#include "http.h" #include "log.h" #include "mem.h" #include "util.js.h" #include "picohttpparser.h" #include "uv.h" #include #include #include #if !defined(__APPLE__) && !defined(__OpenBSD__) && !defined(_WIN32) #include #endif typedef struct _tf_http_connection_t { tf_http_t* http; uv_tcp_t tcp; uv_shutdown_t shutdown; const char* method; const char* path; int minor_version; char headers_buffer[8192]; size_t headers_buffer_length; int parsed_length; char buffer[8192]; size_t buffer_length; struct phr_header headers[32]; int headers_length; bool headers_done; tf_http_callback_t* callback; void* user_data; void* body; size_t body_length; size_t content_length; bool connection_close; } tf_http_connection_t; typedef struct _tf_http_handler_t { const char* pattern; tf_http_callback_t* callback; void* user_data; } tf_http_handler_t; typedef struct _tf_http_t { uv_tcp_t** listeners; int listeners_count; tf_http_connection_t** connections; int connections_count; tf_http_handler_t* handlers; int handlers_count; int pending_closes; uv_loop_t* loop; } tf_http_t; static void _http_connection_destroy(tf_http_connection_t* connection); static const char* _http_status_text(int status); tf_http_t* tf_http_create(uv_loop_t* loop) { tf_http_t* http = tf_malloc(sizeof(tf_http_t)); *http = (tf_http_t) { .loop = loop, }; return http; } void _http_allocate_buffer(uv_handle_t* handle, size_t suggestedSize, uv_buf_t* buf) { tf_http_connection_t* connection = handle->data; if (!connection->headers_done) { *buf = uv_buf_init(connection->headers_buffer + connection->headers_buffer_length, sizeof(connection->headers_buffer) - connection->headers_buffer_length); } else { *buf = uv_buf_init(connection->buffer + connection->buffer_length, sizeof(connection->buffer) - connection->buffer_length); } } bool _http_find_handler(tf_http_t* http, const char* path, tf_http_callback_t** out_callback, void** out_user_data) { for (int i = 0; i < http->handlers_count; i++) { if (!http->handlers[i].pattern || strcmp(path, http->handlers[i].pattern) == 0 || (strncmp(path, http->handlers[i].pattern, strlen(http->handlers[i].pattern)) == 0 && path[strlen(http->handlers[i].pattern)] == '/')) { *out_callback = http->handlers[i].callback; *out_user_data = http->handlers[i].user_data; return true; } } return false; } static void _http_on_write(uv_write_t* write, int status) { tf_free(write); } static void _http_connection_on_close(uv_handle_t* handle) { tf_http_connection_t* connection = handle->data; handle->data = NULL; _http_connection_destroy(connection); } static void _http_connection_destroy(tf_http_connection_t* connection) { if (connection->tcp.data) { uv_close((uv_handle_t*)&connection->tcp, _http_connection_on_close); } else { tf_http_t* http = connection->http; for (int i = 0; i < http->connections_count; i++) { if (http->connections[i] == connection) { http->connections[i] = http->connections[--http->connections_count]; } } if (connection->body) { tf_free(connection->body); connection->body = NULL; } tf_free(connection); } } static void _http_builtin_404_handler(tf_http_request_t* request) { const char* k_payload = _http_status_text(404); tf_http_respond(request, 404, NULL, 0, k_payload, strlen(k_payload)); } static void _http_reset_connection(tf_http_connection_t* connection) { connection->headers_done = false; connection->headers_buffer_length = 0; connection->body_length = 0; connection->content_length = 0; } static void _http_add_body_bytes(tf_http_connection_t* connection, const void* data, size_t size) { size_t fit = tf_min(connection->content_length - connection->body_length, size); if (fit > 0) { memcpy((char*)connection->body + connection->body_length, data, fit); connection->body_length += fit; } if (connection->body_length == connection->content_length) { tf_http_request_t* request = tf_malloc(sizeof(tf_http_request_t)); *request = (tf_http_request_t) { .connection = connection, .phase = k_http_callback_phase_headers_received, .method = connection->method, .path = connection->path, .headers = connection->headers, .headers_count = connection->headers_length, .user_data = connection->user_data, }; connection->callback(request); _http_reset_connection(connection); } } static void _http_on_read(uv_stream_t* stream, ssize_t read_size, const uv_buf_t* buffer) { tf_http_connection_t* connection = stream->data; if (read_size > 0) { if (!connection->headers_done) { connection->headers_buffer_length += read_size; const char* method = NULL; size_t method_length = 0; const char* path = NULL; size_t path_length = 0; size_t header_count = sizeof(connection->headers) / sizeof(*connection->headers); int parse_result = phr_parse_request(connection->headers_buffer, connection->headers_buffer_length, &method, &method_length, &path, &path_length, &connection->minor_version, connection->headers, &header_count, connection->parsed_length); connection->parsed_length = connection->headers_buffer_length; if (parse_result > 0) { connection->headers_done = true; connection->method = method; ((char*)connection->method)[method_length] = '\0'; connection->path = path; ((char*)connection->path)[path_length] = '\0'; connection->connection_close = connection->minor_version == 0; for (int i = 0; i < (int)header_count; i++) { ((char*)connection->headers[i].name)[connection->headers[i].name_len] = '\0'; ((char*)connection->headers[i].value)[connection->headers[i].value_len] = '\0'; if (strcasecmp(connection->headers[i].name, "content-length") == 0) { connection->content_length = strtoull(connection->headers[i].value, NULL, 10); } else if (strcasecmp(connection->headers[i].name, "connection") == 0) { if (strcasecmp(connection->headers[i].value, "close") == 0) { connection->connection_close = true; } } } if (connection->content_length) { connection->body = tf_malloc(connection->content_length); } if (!_http_find_handler(connection->http, connection->path, &connection->callback, &connection->user_data) || !connection->callback) { connection->callback = _http_builtin_404_handler; } _http_add_body_bytes(connection, connection->headers_buffer + parse_result, connection->headers_buffer_length - parse_result); } else if (parse_result == -2) { /* Incomplete. Will try again next time. */ } else { tf_printf("phr_parse_request: %d\n", parse_result); _http_connection_destroy(connection); } } else { connection->buffer_length += read_size; _http_add_body_bytes(connection, connection->buffer, connection->buffer_length); } } else { _http_connection_destroy(connection); } } static void _http_on_connection(uv_stream_t* stream, int status) { tf_http_t* http = stream->data; tf_http_connection_t* connection = tf_malloc(sizeof(tf_http_connection_t)); *connection = (tf_http_connection_t) { .http = http, .tcp = { .data = connection } }; int r = uv_tcp_init(connection->http->loop, &connection->tcp); if (r) { tf_printf("uv_tcp_init: %s\n", uv_strerror(r)); tf_free(connection); return; } r = uv_accept(stream, (uv_stream_t*)&connection->tcp); if (r) { tf_printf("uv_accept: %s\n", uv_strerror(r)); uv_close((uv_handle_t*)&connection->tcp, NULL); tf_free(connection); return; } r = uv_read_start((uv_stream_t*)&connection->tcp, _http_allocate_buffer, _http_on_read); if (r) { tf_printf("uv_read-start: %s\n", uv_strerror(r)); uv_close((uv_handle_t*)&connection->tcp, NULL); tf_free(connection); return; } http->connections = tf_realloc(http->connections, sizeof(tf_http_connection_t*) * (http->connections_count + 1)); http->connections[http->connections_count++] = connection; } void tf_http_listen(tf_http_t* http, int port) { uv_tcp_t* tcp = tf_malloc(sizeof(uv_tcp_t)); *tcp = (uv_tcp_t) { .data = http }; int r = uv_tcp_init(http->loop, tcp); if (r) { tf_printf("uv_tcp_init: %s\n", uv_strerror(r)); } if (r == 0) { struct sockaddr_in addr = { .sin_family = AF_INET, .sin_addr = { .s_addr = INADDR_ANY }, .sin_port = ntohs(port), }; r = uv_tcp_bind(tcp, (struct sockaddr*)&addr, 0); if (r) { tf_printf("uv_tcp_bind: %s\n", uv_strerror(r)); } } if (r == 0) { r = uv_listen((uv_stream_t*)tcp, 16, _http_on_connection); if (r) { tf_printf("uv_listen: %s\n", uv_strerror(r)); } } if (r == 0) { http->listeners = tf_realloc(http->listeners, sizeof(uv_tcp_t*) * (http->listeners_count + 1)); http->listeners[http->listeners_count++] = tcp; } } void tf_http_add_handler(tf_http_t* http, const char* pattern, tf_http_callback_t* callback, void* user_data) { http->handlers = tf_realloc(http->handlers, sizeof(tf_http_handler_t) * (http->handlers_count + 1)); http->handlers[http->handlers_count++] = (tf_http_handler_t) { .pattern = tf_strdup(pattern), .callback = callback, .user_data = user_data, }; } static void _http_free_on_close(uv_handle_t* handle) { handle->data = NULL; tf_free(handle); } void tf_http_destroy(tf_http_t* http) { for (int i = 0; i < http->listeners_count; i++) { uv_close((uv_handle_t*)http->listeners[i], _http_free_on_close); } tf_free(http->listeners); http->listeners = NULL; http->listeners_count = 0; for (int i = 0; i < http->handlers_count; i++) { if (http->handlers[i].pattern) { tf_free((void*)http->handlers[i].pattern); http->handlers[i].pattern = NULL; } } tf_free(http->handlers); http->handlers_count = 0; tf_free(http->connections); http->connections_count = 0; tf_free(http); } static const char* _http_status_text(int status) { switch (status) { case 101: return "Switching Protocols"; case 200: return "OK"; case 303: return "See other"; case 304: return "Not Modified"; case 400: return "Bad Request"; case 401: return "Unauthorized"; case 403: return "Forbidden"; case 404: return "File not found"; case 500: return "Internal server error"; default: return "Unknown"; } } static void _http_on_shutdown(uv_shutdown_t* request, int status) { request->data = NULL; } void tf_http_respond(tf_http_request_t* request, int status, const char** headers, int headers_count, const void* body, size_t content_length) { const char* status_text = _http_status_text(status); /* HTTP/1.x 200 OK\r\n */ bool sent_content_length = false; int headers_length = 8 + 1 + 3 + 1 + strlen(status_text) + 2; for (int i = 0; i < headers_count; i += 2) { /* Key: Value\r\n */ headers_length += strlen(headers[i]) + 2 + strlen(headers[i + 1]) + 2; if (strcasecmp(headers[i], "content-length") == 0) { sent_content_length = true; } } /* \r\n */ headers_length += 2; char content_length_buffer[32] = { 0 }; int content_length_buffer_length = 0; if (!sent_content_length) { content_length_buffer_length = snprintf(content_length_buffer, sizeof(content_length_buffer), "Content-Length: %zd\r\n", content_length); headers_length += content_length_buffer_length; } uv_write_t* write = tf_malloc(sizeof(uv_write_t) + headers_length + content_length + 1); *write = (uv_write_t) { .data = request->connection }; char* buffer = (char*)(write + 1); int offset = snprintf(buffer, headers_length + 1, "HTTP/1.%d %03d %s\r\n", request->connection->minor_version, status, status_text); for (int i = 0; i < headers_count; i += 2) { offset += snprintf(buffer + offset, headers_length + 1 - offset, "%s: %s\r\n", headers[i], headers[i + 1]); } if (!sent_content_length) { memcpy(buffer + offset, content_length_buffer, content_length_buffer_length); offset += content_length_buffer_length; } offset += snprintf(buffer + offset, headers_length + 1 - offset, "\r\n"); assert(offset == headers_length); if (content_length) { memcpy(buffer + offset, body, content_length); } int r = uv_write(write, (uv_stream_t*)&request->connection->tcp, &(uv_buf_t) { .base = buffer, .len = headers_length + content_length }, 1, _http_on_write); if (r) { tf_printf("uv_write: %s\n", uv_strerror(r)); } if (request->connection->connection_close && !request->connection->shutdown.data) { request->connection->shutdown.data = request->connection; uv_shutdown(&request->connection->shutdown, (uv_stream_t*)&request->connection->tcp, _http_on_shutdown); } tf_free(request); } size_t tf_http_get_body(const tf_http_request_t* request, const void** out_data) { *out_data = request->connection->body; return request->connection->content_length; }