheTest(EFalse, aLine);
}
}
#define TEST(arg) ::Check((arg), __LINE__)
#define TEST2(aValue, aExpected) ::Check(aValue, aExpected, __LINE__)
///////////////////////////////////////////////////////////////////////////////////////
static void CreatePrivateDirs()
{
RFs fs;
TEST2(fs.Connect(), KErrNone);
for(TInt i=0;i<('Z'-'A');++i)
{
fs.CreatePrivatePath(i);
}
fs.Close();
}
///////////////////////////////////////////////////////////////////////////////////////
static void PrintConfig(const TDesC& aDbFilePath)
{
TheTest.Printf(_L("================= Configuration ================\r\n"));
TheTest.Printf(_L("Cache page size %dK, pages %d, total %dK\r\n"), SQLITE_DEFAULT_PAGE_SIZE/1024, SQLITE_DEFAULT_CACHE_SIZE, SQLITE_DEFAULT_PAGE_SIZE * SQLITE_DEFAULT_CACHE_SIZE/1024);
TheTest.Printf(_L("Temp cache page size %dK, pages %d, total %dK\r\n"), SQLITE_DEFAULT_PAGE_SIZE/1024, SQLITE_DEFAULT_TEMP_CACHE_SIZE, SQLITE_DEFAULT_PAGE_SIZE * SQLITE_DEFAULT_TEMP_CACHE_SIZE/1024);
_LIT(K1, "On");
_LIT(K2, "Off");
TheTest.Printf(_L("Autovacuum: %S\r\n"), SQLITE_DEFAULT_AUTOVACUUM ? &K1 : &K2);
#ifdef SQLITE_DEBUG
TheTest.Printf(_L("Debug: On\r\n"));
#else
TheTest.Printf(_L("Debug: Off\r\n"));
#endif
TheTest.Printf(_L("Db file: %S\r\n"), &aDbFilePath);
TheTest.Printf(_L("================================================\r\n"));
}
///////////////////////////////////////////////////////////////////////////////////////
static TInt callback(void */*NotUsed*/, TInt argc, char **argv, char **azColName)
{
TInt i;
for(i=0; i<argc; i++)
{
TPtrC8 colName((const TUint8*)azColName[i]);
TPtrC8 colVal((const TUint8*)(argv[i] ? argv[i] : "NULL"));
TheBuf2.Copy(colName);
TheBuf2.Append(_L(" = "));
TheBuf1.Copy(colVal);
TheBuf2.Append(TheBuf1);
TheTest.Printf(_L("%S\r\n"), &TheBuf2);
}
TheTest.Printf(_L("\r\n"));
return 0;
}
static TInt Compare(void*, TInt size1, const void* p1, TInt size2, const void* p2)
{
TPtrC8 ptr1((TUint8*)p1, size1);
TPtrC8 ptr2((TUint8*)p2, size2);
TInt res = ptr1.CompareF(ptr2);
return res;
}
static TInt Compare2(void*, TInt size1, const void* p1, TInt size2, const void* p2)
{
TPtrC8 ptr1((TUint8*)p1, size1);
TPtrC8 ptr2((TUint8*)p2, size2);
TInt res = -ptr1.Compare(ptr2);
return res;
}
static void Func(sqlite3_context* ctx, TInt nCnt, sqlite3_value** pp)
{
for(TInt i=0;i<nCnt;++i)
{
TInt v = sqlite3_value_int(*pp++);
v = v;
}
sqlite3_result_int(ctx, 564);
}
///////////////////////////////////////////////////////////////////////////////////////
//Create database, table, view, INSERT, SELECT, DELETE sql statements, register collations,
//user defined functions, CREATE INDEX, CREATE VIEW sql statements, GROUP BY, HAVING, EXCEPT,...
static void DoTests1()
{
char *zErrMsg = 0;
TInt rc;
rc = sqlite3_open(KDbName1, &TheDb1);
if(rc)
{
TPtrC p = ConvertToUtf16(sqlite3_errmsg(TheDb1));
TheTest.Printf(_L("Can't open database, err %d, msg: %S\r\n"), rc, &p);
TEST(0);
}
rc = sqlite3_create_collation(TheDb1, "Clt1", SQLITE_UTF8, NULL, &Compare);
if(rc)
{
TPtrC p = ConvertToUtf16(sqlite3_errmsg(TheDb1));
TheTest.Printf(_L("Can't create collation, err %d, msg: %S\r\n"), rc, &p);
TEST(0);
}
rc = sqlite3_create_collation(TheDb1, "Clt2", SQLITE_UTF8, NULL, &Compare2);
if(rc)
{
TPtrC p = ConvertToUtf16(sqlite3_errmsg(TheDb1));
TheTest.Printf(_L("Can't create collation, err %d, msg: %S\r\n"), rc, &p);
TEST(0);
}
rc = sqlite3_create_function(TheDb1, "Func", 2, SQLITE_UTF8, NULL, Func, NULL, NULL);
if(rc)
{
TPtrC p = ConvertToUtf16(sqlite3_errmsg(TheDb1));
TheTest.Printf(_L("Can't create UDF, err %d, msg: %S\r\n"), rc, &p);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "\
BEGIN TRANSACTION;\
CREATE TABLE Pn(Id INTEGER PRIMARY KEY AUTOINCREMENT,\
Name TEXT NOT NULL,\
Surname TEXT NOT NULL COLLATE Clt1);\
CREATE INDEX PnSurname ON Pn(Surname);\
CREATE TABLE Addr(Id INTEGER PRIMARY KEY AUTOINCREMENT,\
PnId INTEGER,\
CityId INTEGER,\
Location TEXT DEFAULT 'address');\
CREATE INDEX AddrPnId ON Addr(PnId);\
CREATE INDEX AddrCityId ON Addr(CityId);\
CREATE TABLE City(ID INTEGER PRIMARY KEY AUTOINCREMENT, Name TEXT Default 'None');\
CREATE TABLE Shop(Id INTEGER, Name TEXT);\
CREATE TABLE Sales(ShopId INTEGER, M MONEY, D TIMESTAMP, D1 DATE, T1 TIME);\
CREATE TRIGGER TrgPnDel BEFORE DELETE ON Pn \
BEGIN \
SELECT Func(2,8);\
SELECT CASE WHEN ((SELECT COUNT(*) FROM Addr WHERE Addr.PnId = old.Id) > 0) \
THEN RAISE (ABORT, 'Foreign key constraint violation!!!') \
END;\
END;\
CREATE VIEW V1 AS SELECT * FROM Pn;\
CREATE VIEW V2 AS SELECT * FROM Addr;\
CREATE VIEW V3 AS SELECT * FROM Sales;\
CREATE VIEW V4 AS SELECT * FROM Shop;\
COMMIT TRANSACTION;", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
rc = sqlite3_exec(TheDb1,
"BEGIN TRANSACTION;\
INSERT INTO Pn(Name, Surname) VALUES('Aaaa1', 'Aaaa2');\
INSERT INTO Pn(Name, Surname) VALUES('Bbbb1', 'Bbbb2');\
INSERT INTO Pn(Name, Surname) VALUES('Cccc1', 'Cccc2');\
INSERT INTO Pn(Name, Surname) VALUES('Dddd1', 'Dddd2');\
INSERT INTO City(Name) VALUES('London');\
INSERT INTO City(Name) VALUES('Manchester');\
INSERT INTO Addr(PnId, CityId, Location) SELECT Pn.Id, City.Id, 'Here' FROM Pn, City WHERE Pn.Surname = 'Cccc2' AND City.Name = 'London';\
INSERT INTO Addr(PnId, CityId, Location) SELECT Pn.Id, City.Id, 'There' FROM Pn, City WHERE Pn.Surname = 'Bbbb2' AND City.Name = 'Manchester';\
INSERT INTO Shop(Id, Name) VALUES(1, 'Shop-1');\
INSERT INTO Shop(Id, Name) VALUES(2, 'Shop-2');\
INSERT INTO Shop(Id, Name) VALUES(3, 'Shop-3');\
INSERT INTO Sales(ShopId, M, D, D1, T1) VALUES(1, 123.0, '2005-01-01', CURRENT_DATE, '12:34:17');\
INSERT INTO Sales(ShopId, M, D, D1, T1) VALUES(2, 100.0, '2005-01-01', '2005-01-27', '12:34:18');\
INSERT INTO Sales(ShopId, M, D, D1, T1) VALUES(2, 200.0, '2005-01-02', '2005-01-28', '12:34:19');\
INSERT INTO Sales(ShopId, M, D, D1, T1) VALUES(3, 200.0, '2005-01-03', '2005-01-29', '12:34:23');\
COMMIT TRANSACTION;", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "SELECT COUNT(*) FROM Shop", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
for(TInt i=0;i<500;++i)
{
_LIT8(KSqlStmt, "INSERT INTO Shop(Id, Name) VALUES(%d, 'Shop-%d')\x0");
TheBuf3.Format(KSqlStmt, i+1, i+1);
rc = sqlite3_exec(TheDb1, (const char*)TheBuf3.Ptr(), callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
}
_LIT8(KSqlStmt2, "DELETE FROM Shop WHERE Id > 400\x0");
rc = sqlite3_exec(TheDb1, (const char*)KSqlStmt2().Ptr(), callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
_LIT8(KSqlStmt3, "SELECT COUNT(*) FROM Shop\x0");
rc = sqlite3_exec(TheDb1, (const char*)KSqlStmt3().Ptr(), callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "SELECT Pn.Surname, Addr.Location, City.Name FROM Pn \
INNER JOIN Addr ON Pn.Id = Addr.PnId \
INNER JOIN City ON Addr.CityId = City.Id \
ORDER BY Surname COLLATE Clt2", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "SELECT * FROM Addr", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "SELECT * FROM Sales WHERE D1 > '2005-08-27'", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "SELECT V1.* FROM V1 EXCEPT SELECT V1.* FROM V1 WHERE V1.Id = 2", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "SELECT V3.D, SUM(V3.M) FROM V3 GROUP BY V3.D HAVING SUM(V3.M) > 210.0", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "SELECT V4.Name, SUM(V3.M) FROM V4, V3 WHERE V4.Id = V3.ShopId GROUP BY V4.Id", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
sqlite3_close(TheDb1);
TheFs.Delete(ConvertToUtf16(KDbName1));
}
//Generic SQL tests.
static void DoTests2()
{
TheFs.Delete(ConvertToUtf16(KDbName1));
char *zErrMsg = 0;
TInt rc;
rc = sqlite3_open(KDbName1, &TheDb1);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(sqlite3_errmsg(TheDb1));
TheTest.Printf(_L("Can't open database, err %d, msg: %S\r\n"), rc, &p);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "PRAGMA auto_vacuum = 1", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "\
BEGIN TRANSACTION;\
CREATE TABLE Shop(Id INTEGER, Name TEXT);\
CREATE INDEX ShopName ON Shop(Name);\
COMMIT TRANSACTION;", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "BEGIN TRANSACTION", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
for(TInt i=0;i<1000;++i)
{
_LIT8(KSqlStmt, "INSERT INTO Shop(Id, Name) VALUES(%d, 'Shop-%d')\x0");
TheBuf3.Format(KSqlStmt, i, i);
rc = sqlite3_exec(TheDb1, (const char*)TheBuf3.Ptr(), callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
}
rc = sqlite3_exec(TheDb1, "COMMIT TRANSACTION", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "SELECT COUNT(*) FROM Shop", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "BEGIN TRANSACTION", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "DELETE FROM Shop WHERE Id > 100", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "COMMIT TRANSACTION", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
rc = sqlite3_exec(TheDb1, "SELECT COUNT(*) FROM Shop", callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\r\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
sqlite3_close(TheDb1);
TheFs.Delete(ConvertToUtf16(KDbName1));
}
//Accented column names test
static void AccentedColumnNamesTestL()
{
TheFs.Delete(ConvertToUtf16(KDbName1));
//Open database
TPtrC tmp = ConvertToUtf16(KDbName1);
TBuf<KMaxFileName + 1> fname;
fname.Copy(tmp);
TInt rc = sqlite3_open16(fname.PtrZ(), &TheDb1);//!!!!16-bit encoding!!!!!
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(sqlite3_errmsg(TheDb1));
TheTest.Printf(_L("Can't open database, err %d, msg: %S\r\n"), rc, &p);
TEST(0);
}
//Create table
_LIT(KSqlStrZ, "CREATE TABLE abc(col_\u00C4 integer, col_A text)\0");
// _LIT(KSqlStrZ, "CREATE TABLE abc(col_a integer, col_A text)\0");
// _LIT(KSqlStrZ, "CREATE TABLE abc(col_Ä integer, col_ä text)\0");
// _LIT(KSqlStrZ, "CREATE TABLE abc(col_Ä integer, col_A\x308 text)\0");
sqlite3_stmt* stmtHandle = NULL;
const void* stmtTailZ = NULL;
rc = sqlite3_prepare16_v2(TheDb1, KSqlStrZ().Ptr(), -1, &stmtHandle, &stmtTailZ);
if(rc != SQLITE_OK)
{
const void* errMsgZ = sqlite3_errmsg16(TheDb1);
TPtrC msg(reinterpret_cast <const TText16*> (errMsgZ), wcslen(reinterpret_cast <const wchar_t*> (errMsgZ)));
TheTest.Printf(_L("'sqlite3_prepare16_v2()' failed, err %d, error msg: \"%S\"\r\n"), rc, &msg);
TEST(0);
}
rc = sqlite3_step(stmtHandle);
TEST(rc == SQLITE_DONE);
sqlite3_finalize(stmtHandle);
stmtHandle = NULL;
//Select from the table
_LIT(KSqlStrZ2, "SELECT * FROM abc WHERE :prm_\u00C4 = col_\u00C4 and :prm_\u00E4 = col_A and :prm_A = col_A and :prm_a = col_\u00C4\0");
rc = sqlite3_prepare16_v2(TheDb1, KSqlStrZ2().Ptr(), -1, &stmtHandle, &stmtTailZ);
if(rc != SQLITE_OK)
{
const void* errMsgZ = sqlite3_errmsg16(TheDb1);
TPtrC msg(reinterpret_cast <const TText16*> (errMsgZ), wcslen(reinterpret_cast <const wchar_t*> (errMsgZ)));
TheTest.Printf(_L("'sqlite3_prepare16_v2()' failed, err %d, error msg: \"%S\"\r\n"), rc, &msg);
TEST(0);
}
//parameter checks
TBuf<16> prmNames[5];
TInt prmCount = sqlite3_bind_parameter_count(stmtHandle);
for(TInt i=1;i<=prmCount;++i)
{
const char* prmNameZ = sqlite3_bind_parameter_name(stmtHandle, i);
TPtrC8 name8(reinterpret_cast <const TUint8*> (prmNameZ), strlen(prmNameZ));
HBufC* name = CnvUtfConverter::ConvertToUnicodeFromUtf8L(name8);
prmNames[i] = *name;
delete name;
}
TInt prmIndex0_1 = sqlite3_bind_parameter_index(stmtHandle, ":prm_Ä");
prmIndex0_1 = prmIndex0_1;
TInt prmIndex1_1 = sqlite3_bind_parameter_index(stmtHandle, ":prm_ä");
prmIndex1_1 = prmIndex1_1;
TInt prmIndex2_1 = sqlite3_bind_parameter_index(stmtHandle, ":prm_A");
prmIndex2_1 = prmIndex2_1;
TInt prmIndex3_1 = sqlite3_bind_parameter_index(stmtHandle, ":prm_a");
prmIndex3_1 = prmIndex3_1;
TBuf8<16> name8;
HBufC8* name = CnvUtfConverter::ConvertFromUnicodeToUtf8L(prmNames[1]);
name8 = *name;
delete name;
TInt prmIndex0_2 = sqlite3_bind_parameter_index(stmtHandle, (const char*)name8.PtrZ());
prmIndex0_2 = prmIndex0_2;
name = CnvUtfConverter::ConvertFromUnicodeToUtf8L(prmNames[2]);
name8 = *name;
delete name;
TInt prmIndex1_2 = sqlite3_bind_parameter_index(stmtHandle, (const char*)name8.PtrZ());
prmIndex1_2 = prmIndex1_2;
name = CnvUtfConverter::ConvertFromUnicodeToUtf8L(prmNames[3]);
name8 = *name;
delete name;
TInt prmIndex2_2 = sqlite3_bind_parameter_index(stmtHandle, (const char*)name8.PtrZ());
prmIndex2_2 = prmIndex2_2;
name = CnvUtfConverter::ConvertFromUnicodeToUtf8L(prmNames[4]);
name8 = *name;
delete name;
TInt prmIndex3_2 = sqlite3_bind_parameter_index(stmtHandle, (const char*)name8.PtrZ());
prmIndex3_2 = prmIndex3_2;
//Column checks
TPtrC colName1(_L("col_\u00C4"));
TPtrC colName2(_L("col_A"));
const void* p = sqlite3_column_name16(stmtHandle, 0);
TPtrC pp1((const TUint16*)p, wcslen(reinterpret_cast <const wchar_t*> (p)));
TEST(colName1 == pp1);
p = sqlite3_column_name16(stmtHandle, 1);
TPtrC pp2((const TUint16*)p, wcslen(reinterpret_cast <const wchar_t*> (p)));
TEST(colName2 == pp2);
sqlite3_finalize(stmtHandle);
sqlite3_close(TheDb1);
TheFs.Delete(ConvertToUtf16(KDbName1));
}
//////////////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////////////
////////////// "Add Contacts" test case ////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////////////
//Read SQL file - 8-bit, zero-terminated string
static char* ReadSQL2(const TDesC& aSqlFileName)
{
RFile file;
TEST2(file.Open(TheFs, aSqlFileName, EFileRead), KErrNone);
TInt size = 0;
TEST2(file.Size(size), KErrNone);
char* sql = new char [size + 1];
TEST(sql != NULL);
TPtr8 ptr((TUint8*)sql, size + 1);
TEST2(file.Read(ptr, size), KErrNone);
*(sql + size) = 0;
file.Close();
return sql;
}
//Read SQL file - 16-bit, zero-terminated string
static HBufC* ReadSQL16(const TDesC& aSqlFileName)
{
RFile file;
TEST2(file.Open(TheFs, aSqlFileName, EFileRead), KErrNone);
TInt size = 0;
TEST2(file.Size(size), KErrNone);
char* sql = new char [size];
TEST(sql != NULL);
TPtr8 ptr((TUint8*)sql, size);
TEST2(file.Read(ptr, size), KErrNone);
HBufC* sql16 = HBufC::New(size + 1);
TEST(sql16 != NULL);
TPtr16 ptr16 = sql16->Des();
ptr16.Copy(ptr);
ptr16.Append(TChar(0));
delete [] sql;
file.Close();
return sql16;
}
//Prints file size in bytes
static void PrintFileSize(const TDesC& aPath)
{
RFile file;
TEST2(file.Open(TheFs, aPath, EFileRead), KErrNone);
TInt size = 0;
TEST2(file.Size(size), KErrNone);
file.Close();
TheTest.Printf(_L("File \"%S\", size: %d\r\n"), &aPath, size);
}
//Executes 8-bit SQL statement
static void ExecSql(sqlite3* aDbHandle, const char* aSqlStmt, const TDesC& aMsg)
{
TEST(aDbHandle != NULL);
TEST(aSqlStmt != NULL);
char* errMsg = NULL;
TTime t1;
t1.UniversalTime();
TInt rc = sqlite3_exec(aDbHandle, aSqlStmt, callback, 0, &errMsg);
if(rc != SQLITE_OK)
{
TPtrC8 ptr8((const TUint8*)errMsg, strlen(errMsg));
TheBuf1.Copy(ptr8);
TheTest.Printf(_L("'sqlite3_exec()' failed, err %d, error msg: \"%S\"\t\n"), rc, &TheBuf1);
TEST(0);
}
TTime t2;
t2.UniversalTime();
TTimeIntervalMicroSeconds diffTime = t2.MicroSecondsFrom(t1);
diffTime = diffTime.Int64() / 1000;
TheTest.Printf(_L("%S, time: %d ms\r\n"), &aMsg, (TInt)diffTime.Int64());
}
//This function searches aString argument for ';' occurences.
//Every time when it finds a ';' character, the function places a 0 right after the ';' and
//tests the just created, zero-terminated substring if it is a comlpete SQL statement.
//If it is a SQL statement, the function returns it and modifies aString argument to point right after the found
//SQL string. If it is not SQL statement, the function will continue the searching.
//If there is no ';' inside aString argument, the function returns the same string as a return result and
//modifies aString argument - sets it to TPtr(NULL, 0, 0).
//
//The function expects aString argument to be zero-terminated.
static TPtrC GetFirstSqlStmt(TPtr& aString)
{
const TChar KDelimitier(';');
TPtr str(const_cast <TUint16*> (aString.Ptr()), aString.Length(), aString.Length());
TInt afterDelimitierPos = 0;
TInt pos;
while((pos = str.Locate(KDelimitier) + 1) > 0 && pos < str.Length())
{
//There is a possibility that the string which terminates with the found ';' is SQL statement.
//Zero terminate the string placing a zero right after ';' character and test it using sqlite3_complete16()
//call. If it is not SQL string, restore the original character and continue searching.
afterDelimitierPos += pos;
TChar ch = aString[afterDelimitierPos];
aString[afterDelimitierPos] = 0;
TInt res = sqlite3_complete16(aString.Ptr());
aString[afterDelimitierPos] = ch;
if(res)
{
str.Set(const_cast <TUint16*> (aString.Ptr()), afterDelimitierPos, afterDelimitierPos);
//Replace the found ';' character with 0.
str[afterDelimitierPos - 1] = 0;
aString.Set(const_cast <TUint16*> (aString.Ptr()) + afterDelimitierPos, aString.Length() - afterDelimitierPos, aString.Length() - afterDelimitierPos);
return str;
}
str.Set(const_cast <TUint16*> (str.Ptr()) + pos, str.Length() - pos, str.Length() - pos);
}
//aString argument does not contain valid SQL statement or there is no ';' character inside aString.
//Set aString to TPtr(NULL, 0, 0) and return the original string.
aString.Set(NULL, 0, 0);
return str;
}
//Executes 16-bit SQL statement
static void ExecSql16(sqlite3* aDbHandle, TDes& aSqlStmtZ, const TDesC& aMsg)
{
TEST(aDbHandle != NULL);
TTime t1;
t1.UniversalTime();
TPtr sqlLeftZ(const_cast <TUint16*> (aSqlStmtZ.Ptr()), aSqlStmtZ.Length(), aSqlStmtZ.Length());
while(sqlLeftZ.Length() > 0)
{
TPtrC sql = GetFirstSqlStmt(sqlLeftZ);
sqlite3_stmt* stmtHandle = NULL;
const void* stmtTailZ = NULL;
TInt err = sqlite3_prepare16_v2(aDbHandle, sql.Ptr(), -1, &stmtHandle, &stmtTailZ);
__ASSERT_ALWAYS(!stmtTailZ || User::StringLength((const TUint16*)stmtTailZ) == 0, User::Invariant());
if(stmtHandle)
{
if(err == SQLITE_OK)
{
while((err = sqlite3_step(stmtHandle)) == SQLITE_ROW)
{
}
}
sqlite3_finalize(stmtHandle);
}
if(err != SQLITE_DONE && err != SQLITE_OK)
{
const void* errMsgZ = sqlite3_errmsg16(aDbHandle);
TPtrC msg(reinterpret_cast <const TText16*> (errMsgZ), wcslen(reinterpret_cast <const wchar_t*> (errMsgZ)));
TheTest.Printf(_L("'sqlite3_exec16()' failed, err %d, error msg: \"%S\"\t\n"), err, &msg);
TEST(0);
}
}
TTime t2;
t2.UniversalTime();
TTimeIntervalMicroSeconds diffTime = t2.MicroSecondsFrom(t1);
diffTime = diffTime.Int64() / 1000;
TheTest.Printf(_L("%S, time: %d ms\r\n"), &aMsg, (TInt)diffTime.Int64());
}
//////////////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////////////
////////////// "Search" test case ////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////////////
struct TPnName
{
TPnName(const TDesC8& aFirstName, const TDesC8& aSurname) :
iFirstName(aFirstName),
iSurname(aSurname)
{
}
const TPtrC8 iFirstName;
const TPtrC8 iSurname;
};
const TInt KNamesCnt = 100;
const TPnName KNames[KNamesCnt] =
{
TPnName(_L8("Kauh"), _L8("Mollel")),
TPnName(_L8("Be"), _L8("Balcalertthawnd")),
TPnName(_L8("Joba"), _L8("Hah")),
TPnName(_L8("Mal"), _L8("Sinianna")),
TPnName(_L8("Alip"), _L8("Hanittrinke")),
TPnName(_L8("Ris"), _L8("Aba")),
TPnName(_L8("Nirindrilo"), _L8("Oangah")),
TPnName(_L8("An"), _L8("Mck")),
TPnName(_L8("Ris"), _L8("Jat")),
TPnName(_L8("Ja"), _L8("R")),
TPnName(_L8("Pary"), _L8("Sawngethwnes")),
TPnName(_L8("Main"), _L8("Stonstc")),
TPnName(_L8("Joldan"), _L8("Misonialonss")),
TPnName(_L8("Ja"), _L8("Beetth")),
TPnName(_L8("An"), _L8("Magill")),
TPnName(_L8("Ste"), _L8("Hakegstolbebilance")),
TPnName(_L8("Laelefattal"), _L8("Bume")),
TPnName(_L8("Anortoausl"), _L8("Kenoonssssoninals")),
TPnName(_L8("Sthnill"), _L8("Huere")),
TPnName(_L8("Elatandy"), _L8("Miadhelbi")),
TPnName(_L8("Nevieohageridik"), _L8("Baronirgeriallyemo")),
TPnName(_L8("Dertrry"), _L8("Miches")),
TPnName(_L8("Tan-"), _L8("Sonagutlly")),
TPnName(_L8("Mazianer"), _L8("Wi")),
TPnName(_L8("Kesadrin"), _L8("Swixohar")),
TPnName(_L8("Juhnn"), _L8("Vezuins")),
TPnName(_L8("Geri"), _L8("Okun-Mamar")),
TPnName(_L8("Jol"), _L8("Hadir")),
TPnName(_L8("Lon"), _L8("Fonernginire")),
TPnName(_L8("Brrk"), _L8("El")),
TPnName(_L8("So"), _L8("Thanas")),
TPnName(_L8("Timon"), _L8("Matarol")),
TPnName(_L8("Clicartif"), _L8("Sandhinth")),
TPnName(_L8("Dan"), _L8("Brl")),
TPnName(_L8("An"), _L8("Danss")),
TPnName(_L8("Y"), _L8("Gianstes")),
TPnName(_L8("Gralilas"), _L8("Beny")),
TPnName(_L8("Vamean"), _L8("Matesstel")),
TPnName(_L8("Ch"), _L8("Inrinez")),
TPnName(_L8("Ra"), _L8("Lusieing")),
TPnName(_L8("Gerik"), _L8("Mawoshar")),
TPnName(_L8("Nobrd"), _L8("Kerokilirtsoug")),
TPnName(_L8("Norichnik"), _L8("Balmo")),
TPnName(_L8("Anddra"), _L8("Fit")),
TPnName(_L8("Maily"), _L8("Tanyerohetsphinbr")),
TPnName(_L8("Frsa"), _L8("Huntorrenerkh")),
TPnName(_L8("Gi"), _L8("Spandaveees")),
TPnName(_L8("Jollminenipaninderal"), _L8("Vartzury")),
TPnName(_L8("Ankshr"), _L8("Terawloleral")),
TPnName(_L8("An"), _L8("La")),
TPnName(_L8("Ma"), _L8("Brnd")),
TPnName(_L8("Sonerdalmon"), _L8("Bo")),
TPnName(_L8("Nis"), _L8("Tapeworrt")),
TPnName(_L8("Shand"), _L8("Hacllik")),
TPnName(_L8("San"), _L8("Sh")),
TPnName(_L8("Mico"), _L8("Javiaros")),
TPnName(_L8("Hub"), _L8("Warey")),
TPnName(_L8("Mambew"), _L8("Maw")),
TPnName(_L8("Honik"), _L8("Fantscerstetoringu")),
TPnName(_L8("Da"), _L8("Saneelur")),
TPnName(_L8("Aberecalahayondorttelin"), _L8("Futtesesoxok")),
TPnName(_L8("Dor"), _L8("Lelek")),
TPnName(_L8("Matin"), _L8("Fure")),
TPnName(_L8("Niasietolf"), _L8("Jonones")),
TPnName(_L8("Das"), _L8("Hoeonds")),
TPnName(_L8("Anchn"), _L8("Svss")),
TPnName(_L8("Dor"), _L8("Bolunatrk")),
TPnName(_L8("Casah"), _L8("Brilllundonsssoug")),
TPnName(_L8("Iapew"), _L8("Bagukak")),
TPnName(_L8("Lieni"), _L8("MoncNicel")),
TPnName(_L8("Adewalyary"), _L8("Buradesorobbrerans")),
TPnName(_L8("Tos"), _L8("Gis")),
TPnName(_L8("Vi"), _L8("Berk")),
TPnName(_L8("Jorya"), _L8("upmarone")),
TPnName(_L8("Iatew"), _L8("Hend")),
TPnName(_L8("Liag"), _L8("Brsmall")),
TPnName(_L8("Al"), _L8("Spahay")),
TPnName(_L8("El"), _L8("Sy")),
TPnName(_L8("Pary"), _L8("Trl")),
TPnName(_L8("Br"), _L8("Usouroneis")),
TPnName(_L8("Sirnilly"), _L8("Olay")),
TPnName(_L8("Fell"), _L8("Bouphies")),
TPnName(_L8("Man"), _L8("Haz")),
TPnName(_L8("Dare"), _L8("Was")),
TPnName(_L8("Fahnahopephrtex"), _L8("Gat")),
TPnName(_L8("Har"), _L8("Handfffebinneickiasse")),
TPnName(_L8("Gerlai"), _L8("Boravirg")),
TPnName(_L8("Miss"), _L8("Us")),
TPnName(_L8("Caushatattoatot"), _L8("Wes")),
TPnName(_L8("Eizicay"), _L8("Gunbss")),
TPnName(_L8("Pan"), _L8("Hilesertatickesobss-")),
TPnName(_L8("Anaw"), _L8("Mangar")),
TPnName(_L8("Korba"), _L8("Siansolan")),
TPnName(_L8("Darl"), _L8("Haginijelso")),
TPnName(_L8("Ral"), _L8("Veddddkisocackeluisowowone")),
TPnName(_L8("La"), _L8("Wawethl")),
TPnName(_L8("Y"), _L8("Wisonkend")),
TPnName(_L8("Evimiat"), _L8("JondepssooncClille")),
TPnName(_L8("Rin"), _L8("DulatoliacKark")),
TPnName(_L8("Shegeiew"), _L8("Ass"))
};
/////////////////////////////////////////////////////////////
// 16-bit strings
/////////////////////////////////////////////////////////////
static TInt CmpF16(void*, TInt size1, const void* p1, TInt size2, const void* p2)
{
++TheCmpFCallCnt;
TPtrC16 ptr1((TUint16*)p1, size1/2);
TPtrC16 ptr2((TUint16*)p2, size2/2);
TInt res = ptr1.CompareF(ptr2);
return res;
}
static TInt CmpC16(void*, TInt size1, const void* p1, TInt size2, const void* p2)
{
++TheCmpCCallCnt;
TPtrC16 ptr1((TUint16*)p1, size1/2);
TPtrC16 ptr2((TUint16*)p2, size2/2);
TInt res = ptr1.CompareC(ptr2);
return res;
}
static void SearchDbTest16(const TDesC& aDbFilePath)
{
TheFs.Delete(aDbFilePath);
TBuf<KMaxFileName + 1> fname;
fname.Copy(aDbFilePath);
//Open database
TheTest.Printf(_L("Open database\r\n"));
sqlite3 *dbHandle = NULL;
TInt rc = sqlite3_open16(fname.PtrZ(), &dbHandle);//!!!!16-bit encoding!!!!!
if(rc != SQLITE_OK)
{
const void* errMsgZ = sqlite3_errmsg16(dbHandle);
TPtrC msg(reinterpret_cast <const TText16*> (errMsgZ), wcslen(reinterpret_cast <const wchar_t*> (errMsgZ)));
TheTest.Printf(_L("'sqlite3_open()' failed, file %S, err %d, error msg: \"%S\"\t\n"), &aDbFilePath, rc, &msg);
TEST(0);
}
TEST(dbHandle != NULL);
//Create "CompareF" collation
TheTest.Printf(_L("Create \"CompareF\" collation\r\n"));
_LIT(KCmpF, "CmpF16\x0");
rc = sqlite3_create_collation16(dbHandle, (const char*)(KCmpF().Ptr()), SQLITE_UTF16 | SQLITE_UTF16_ALIGNED, NULL, &CmpF16);
if(rc)
{
const void* errMsgZ = sqlite3_errmsg16(dbHandle);
TPtrC msg(reinterpret_cast <const TText16*> (errMsgZ), wcslen(reinterpret_cast <const wchar_t*> (errMsgZ)));
TheTest.Printf(_L("Err=%S\r\n"), &msg);
TEST(0);
}
//Create "CompareC" collation
TheTest.Printf(_L("Create \"CompareC\" collation\r\n"));
_LIT(KCmpC, "CmpC16\x0");
rc = sqlite3_create_collation16(dbHandle, (const char*)(KCmpC().Ptr()), SQLITE_UTF16 | SQLITE_UTF16_ALIGNED, NULL, &CmpC16);
if(rc)
{
const void* errMsgZ = sqlite3_errmsg16(dbHandle);
TPtrC msg(reinterpret_cast <const TText16*> (errMsgZ), wcslen(reinterpret_cast <const wchar_t*> (errMsgZ)));
TheTest.Printf(_L("Err=%S\r\n"), &msg);
TEST(0);
}
//Create database schema
TheCmpFCallCnt = TheCmpCCallCnt = 0;
TheTest.Printf(_L("Create database schema\r\n"));
HBufC16* createSqlZ = ReadSQL16(_L("z:\\test\\contacts_schema_to_vendors.sql"));
TPtr sql = createSqlZ->Des();
ExecSql16(dbHandle, sql, _L("Create schema"));
delete createSqlZ;
TheTest.Printf(_L("CmpF() call cnt %d, CmpC() call cnt %d\r\n"), TheCmpFCallCnt, TheCmpCCallCnt);
//Add 1001 "simple" contacts
TheCmpFCallCnt = TheCmpCCallCnt = 0;
TheTest.Printf(_L("Add 1001 \"simple\" contacts\r\n"));
HBufC16* addSqlZ = ReadSQL16(KSimpleContactsSqlFile);
TheTest.Printf(_L("--\r\n"));
sql.Set(addSqlZ->Des());
ExecSql16(dbHandle, sql, _L("Add simple contacts"));
delete addSqlZ;
TheTest.Printf(_L("CmpF() call cnt %d, CmpC() call cnt %d\r\n"), TheCmpFCallCnt, TheCmpCCallCnt);
//Print the number of records
TheTest.Printf(_L("Print the number of records\r\n"));
TBuf<40> testSql(_L("SELECT COUNT(*) FROM CONTACTS"));
testSql.Append(TChar(0));
ExecSql16(dbHandle, testSql, _L("--"));
//Create index: "First name, Last name"
TheCmpFCallCnt = TheCmpCCallCnt = 0;
TheTest.Printf(_L("Create index: \"First name, Last name\"\r\n"));
TBuf<100> createIndexStmt(_L("CREATE INDEX Idx1 ON identitytable(cm_firstname COLLATE CmpC16, cm_lastname COLLATE CmpC16)"));
createIndexStmt.Append(TChar(0));
ExecSql16(dbHandle, createIndexStmt, _L("Create index"));
TheTest.Printf(_L("CmpF() call cnt %d, CmpC() call cnt %d\r\n"), TheCmpFCallCnt, TheCmpCCallCnt);
TheTest.Printf(_L("Close database\r\n"));
sqlite3_close(dbHandle);
PrintFileSize(aDbFilePath);
}
/////////////////////////////////////////////////////////////
// 8-bit strings
/////////////////////////////////////////////////////////////
static TInt CmpF8(void*, TInt size1, const void* p1, TInt size2, const void* p2)
{
++TheCmpFCallCnt;
TPtrC8 ptr1((TUint8*)p1, size1);
TPtrC8 ptr2((TUint8*)p2, size2);
TInt res = ptr1.CompareF(ptr2);
return res;
}
static TInt CmpC8(void*, TInt size1, const void* p1, TInt size2, const void* p2)
{
TPtrC8 ptr1((TUint8*)p1, size1);
TPtrC8 ptr2((TUint8*)p2, size2);
TInt res = ptr1.CompareC(ptr2);
return res;
}
static void SearchDbTest8(const TDesC& aDbFilePath, const TDesC& aAddContactsFile, const TDesC& aMsg)
{
TheFs.Delete(aDbFilePath);
TBuf8<KMaxFileName + 1> fname;
fname.Copy(aDbFilePath);
TheTest.Printf(_L("%S\r\n"), &aMsg);
TheTest.Printf(_L("Open database\r\n"));
sqlite3 *dbHandle = NULL;
TInt rc = sqlite3_open((const char*)fname.PtrZ(), &dbHandle);
if(rc != SQLITE_OK)
{
const void* errMsgZ = sqlite3_errmsg16(dbHandle);
TPtrC msg(reinterpret_cast <const TText16*> (errMsgZ), wcslen(reinterpret_cast <const wchar_t*> (errMsgZ)));
TheTest.Printf(_L("'sqlite3_open()' failed, file %S, err %d, error msg: \"%S\"\r\n"), &aDbFilePath, rc, &msg);
TEST(0);
}
TEST(dbHandle != NULL);
TheTest.Printf(_L("Create 'CompareF' collation\r\n"));
_LIT8(KCmpF, "CmpF8\x0");
rc = sqlite3_create_collation(dbHandle, (const char*)(KCmpF().Ptr()), SQLITE_UTF8, NULL, &CmpF8);
if(rc)
{
const void* errMsgZ = sqlite3_errmsg16(dbHandle);
TPtrC msg(reinterpret_cast <const TText16*> (errMsgZ), wcslen(reinterpret_cast <const wchar_t*> (errMsgZ)));
TheTest.Printf(_L("'sqlite3_create_collation()' failed, file %S, err %d, error msg: \"%S\"\r\n"), &aDbFilePath, rc, &msg);
TEST(0);
}
TheTest.Printf(_L("Create 'CompareC' collation\r\n"));
_LIT8(KCmpC, "CmpC8\x0");
rc = sqlite3_create_collation(dbHandle, (const char*)(KCmpC().Ptr()), SQLITE_UTF8, NULL, &CmpC8);
if(rc)
{
const void* errMsgZ = sqlite3_errmsg16(dbHandle);
TPtrC msg(reinterpret_cast <const TText16*> (errMsgZ), wcslen(reinterpret_cast <const wchar_t*> (errMsgZ)));
TheTest.Printf(_L("'sqlite3_create_collation()' failed, file %S, err %d, error msg: \"%S\"\r\n"), &aDbFilePath, rc, &msg);
TEST(0);
}
TheTest.Printf(_L("Create database schema\r\n"));
char* createSqlZ = ReadSQL2(_L("z:\\test\\contacts_schema_to_vendors.sql"));
ExecSql(dbHandle, createSqlZ, _L("Create schema"));
delete [] createSqlZ;
TheTest.Printf(_L("Add 1001 contacts\r\n"));
char* addSqlZ = ReadSQL2(aAddContactsFile);
ExecSql(dbHandle, addSqlZ, _L("Add contacts"));
delete [] addSqlZ;
TheTest.Printf(_L("Print the number of records\r\n"));
const char testSql[] = {"SELECT COUNT(*) FROM CONTACTS"};
ExecSql(dbHandle, testSql, _L("SELECT COUNT(*)"));
TheTest.Printf(_L("Create index (using 'CompareF' collation): 'FirstName, Surname'\r\n"));
_LIT8(KCreateIndexStmt, "CREATE INDEX Idx1 ON identitytable(cm_firstname COLLATE CmpF8, cm_lastname COLLATE CmpF8)\x0");
ExecSql(dbHandle, (const char*)(KCreateIndexStmt().Ptr()), _L("Create index"));
TheTest.Printf(_L("CompareF() called %d times\r\n"), TheCmpFCallCnt);
/* BEGIN OF - TEST CASE 1 "Select all contacts which first name begins with 'a' " */
TheTest.Printf(_L("Prepare 'Select all contacts where the first name begins with 'A'' SQL string\r\n"));
_LIT8(KSearchStmt, "SELECT cm_firstname, cm_lastname FROM identitytable WHERE cm_firstname LIKE 'A%'\x0");
sqlite3_stmt* stmtHandle = NULL;
const char* stmtTailZ = NULL;
TTime t1;
t1.UniversalTime();
rc = sqlite3_prepare_v2(dbHandle, (const char*)(KSearchStmt().Ptr()), -1, &stmtHandle, &stmtTailZ);
TEST2(rc, SQLITE_OK);
TEST(stmtHandle != NULL);
TEST(!stmtTailZ || strlen(stmtTailZ) == 0);
TTime t2;
t2.UniversalTime();
TTimeIntervalMicroSeconds diffTime = t2.MicroSecondsFrom(t1);
diffTime = diffTime.Int64() / 1000;
TInt t = (TInt)diffTime.Int64();
TheTest.Printf(_L("'Prepare SQL statement' time: %d ms\r\n"), t);
TheTest.Printf(_L("Step the prepared SQL statement\r\n"));
TInt totalCmpFCnt = 0;
t1.UniversalTime();
TheCmpFCallCnt = 0;
TInt recordCnt = 0;
while((rc = sqlite3_step(stmtHandle)) == SQLITE_ROW)
{
//const TUint8* firstName = sqlite3_column_text(stmtHandle, 0);
//TPtrC8 p(firstName, strlen((const char*)firstName));
//TBuf<100> p1; p1.Copy(p);
//const TUint8* surname = sqlite3_column_text(stmtHandle, 1);
//p.Set(surname, strlen((const char*)surname));
//TBuf<100> p2; p2.Copy(p);
//TheTest.Printf(_L("Found rec: %S, %S\r\n"), &p1, &p2);
++recordCnt;
}
totalCmpFCnt += TheCmpFCallCnt;
TEST(rc == SQLITE_OK || rc == SQLITE_DONE);
t2.UniversalTime();
diffTime = t2.MicroSecondsFrom(t1);
diffTime = diffTime.Int64() / 1000;
t = (TInt)diffTime.Int64();
TheTest.Printf(_L("'Stepping' time: %d ms, found records: %d\r\n"), t, recordCnt);
TheTest.Printf(_L("Total 'search' ('CompareF' used) operations=%d\r\n"), totalCmpFCnt);
sqlite3_finalize(stmtHandle);
stmtHandle = NULL;
/* END OF - TEST CASE 1 "Select all contacts which first name begins with 'a' " */
/* BEGIN OF - TEST CASE 2 "Do 100 searches in 1001 contacts" */
TheTest.Printf(_L("Prepare 'SELECT FirstName, Surname...' SQL string\r\n"));
_LIT8(KSearchStmt2, "SELECT cm_firstname, cm_lastname FROM identitytable WHERE cm_firstname = :Prm1 AND cm_lastname = :Prm2\x0");
stmtHandle = NULL;
stmtTailZ = NULL;
t1.UniversalTime();
rc = sqlite3_prepare_v2(dbHandle, (const char*)(KSearchStmt2().Ptr()), -1, &stmtHandle, &stmtTailZ);
TEST2(rc, SQLITE_OK);
TEST(stmtHandle != NULL);
TEST(!stmtTailZ || strlen(stmtTailZ) == 0);
t2.UniversalTime();
diffTime = t2.MicroSecondsFrom(t1);
diffTime = diffTime.Int64() / 1000;
t = (TInt)diffTime.Int64();
TheTest.Printf(_L("'Prepare SQL statement' time: %d ms\r\n"), t);
TInt idxPrm1 = sqlite3_bind_parameter_index(stmtHandle, ":Prm1");
TEST(idxPrm1 > 0);
TInt idxPrm2 = sqlite3_bind_parameter_index(stmtHandle, ":Prm2");
TEST(idxPrm2 > 0);
TheTest.Printf(_L("Do %d searches using the prepared SQL statement\r\n"), KNamesCnt);
totalCmpFCnt = 0;
t1.UniversalTime();
for(TInt i=0;i<KNamesCnt;++i)
{
const TDesC8& firstName = KNames[i].iFirstName;
rc = sqlite3_bind_text(stmtHandle, idxPrm1, (const char*)firstName.Ptr(), firstName.Length(), SQLITE_STATIC);
TEST2(rc, SQLITE_OK);
const TDesC8& surname = KNames[i].iSurname;
rc = sqlite3_bind_text(stmtHandle, idxPrm2, (const char*)surname.Ptr(), surname.Length(), SQLITE_STATIC);
TEST2(rc, SQLITE_OK);
TheCmpFCallCnt = 0;
TInt recordCnt = 0;
while((rc = sqlite3_step(stmtHandle)) == SQLITE_ROW)
{
++recordCnt;
}
totalCmpFCnt += TheCmpFCallCnt;
TEST(recordCnt == 1);
rc = sqlite3_reset(stmtHandle);
TEST2(rc, SQLITE_OK);
}
t2.UniversalTime();
diffTime = t2.MicroSecondsFrom(t1);
diffTime = diffTime.Int64() / 1000;
t = (TInt)diffTime.Int64();
TheTest.Printf(_L("'Search' time: %d ms\r\n"), t);
TheTest.Printf(_L("Total 'search' ('CompareF' used) operations=%d, average_per_iter=%d\r\n"), totalCmpFCnt, totalCmpFCnt/KNamesCnt);
sqlite3_finalize(stmtHandle);
stmtHandle = NULL;
/* END OF - TEST CASE 2 "Do 100 searches in 1001 contacts" */
t1.UniversalTime();
sqlite3_finalize(stmtHandle);
t2.UniversalTime();
diffTime = t2.MicroSecondsFrom(t1);
diffTime = diffTime.Int64() / 1000;
t = (TInt)diffTime.Int64();
TheTest.Printf(_L("'Finalize SQL statement' time: %d ms\r\n"), t);
sqlite3_close(dbHandle);
PrintFileSize(aDbFilePath);
}
static void TwoDatabasesTest()
{
(void)sqlite3SymbianLastOsError();
sqlite3 *dbHandle1 = NULL;
TInt rc1 = sqlite3_open(KDbName1, &dbHandle1);
if(rc1 != SQLITE_OK)
{
rc1 = sqlite3SymbianLastOsError();
}
(void)sqlite3SymbianLastOsError();
sqlite3 *dbHandle2 = NULL;
TInt rc2 = sqlite3_open(KDbName1, &dbHandle2);
if(rc2 != SQLITE_OK)
{
rc2 = sqlite3SymbianLastOsError();
}
sqlite3_close(dbHandle2);
sqlite3_close(dbHandle1);
(void)TheFs.Delete(ConvertToUtf16(KDbName1));
TEST2(rc1, KErrNone);
TEST2(rc2, KErrInUse);//EFileRead | EFileWrite file open mode!
}
static void QuickTest()
{
(void)TheFs.Delete(ConvertToUtf16(KDbName1));
sqlite3 *dbHandle1 = NULL;
TInt err = sqlite3_open(KDbName1, &dbHandle1);
TEST2(err, SQLITE_OK);
err = sqlite3_exec(dbHandle1, "CREATE TABLE A(Fld1 INTEGER, Fld2 TEXT);", 0, 0, 0);
TEST2(err, SQLITE_OK);
sqlite3_stmt* stmtHandle = NULL;
_LIT(KSql1, "INSERT INTO A(Fld1, Fld2) VALUES(1, :Val)\x0");
err = sqlite3_prepare16_v2(dbHandle1, KSql1().Ptr(), -1, &stmtHandle, NULL);
TEST2(err, SQLITE_OK);
_LIT(KPrmData, "U012");
err = sqlite3_bind_text16(stmtHandle, 1, (const void*)KPrmData().Ptr(), KPrmData().Length() * sizeof(TText), SQLITE_STATIC);
TEST2(err, SQLITE_OK);
while((err = sqlite3_step(stmtHandle)) == SQLITE_ROW)
{
}
if(err == SQLITE_ERROR) //It may be "out of memory" problem
{
err = sqlite3_reset(stmtHandle);
__ASSERT_ALWAYS(err != SQLITE_OK, User::Invariant());
}
sqlite3_finalize(stmtHandle);
_LIT(KSql2, "SELECT * FROM A WHERE Fld1 = 1\x0");
err = sqlite3_prepare16_v2(dbHandle1, KSql2().Ptr(), -1, &stmtHandle, NULL);
TEST2(err, SQLITE_OK);
err = sqlite3_step(stmtHandle);
TEST2(err, SQLITE_ROW);
const void* data = sqlite3_column_text16(stmtHandle, 1);
UNUSED_VAR(data);
TInt charLength = sqlite3_column_bytes16(stmtHandle, 1) / sizeof(TUint16);
UNUSED_VAR(charLength);
sqlite3_finalize(stmtHandle);
sqlite3_close(dbHandle1);
(void)TheFs.Delete(ConvertToUtf16(KDbName1));
}
//////////////////////////////////////////////////////////////////////////////////////////////////
static void TemdDbTest()
{
sqlite3 *dbHandle = NULL;
TInt rc = sqlite3_open(KDbName1, &dbHandle);
if(rc != SQLITE_OK)
{
const void* errMsgZ = sqlite3_errmsg16(dbHandle);
TPtrC msg(reinterpret_cast <const TText16*> (errMsgZ), wcslen(reinterpret_cast <const wchar_t*> (errMsgZ)));
TheTest.Printf(_L("'sqlite3_open()' failed, err %d, error msg: \"%S\"\r\n"), rc, &msg);
TEST(0);
}
TEST(dbHandle != NULL);
char *zErrMsg = 0;
_LIT8(KSql1, "CREATE TEMP TABLE A(F1 INTEGER)\x0");
rc = sqlite3_exec(dbHandle, reinterpret_cast <const char*> (KSql1().Ptr()), callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
_LIT8(KSql2, "INSERT INTO A(F1) VALUES(2)\x0");
rc = sqlite3_exec(dbHandle, reinterpret_cast <const char*> (KSql2().Ptr()), callback, 0, &zErrMsg);
if(rc != SQLITE_OK)
{
TPtrC p = ConvertToUtf16(zErrMsg);
TheTest.Printf(_L("SQL error %d, msg: %S\n"), rc, &p);
sqlite3_free(zErrMsg);
TEST(0);
}
sqlite3_close(dbHandle);
(void)TheFs.Delete(ConvertToUtf16(KDbName1));
}
//////////////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////////////
static void CreateTestDir()
{
RFs fs;
TInt err = fs.Connect();
TEST2(err, KErrNone);
err = fs.MkDir(KTestDir);
TEST(err == KErrNone || err == KErrAlreadyExists);
fs.Close();
}
static void DoTestsL()
{
TheTest.Next(_L("Attempt to open twice the same database file in the same thread"));
TwoDatabasesTest();
TheTest.Next(_L("TEMP database test"));
TemdDbTest();
TheTest.Next(_L("Quick test"));
QuickTest();
TheTest.Next(_L("SQLite tests 1"));
DoTests1();
TheTest.Next(_L("SQLite tests 2"));
DoTests2();
TheTest.Next(_L("Accented column names"));
AccentedColumnNamesTestL();
TFileName fname;
User::CommandLine(fname);
TParse parse;
parse.Set(fname, &KContactsFile, 0);
const TDesC& dbFilePath = parse.FullName();
PrintConfig(dbFilePath);
TheTest.Next(_L("String searching tests. 16-bit strings. Simple contacts"));
SearchDbTest16(dbFilePath);
TheTest.Next(_L("String searching tests. 8-bit strings. Simple contacts"));
SearchDbTest8(dbFilePath, KSimpleContactsSqlFile, _L("Search simple contacts"));
}
TInt E32Main()
{
TheTest.Title();
TheTest.Start(_L(" @SYMTestCaseID:SYSLIB-SQL-LEGACY-T_SQLITE-0001 SQLite tests "));
TheTrapCleanup = CTrapCleanup::New ();
__ASSERT_ALWAYS(TheTrapCleanup != NULL, User::Invariant());
__UHEAP_MARK;
CreateTestDir();
TheTest(TheFs.Connect() == KErrNone);
DeleteTestFiles();
CreatePrivateDirs();
//Init sqlite library
sqlite3SymbianLibInit();
TRAPD(err, DoTestsL());
sqlite3SymbianLibFinalize();
CloseSTDLIB();
DeleteTestFiles();
TEST2(err, KErrNone);
TheFs.Close();
__UHEAP_MARKEND;
delete TheTrapCleanup;
TheTest.End();
TheTest.Close();
return KErrNone;
}