/////////////////////////////////////////////////////////////////////////////// // Name: tests/archive/archive.cpp // Purpose: Test the archive classes // Author: Mike Wetherell // Copyright: (c) 2004 Mike Wetherell // Licence: wxWindows licence /////////////////////////////////////////////////////////////////////////////// #include "testprec.h" #ifdef __BORLANDC__ # pragma hdrstop #endif #ifndef WX_PRECOMP # include "wx/wx.h" #endif #if wxUSE_STREAMS && wxUSE_ARCHIVE_STREAMS #include "archivetest.h" #include "wx/dir.h" #include #include #include #include using std::string; // Check whether member templates can be used // #if defined __GNUC__ && \ (__GNUC__ >= 3 || (__GNUC__ == 2 && __GNUC_MINOR__ >= 95)) # define WXARC_MEMBER_TEMPLATES #endif #if defined _MSC_VER && _MSC_VER >= 1310 && !defined __WIN64__ # define WXARC_MEMBER_TEMPLATES #endif #if defined __BORLANDC__ && __BORLANDC__ >= 0x530 # define WXARC_MEMBER_TEMPLATES #endif #if defined __HP_aCC && __HP_aCC > 33300 # define WXARC_MEMBER_TEMPLATES #endif #if defined __SUNPRO_CC && __SUNPRO_CC > 0x500 # define WXARC_MEMBER_TEMPLATES #endif /////////////////////////////////////////////////////////////////////////////// // A class to hold a test entry TestEntry::TestEntry(const wxDateTime& dt, int len, const char *data) : m_dt(dt), m_len(len), m_isText(len > 0) { m_data = new char[len]; memcpy(m_data, data, len); for (int i = 0; i < len && m_isText; i++) m_isText = (signed char)m_data[i] > 0; } /////////////////////////////////////////////////////////////////////////////// // TestOutputStream and TestInputStream are memory streams which can be // seekable or non-seekable. const size_t STUB_SIZE = 2048; const size_t INITIAL_SIZE = 0x18000; const wxFileOffset SEEK_LIMIT = 0x100000; TestOutputStream::TestOutputStream(int options) : m_options(options) { Init(); } void TestOutputStream::Init() { m_data = NULL; m_size = 0; m_capacity = 0; m_pos = 0; if (m_options & Stub) { wxCharBuffer buf(STUB_SIZE); memset(buf.data(), 0, STUB_SIZE); Write(buf, STUB_SIZE); } } wxFileOffset TestOutputStream::OnSysSeek(wxFileOffset pos, wxSeekMode mode) { if ((m_options & PipeOut) == 0) { switch (mode) { case wxFromStart: break; case wxFromCurrent: pos += m_pos; break; case wxFromEnd: pos += m_size; break; } if (pos < 0 || pos > SEEK_LIMIT) return wxInvalidOffset; m_pos = (size_t)pos; return m_pos; } return wxInvalidOffset; } wxFileOffset TestOutputStream::OnSysTell() const { return (m_options & PipeOut) == 0 ? (wxFileOffset)m_pos : wxInvalidOffset; } size_t TestOutputStream::OnSysWrite(const void *buffer, size_t size) { if (!IsOk() || !size) return 0; m_lasterror = wxSTREAM_WRITE_ERROR; size_t newsize = m_pos + size; wxCHECK(newsize > m_pos, 0); if (m_capacity < newsize) { size_t capacity = m_capacity ? m_capacity : INITIAL_SIZE; while (capacity < newsize) { capacity <<= 1; wxCHECK(capacity > m_capacity, 0); } char *buf = new char[capacity]; if (m_data) memcpy(buf, m_data, m_capacity); delete [] m_data; m_data = buf; m_capacity = capacity; } memcpy(m_data + m_pos, buffer, size); m_pos += size; if (m_pos > m_size) m_size = m_pos; m_lasterror = wxSTREAM_NO_ERROR; return size; } void TestOutputStream::GetData(char*& data, size_t& size) { data = m_data; size = m_size; if (m_options & Stub) { char *d = m_data; size += STUB_SIZE; if (size > m_capacity) { d = new char[size]; memcpy(d + STUB_SIZE, m_data, m_size); delete [] m_data; } else { memmove(d + STUB_SIZE, d, m_size); } memset(d, 0, STUB_SIZE); data = d; } Init(); Reset(); } /////////////////////////////////////////////////////////////////////////////// // TestOutputStream and TestInputStream are memory streams which can be // seekable or non-seekable. TestInputStream::TestInputStream(const TestInputStream& in) : wxInputStream(), m_options(in.m_options), m_pos(in.m_pos), m_size(in.m_size), m_eoftype(in.m_eoftype) { m_data = new char[m_size]; memcpy(m_data, in.m_data, m_size); } void TestInputStream::Rewind() { if ((m_options & Stub) && (m_options & PipeIn)) m_pos = STUB_SIZE * 2; else m_pos = 0; if (m_wbacksize) { free(m_wback); m_wback = NULL; m_wbacksize = 0; m_wbackcur = 0; } Reset(); } void TestInputStream::SetData(TestOutputStream& out) { delete [] m_data; m_options = out.GetOptions(); out.GetData(m_data, m_size); Rewind(); } wxFileOffset TestInputStream::OnSysSeek(wxFileOffset pos, wxSeekMode mode) { if ((m_options & PipeIn) == 0) { switch (mode) { case wxFromStart: break; case wxFromCurrent: pos += m_pos; break; case wxFromEnd: pos += m_size; break; } if (pos < 0 || pos > SEEK_LIMIT) return wxInvalidOffset; m_pos = (size_t)pos; return m_pos; } return wxInvalidOffset; } wxFileOffset TestInputStream::OnSysTell() const { return (m_options & PipeIn) == 0 ? (wxFileOffset)m_pos : wxInvalidOffset; } size_t TestInputStream::OnSysRead(void *buffer, size_t size) { if (!IsOk() || !size) return 0; size_t count; if (m_pos >= m_size) count = 0; else if (m_size - m_pos < size) count = m_size - m_pos; else count = size; if (count) { memcpy(buffer, m_data + m_pos, count); m_pos += count; } if (((m_eoftype & AtLast) != 0 && m_pos >= m_size) || count < size) { if ((m_eoftype & WithError) != 0) m_lasterror = wxSTREAM_READ_ERROR; else m_lasterror = wxSTREAM_EOF; } return count; } /////////////////////////////////////////////////////////////////////////////// // minimal non-intrusive reference counting pointer for testing the iterators template class Ptr { public: explicit Ptr(T* p = NULL) : m_p(p), m_count(new int) { *m_count = 1; } Ptr(const Ptr& sp) : m_p(sp.m_p), m_count(sp.m_count) { ++*m_count; } ~Ptr() { Free(); } Ptr& operator =(const Ptr& sp) { if (&sp != this) { Free(); m_p = sp.m_p; m_count = sp.m_count; ++*m_count; } return *this; } T* get() const { return m_p; } T* operator->() const { return m_p; } T& operator*() const { return *m_p; } private: void Free() { if (--*m_count == 0) { delete m_p; delete m_count; } } T *m_p; int *m_count; }; /////////////////////////////////////////////////////////////////////////////// // Clean-up for temp directory class TempDir { public: TempDir(); ~TempDir(); wxString GetName() const { return m_tmp; } private: void RemoveDir(wxString& path); wxString m_tmp; wxString m_original; }; TempDir::TempDir() { wxString tmp = wxFileName::CreateTempFileName(wxT("arctest-")); if (!tmp.empty()) { wxRemoveFile(tmp); m_original = wxGetCwd(); CPPUNIT_ASSERT(wxMkdir(tmp, 0700)); m_tmp = tmp; CPPUNIT_ASSERT(wxSetWorkingDirectory(tmp)); } } TempDir::~TempDir() { if (!m_tmp.empty()) { wxSetWorkingDirectory(m_original); RemoveDir(m_tmp); } } void TempDir::RemoveDir(wxString& path) { wxCHECK_RET(!m_tmp.empty() && path.substr(0, m_tmp.length()) == m_tmp, wxT("remove '") + path + wxT("' fails safety check")); const wxChar *files[] = { wxT("text/empty"), wxT("text/small"), wxT("bin/bin1000"), wxT("bin/bin4095"), wxT("bin/bin4096"), wxT("bin/bin4097"), wxT("bin/bin16384"), wxT("zero/zero5"), wxT("zero/zero1024"), wxT("zero/zero32768"), wxT("zero/zero16385"), wxT("zero/newname"), wxT("newfile"), }; const wxChar *dirs[] = { wxT("text/"), wxT("bin/"), wxT("zero/"), wxT("empty/") }; wxString tmp = m_tmp + wxFileName::GetPathSeparator(); size_t i; for (i = 0; i < WXSIZEOF(files); i++) wxRemoveFile(tmp + wxFileName(files[i], wxPATH_UNIX).GetFullPath()); for (i = 0; i < WXSIZEOF(dirs); i++) wxRmdir(tmp + wxFileName(dirs[i], wxPATH_UNIX).GetFullPath()); if (!wxRmdir(m_tmp)) { wxLogSysError(wxT("can't remove temporary dir '%s'"), m_tmp.c_str()); } } /////////////////////////////////////////////////////////////////////////////// // wxFFile streams for piping to/from an external program #if defined __UNIX__ || defined __MINGW32__ # define WXARC_popen popen # define WXARC_pclose pclose #elif defined _MSC_VER || defined __BORLANDC__ # define WXARC_popen _popen # define WXARC_pclose _pclose #else # define WXARC_NO_POPEN # define WXARC_popen(cmd, type) NULL # define WXARC_pclose(fp) #endif #ifdef __WINDOWS__ # define WXARC_b "b" #else # define WXARC_b #endif PFileInputStream::PFileInputStream(const wxString& cmd) : wxFFileInputStream(WXARC_popen(cmd.mb_str(), "r" WXARC_b)) { } PFileInputStream::~PFileInputStream() { WXARC_pclose(m_file->fp()); m_file->Detach(); } PFileOutputStream::PFileOutputStream(const wxString& cmd) : wxFFileOutputStream(WXARC_popen(cmd.mb_str(), "w" WXARC_b)) { } PFileOutputStream::~PFileOutputStream() { WXARC_pclose(m_file->fp()); m_file->Detach(); } /////////////////////////////////////////////////////////////////////////////// // The test case template ArchiveTestCase::ArchiveTestCase( string name, ClassFactoryT *factory, int options, const wxString& archiver, const wxString& unarchiver) : CppUnit::TestCase(TestId::MakeId() + name), m_factory(factory), m_options(options), m_timeStamp(1, wxDateTime::Mar, 2004, 12, 0), m_id(TestId::GetId()), m_archiver(archiver), m_unarchiver(unarchiver) { wxASSERT(m_factory.get() != NULL); } template ArchiveTestCase::~ArchiveTestCase() { TestEntries::iterator it; for (it = m_testEntries.begin(); it != m_testEntries.end(); ++it) delete it->second; } template void ArchiveTestCase::runTest() { TestOutputStream out(m_options); CreateTestData(); if (m_archiver.empty()) CreateArchive(out); else { #ifndef __WXOSX_IPHONE__ CreateArchive(out, m_archiver); #else CPPUNIT_FAIL("using external archivers is not supported on iOS"); #endif } // check archive could be created CPPUNIT_ASSERT(out.GetLength() > 0); TestInputStream in(out, m_id % ((m_options & PipeIn) ? 4 : 3)); TestIterator(in); in.Rewind(); TestPairIterator(in); in.Rewind(); TestSmartIterator(in); in.Rewind(); TestSmartPairIterator(in); in.Rewind(); if ((m_options & PipeIn) == 0) { ReadSimultaneous(in); in.Rewind(); } ModifyArchive(in, out); in.SetData(out); if (m_unarchiver.empty()) ExtractArchive(in); else { #ifndef __WXOSX_IPHONE__ ExtractArchive(in, m_unarchiver); #else CPPUNIT_FAIL("using external archivers is not supported on iOS"); #endif } // check that all the test entries were found in the archive CPPUNIT_ASSERT(m_testEntries.empty()); } template void ArchiveTestCase::CreateTestData() { Add("text/"); Add("text/empty", ""); Add("text/small", "Small text file for testing\n" "archive streams in wxWidgets\n"); Add("bin/"); Add("bin/bin1000", 1000); Add("bin/bin4095", 4095); Add("bin/bin4096", 4096); Add("bin/bin4097", 4097); Add("bin/bin16384", 16384); Add("zero/"); Add("zero/zero5", 5, 0); Add("zero/zero1024", 1024, 109); Add("zero/zero32768", 32768, 106); Add("zero/zero16385", 16385, 119); Add("empty/"); } template TestEntry& ArchiveTestCase::Add(const char *name, const char *data, int len /*=-1*/) { if (len == -1) len = strlen(data); TestEntry*& entry = m_testEntries[wxString(name, *wxConvCurrent)]; wxASSERT(entry == NULL); entry = new TestEntry(m_timeStamp, len, data); m_timeStamp += wxTimeSpan(0, 1, 30); return *entry; } template TestEntry& ArchiveTestCase::Add(const char *name, int len /*=0*/, int value /*=EOF*/) { wxCharBuffer buf(len); for (int i = 0; i < len; i++) buf.data()[i] = (char)(value == EOF ? rand() : value); return Add(name, buf, len); } // Create an archive using the wx archive classes, write it to 'out' // template void ArchiveTestCase::CreateArchive(wxOutputStream& out) { wxScopedPtr arc(m_factory->NewStream(out)); TestEntries::iterator it; OnCreateArchive(*arc); // We want to try creating entries in various different ways, 'choices' // is just a number used to select between all the various possibilities. int choices = m_id; for (it = m_testEntries.begin(); it != m_testEntries.end(); ++it) { choices += 5; TestEntry& testEntry = *it->second; wxString name = it->first; // It should be possible to create a directory entry just by supplying // a name that looks like a directory, or alternatively any old name // can be identified as a directory using SetIsDir or PutNextDirEntry bool setIsDir = name.Last() == wxT('/') && (choices & 1); if (setIsDir) name.erase(name.length() - 1); // provide some context for the error message so that we know which // iteration of the loop we were on string error_entry((wxT(" '") + name + wxT("'")).mb_str()); string error_context(" failed for entry" + error_entry); if ((choices & 2) || testEntry.IsText()) { // try PutNextEntry(EntryT *pEntry) wxScopedPtr entry(m_factory->NewEntry()); entry->SetName(name, wxPATH_UNIX); if (setIsDir) entry->SetIsDir(); entry->SetDateTime(testEntry.GetDateTime()); entry->SetSize(testEntry.GetLength()); OnCreateEntry(*arc, testEntry, entry.get()); CPPUNIT_ASSERT_MESSAGE("PutNextEntry" + error_context, arc->PutNextEntry(entry.release())); } else { // try the convenience methods OnCreateEntry(*arc, testEntry); if (setIsDir) CPPUNIT_ASSERT_MESSAGE("PutNextDirEntry" + error_context, arc->PutNextDirEntry(name, testEntry.GetDateTime())); else CPPUNIT_ASSERT_MESSAGE("PutNextEntry" + error_context, arc->PutNextEntry(name, testEntry.GetDateTime(), testEntry.GetLength())); } if (it->first.Last() != wxT('/')) { // for non-dirs write the data arc->Write(testEntry.GetData(), testEntry.GetSize()); CPPUNIT_ASSERT_MESSAGE("LastWrite check" + error_context, arc->LastWrite() == testEntry.GetSize()); // should work with or without explicit CloseEntry if (choices & 3) CPPUNIT_ASSERT_MESSAGE("CloseEntry" + error_context, arc->CloseEntry()); } CPPUNIT_ASSERT_MESSAGE("IsOk" + error_context, arc->IsOk()); } // should work with or without explicit Close if (m_id % 2) CPPUNIT_ASSERT(arc->Close()); } // Create an archive using an external archive program // #ifndef __WXOSX_IPHONE__ template void ArchiveTestCase::CreateArchive(wxOutputStream& out, const wxString& archiver) { // for an external archiver the test data need to be written to // temp files TempDir tmpdir; // write the files TestEntries::iterator i; for (i = m_testEntries.begin(); i != m_testEntries.end(); ++i) { wxFileName fn(i->first, wxPATH_UNIX); TestEntry& entry = *i->second; if (fn.IsDir()) { wxFileName::Mkdir(fn.GetPath(), 0777, wxPATH_MKDIR_FULL); } else { wxFileName::Mkdir(fn.GetPath(), 0777, wxPATH_MKDIR_FULL); wxFFileOutputStream fileout(fn.GetFullPath()); fileout.Write(entry.GetData(), entry.GetSize()); } } for (i = m_testEntries.begin(); i != m_testEntries.end(); ++i) { wxFileName fn(i->first, wxPATH_UNIX); TestEntry& entry = *i->second; wxDateTime dt = entry.GetDateTime(); #ifdef __WINDOWS__ if (fn.IsDir()) entry.SetDateTime(wxDateTime()); else #endif fn.SetTimes(NULL, &dt, NULL); } if ((m_options & PipeOut) == 0) { wxFileName fn(tmpdir.GetName()); fn.SetExt(wxT("arc")); wxString tmparc = fn.GetPath(wxPATH_GET_SEPARATOR) + fn.GetFullName(); // call the archiver to create an archive file if ( system(wxString::Format(archiver, tmparc.c_str()).mb_str()) == -1 ) { wxLogError("Failed to run acrhiver command \"%s\"", archiver); } // then load the archive file { wxFFileInputStream in(tmparc); if (in.IsOk()) out.Write(in); } wxRemoveFile(tmparc); } else { // for the non-seekable test, have the archiver output to "-" // and read the archive via a pipe PFileInputStream in(wxString::Format(archiver, wxT("-"))); if (in.IsOk()) out.Write(in); } } #endif // Do a standard set of modification on an archive, delete an entry, // rename an entry and add an entry // template void ArchiveTestCase::ModifyArchive(wxInputStream& in, wxOutputStream& out) { wxScopedPtr arcIn(m_factory->NewStream(in)); wxScopedPtr arcOut(m_factory->NewStream(out)); EntryT *pEntry; const wxString deleteName = wxT("bin/bin1000"); const wxString renameFrom = wxT("zero/zero1024"); const wxString renameTo = wxT("zero/newname"); const wxString newName = wxT("newfile"); const char *newData = "New file added as a test\n"; arcOut->CopyArchiveMetaData(*arcIn); while ((pEntry = arcIn->GetNextEntry()) != NULL) { wxScopedPtr entry(pEntry); OnSetNotifier(*entry); wxString name = entry->GetName(wxPATH_UNIX); // provide some context for the error message so that we know which // iteration of the loop we were on string error_entry((wxT(" '") + name + wxT("'")).mb_str()); string error_context(" failed for entry" + error_entry); if (name == deleteName) { TestEntries::iterator it = m_testEntries.find(name); CPPUNIT_ASSERT_MESSAGE( "deletion failed (already deleted?) for" + error_entry, it != m_testEntries.end()); TestEntry *p = it->second; m_testEntries.erase(it); delete p; } else { if (name == renameFrom) { entry->SetName(renameTo); TestEntries::iterator it = m_testEntries.find(renameFrom); CPPUNIT_ASSERT_MESSAGE( "rename failed (already renamed?) for" + error_entry, it != m_testEntries.end()); TestEntry *p = it->second; m_testEntries.erase(it); m_testEntries[renameTo] = p; } CPPUNIT_ASSERT_MESSAGE("CopyEntry" + error_context, arcOut->CopyEntry(entry.release(), *arcIn)); } } // check that the deletion and rename were done CPPUNIT_ASSERT(m_testEntries.count(deleteName) == 0); CPPUNIT_ASSERT(m_testEntries.count(renameFrom) == 0); CPPUNIT_ASSERT(m_testEntries.count(renameTo) == 1); // check that the end of the input archive was reached without error CPPUNIT_ASSERT(arcIn->Eof()); // try adding a new entry TestEntry& testEntry = Add(newName.mb_str(), newData); wxScopedPtr newentry(m_factory->NewEntry()); newentry->SetName(newName); newentry->SetDateTime(testEntry.GetDateTime()); newentry->SetSize(testEntry.GetLength()); OnCreateEntry(*arcOut, testEntry, newentry.get()); OnSetNotifier(*newentry); CPPUNIT_ASSERT(arcOut->PutNextEntry(newentry.release())); CPPUNIT_ASSERT(arcOut->Write(newData, strlen(newData)).IsOk()); // should work with or without explicit Close if (m_id % 2) CPPUNIT_ASSERT(arcOut->Close()); } // Extract an archive using the wx archive classes // template void ArchiveTestCase::ExtractArchive(wxInputStream& in) { typedef Ptr EntryPtr; typedef std::list Entries; typedef typename Entries::iterator EntryIter; wxScopedPtr arc(m_factory->NewStream(in)); int expectedTotal = m_testEntries.size(); EntryPtr entry; Entries entries; if ((m_options & PipeIn) == 0) OnArchiveExtracted(*arc, expectedTotal); while (entry = EntryPtr(arc->GetNextEntry()), entry.get() != NULL) { wxString name = entry->GetName(wxPATH_UNIX); // provide some context for the error message so that we know which // iteration of the loop we were on string error_entry((wxT(" '") + name + wxT("'")).mb_str()); string error_context(" failed for entry" + error_entry); TestEntries::iterator it = m_testEntries.find(name); CPPUNIT_ASSERT_MESSAGE( "archive contains an entry that shouldn't be there" + error_entry, it != m_testEntries.end()); const TestEntry& testEntry = *it->second; #ifndef __WINDOWS__ // On Windows some archivers compensate for Windows DST handling, but // other don't, so disable the test for now. wxDateTime dt = testEntry.GetDateTime(); if (dt.IsValid()) CPPUNIT_ASSERT_MESSAGE("timestamp check" + error_context, dt == entry->GetDateTime()); #endif // non-seekable entries are allowed to have GetSize == wxInvalidOffset // until the end of the entry's data has been read past CPPUNIT_ASSERT_MESSAGE("entry size check" + error_context, (testEntry.GetLength() == entry->GetSize() || ((m_options & PipeIn) != 0 && entry->GetSize() == wxInvalidOffset))); CPPUNIT_ASSERT_MESSAGE( "arc->GetLength() == entry->GetSize()" + error_context, arc->GetLength() == entry->GetSize()); if (name.Last() != wxT('/')) { CPPUNIT_ASSERT_MESSAGE("!IsDir" + error_context, !entry->IsDir()); wxCharBuffer buf(testEntry.GetSize() + 1); CPPUNIT_ASSERT_MESSAGE("Read until Eof" + error_context, arc->Read(buf.data(), testEntry.GetSize() + 1).Eof()); CPPUNIT_ASSERT_MESSAGE("LastRead check" + error_context, arc->LastRead() == testEntry.GetSize()); CPPUNIT_ASSERT_MESSAGE("data compare" + error_context, !memcmp(buf.data(), testEntry.GetData(), testEntry.GetSize())); } else { CPPUNIT_ASSERT_MESSAGE("IsDir" + error_context, entry->IsDir()); } // GetSize() must return the right result in all cases after all the // data has been read CPPUNIT_ASSERT_MESSAGE("entry size check" + error_context, testEntry.GetLength() == entry->GetSize()); CPPUNIT_ASSERT_MESSAGE( "arc->GetLength() == entry->GetSize()" + error_context, arc->GetLength() == entry->GetSize()); if ((m_options & PipeIn) == 0) { OnEntryExtracted(*entry, testEntry, arc.get()); delete it->second; m_testEntries.erase(it); } else { entries.push_back(entry); } } // check that the end of the input archive was reached without error CPPUNIT_ASSERT(arc->Eof()); // for non-seekable streams these data are only guaranteed to be // available once the end of the archive has been reached if (m_options & PipeIn) { for (EntryIter i = entries.begin(); i != entries.end(); ++i) { wxString name = (*i)->GetName(wxPATH_UNIX); TestEntries::iterator j = m_testEntries.find(name); OnEntryExtracted(**i, *j->second); delete j->second; m_testEntries.erase(j); } OnArchiveExtracted(*arc, expectedTotal); } } // Extract an archive using an external unarchive program // #ifndef __WXOSX_IPHONE__ template void ArchiveTestCase::ExtractArchive(wxInputStream& in, const wxString& unarchiver) { // for an external unarchiver, unarchive to a tempdir TempDir tmpdir; if ((m_options & PipeIn) == 0) { wxFileName fn(tmpdir.GetName()); fn.SetExt(wxT("arc")); wxString tmparc = fn.GetPath(wxPATH_GET_SEPARATOR) + fn.GetFullName(); if (m_options & Stub) in.SeekI(STUB_SIZE * 2); // write the archive to a temporary file { wxFFileOutputStream out(tmparc); if (out.IsOk()) out.Write(in); } // call unarchiver if ( system(wxString::Format(unarchiver, tmparc.c_str()).mb_str()) == -1 ) { wxLogError("Failed to run unarchiver command \"%s\"", unarchiver); } wxRemoveFile(tmparc); } else { // for the non-seekable test, have the archiver extract "-" and // feed it the archive via a pipe PFileOutputStream out(wxString::Format(unarchiver, wxT("-"))); if (out.IsOk()) out.Write(in); } wxString dir = tmpdir.GetName(); VerifyDir(dir); } #endif // Verifies the files produced by an external unarchiver are as expected // template void ArchiveTestCase::VerifyDir(wxString& path, size_t rootlen /*=0*/) { wxDir dir; path += wxFileName::GetPathSeparator(); int pos = path.length(); wxString name; if (!rootlen) rootlen = pos; if (dir.Open(path) && dir.GetFirst(&name)) { do { path.replace(pos, wxString::npos, name); name = m_factory->GetInternalName( path.substr(rootlen, wxString::npos)); bool isDir = wxDirExists(path); if (isDir) name += wxT("/"); // provide some context for the error message so that we know which // iteration of the loop we were on string error_entry((wxT(" '") + name + wxT("'")).mb_str()); string error_context(" failed for entry" + error_entry); TestEntries::iterator it = m_testEntries.find(name); CPPUNIT_ASSERT_MESSAGE( "archive contains an entry that shouldn't be there" + error_entry, it != m_testEntries.end()); const TestEntry& testEntry = *it->second; #if 0 //ndef __WINDOWS__ CPPUNIT_ASSERT_MESSAGE("timestamp check" + error_context, testEntry.GetDateTime() == wxFileName(path).GetModificationTime()); #endif if (!isDir) { wxFFileInputStream in(path); CPPUNIT_ASSERT_MESSAGE( "entry not found in archive" + error_entry, in.IsOk()); size_t size = (size_t)in.GetLength(); wxCharBuffer buf(size); CPPUNIT_ASSERT_MESSAGE("Read" + error_context, in.Read(buf.data(), size).LastRead() == size); CPPUNIT_ASSERT_MESSAGE("size check" + error_context, testEntry.GetSize() == size); CPPUNIT_ASSERT_MESSAGE("data compare" + error_context, memcmp(buf.data(), testEntry.GetData(), size) == 0); } else { VerifyDir(path, rootlen); } delete it->second; m_testEntries.erase(it); } while (dir.GetNext(&name)); } } // test the simple iterators that give away ownership of an entry // template void ArchiveTestCase::TestIterator(wxInputStream& in) { typedef std::list ArchiveCatalog; typedef typename ArchiveCatalog::iterator CatalogIter; wxScopedPtr arc(m_factory->NewStream(in)); size_t count = 0; #ifdef WXARC_MEMBER_TEMPLATES ArchiveCatalog cat((IterT)*arc, IterT()); #else ArchiveCatalog cat; for (IterT i(*arc); i != IterT(); ++i) cat.push_back(*i); #endif for (CatalogIter it = cat.begin(); it != cat.end(); ++it) { wxScopedPtr entry(*it); count += m_testEntries.count(entry->GetName(wxPATH_UNIX)); } CPPUNIT_ASSERT(m_testEntries.size() == cat.size()); CPPUNIT_ASSERT(count == cat.size()); } // test the pair iterators that can be used to load a std::map or wxHashMap // these also give away ownership of entries // template void ArchiveTestCase::TestPairIterator(wxInputStream& in) { typedef std::map ArchiveCatalog; typedef typename ArchiveCatalog::iterator CatalogIter; wxScopedPtr arc(m_factory->NewStream(in)); size_t count = 0; #ifdef WXARC_MEMBER_TEMPLATES ArchiveCatalog cat((PairIterT)*arc, PairIterT()); #else ArchiveCatalog cat; for (PairIterT i(*arc); i != PairIterT(); ++i) cat.insert(*i); #endif for (CatalogIter it = cat.begin(); it != cat.end(); ++it) { wxScopedPtr entry(it->second); count += m_testEntries.count(entry->GetName(wxPATH_UNIX)); } CPPUNIT_ASSERT(m_testEntries.size() == cat.size()); CPPUNIT_ASSERT(count == cat.size()); } // simple iterators using smart pointers, no need to worry about ownership // template void ArchiveTestCase::TestSmartIterator(wxInputStream& in) { typedef std::list > ArchiveCatalog; typedef typename ArchiveCatalog::iterator CatalogIter; typedef wxArchiveIterator > Iter; wxScopedPtr arc(m_factory->NewStream(in)); #ifdef WXARC_MEMBER_TEMPLATES ArchiveCatalog cat((Iter)*arc, Iter()); #else ArchiveCatalog cat; for (Iter i(*arc); i != Iter(); ++i) cat.push_back(*i); #endif CPPUNIT_ASSERT(m_testEntries.size() == cat.size()); for (CatalogIter it = cat.begin(); it != cat.end(); ++it) CPPUNIT_ASSERT(m_testEntries.count((*it)->GetName(wxPATH_UNIX))); } // pair iterator using smart pointers // template void ArchiveTestCase::TestSmartPairIterator(wxInputStream& in) { #if defined _MSC_VER && defined _MSC_VER < 1200 // With VC++ 5.0 the '=' operator of std::pair breaks when the second // type is Ptr, so this iterator can't be made to work. (void)in; #else typedef std::map > ArchiveCatalog; typedef typename ArchiveCatalog::iterator CatalogIter; typedef wxArchiveIterator > > PairIter; wxScopedPtr arc(m_factory->NewStream(in)); #ifdef WXARC_MEMBER_TEMPLATES ArchiveCatalog cat((PairIter)*arc, PairIter()); #else ArchiveCatalog cat; for (PairIter i(*arc); i != PairIter(); ++i) cat.insert(*i); #endif CPPUNIT_ASSERT(m_testEntries.size() == cat.size()); for (CatalogIter it = cat.begin(); it != cat.end(); ++it) CPPUNIT_ASSERT(m_testEntries.count(it->second->GetName(wxPATH_UNIX))); #endif } // try reading two entries at the same time // template void ArchiveTestCase::ReadSimultaneous(TestInputStream& in) { typedef std::map > ArchiveCatalog; typedef wxArchiveIterator > > PairIter; // create two archive input streams TestInputStream in2(in); wxScopedPtr arc(m_factory->NewStream(in)); wxScopedPtr arc2(m_factory->NewStream(in2)); // load the catalog #ifdef WXARC_MEMBER_TEMPLATES ArchiveCatalog cat((PairIter)*arc, PairIter()); #else ArchiveCatalog cat; for (PairIter i(*arc); i != PairIter(); ++i) cat.insert(*i); #endif // the names of two entries to read const wxChar *name = wxT("text/small"); const wxChar *name2 = wxT("bin/bin1000"); // open them typename ArchiveCatalog::iterator j; CPPUNIT_ASSERT((j = cat.find(name)) != cat.end()); CPPUNIT_ASSERT(arc->OpenEntry(*j->second)); CPPUNIT_ASSERT((j = cat.find(name2)) != cat.end()); CPPUNIT_ASSERT(arc2->OpenEntry(*j->second)); // get pointers to the expected data TestEntries::iterator k; CPPUNIT_ASSERT((k = m_testEntries.find(name)) != m_testEntries.end()); TestEntry *entry = k->second; CPPUNIT_ASSERT((k = m_testEntries.find(name2)) != m_testEntries.end()); TestEntry *entry2 = k->second; size_t count = 0, count2 = 0; size_t size = entry->GetSize(), size2 = entry2->GetSize(); const char *data = entry->GetData(), *data2 = entry2->GetData(); // read and check the two entries in parallel, character by character while (arc->IsOk() || arc2->IsOk()) { char ch = arc->GetC(); if (arc->LastRead() == 1) { CPPUNIT_ASSERT(count < size); CPPUNIT_ASSERT(ch == data[count++]); } char ch2 = arc2->GetC(); if (arc2->LastRead() == 1) { CPPUNIT_ASSERT(count2 < size2); CPPUNIT_ASSERT(ch2 == data2[count2++]); } } CPPUNIT_ASSERT(arc->Eof()); CPPUNIT_ASSERT(arc2->Eof()); CPPUNIT_ASSERT(count == size); CPPUNIT_ASSERT(count2 == size2); } // Nothing useful can be done with a generic notifier yet, so just test one // can be set // template class ArchiveNotifier : public NotifierT { public: void OnEntryUpdated(EntryT& WXUNUSED(entry)) wxOVERRIDE { } }; template void ArchiveTestCase::OnSetNotifier(EntryT& entry) { static ArchiveNotifier notifier; entry.SetNotifier(notifier); } /////////////////////////////////////////////////////////////////////////////// // An additional case to check that reading corrupt archives doesn't crash class CorruptionTestCase : public CppUnit::TestCase { public: CorruptionTestCase(std::string name, wxArchiveClassFactory *factory, int options) : CppUnit::TestCase(TestId::MakeId() + name), m_factory(factory), m_options(options) { } // the entry point for the test void runTest() wxOVERRIDE; protected: void CreateArchive(wxOutputStream& out); void ExtractArchive(wxInputStream& in); wxScopedPtr m_factory; // factory to make classes int m_options; // test options }; void CorruptionTestCase::runTest() { TestOutputStream out(m_options); CreateArchive(out); TestInputStream in(out, 0); wxFileOffset len = in.GetLength(); // try flipping one byte in the archive int pos; for (pos = 0; pos < len; pos++) { char n = in[pos]; in[pos] = ~n; ExtractArchive(in); in.Rewind(); in[pos] = n; } // try zeroing one byte in the archive for (pos = 0; pos < len; pos++) { char n = in[pos]; in[pos] = 0; ExtractArchive(in); in.Rewind(); in[pos] = n; } // try chopping the archive off for (int size = 1; size <= len; size++) { in.Chop(size); ExtractArchive(in); in.Rewind(); } } void CorruptionTestCase::CreateArchive(wxOutputStream& out) { wxScopedPtr arc(m_factory->NewStream(out)); arc->PutNextDirEntry(wxT("dir")); arc->PutNextEntry(wxT("file")); arc->Write(wxT("foo"), 3); } void CorruptionTestCase::ExtractArchive(wxInputStream& in) { wxScopedPtr arc(m_factory->NewStream(in)); wxScopedPtr entry(arc->GetNextEntry()); while (entry.get() != NULL) { char buf[1024]; while (arc->IsOk()) arc->Read(buf, sizeof(buf)); entry.reset(arc->GetNextEntry()); } } /////////////////////////////////////////////////////////////////////////////// // Make the ids int TestId::m_seed = 6219; // static string TestId::MakeId() { m_seed = (m_seed * 171) % 30269; return string(wxString::Format(wxT("%-6d"), m_seed).mb_str()); } /////////////////////////////////////////////////////////////////////////////// // Suite base ArchiveTestSuite::ArchiveTestSuite(string name) : CppUnit::TestSuite("archive/" + name), m_name(name.c_str(), *wxConvCurrent) { m_name = wxT("wx") + m_name.Left(1).Upper() + m_name.Mid(1).Lower(); m_path.AddEnvList(wxT("PATH")); m_archivers.push_back(wxT("")); m_unarchivers.push_back(wxT("")); } // add the command for an external archiver to the list, testing for it in // the path first // void ArchiveTestSuite::AddCmd(wxArrayString& cmdlist, const wxString& cmd) { if (IsInPath(cmd)) cmdlist.push_back(cmd); } bool ArchiveTestSuite::IsInPath(const wxString& cmd) { wxString c = cmd.BeforeFirst(wxT(' ')); #ifdef __WINDOWS__ c += wxT(".exe"); #endif return !m_path.FindValidPath(c).empty(); } // run all the tests in the test suite // void ArchiveTestSuite::DoRunTest() { typedef wxArrayString::iterator Iter; for (int generic = 0; generic < 2; generic++) for (Iter i = m_unarchivers.begin(); i != m_unarchivers.end(); ++i) for (Iter j = m_archivers.begin(); j != m_archivers.end(); ++j) for (int options = 0; options <= AllOptions; options++) { #ifdef WXARC_NO_POPEN // if no popen then can't pipe in/out of archiver if ((options & PipeIn) && !i->empty()) continue; if ((options & PipeOut) && !j->empty()) continue; #endif string descr = Description(m_name, options, generic != 0, *j, *i); CppUnit::Test *test = makeTest(descr, options, generic != 0, *j, *i); if (test) { test->runTest(); delete test; } } for (int options = 0; options <= PipeIn; options += PipeIn) { wxObject *pObj = wxCreateDynamicObject(m_name + wxT("ClassFactory")); wxArchiveClassFactory *factory; factory = wxDynamicCast(pObj, wxArchiveClassFactory); if (factory) { string descr(m_name.mb_str()); descr = "CorruptionTestCase (" + descr + ")"; if (options) descr += " (PipeIn)"; CorruptionTestCase test(descr, factory, options); test.runTest(); } } } CppUnit::Test *ArchiveTestSuite::makeTest( string WXUNUSED(descr), int WXUNUSED(options), bool WXUNUSED(genericInterface), const wxString& WXUNUSED(archiver), const wxString& WXUNUSED(unarchiver)) { return NULL; } // make a display string for the option bits // string ArchiveTestSuite::Description(const wxString& type, int options, bool genericInterface, const wxString& archiver, const wxString& unarchiver) { wxString descr; if (genericInterface) descr << wxT("wxArchive (") << type << wxT(")"); else descr << type; if (!archiver.empty()) { const wxChar *fn = (options & PipeOut) != 0 ? wxT("-") : wxT("file"); const wxString cmd = archiver.Contains("%s") ? wxString::Format(archiver, fn) : archiver; descr << wxT(" (") << cmd << wxT(")"); } if (!unarchiver.empty()) { const wxChar *fn = (options & PipeIn) != 0 ? wxT("-") : wxT("file"); const wxString cmd = unarchiver.Contains("%s") ? wxString::Format(unarchiver, fn) : unarchiver; descr << wxT(" (") << cmd << wxT(")"); } wxString optstr; if ((options & PipeIn) != 0) optstr += wxT("|PipeIn"); if ((options & PipeOut) != 0) optstr += wxT("|PipeOut"); if ((options & Stub) != 0) optstr += wxT("|Stub"); if (!optstr.empty()) optstr = wxT(" (") + optstr.substr(1) + wxT(")"); descr << optstr; return string(descr.mb_str()); } /////////////////////////////////////////////////////////////////////////////// // Instantiations template class ArchiveTestCase; #if wxUSE_ZIPSTREAM #include "wx/zipstrm.h" template class ArchiveTestCase; #endif #if wxUSE_TARSTREAM #include "wx/tarstrm.h" template class ArchiveTestCase; #endif #endif // wxUSE_STREAMS && wxUSE_ARCHIVE_STREAMS