/* API MODULE Copyright (C) 2016-2019 by Xose PĂ©rez */ #include "api.h" // ----------------------------------------------------------------------------- #if API_SUPPORT #include "system.h" #include "web.h" #include "rpc.h" #include #include #include #include #include #include // ----------------------------------------------------------------------------- PathParts::PathParts(const String& path) : _path(path) { if (!_path.length()) { _ok = false; return; } PathPart::Type type { PathPart::Type::Unknown }; size_t length { 0ul }; size_t offset { 0ul }; const char* p { _path.c_str() }; if (*p == '\0') { goto error; } _parts.reserve(std::count(_path.begin(), _path.end(), '/') + 1); start: type = PathPart::Type::Unknown; length = 0; offset = p - _path.c_str(); switch (*p) { case '+': goto parse_single_wildcard; case '#': goto parse_multi_wildcard; case '/': default: goto parse_value; } parse_value: type = PathPart::Type::Value; switch (*p) { case '+': case '#': goto error; case '/': case '\0': goto push_result; } ++p; ++length; goto parse_value; parse_single_wildcard: type = PathPart::Type::SingleWildcard; ++p; switch (*p) { case '/': ++p; case '\0': goto push_result; } goto error; parse_multi_wildcard: type = PathPart::Type::MultiWildcard; ++p; if (*p == '\0') { goto push_result; } goto error; push_result: emplace_back(type, offset, length); if (*p == '/') { ++p; goto start; } else if (*p != '\0') { goto start; } goto success; error: _ok = false; _parts.clear(); return; success: _ok = true; } // match when, for example, given the path 'topic/one/two/three' and pattern 'topic/+/two/+' bool PathParts::match(const PathParts& path) const { if (!_ok || !path) { return false; } auto lhs = begin(); auto rhs = path.begin(); auto lhs_end = end(); auto rhs_end = path.end(); loop: if (lhs == lhs_end) { goto check_end; } switch ((*lhs).type) { case PathPart::Type::Value: if ( (rhs != rhs_end) && ((*rhs).type == PathPart::Type::Value) && ((*rhs).offset == (*lhs).offset) && ((*rhs).length == (*lhs).length) ) { if (0 == std::memcmp( _path.c_str() + (*lhs).offset, path.path().c_str() + (*rhs).offset, (*rhs).length)) { std::advance(lhs, 1); std::advance(rhs, 1); goto loop; } } goto error; case PathPart::Type::SingleWildcard: if ( (rhs != rhs_end) && ((*rhs).type == PathPart::Type::Value) ) { std::advance(lhs, 1); std::advance(rhs, 1); goto loop; } goto error; case PathPart::Type::MultiWildcard: if (std::next(lhs) == lhs_end) { while (rhs != rhs_end) { if ((*rhs).type != PathPart::Type::Value) { goto error; } std::advance(rhs, 1); } lhs = lhs_end; break; } goto error; case PathPart::Type::Unknown: goto error; }; check_end: if ((lhs == lhs_end) && (rhs == rhs_end)) { return true; } error: return false; } String ApiRequest::wildcard(int index) const { if (index < 0) { index = std::abs(index + 1); } if (std::abs(index) >= _pattern.parts().size()) { return _empty_string(); } int counter { 0 }; auto& pattern = _pattern.parts(); for (unsigned int part = 0; part < pattern.size(); ++part) { auto& lhs = pattern[part]; if (PathPart::Type::SingleWildcard == lhs.type) { if (counter == index) { auto& rhs = _parts.parts()[part]; return _parts.path().substring(rhs.offset, rhs.offset + rhs.length); } ++counter; } } return _empty_string(); } size_t ApiRequest::wildcards() const { size_t result { 0ul }; for (auto& part : _pattern) { if (PathPart::Type::SingleWildcard == part.type) { ++result; } } return result; } // ----------------------------------------------------------------------------- bool _apiAccepts(AsyncWebServerRequest* request, const __FlashStringHelper* str) { auto* header = request->getHeader(F("Accept")); if (header) { return (header->value().indexOf(F("*/*")) >= 0) || (header->value().indexOf(str) >= 0); } return false; } bool _apiAcceptsText(AsyncWebServerRequest* request) { return _apiAccepts(request, F("text/plain")); } bool _apiAcceptsJson(AsyncWebServerRequest* request) { return _apiAccepts(request, F("application/json")); } bool _apiMatchHeader(AsyncWebServerRequest* request, const __FlashStringHelper* key, const __FlashStringHelper* value) { auto* header = request->getHeader(key); if (header) { return header->value().equals(value); } return false; } bool _apiIsJsonContent(AsyncWebServerRequest* request) { return _apiMatchHeader(request, F("Content-Type"), F("application/json")); } bool _apiIsFormDataContent(AsyncWebServerRequest* request) { return _apiMatchHeader(request, F("Content-Type"), F("application/x-www-form-urlencoded")); } // Because the webserver request is split between multiple separate function invocations, we need to preserve some state. // TODO: in case we are dealing with multicore, perhaps enforcing static-size data structs instead of the vector would we better, // to avoid calling generic malloc when paths are parsed? // // Some quirks to deal with: // - handleBody is called before handleRequest, and there's no way to signal completion / success of both callbacks to the server // - Server never checks for request closing in filter or canHandle, so if we don't want to handle large content-length, it // will still flow through the lwip backend. // - `request->_tempObject` is used to keep API request state, but it's just a plain void pointer // - espasyncwebserver will `free(_tempObject)` when request is disconnected, but only after this callbackhandler is done. // make sure it's set to nullptr via `AsyncWebServerRequest::onDisconnect` // - ALL headers are parsed (and we could access those during filter and canHandle callbacks), but we need to explicitly // request them to stay in memory so that the actual handler can work with them void _apiAttachHelper(AsyncWebServerRequest& request, ApiRequestHelper&& helper) { request._tempObject = new ApiRequestHelper(std::move(helper)); request.onDisconnect([&]() { auto* ptr = reinterpret_cast(request._tempObject); delete ptr; request._tempObject = nullptr; }); request.addInterestingHeader(F("Api-Key")); } class ApiBaseWebHandler : public AsyncWebHandler { public: ApiBaseWebHandler() = delete; ApiBaseWebHandler(const ApiBaseWebHandler&) = delete; ApiBaseWebHandler(ApiBaseWebHandler&&) = delete; // In case this needs to be copied or moved, ensure PathParts copy references the new object's string template explicit ApiBaseWebHandler(Pattern&& pattern) : _pattern(std::forward(pattern)), _parts(_pattern) {} const String& pattern() const { return _pattern; } const PathParts& parts() const { return _parts; } private: String _pattern; PathParts _parts; }; // 'Modernized' API configuration: // - `Api-Key` header for both GET and PUT // - Parse request body as JSON object. Limited to LWIP internal buffer size, and will also break when client // does weird stuff and PUTs data in multiple packets b/c only the initial packet is parsed. // - Same as the text/plain, when ApiRequest::handle was not called it will then call GET // // TODO: bump to arduinojson v6 to handle partial / broken data payloads // TODO: somehow detect partial data and buffer (optionally) // TODO: POST instead of PUT? class ApiJsonWebHandler final : public ApiBaseWebHandler { public: static constexpr size_t BufferSize { API_JSON_BUFFER_SIZE }; struct ReadOnlyStream : public Stream { ReadOnlyStream() = delete; explicit ReadOnlyStream(const uint8_t* buffer, size_t size) : _buffer(buffer), _size(size) {} int available() override { return _size - _index; } int peek() override { if (_index < _size) { return static_cast(_buffer[_index]); } return -1; } int read() override { auto peeked = peek(); if (peeked >= 0) { ++_index; } return peeked; } // since we are fixed in size, no need for any timeouts and the only available option is to return full chunk of data size_t readBytes(uint8_t* ptr, size_t size) override { if ((_index < _size) && ((_size - _index) >= size)) { std::copy(_buffer + _index, _buffer + _index + size, ptr); _index += size; return size; } return 0; } size_t readBytes(char* ptr, size_t size) override { return readBytes(reinterpret_cast(ptr), size); } void flush() override { } size_t write(const uint8_t*, size_t) override { return 0; } size_t write(uint8_t) override { return 0; } const uint8_t* _buffer; const size_t _size; size_t _index { 0 }; }; ApiJsonWebHandler() = delete; ApiJsonWebHandler(const ApiJsonWebHandler&) = delete; ApiJsonWebHandler(ApiJsonWebHandler&&) = delete; template ApiJsonWebHandler(Path&& path, Callback&& get, Callback&& put) : ApiBaseWebHandler(std::forward(path)), _get(std::forward(get)), _put(std::forward(put)) {} bool isRequestHandlerTrivial() override { return true; } bool canHandle(AsyncWebServerRequest* request) override { if (!apiEnabled()) { return false; } if (!_apiAcceptsJson(request)) { return false; } auto helper = ApiRequestHelper(*request, parts()); if (helper.match() && apiAuthenticate(request)) { switch (request->method()) { case HTTP_HEAD: return true; case HTTP_PUT: if (!_apiIsJsonContent(request)) { return false; } if (!_put) { return false; } case HTTP_GET: if (!_get) { return false; } break; default: return false; } _apiAttachHelper(*request, std::move(helper)); return true; } return false; } void _handleGet(AsyncWebServerRequest* request, ApiRequest& apireq) { DynamicJsonBuffer jsonBuffer(API_JSON_BUFFER_SIZE); JsonObject& root = jsonBuffer.createObject(); if (!_get(apireq, root)) { request->send(500); return; } if (!apireq.done()) { AsyncResponseStream *response = request->beginResponseStream("application/json", root.measureLength() + 1); root.printTo(*response); request->send(response); return; } request->send(500); } void _handlePut(AsyncWebServerRequest* request, uint8_t* data, size_t size) { // XXX: arduinojson v5 de-serializer will happily read garbage from raw ptr, since there's no length limit // this is fixed in v6 though. for now, use a wrapper, but be aware that this actually uses more mem for the jsonbuffer DynamicJsonBuffer jsonBuffer(API_JSON_BUFFER_SIZE); ReadOnlyStream stream(data, size); JsonObject& root = jsonBuffer.parseObject(stream); if (!root.success()) { request->send(500); return; } auto& helper = *reinterpret_cast(request->_tempObject); auto apireq = helper.request(); if (!_put(apireq, root)) { request->send(500); return; } if (!apireq.done()) { _handleGet(request, apireq); } return; } void handleBody(AsyncWebServerRequest* request, uint8_t* data, size_t len, size_t, size_t total) override { if (total && (len == total)) { _handlePut(request, data, total); } } void handleRequest(AsyncWebServerRequest* request) override { auto& helper = *reinterpret_cast(request->_tempObject); switch (request->method()) { case HTTP_HEAD: request->send(204); return; case HTTP_GET: { auto apireq = helper.request(); _handleGet(request, apireq); return; } // see handleBody() case HTTP_PUT: break; default: request->send(405); break; } } const String& pattern() const { return ApiBaseWebHandler::pattern(); } const PathParts& parts() const { return ApiBaseWebHandler::parts(); } private: ApiJsonHandler _get; ApiJsonHandler _put; }; // ESPurna legacy API configuration // - ?apikey=... to authorize in GET or PUT // - ?anything=... for input data (common key is "value") // MUST correctly override isRequestHandlerTrivial() to allow auth with PUT // (i.e. so that ESPAsyncWebServer parses the body and adds form-data to request params list) class ApiBasicWebHandler final : public ApiBaseWebHandler { public: template ApiBasicWebHandler(Path&& path, Callback&& get, Callback&& put) : ApiBaseWebHandler(std::forward(path)), _get(std::forward(get)), _put(std::forward(put)) {} bool isRequestHandlerTrivial() override { return false; } bool canHandle(AsyncWebServerRequest* request) override { if (!apiEnabled()) { return false; } if (!_apiAcceptsText(request)) { return false; } switch (request->method()) { case HTTP_HEAD: case HTTP_GET: break; case HTTP_PUT: if (!_apiIsFormDataContent(request)) { return false; } break; default: return false; } auto helper = ApiRequestHelper(*request, parts()); if (helper.match()) { _apiAttachHelper(*request, std::move(helper)); return true; } return false; } void handleRequest(AsyncWebServerRequest* request) override { if (!apiAuthenticate(request)) { request->send(403); return; } auto method = request->method(); const bool is_put = ( (!apiRestFul()|| (HTTP_PUT == method)) && request->hasParam("value", HTTP_PUT == method) ); switch (method) { case HTTP_HEAD: request->send(204); return; case HTTP_GET: case HTTP_PUT: { auto& helper = *reinterpret_cast(request->_tempObject); auto apireq = helper.request(); if (is_put) { if (!_put(apireq)) { request->send(500); return; } if (apireq.done()) { return; } } if (!_get(apireq)) { request->send(500); return; } if (!apireq.done()) { request->send(204); return; } } default: request->send(405); return; } } const ApiBasicHandler& get() const { return _get; } const ApiBasicHandler& put() const { return _put; } const String& pattern() const { return ApiBaseWebHandler::pattern(); } const PathParts& parts() const { return ApiBaseWebHandler::parts(); } private: ApiBasicHandler _get; ApiBasicHandler _put; }; // ----------------------------------------------------------------------------- namespace { std::forward_list _apis; template void _apiRegister(const String& path, Callback&& get, Callback&& put) { // `String` is a given, since we *do* need to construct this dynamically in sensors auto* ptr = new Handler(String(F(API_BASE_PATH)) + path, std::forward(get), std::forward(put)); webServer().addHandler(reinterpret_cast(ptr)); _apis.emplace_front(ptr); } } // namespace void apiRegister(const String& path, ApiBasicHandler&& get, ApiBasicHandler&& put) { _apiRegister(path, std::move(get), std::move(put)); } void apiRegister(const String& path, ApiJsonHandler&& get, ApiJsonHandler&& put) { _apiRegister(path, std::move(get), std::move(put)); } void apiSetup() { apiRegister(F("list"), [](ApiRequest& request) { String paths; for (auto& api : _apis) { paths += api->pattern() + "\r\n"; } request.send(paths); return true; }, nullptr ); apiRegister(F("rpc"), nullptr, [](ApiRequest& request) { if (rpcHandleAction(request.param(F("action")))) { return apiOk(request); } return apiError(request); } ); } bool apiOk(ApiRequest& request) { request.send(F("OK")); return true; } bool apiError(ApiRequest& request) { request.send(F("ERROR")); return true; } #endif // API_SUPPORT