if (NULL == result)
{
- ThrowMsg(Jobs::WidgetInstall::Exceptions::InternalError,
+ ThrowMsg(Jobs::WidgetInstall::Exceptions::EncryptionFailed,
"Could not open file " << path);
}
{
if (EINTR != error)
{
- ThrowMsg(Jobs::WidgetInstall::Exceptions::InternalError,
+ ThrowMsg(Jobs::WidgetInstall::Exceptions::ErrorExternalInstallingFailure,
"Error while reading data" <<
" [" << DPL::GetErrnoString(error) << "]");
}
if ((bytesWritten != bytesToWrite) && (EINTR != errno))
{
int error = errno;
- ThrowMsg(Jobs::WidgetInstall::Exceptions::InternalError,
+ ThrowMsg(Jobs::WidgetInstall::Exceptions::EncryptionFailed,
"Error while writing data" <<
" [" << DPL::GetErrnoString(error) << "]");
}
ByteBuffer pBuf;
pBuf.Construct(pBufSize);
const byte *pByte = reinterpret_cast<const byte*>(plainBuffer);
- pBuf.SetArray(pByte, 0, pBufSize);
+ if (pBuf.SetArray(pByte, 0, pBufSize) != E_SUCCESS) {
+ LogDebug("Couldnot set pBuf");
+ return NULL;
+ }
pBuf.Flip();
- ByteBuffer* getBuffer = pInstance->_TrustZoneService::EncryptN(*appInfo, pBuf);
- return getBuffer;
+ return pInstance->_TrustZoneService::EncryptN(*appInfo, pBuf);
}
Tizen::Base::ByteBuffer* TEST_dec(
ByteBuffer pBuf;
pBuf.Construct(pBufSize);
const byte *pByte = reinterpret_cast<const byte*>(plainBuffer);
- pBuf.SetArray(pByte, 0, pBufSize);
+ if (pBuf.SetArray(pByte, 0, pBufSize) != E_SUCCESS) {
+ LogDebug("Couldnot set pBuf");
+ return NULL;
+ }
pBuf.Flip();
- ByteBuffer* getBufferTEST =
- pInstance->_TrustZoneService::DecryptN(*appInfo, pBuf);
- return getBufferTEST;
+ return pInstance->_TrustZoneService::DecryptN(*appInfo, pBuf);
}
}
int error = errno;
LogWarning(__PRETTY_FUNCTION__ << ": fts_open failed with error: "
<< strerror(error));
- ThrowMsg(Exceptions::InternalError, "Error reading directory: "
+ ThrowMsg(Exceptions::EncryptionFailed, "Error reading directory: "
<< path);
}
<< ftsent->fts_path
<< " with error: "
<< strerror(ftsent->fts_errno));
- ThrowMsg(Exceptions::InternalError, "Error reading file");
+ ThrowMsg(Exceptions::EncryptionFailed, "Error reading file");
break;
}
}
void TaskEncryptResource::EncryptFile(const std::string &fileName)
{
- try
+ LogDebug("Encrypt file: " << fileName);
+ std::string encFile = fileName + ".enc";
+
+ struct stat info;
+ memset(&info, 0, sizeof(info));
+ if (stat(fileName.c_str(), &info) != 0)
{
- LogDebug("Encrypt file: " << fileName);
- std::string encFile = fileName + ".enc";
+ int error = errno;
+ ThrowMsg(Exceptions::EncryptionFailed,
+ "Could not access file " << fileName <<
+ "[" << DPL::GetErrnoString(error) << "]");
+ }
+ const std::size_t fileSize = info.st_size;
+ if (0 == fileSize) {
+ LogDebug(fileName << " size is 0, so encryption is skiped");
+ return;
+ }
- struct stat info;
- memset(&info, 0, sizeof(info));
- if (stat(fileName.c_str(), &info) != 0)
- {
- int error = errno;
- ThrowMsg(Exceptions::InternalError,
- "Could not access file " << fileName <<
- "[" << DPL::GetErrnoString(error) << "]");
- }
- const std::size_t fileSize = info.st_size;
+ DPL::ScopedFClose inFile(openFile(fileName, "r"));
+ DPL::ScopedFClose outFile(openFile(encFile, "w"));
- DPL::ScopedFClose inFile(openFile(fileName, "r"));
- DPL::ScopedFClose outFile(openFile(encFile, "w"));
+ const std::size_t chunkSize = (fileSize > ENCRYPTION_CHUNK_MAX_SIZE
+ ? ENCRYPTION_CHUNK_MAX_SIZE : fileSize);
- const std::size_t chunkSize = (fileSize > ENCRYPTION_CHUNK_MAX_SIZE
- ? ENCRYPTION_CHUNK_MAX_SIZE : fileSize);
+ std::unique_ptr<unsigned char[]> inChunk(new unsigned char[chunkSize]);
+ std::unique_ptr<unsigned char[]> outChunk;
- std::unique_ptr<unsigned char[]> inChunk(new unsigned char[chunkSize]);
- std::unique_ptr<unsigned char[]> outChunk;
+ std::size_t bytesRead = 0;
+ using namespace Tizen::Base;
- std::size_t bytesRead = 0;
- using namespace Tizen::Base;
+ std::string pkgid =
+ DPL::ToUTF8String(m_context.widgetConfig.tzAppid).c_str();
+ const byte *b_pkgid = reinterpret_cast<const byte*>(
+ pkgid.c_str());
+ ByteBuffer appInfo;
+ appInfo.Construct(pkgid.length());
- std::string pkgid =
- DPL::ToUTF8String(m_context.widgetConfig.tzAppid).c_str();
- const byte *b_pkgid = reinterpret_cast<const byte*>(
- pkgid.c_str());
- ByteBuffer appInfo;
- appInfo.Construct(pkgid.length());
- appInfo.SetArray(b_pkgid, 0, pkgid.length());
- appInfo.Flip();
+ if (appInfo.SetArray(b_pkgid, 0, pkgid.length()) != E_SUCCESS) {
+ LogDebug("Couldnot set appInfo");
+ return;
+ }
- do
- {
- bytesRead = readBytes(inChunk.get(), chunkSize, inFile.Get());
- if (0 != bytesRead) {
- ByteBuffer *getBuffer = EncryptChunkByTrustZone(
- &appInfo,
- inChunk.get(), bytesRead);
- int decBufSize = getBuffer->GetRemaining();
-
- outChunk.reset(new unsigned char[decBufSize]);
- memcpy(outChunk.get(), getBuffer->GetPointer(), getBuffer->GetRemaining());
- getBuffer->Reset();
-
- char writeSize[ENCRYPTION_DEC_CHUNK_SIZE];
- memset(writeSize, 0x00, ENCRYPTION_DEC_CHUNK_SIZE);
- std::stringstream toString;
- toString << decBufSize;
- strncpy(writeSize, toString.str().c_str(), toString.str().length());
-
- writeBytes((unsigned char*)writeSize,
- ENCRYPTION_DEC_CHUNK_SIZE, outFile.Get());
- writeBytes(outChunk.get(), decBufSize, outFile.Get());
- }
+ appInfo.Flip();
- } while (0 == std::feof(inFile.Get()));
+ do
+ {
+ bytesRead = readBytes(inChunk.get(), chunkSize, inFile.Get());
+ if (0 != bytesRead) {
+ ByteBuffer *getBuffer = EncryptChunkByTrustZone(
+ &appInfo,
+ inChunk.get(), bytesRead);
+ if (getBuffer == NULL) {
+ ThrowMsg(Exceptions::EncryptionFailed,
+ "Encryption Failed using TrustZone");
+ }
+ int decBufSize = getBuffer->GetRemaining();
- outFile.Reset();
- inFile.Reset();
+ outChunk.reset(new unsigned char[decBufSize]);
+ memcpy(outChunk.get(), getBuffer->GetPointer(), getBuffer->GetRemaining());
+ getBuffer->Reset();
- LogDebug("File encrypted successfully");
- LogDebug("Remove plain-text file: " << fileName);
- if (0 != unlink(fileName.c_str()))
- {
- Throw(Exceptions::InternalError);
- }
+ char writeSize[ENCRYPTION_DEC_CHUNK_SIZE];
+ memset(writeSize, 0x00, ENCRYPTION_DEC_CHUNK_SIZE);
+ std::stringstream toString;
+ toString << decBufSize;
+ strncpy(writeSize, toString.str().c_str(), toString.str().length());
- LogDebug("Rename encrypted file");
- if (0 != std::rename(encFile.c_str(), fileName.c_str()))
- {
- Throw(Exceptions::InternalError);
+ writeBytes((unsigned char*)writeSize,
+ ENCRYPTION_DEC_CHUNK_SIZE, outFile.Get());
+ writeBytes(outChunk.get(), decBufSize, outFile.Get());
}
- std::string realPath = fileName;
- realPath.replace(0,
- m_context.locations->getTemporaryRootDir().length(),
- m_context.locations->getSourceDir());
+ } while (0 == std::feof(inFile.Get()));
- WrtDB::EncryptedFileInfo fileInfo;
- fileInfo.fileName = DPL::FromUTF8String(realPath);
- fileInfo.fileSize = fileSize;
+ outFile.Reset();
+ inFile.Reset();
- m_context.widgetConfig.encryptedFiles.insert(fileInfo);
+ LogDebug("File encrypted successfully");
+ LogDebug("Remove plain-text file: " << fileName);
+ if (0 != unlink(fileName.c_str()))
+ {
+ Throw(Exceptions::EncryptionFailed);
}
- Catch (Exceptions::InternalError)
+
+ LogDebug("Rename encrypted file");
+ if (0 != std::rename(encFile.c_str(), fileName.c_str()))
{
- ReThrowMsg(Exceptions::ExtractFileFailed, fileName);
+ Throw(Exceptions::EncryptionFailed);
}
+
+ std::string realPath = fileName;
+ realPath.replace(0,
+ m_context.locations->getTemporaryRootDir().length(),
+ m_context.locations->getSourceDir());
+
+ WrtDB::EncryptedFileInfo fileInfo;
+ fileInfo.fileName = DPL::FromUTF8String(realPath);
+ fileInfo.fileSize = fileSize;
+
+ m_context.widgetConfig.encryptedFiles.insert(fileInfo);
}
} //namespace WidgetInstall