websocketpp::http::status_code::value FileServer::handlePostRequest(const websocketpp::http::parser::request& aRequest,
std::string& output_, StringPairList& headers_, const SessionPtr& aSession) noexcept {
const auto& requestPath = aRequest.get_uri();
if (requestPath == "/temp") {
if (!aSession || !aSession->getUser()->hasPermission(Access::FILESYSTEM_EDIT)) {
output_ = "Not authorized";
return websocketpp::http::status_code::unauthorized;
}
const auto fileName = Util::toString(Util::rand());
const auto filePath = Util::getTempPath() + fileName;
try {
File file(filePath, File::WRITE, File::TRUNCATE | File::CREATE, File::BUFFER_SEQUENTIAL);
file.write(aRequest.get_body());
} catch (const FileException& e) {
output_ = "Failed to write the file: " + e.getError();
return websocketpp::http::status_code::internal_server_error;
}
{
WLock l(cs);
tempFiles.emplace(fileName, filePath);
}
headers_.emplace_back("Location", fileName);
return websocketpp::http::status_code::created;
}
output_ = "Requested resource was not found";
return websocketpp::http::status_code::not_found;
}
websocketpp::http::status_code::value FileServer::handleGetRequest(const websocketpp::http::parser::request& aRequest,
string& output_, StringPairList& headers_, const SessionPtr& aSession) noexcept {
const auto& requestUrl = aRequest.get_uri();
dcdebug("Requesting file %s\n", requestUrl.c_str());
// Get the disk path
string filePath;
try {
if (requestUrl.length() >= 6 && requestUrl.compare(0, 6, "/view/") == 0) {
filePath = parseViewFilePath(requestUrl.substr(6), headers_, aSession);
} else {
filePath = parseResourcePath(requestUrl, aRequest, headers_);
}
} catch (const RequestException& e) {
output_ = e.what();
return e.getCode();
}
auto fileSize = File::getSize(filePath);
int64_t startPos = 0, endPos = fileSize - 1;
auto partialContent = parsePartialRange(aRequest.get_header("Range"), startPos, endPos);
// Read file
try {
File f(filePath, File::READ, File::OPEN);
f.setPos(startPos);
output_ = f.read(static_cast<size_t>(endPos) + 1);
} catch (const FileException& e) {
dcdebug("Failed to serve the file %s: %s\n", filePath.c_str(), e.getError().c_str());
output_ = e.getError();
return websocketpp::http::status_code::not_found;
} catch (const std::bad_alloc&) {
output_ = "Not enough memory on the server to serve this request";
return websocketpp::http::status_code::internal_server_error;
}
{
const auto ext = Util::getFileExt(filePath);
if (ext == ".nfo") {
string encoding;
// Platform-independent encoding conversion function could be added if there is more use for it
#ifdef _WIN32
encoding = "CP.437";
#else
encoding = "cp437";
#endif
output_ = Text::toUtf8(output_, encoding);
} else if (ext == ".gz" && aRequest.get_header("Accept-Encoding").find("gzip") != string::npos) {
headers_.emplace_back("Content-Encoding", "gzip");
}
}
{
// Get the mime type (but get it from the original request with gzipped content)
auto usingEncoding = find_if(headers_.begin(), headers_.end(), CompareFirst<string, string>("Content-Encoding")) != headers_.end();
auto type = getMimeType(usingEncoding ? requestUrl : filePath);
if (type) {
headers_.emplace_back("Content-Type", type);
}
}
if (partialContent) {
headers_.emplace_back("Content-Range", formatPartialRange(startPos, endPos, fileSize));
headers_.emplace_back("Accept-Ranges", "bytes");
return websocketpp::http::status_code::partial_content;
}
return websocketpp::http::status_code::ok;
}