325 lines
12 KiB
D
325 lines
12 KiB
D
module handy_http_transport.http1.transport;
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import std.socket; // TODO: Implement this without std.socket?
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import std.stdio;
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import handy_http_transport.interfaces;
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import handy_http_primitives;
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import streams;
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/**
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* The HTTP/1.1 transport protocol implementation.
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*/
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class Http1Transport : HttpTransport {
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private Socket serverSocket;
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private HttpRequestHandler requestHandler;
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private bool running = false;
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this(HttpRequestHandler requestHandler) {
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this.serverSocket = new TcpSocket();
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this.requestHandler = requestHandler;
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}
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void start() {
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this.running = true;
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serverSocket.setOption(SocketOptionLevel.SOCKET, SocketOption.REUSEADDR, 1);
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serverSocket.bind(new InternetAddress("127.0.0.1", 8080));
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serverSocket.listen(100);
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while (running) {
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try {
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Socket clientSocket = serverSocket.accept();
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import core.thread.osthread;
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Thread t = new Thread(() => handleClient(clientSocket, requestHandler));
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t.start();
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} catch (SocketAcceptException e) {
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import std.stdio;
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stderr.writefln!"Failed to accept socket connection: %s"(e);
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}
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}
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}
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void stop() {
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this.running = false;
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this.serverSocket.shutdown(SocketShutdown.BOTH);
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this.serverSocket.close();
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}
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}
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/**
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* The main logic for handling an incoming request from a client. It involves
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* reading bytes from the client, parsing them as an HTTP request, passing that
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* to the HTTP Transport's request handler, and then writing the response back
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* to the client.
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* Params:
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* clientSocket = The newly-accepted client socket.
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* requestHandler = The request handler that will handle the received HTTP request.
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*/
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void handleClient(Socket clientSocket, HttpRequestHandler requestHandler) {
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auto inputStream = SocketInputStream(clientSocket);
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auto bufferedInput = bufferedInputStreamFor!(8192)(inputStream);
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auto result = readHttpRequest(&bufferedInput);
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if (result.hasError) {
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stderr.writeln("Failed to read HTTP request: " ~ result.error.message);
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inputStream.closeStream();
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return;
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}
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ServerHttpRequest request = result.request;
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ServerHttpResponse response;
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SocketOutputStream outputStream = SocketOutputStream(clientSocket);
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response.outputStream = outputStreamObjectFor(HttpResponseOutputStream!(SocketOutputStream*)(
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&outputStream,
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&response
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));
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if (requestHandler !is null) {
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requestHandler.handle(request, response);
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}
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inputStream.closeStream();
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}
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/// Alias for the result of the `readHttpRequest` function which parses HTTP requests.
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alias HttpRequestParseResult = Either!(ServerHttpRequest, "request", StreamError, "error");
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/**
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* Parses an HTTP/1.1 request from a byte input stream.
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* Params:
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* inputStream = The byte input stream to read from.
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* Returns: Either the request which was parsed, or a stream error.
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*/
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HttpRequestParseResult readHttpRequest(S)(S inputStream) if (isByteInputStream!S) {
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import handy_http_primitives.address;
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auto methodStr = consumeUntil(inputStream, " ");
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if (methodStr.hasError) return HttpRequestParseResult(methodStr.error);
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auto urlStr = consumeUntil(inputStream, " ");
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if (urlStr.hasError) return HttpRequestParseResult(urlStr.error);
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auto versionStr = consumeUntil(inputStream, "\r\n");
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if (versionStr.hasError) return HttpRequestParseResult(versionStr.error);
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HttpVersion httpVersion;
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if (versionStr.value == "HTTP/1.1") {
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httpVersion = HttpVersion.V1;
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} else {
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return HttpRequestParseResult(StreamError("Invalid HTTP version: " ~ versionStr.value, 1));
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}
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auto headersResult = parseHeaders(inputStream);
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if (headersResult.hasError) return HttpRequestParseResult(headersResult.error);
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return HttpRequestParseResult(ServerHttpRequest(
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httpVersion,
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ClientAddress.init, // TODO: Get this from the socket, if possible?
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methodStr.value,
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urlStr.value,
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headersResult.headers,
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inputStreamObjectFor(inputStream)
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));
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}
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/**
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* Parses HTTP headers from an input stream, and returns them as an associative
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* array mapping header names to their list of values.
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* Params:
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* inputStream = The byte input stream to read from.
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* Returns: Either the headers, or a stream error.
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*/
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Either!(string[][string], "headers", StreamError, "error") parseHeaders(S)(S inputStream) if (isByteInputStream!S) {
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string[][string] headers;
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while (true) {
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auto headerStr = consumeUntil(inputStream, "\r\n");
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if (headerStr.hasError) return Either!(string[][string], "headers", StreamError, "error")(headerStr.error);
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if (headerStr.value.length == 0) {
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break; // We're done parsing headers if we read an additional empty CLRF.
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} else {
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ptrdiff_t separatorIdx = indexOf(headerStr.value, ':');
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if (separatorIdx == -1) return Either!(string[][string], "headers", StreamError, "error")(
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StreamError("Invalid header field: " ~ headerStr.value)
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);
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string headerName = headerStr.value[0 .. separatorIdx];
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string headerValue = headerStr.value[separatorIdx + 1 .. $];
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if (headerName !in headers) {
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headers[headerName] = [];
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}
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headers[headerName] ~= stripSpaces(headerValue);
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}
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}
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return Either!(string[][string], "headers", StreamError, "error")(headers);
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}
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/**
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* Helper function to consume string content from an input stream until a
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* certain target pattern of characters is encountered.
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* Params:
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* inputStream = The stream to read from.
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* target = The target at which to stop reading.
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* Returns: The string that was read, or a stream error.
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*/
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private Either!(string, "value", StreamError, "error") consumeUntil(S)(
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S inputStream,
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string target
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) if (isByteInputStream!S) {
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ubyte[1024] buffer;
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size_t idx;
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while (true) {
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auto result = inputStream.readFromStream(buffer[idx .. idx + 1]);
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if (result.hasError) return Either!(string, "value", StreamError, "error")(result.error);
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if (result.count != 1) return Either!(string, "value", StreamError, "error")(
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StreamError("Failed to read a single element", 1)
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);
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idx++;
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if (idx >= target.length && buffer[idx - target.length .. idx] == target) {
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return Either!(string, "value", StreamError, "error")(
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cast(string) buffer[0 .. idx - target.length].idup
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);
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}
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if (idx >= buffer.length) {
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return Either!(string, "value", StreamError, "error")(
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StreamError("Couldn't find target \"" ~ target ~ "\" after reading 1024 bytes.", 1)
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);
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}
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}
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}
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/**
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* Internal helper function to get the first index of a character in a string.
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* Params:
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* s = The string to look in.
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* c = The character to look for.
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* offset = An optional offset to look from.
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* Returns: The index of the character, or -1.
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*/
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private ptrdiff_t indexOf(string s, char c, size_t offset = 0) {
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for (size_t i = offset; i < s.length; i++) {
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if (s[i] == c) return i;
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}
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return -1;
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}
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/**
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* Internal helper function that returns the slice of a string excluding any
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* preceding or trailing spaces.
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* Params:
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* s = The string to strip.
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* Returns: The slice of the string that has been stripped.
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*/
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private string stripSpaces(string s) {
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if (s.length == 0) return s;
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ptrdiff_t startIdx = 0;
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while (s[startIdx] == ' ' && startIdx < s.length) startIdx++;
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s = s[startIdx .. $];
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ptrdiff_t endIdx = s.length - 1;
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while (s[endIdx] == ' ' && endIdx >= 0) endIdx--;
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return s[0 .. endIdx + 1];
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}
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/**
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* Helper function to append an unsigned integer value to a char buffer. It is
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* assumed that there's enough space to write value.
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* Params:
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* value = The value to append.
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* buffer = The buffer to append to.
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* idx = A reference to a variable tracking the next writable index in the buffer.
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*/
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private void writeUIntToBuffer(uint value, char[] buffer, ref size_t idx) {
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const size_t startIdx = idx;
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while (true) {
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ubyte remainder = value % 10;
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value /= 10;
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buffer[idx++] = cast(char) ('0' + remainder);
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if (value == 0) break;
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}
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// Swap the characters to proper order.
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for (size_t i = 0; i < (idx - startIdx) / 2; i++) {
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size_t p1 = i + startIdx;
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size_t p2 = idx - i - 1;
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char tmp = buffer[p1];
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buffer[p1] = buffer[p2];
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buffer[p2] = tmp;
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}
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}
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/**
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* A wrapper around a byte output stream that's used for writing HTTP response
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* content. It keeps a reference to the `ServerHttpResponse` so that when a
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* handler writes data to the stream, it'll flush the HTTP response status and
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* headers beforehand.
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*/
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struct HttpResponseOutputStream(S) if (isByteOutputStream!S) {
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/// The underlying output stream to write to.
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private S outputStream;
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/// A pointer to the HTTP response that this stream is for.
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private ServerHttpResponse* response;
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/// Flag that keeps track of if the HTTP status and headers were written.
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private bool headersFlushed = false;
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this(S outputStream, ServerHttpResponse* response) {
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this.outputStream = outputStream;
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this.response = response;
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}
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/**
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* Writes the given data to the stream. If the referenced HTTP response's
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* status and headers haven't yet been written, they will be written first.
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* Params:
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* buffer = The buffer containing data to write.
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* Returns: The result of writing. If status and headers are written, the
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* number of bytes written will include that in addition to the buffer size.
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*/
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StreamResult writeToStream(ubyte[] buffer) {
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uint bytesWritten = 0;
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if (!headersFlushed) {
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auto result = writeHeaders();
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if (result.hasError) return result;
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bytesWritten += result.count;
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headersFlushed = true;
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}
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auto result = outputStream.writeToStream(buffer);
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if (result.hasError) return result;
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return StreamResult(result.count + bytesWritten);
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}
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/**
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* Writes HTTP/1.1 status line and headers to the underlying output stream,
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* which is done before any body content can be written.
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* Returns: The stream result of writing.
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*/
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StreamResult writeHeaders() {
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// TODO: Come up with a better way of writing headers than string concatenation.
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size_t idx = 0;
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char[6] statusCodeBuffer; // Normal HTTP codes are 3 digits, but this leaves room for extensions.
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writeUIntToBuffer(response.status.code, statusCodeBuffer, idx);
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string statusAndHeaders = "HTTP/1.1 "
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~ cast(string) statusCodeBuffer[0..idx]
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~ " " ~ response.status.text
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~ "\r\n";
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foreach (headerName; response.headers.keys) {
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string headerLine = headerName ~ ": ";
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string[] headerValues = response.headers.getAll(headerName);
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for (size_t i = 0; i < headerValues.length; i++) {
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headerLine ~= headerValues[i];
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if (i + 1 < headerValues.length) {
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headerLine ~= ", ";
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}
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}
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headerLine ~= "\r\n";
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statusAndHeaders ~= headerLine;
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}
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statusAndHeaders ~= "\r\n"; // Trailing CLRF before the body.
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return outputStream.writeToStream(cast(ubyte[]) statusAndHeaders);
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}
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}
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unittest {
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class TestHandler : HttpRequestHandler {
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void handle(ref ServerHttpRequest request, ref ServerHttpResponse response) {
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response.status = HttpStatus.OK;
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response.headers.add("ContentType", "application/json");
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response.outputStream.writeToStream(cast(ubyte[]) "{\"a\": 1}");
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}
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}
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HttpTransport tp = new Http1Transport(new TestHandler());
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tp.start();
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}
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