/************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_sal.hxx" //------------------------------------------------------------------------ // include files //------------------------------------------------------------------------ #ifdef WNT #include #endif #include #include #ifndef _OSL_THREAD_HXX #include #endif #ifndef _OSL_MUTEX_HXX #include #endif #ifndef _OSL_MUTEX_HXX #include #endif #include #include #ifdef UNX #include #endif #include #include "gtest/gtest.h" using namespace osl; using namespace rtl; //------------------------------------------------------------------------ // helper functions //------------------------------------------------------------------------ /** helper function for unique pipe names */ OUString uniquePipeName(OUString const & name) { oslProcessInfo info; info.Size = sizeof info; EXPECT_TRUE( osl_Process_E_None == osl_getProcessInfo(0, osl_Process_IDENTIFIER, &info) ); return name + OUString::valueOf((sal_Int32)info.Ident); } /** print Boolean value. */ inline void printBool( sal_Bool bOk ) { printf("#printBool# " ); ( sal_True == bOk ) ? printf("YES!\n" ): printf("NO!\n" ); } /** print a UNI_CODE String. */ inline void printUString( const ::rtl::OUString & str ) { rtl::OString aString; printf("#printUString_u# " ); aString = ::rtl::OUStringToOString( str, RTL_TEXTENCODING_ASCII_US ); printf("%s\n", aString.getStr( ) ); } /** print last error of pipe system. */ inline void printPipeError( ::osl::Pipe aPipe ) { oslPipeError nError = aPipe.getError( ); printf("#printPipeError# " ); switch ( nError ) { case osl_Pipe_E_None: printf("Success!\n" ); break; case osl_Pipe_E_NotFound: printf("The returned error is: Not found!\n" ); break; case osl_Pipe_E_AlreadyExists: printf("The returned error is: Already exist!\n" ); break; case osl_Pipe_E_NoProtocol: printf("The returned error is: No protocol!\n" ); break; case osl_Pipe_E_NetworkReset: printf("The returned error is: Network reset!\n" ); break; case osl_Pipe_E_ConnectionAbort: printf("The returned error is: Connection aborted!\n" ); break; case osl_Pipe_E_ConnectionReset: printf("The returned error is: Connection reset!\n" ); break; case osl_Pipe_E_NoBufferSpace: printf("The returned error is: No buffer space!\n" ); break; case osl_Pipe_E_TimedOut: printf("The returned error is: Timeout!\n" ); break; case osl_Pipe_E_ConnectionRefused: printf("The returned error is: Connection refused!\n" ); break; case osl_Pipe_E_invalidError: printf("The returned error is: Invalid error!\n" ); break; default: printf("The returned error is: Number %d, Unknown Error\n", nError ); break; } } //------------------------------------------------------------------------ // pipe name and transfer contents //------------------------------------------------------------------------ const rtl::OUString aTestPipeName = rtl::OUString::createFromAscii( "testpipe2" ); const rtl::OUString aTestPipe1 = rtl::OUString::createFromAscii( "testpipe1" ); const rtl::OUString aTestString = rtl::OUString::createFromAscii( "Apache Software Foundation" ); const OString m_pTestString1("Apache Software Foundation"); const OString m_pTestString2("test pipe PASS/OK"); //------------------------------------------------------------------------ // test code start here //------------------------------------------------------------------------ namespace osl_Pipe { //------------------------------------------------------------------------ // most return value -1 denote a fail of operation. //------------------------------------------------------------------------ #define OSL_PIPE_FAIL -1 /** testing the methods: inline Pipe(); inline Pipe(const ::rtl::OUString& strName, oslPipeOptions Options); inline Pipe(const ::rtl::OUString& strName, oslPipeOptions Options,const Security & rSecurity); inline Pipe(const Pipe& pipe); inline Pipe(oslPipe pipe, __sal_NoAcquire noacquire ); inline Pipe(oslPipe Pipe); */ TEST(Sal_Test_Pipe, ctors_none) { ::osl::Pipe aPipe; sal_Bool bRes = aPipe.is( ); // #test comment#: test constructor with no parameter, yet no case to test. ASSERT_TRUE( !bRes ); } TEST(Sal_Test_Pipe, ctors_name_option) { /// create a named pipe. ::osl::Pipe aPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); ::osl::Pipe aAssignPipe( uniquePipeName(aTestPipeName), osl_Pipe_OPEN ); sal_Bool bRes = aPipe.is( ) && aAssignPipe.is( ); // #test comment#: test constructor with name and option. ASSERT_TRUE( bRes ); } TEST(Sal_Test_Pipe, ctors_name_option_security) { /// create a security pipe. const ::osl::Security rSecurity; ::osl::Pipe aSecurityPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE, rSecurity ); sal_Bool bRes = aSecurityPipe.is( ); // #test comment#: test constructor with name, option and security, the test of security is not implemented yet. ASSERT_TRUE( bRes ); } TEST(Sal_Test_Pipe, ctors_copy) { /// create a pipe. ::osl::Pipe aPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); /// create a pipe using copy constructor. ::osl::Pipe aCopyPipe( aPipe ); sal_Bool bRes = aCopyPipe.is( ) && aCopyPipe == aPipe; // #test comment#: test copy constructor. ASSERT_TRUE( bRes ); } /** tester comment: When test the following two constructors, don't know how to test the acquire and no acquire action. possible plans: 1.release one handle and check the other( did not success since the other still exist and valid. ) 2. release one handle twice to see getLastError( )(the getLastError always returns invalidError(LINUX)). */ TEST(Sal_Test_Pipe, ctors_no_acquire) { /// create a pipe. ::osl::Pipe aPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); /// constructs a pipe reference without acquiring the handle. ::osl::Pipe aNoAcquirePipe( aPipe.getHandle( ), SAL_NO_ACQUIRE ); sal_Bool bRes = aNoAcquirePipe.is( ); ///aPipe.clear( ); ///bRes1 = aNoAcquirePipe.is( ); // #test comment#: test constructor with no acquire of handle, only validation test, do not know how to test no acquire. ASSERT_TRUE( bRes ); } TEST(Sal_Test_Pipe, ctors_acquire) { /// create a base pipe. ::osl::Pipe aPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); /// constructs two pipes without acquiring the handle on the base pipe. ::osl::Pipe aAcquirePipe( aPipe.getHandle( ) ); ::osl::Pipe aAcquirePipe1( NULL ); sal_Bool bRes = aAcquirePipe.is( ); sal_Bool bRes1 = aAcquirePipe1.is( ); // #test comment#: test constructor with no acquire of handle.only validation test, do not know how to test no acquire. ASSERT_TRUE( bRes && !bRes1 ); } /** testing the method: inline sal_Bool SAL_CALL is() const; */ TEST(Sal_Test_Pipe, is_001) { ::osl::Pipe aPipe; // #test comment#: test is(), check if the pipe is a valid one. ASSERT_TRUE( !aPipe.is( ) ); } TEST(Sal_Test_Pipe, is_002) { ::osl::Pipe aPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); // #test comment#: test is(), a normal pipe creation. ASSERT_TRUE( aPipe.is( ) ); } TEST(Sal_Test_Pipe, is_003) { ::osl::Pipe aPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); aPipe.clear( ); // #test comment#: test is(), an invalid case ASSERT_TRUE( !aPipe.is( ) ); } TEST(Sal_Test_Pipe, is_004) { ::osl::Pipe aPipe( NULL ); // #test comment#: test is(), an invalid constructor. ASSERT_TRUE( !aPipe.is( ) ); } /** testing the methods: inline sal_Bool create( const ::rtl::OUString & strName, oslPipeOptions Options, const Security &rSec ); nline sal_Bool create( const ::rtl::OUString & strName, oslPipeOptions Options = osl_Pipe_OPEN ); */ TEST(Sal_Test_Pipe, create_named_security_001) { const Security rSec; ::osl::Pipe aPipe; sal_Bool bRes = aPipe.create( uniquePipeName(aTestPipeName), osl_Pipe_CREATE, rSec ); sal_Bool bRes1 = aPipe.create( uniquePipeName(aTestPipeName), osl_Pipe_CREATE, rSec ); aPipe.clear( ); // #test comment#: test creation. ASSERT_TRUE( bRes && !bRes1 ); } TEST(Sal_Test_Pipe, create_named_security_002) { const Security rSec; ::osl::Pipe aPipe, aPipe1; sal_Bool bRes = aPipe.create( uniquePipeName(aTestPipeName), osl_Pipe_CREATE, rSec ); sal_Bool bRes1 = aPipe1.create( uniquePipeName(aTestPipeName), osl_Pipe_OPEN, rSec ); aPipe.clear( ); // #test comment#: test creation and open. ASSERT_TRUE( bRes && bRes1 ); } TEST(Sal_Test_Pipe, create_named_001) { ::osl::Pipe aPipe; sal_Bool bRes = aPipe.create( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); sal_Bool bRes1 = aPipe.create( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); aPipe.clear( ); // #test comment#: test creation. ASSERT_TRUE( bRes && !bRes1); } TEST(Sal_Test_Pipe, create_named_002) { ::osl::Pipe aPipe, aPipe1; sal_Bool bRes = aPipe.create( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); sal_Bool bRes1 = aPipe1.create( uniquePipeName(aTestPipeName), osl_Pipe_OPEN ); aPipe.clear( ); // #test comment#: test creation and open. ASSERT_TRUE( bRes && bRes1); } TEST(Sal_Test_Pipe, create_named_003) { ::osl::Pipe aPipe; sal_Bool bRes = aPipe.create( uniquePipeName(aTestPipeName) ); aPipe.clear( ); // #test comment#: test default option is open. ASSERT_TRUE( !bRes ); } /** testing the method: inline void SAL_CALL clear(); */ TEST(Sal_Test_Pipe, clear_001) { ::osl::Pipe aPipe; aPipe.create( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); aPipe.clear( ); sal_Bool bRes = aPipe.is( ); // #test comment#: test clear. ASSERT_TRUE( !bRes ); } /** testing the methods: inline Pipe& SAL_CALL operator= (const Pipe& pipe); inline Pipe& SAL_CALL operator= (const oslPipe pipe ); */ TEST(Sal_Test_Pipe, assign_ref) { ::osl::Pipe aPipe, aPipe1; aPipe.create( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); aPipe1 = aPipe; sal_Bool bRes = aPipe1.is( ); sal_Bool bRes1 = aPipe == aPipe1; aPipe.close( ); aPipe1.close( ); // #test comment#: test assign with reference. ASSERT_TRUE( bRes && bRes1 ); } TEST(Sal_Test_Pipe, assign_handle) { ::osl::Pipe aPipe, aPipe1; aPipe.create( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); aPipe1 = aPipe.getHandle( ); sal_Bool bRes = aPipe1.is( ); sal_Bool bRes1 = aPipe == aPipe1; aPipe.close( ); aPipe1.close( ); // #test comment#: test assign with handle. ASSERT_TRUE( bRes && bRes1 ); } /** testing the method: inline sal_Bool SAL_CALL isValid() const; isValid( ) has not been implemented under the following platforms, please refer to osl/pipe.hxx */ // TEST(Sal_Test_Pipe, isValid_001) { // ... // // #test comment#: isValid() has not been implemented on all platforms. // ASSERT_TRUE( ... ); // } /** testing the method: inline sal_Bool SAL_CALL operator==( const Pipe& rPipe ) const; */ TEST(Sal_Test_Pipe, isEqual_001) { ::osl::Pipe aPipe; aPipe.create( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); sal_Bool bRes = aPipe == aPipe; aPipe.close( ); // #test comment#: test isEqual(), compare its self. ASSERT_TRUE( bRes ); } TEST(Sal_Test_Pipe, isEqual_002) { ::osl::Pipe aPipe, aPipe1, aPipe2; aPipe.create( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); aPipe1 = aPipe; aPipe2.create( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); sal_Bool bRes = aPipe == aPipe1; sal_Bool bRes1 = aPipe == aPipe2; aPipe.close( ); aPipe1.close( ); aPipe2.close( ); // #test comment#: test isEqual(),create one copy instance, and compare. ASSERT_TRUE( bRes && !bRes1 ); } /** testing the method: inline void SAL_CALL close(); */ TEST(Sal_Test_Pipe, close_001) { ::osl::Pipe aPipe( uniquePipeName(aTestPipe1), osl_Pipe_CREATE ); aPipe.close( ); sal_Bool bRes = aPipe.is( ); aPipe.clear( ); sal_Bool bRes1 = aPipe.is( ); // #test comment#: difference between close and clear. ASSERT_TRUE( bRes && !bRes1); } TEST(Sal_Test_Pipe, close_002) { ::osl::StreamPipe aPipe( uniquePipeName(aTestPipe1), osl_Pipe_CREATE ); aPipe.close( ); int nRet = aPipe.send( m_pTestString1.getStr(), 3 ); // #test comment#: use after close. ASSERT_EQ( nRet, OSL_PIPE_FAIL ); } /** testing the method: inline oslPipeError SAL_CALL accept(StreamPipe& Connection); please refer to StreamPipe::recv */ /** testing the method: inline oslPipeError SAL_CALL getError() const; */ /* PipeError[]= { { 0, osl_Pipe_E_None }, // no error { EPROTOTYPE, osl_Pipe_E_NoProtocol }, // Protocol wrong type for socket { ENOPROTOOPT, osl_Pipe_E_NoProtocol }, // Protocol not available { EPROTONOSUPPORT, osl_Pipe_E_NoProtocol }, // Protocol not supported { ESOCKTNOSUPPORT, osl_Pipe_E_NoProtocol }, // Socket type not supported { EPFNOSUPPORT, osl_Pipe_E_NoProtocol }, // Protocol family not supported { EAFNOSUPPORT, osl_Pipe_E_NoProtocol }, // Address family not supported by // protocol family { ENETRESET, osl_Pipe_E_NetworkReset }, // Network dropped connection because // of reset { ECONNABORTED, osl_Pipe_E_ConnectionAbort }, // Software caused connection abort { ECONNRESET, osl_Pipe_E_ConnectionReset }, // Connection reset by peer { ENOBUFS, osl_Pipe_E_NoBufferSpace }, // No buffer space available { ETIMEDOUT, osl_Pipe_E_TimedOut }, // Connection timed out { ECONNREFUSED, osl_Pipe_E_ConnectionRefused }, // Connection refused { -1, osl_Pipe_E_invalidError } }; did not define osl_Pipe_E_NotFound, osl_Pipe_E_AlreadyExists */ TEST(Sal_Test_Pipe, getError_001) { ::osl::Pipe aPipe( uniquePipeName(aTestPipeName), osl_Pipe_OPEN ); oslPipeError nError = aPipe.getError( ); printPipeError( aPipe ); aPipe.clear( ); // #test comment#: open a non-exist pipe. ASSERT_NE( nError, osl_Pipe_E_None ); } TEST(Sal_Test_Pipe, getError_002) { ::osl::Pipe aPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); ::osl::Pipe aPipe1( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); oslPipeError nError = aPipe.getError( ); printPipeError( aPipe ); aPipe.clear( ); aPipe1.clear( ); // #test comment#: create an already exist pipe. ASSERT_NE( nError, osl_Pipe_E_None ); } /** testing the method: inline oslPipe SAL_CALL getHandle() const; */ TEST(Sal_Test_Pipe, getHandle_001) { ::osl::Pipe aPipe( uniquePipeName(aTestPipeName), osl_Pipe_OPEN ); sal_Bool bRes = aPipe == aPipe.getHandle( ); aPipe.clear( ); // #test comment#: one pipe should equal to its handle. ASSERT_TRUE( bRes ); } TEST(Sal_Test_Pipe, getHandle_002) { ::osl::Pipe aPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); ::osl::Pipe aPipe1( aPipe.getHandle( ) ); sal_Bool bRes = aPipe == aPipe1; aPipe.clear( ); aPipe1.clear( ); // #test comment#: one pipe derived from another pipe's handle. ASSERT_TRUE( bRes ); } } // namespace osl_Pipe namespace osl_StreamPipe { /** testing the methods: inline StreamPipe(); inline StreamPipe(oslPipe Pipe);; inline StreamPipe(const StreamPipe& Pipe); inline StreamPipe(const ::rtl::OUString& strName, oslPipeOptions Options = osl_Pipe_OPEN); inline StreamPipe(const ::rtl::OUString& strName, oslPipeOptions Options, const Security &rSec ); inline StreamPipe( oslPipe pipe, __sal_NoAcquire noacquire ); */ TEST(Sal_Test_StreamPipe, ctors_none) { // create a pipe. ::osl::StreamPipe aStreamPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); // create an unattached pipe. ::osl::StreamPipe aStreamPipe1; sal_Bool bRes = aStreamPipe1.is( ); // assign it and check. aStreamPipe1 = aStreamPipe; sal_Bool bRes1 = aStreamPipe1.is( ); aStreamPipe.clear( ); aStreamPipe1.clear( ); // #test comment#: test constructor with no parameter, before and after assign. ASSERT_TRUE( !bRes && bRes1 ); } TEST(Sal_Test_StreamPipe, ctors_handle) { // create a pipe. ::osl::StreamPipe aStreamPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); // create a pipe with last handle. ::osl::StreamPipe aStreamPipe1( aStreamPipe.getHandle( ) ); sal_Bool bRes = aStreamPipe1.is( ) && aStreamPipe == aStreamPipe1; aStreamPipe.clear( ); aStreamPipe1.clear( ); // #test comment#: test constructor with other's handle. ASSERT_TRUE( bRes ); } TEST(Sal_Test_StreamPipe, ctors_copy) { // create a pipe. ::osl::StreamPipe aStreamPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); // create an unattached pipe. ::osl::StreamPipe aStreamPipe1( aStreamPipe ); sal_Bool bRes = aStreamPipe1.is( ) && aStreamPipe == aStreamPipe1; aStreamPipe.clear( ); aStreamPipe1.clear( ); // #test comment#: test copy constructor. ASSERT_TRUE( bRes ); } TEST(Sal_Test_StreamPipe, ctors_name_option) { // create a pipe. ::osl::StreamPipe aStreamPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); // create an unattached pipe. ::osl::StreamPipe aStreamPipe1( uniquePipeName(aTestPipeName), osl_Pipe_OPEN ); sal_Bool bRes = aStreamPipe1.is( ) && aStreamPipe.is( ); aStreamPipe.clear( ); aStreamPipe1.clear( ); // #test comment#: test constructor with name and option. ASSERT_TRUE( bRes ); } TEST(Sal_Test_StreamPipe, ctors_name_option_security) { // create a security pipe. const ::osl::Security rSecurity; ::osl::StreamPipe aSecurityPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE, rSecurity ); sal_Bool bRes = aSecurityPipe.is( ); aSecurityPipe.clear( ); // #test comment#: test constructor with name, option and security, the test of security is not implemented yet. ASSERT_TRUE( bRes ); } /** tester comment: When test the following constructor, don't know how to test the acquire and no acquire action. possible plans: 1.release one handle and check the other( did not success since the other still exist and valid. ) 2. release one handle twice to see getLastError( )(the getLastError always returns invalidError(LINUX)). */ TEST(Sal_Test_StreamPipe, ctors_no_acquire) { // create a pipe. ::osl::StreamPipe aPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); // constructs a pipe reference without acquiring the handle. ::osl::StreamPipe aNoAcquirePipe( aPipe.getHandle( ), SAL_NO_ACQUIRE ); sal_Bool bRes = aNoAcquirePipe.is( ); aPipe.clear( ); // bRes1 = aNoAcquirePipe.is( ); // #test comment#: test constructor with no acquire of handle, only validation test, do not know how to test no acquire. ASSERT_TRUE( bRes ); } /** testing the methods: inline StreamPipe & SAL_CALL operator=(oslPipe Pipe); inline StreamPipe& SAL_CALL operator=(const Pipe& pipe); mindy: not implemented in osl/pipe.hxx, so remove the cases */ // TEST(Sal_Test_StreamPipe, assign_ref) { // ::osl::StreamPipe aPipe, aPipe1; // aPipe.create( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); // aPipe1 = aPipe; // sal_Bool bRes = aPipe1.is( ); // sal_Bool bRes1 = aPipe == aPipe1; // aPipe.close( ); // aPipe1.close( ); // // #test comment#: test assign with reference. // ASSERT_TRUE( bRes && bRes1 ); // } // TEST(Sal_Test_StreamPipe, assign_ref) { // ::osl::StreamPipe * pPipe = new ::osl::StreamPipe( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); // ::osl::StreamPipe * pAssignPipe = new ::osl::StreamPipe; // *pAssignPipe = pPipe->getHandle( ); // bRes = pAssignPipe->is( ); // bRes1 = ( *pPipe == *pAssignPipe ); // pPipe->close( ); // delete pAssignPipe; // // #test comment#: test assign with handle., seems not implemented under (LINUX)(W32) // ASSERT_TRUE( bRes && bRes1 ); // } /** wait _nSec seconds. */ void thread_sleep( sal_Int32 _nSec ) { /// print statement in thread process must use fflush() to force display. // printf("wait %d seconds. ", _nSec ); fflush(stdout); #ifdef WNT //Windows Sleep( _nSec * 1000 ); #endif #if ( defined UNX ) || ( defined OS2 ) //Unix sleep( _nSec ); #endif // printf("done\n" ); } // test read/write & send/recv data to pipe // ----------------------------------------------------------------------------- class Pipe_DataSink_Thread : public Thread { public: sal_Char buf[256]; Pipe_DataSink_Thread( ) { } ~Pipe_DataSink_Thread( ) { } protected: void SAL_CALL run( ) { sal_Int32 nChars = 0; printf("open pipe\n"); // uniquePipeName(aTestPipeName) is a string = "TestPipe" ::osl::StreamPipe aSenderPipe( uniquePipeName(aTestPipeName), osl_Pipe_OPEN ); if ( aSenderPipe.is() == sal_False ) { printf("pipe open failed! \n"); } else { printf("read\n"); nChars = aSenderPipe.read( buf, m_pTestString1.getLength() + 1 ); if ( nChars < 0 ) { printf("read failed! \n"); return; } printf("buffer is %s \n", buf); printf("send\n"); nChars = aSenderPipe.send( m_pTestString2.getStr(), m_pTestString2.getLength() + 1 ); if ( nChars < 0 ) { printf("client send failed! \n"); return; } } } }; // ----------------------------------------------------------------------------- class Pipe_DataSource_Thread : public Thread { public: sal_Char buf[256]; //::osl::StreamPipe aListenPipe; //( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); ::osl::Pipe aListenPipe; ::osl::StreamPipe aConnectionPipe; Pipe_DataSource_Thread( ) { printf("create pipe\n"); aListenPipe.create( uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); } ~Pipe_DataSource_Thread( ) { aListenPipe.close(); } protected: void SAL_CALL run( ) { //create pipe. sal_Int32 nChars; //::osl::StreamPipe aListenPipe( test::uniquePipeName(aTestPipeName), osl_Pipe_CREATE ); printf("listen\n"); if ( aListenPipe.is() == sal_False ) { printf("pipe create failed! \n"); } else { //::osl::StreamPipe aConnectionPipe; //start server and wait for connection. printf("accept\n"); if ( osl_Pipe_E_None != aListenPipe.accept( aConnectionPipe ) ) { printf("pipe accept failed!"); return; } printf("write\n"); // write to pipe nChars = aConnectionPipe.write( m_pTestString1.getStr(), m_pTestString1.getLength() + 1 ); if ( nChars < 0) { printf("server write failed! \n"); return; } printf("recv\n"); nChars = aConnectionPipe.recv( buf, 256 ); if ( nChars < 0) { printf("server receive failed! \n"); return; } //thread_sleep( 2 ); printf("received message is: %s\n", buf ); //aConnectionPipe.close(); } } }; /** testing the method: read/write/send/recv and Pipe::accept */ TEST(Sal_Test_StreamPipe, recv_001) { //launch threads. Pipe_DataSource_Thread myDataSourceThread; Pipe_DataSink_Thread myDataSinkThread; myDataSourceThread.create( ); thread_sleep( 1 ); myDataSinkThread.create( ); //wait until the thread terminate myDataSinkThread.join( ); myDataSourceThread.join( ); int nCompare1 = strcmp( myDataSinkThread.buf, m_pTestString1.getStr() ); int nCompare2 = strcmp( myDataSourceThread.buf, m_pTestString2.getStr() ); // test send/recv/write/read. ASSERT_TRUE( nCompare1 == 0 && nCompare2 == 0 ); } } // namespace osl_StreamPipe int main(int argc, char **argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); }