/** * The MIT License (MIT) * * Copyright (c) 2013-2018 Winlin * * Permission is hereby granted, free of charge, to any person obtaining a copy of * this software and associated documentation files (the "Software"), to deal in * the Software without restriction, including without limitation the rights to * use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of * the Software, and to permit persons to whom the Software is furnished to do so, * subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS * FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR * COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER * IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #ifndef SRS_PROTOCOL_HTTP_HPP #define SRS_PROTOCOL_HTTP_HPP #include // default http listen port. #define SRS_DEFAULT_HTTP_PORT 80 #if !defined(SRS_EXPORT_LIBRTMP) #include #include #include // for srs-librtmp, @see https://github.com/ossrs/srs/issues/213 #ifndef _WIN32 #include #endif class SrsFileReader; class SrsHttpHeader; class ISrsHttpMessage; class SrsHttpMuxEntry; class ISrsHttpResponseWriter; // http specification // CR = #define SRS_HTTP_CR SRS_CONSTS_CR // 0x0D // LF = #define SRS_HTTP_LF SRS_CONSTS_LF // 0x0A // SP = #define SRS_HTTP_SP ' ' // 0x20 // HT = #define SRS_HTTP_HT '\x09' // 0x09 // HTTP/1.1 defines the sequence CR LF as the end-of-line marker for all // protocol elements except the entity-body (see appendix 19.3 for // tolerant applications). #define SRS_HTTP_CRLF "\r\n" // 0x0D0A #define SRS_HTTP_CRLFCRLF "\r\n\r\n" // 0x0D0A0D0A // @see ISrsHttpMessage._http_ts_send_buffer #define SRS_HTTP_TS_SEND_BUFFER_SIZE 4096 // for ead all of http body, read each time. #define SRS_HTTP_READ_CACHE_BYTES 4096 // for http parser macros #define SRS_CONSTS_HTTP_OPTIONS HTTP_OPTIONS #define SRS_CONSTS_HTTP_GET HTTP_GET #define SRS_CONSTS_HTTP_POST HTTP_POST #define SRS_CONSTS_HTTP_PUT HTTP_PUT #define SRS_CONSTS_HTTP_DELETE HTTP_DELETE // Error replies to the request with the specified error message and HTTP code. // The error message should be plain text. extern srs_error_t srs_go_http_error(ISrsHttpResponseWriter* w, int code); extern srs_error_t srs_go_http_error(ISrsHttpResponseWriter* w, int code, std::string error); // get the status text of code. extern std::string srs_generate_http_status_text(int status); // bodyAllowedForStatus reports whether a given response status code // permits a body. See RFC2616, section 4.4. extern bool srs_go_http_body_allowd(int status); // DetectContentType implements the algorithm described // at http://mimesniff.spec.whatwg.org/ to determine the // Content-Type of the given data. It considers at most the // first 512 bytes of data. DetectContentType always returns // a valid MIME type: if it cannot determine a more specific one, it // returns "application/octet-stream". extern std::string srs_go_http_detect(char* data, int size); // state of message enum SrsHttpParseState { SrsHttpParseStateInit = 0, SrsHttpParseStateStart, SrsHttpParseStateHeaderComplete, SrsHttpParseStateMessageComplete }; // A Header represents the key-value pairs in an HTTP header. class SrsHttpHeader { private: std::map headers; public: SrsHttpHeader(); virtual ~SrsHttpHeader(); public: // Add adds the key, value pair to the header. // It appends to any existing values associated with key. virtual void set(std::string key, std::string value); // Get gets the first value associated with the given key. // If there are no values associated with the key, Get returns "". // To access multiple values of a key, access the map directly // with CanonicalHeaderKey. virtual std::string get(std::string key); public: /** * get the content length. -1 if not set. */ virtual int64_t content_length(); /** * set the content length by header "Content-Length" */ virtual void set_content_length(int64_t size); public: /** * get the content type. empty string if not set. */ virtual std::string content_type(); /** * set the content type by header "Content-Type" */ virtual void set_content_type(std::string ct); public: /** * write all headers to string stream. */ virtual void write(std::stringstream& ss); }; // A ResponseWriter interface is used by an HTTP handler to // construct an HTTP response. // Usage 1, response with specified length content: // ISrsHttpResponseWriter* w; // create or get response. // std::string msg = "Hello, HTTP!"; // w->header()->set_content_type("text/plain; charset=utf-8"); // w->header()->set_content_length(msg.length()); // w->write_header(SRS_CONSTS_HTTP_OK); // w->write((char*)msg.data(), (int)msg.length()); // w->final_request(); // optional flush. // Usage 2, response with HTTP code only, zero content length. // ISrsHttpResponseWriter* w; // create or get response. // w->header()->set_content_length(0); // w->write_header(SRS_CONSTS_HTTP_OK); // w->final_request(); // Usage 3, response in chunked encoding. // ISrsHttpResponseWriter* w; // create or get response. // std::string msg = "Hello, HTTP!"; // w->header()->set_content_type("application/octet-stream"); // w->write_header(SRS_CONSTS_HTTP_OK); // w->write((char*)msg.data(), (int)msg.length()); // w->write((char*)msg.data(), (int)msg.length()); // w->write((char*)msg.data(), (int)msg.length()); // w->write((char*)msg.data(), (int)msg.length()); // w->final_request(); // required to end the chunked and flush. class ISrsHttpResponseWriter { public: ISrsHttpResponseWriter(); virtual ~ISrsHttpResponseWriter(); public: // when chunked mode, // final the request to complete the chunked encoding. // for no-chunked mode, // final to send request, for example, content-length is 0. virtual srs_error_t final_request() = 0; // Header returns the header map that will be sent by WriteHeader. // Changing the header after a call to WriteHeader (or Write) has // no effect. virtual SrsHttpHeader* header() = 0; // Write writes the data to the connection as part of an HTTP reply. // If WriteHeader has not yet been called, Write calls WriteHeader(http.StatusOK) // before writing the data. If the Header does not contain a // Content-Type line, Write adds a Content-Type set to the result of passing // the initial 512 bytes of written data to DetectContentType. // @param data, the data to send. NULL to flush header only. virtual srs_error_t write(char* data, int size) = 0; /** * for the HTTP FLV, to writev to improve performance. * @see https://github.com/ossrs/srs/issues/405 */ virtual srs_error_t writev(const iovec* iov, int iovcnt, ssize_t* pnwrite) = 0; // WriteHeader sends an HTTP response header with status code. // If WriteHeader is not called explicitly, the first call to Write // will trigger an implicit WriteHeader(http.StatusOK). // Thus explicit calls to WriteHeader are mainly used to // send error codes. // @remark, user must set header then write or write_header. virtual void write_header(int code) = 0; }; /** * the reader interface for http response. */ class ISrsHttpResponseReader { public: ISrsHttpResponseReader(); virtual ~ISrsHttpResponseReader(); public: /** * whether response read EOF. */ virtual bool eof() = 0; /** * read from the response body. * @param data, the buffer to read data buffer to. * @param nb_data, the max size of data buffer. * @param nb_read, the actual read size of bytes. NULL to ignore. * @remark when eof(), return error. * @remark for some server, the content-length not specified and not chunked, * which is actually the infinite chunked encoding, which after http header * is http response data, it's ok for browser. that is, * when user call this read, please ensure there is data to read(by content-length * or by chunked), because the sdk never know whether there is no data or * infinite chunked. */ virtual srs_error_t read(char* data, int nb_data, int* nb_read) = 0; }; // Objects implementing the Handler interface can be // registered to serve a particular path or subtree // in the HTTP server. // // ServeHTTP should write reply headers and data to the ResponseWriter // and then return. Returning signals that the request is finished // and that the HTTP server can move on to the next request on // the connection. class ISrsHttpHandler { public: SrsHttpMuxEntry* entry; public: ISrsHttpHandler(); virtual ~ISrsHttpHandler(); public: virtual bool is_not_found(); virtual srs_error_t serve_http(ISrsHttpResponseWriter* w, ISrsHttpMessage* r) = 0; }; // Redirect to a fixed URL class SrsHttpRedirectHandler : public ISrsHttpHandler { private: std::string url; int code; public: SrsHttpRedirectHandler(std::string u, int c); virtual ~SrsHttpRedirectHandler(); public: virtual srs_error_t serve_http(ISrsHttpResponseWriter* w, ISrsHttpMessage* r); }; // NotFound replies to the request with an HTTP 404 not found error. class SrsHttpNotFoundHandler : public ISrsHttpHandler { public: SrsHttpNotFoundHandler(); virtual ~SrsHttpNotFoundHandler(); public: virtual bool is_not_found(); virtual srs_error_t serve_http(ISrsHttpResponseWriter* w, ISrsHttpMessage* r); }; // FileServer returns a handler that serves HTTP requests // with the contents of the file system rooted at root. // // To use the operating system's file system implementation, // use http.Dir: // // http.Handle("/", SrsHttpFileServer("/tmp")) // http.Handle("/", SrsHttpFileServer("static-dir")) class SrsHttpFileServer : public ISrsHttpHandler { protected: std::string dir; public: SrsHttpFileServer(std::string root_dir); virtual ~SrsHttpFileServer(); public: virtual srs_error_t serve_http(ISrsHttpResponseWriter* w, ISrsHttpMessage* r); private: /** * serve the file by specified path */ virtual srs_error_t serve_file(ISrsHttpResponseWriter* w, ISrsHttpMessage* r, std::string fullpath); virtual srs_error_t serve_flv_file(ISrsHttpResponseWriter* w, ISrsHttpMessage* r, std::string fullpath); virtual srs_error_t serve_mp4_file(ISrsHttpResponseWriter* w, ISrsHttpMessage* r, std::string fullpath); protected: /** * when access flv file with x.flv?start=xxx */ virtual srs_error_t serve_flv_stream(ISrsHttpResponseWriter* w, ISrsHttpMessage* r, std::string fullpath, int offset); /** * when access mp4 file with x.mp4?range=start-end * @param start the start offset in bytes. * @param end the end offset in bytes. -1 to end of file. * @remark response data in [start, end]. */ virtual srs_error_t serve_mp4_stream(ISrsHttpResponseWriter* w, ISrsHttpMessage* r, std::string fullpath, int start, int end); protected: /** * copy the fs to response writer in size bytes. */ virtual srs_error_t copy(ISrsHttpResponseWriter* w, SrsFileReader* fs, ISrsHttpMessage* r, int size); }; // the mux entry for server mux. // the matcher info, for example, the pattern and handler. class SrsHttpMuxEntry { public: bool explicit_match; ISrsHttpHandler* handler; std::string pattern; bool enabled; public: SrsHttpMuxEntry(); virtual ~SrsHttpMuxEntry(); }; /** * the hijacker for http pattern match. */ class ISrsHttpMatchHijacker { public: ISrsHttpMatchHijacker(); virtual ~ISrsHttpMatchHijacker(); public: /** * when match the request failed, no handler to process request. * @param request the http request message to match the handler. * @param ph the already matched handler, hijack can rewrite it. */ virtual srs_error_t hijack(ISrsHttpMessage* request, ISrsHttpHandler** ph) = 0; }; /** * the server mux, all http server should implements it. */ class ISrsHttpServeMux { public: ISrsHttpServeMux(); virtual ~ISrsHttpServeMux(); public: virtual srs_error_t serve_http(ISrsHttpResponseWriter* w, ISrsHttpMessage* r) = 0; }; // ServeMux is an HTTP request multiplexer. // It matches the URL of each incoming request against a list of registered // patterns and calls the handler for the pattern that // most closely matches the URL. // // Patterns name fixed, rooted paths, like "/favicon.ico", // or rooted subtrees, like "/images/" (note the trailing slash). // Longer patterns take precedence over shorter ones, so that // if there are handlers registered for both "/images/" // and "/images/thumbnails/", the latter handler will be // called for paths beginning "/images/thumbnails/" and the // former will receive requests for any other paths in the // "/images/" subtree. // // Note that since a pattern ending in a slash names a rooted subtree, // the pattern "/" matches all paths not matched by other registered // patterns, not just the URL with Path == "/". // // Patterns may optionally begin with a host name, restricting matches to // URLs on that host only. Host-specific patterns take precedence over // general patterns, so that a handler might register for the two patterns // "/codesearch" and "codesearch.google.com/" without also taking over // requests for "http://www.google.com/". // // ServeMux also takes care of sanitizing the URL request path, // redirecting any request containing . or .. elements to an // equivalent .- and ..-free URL. class SrsHttpServeMux : public ISrsHttpServeMux { private: // the pattern handler, to handle the http request. std::map entries; // the vhost handler. // when find the handler to process the request, // append the matched vhost when pattern not starts with /, // for example, for pattern /live/livestream.flv of vhost ossrs.net, // the path will rewrite to ossrs.net/live/livestream.flv std::map vhosts; // all hijackers for http match. // for example, the hstrs(http stream trigger rtmp source) // can hijack and install handler when request incoming and no handler. std::vector hijackers; public: SrsHttpServeMux(); virtual ~SrsHttpServeMux(); public: /** * initialize the http serve mux. */ virtual srs_error_t initialize(); /** * hijack the http match. */ virtual void hijack(ISrsHttpMatchHijacker* h); virtual void unhijack(ISrsHttpMatchHijacker* h); public: // Handle registers the handler for the given pattern. // If a handler already exists for pattern, Handle panics. virtual srs_error_t handle(std::string pattern, ISrsHttpHandler* handler); // interface ISrsHttpServeMux public: virtual srs_error_t serve_http(ISrsHttpResponseWriter* w, ISrsHttpMessage* r); public: virtual srs_error_t find_handler(ISrsHttpMessage* r, ISrsHttpHandler** ph); private: virtual srs_error_t match(ISrsHttpMessage* r, ISrsHttpHandler** ph); virtual bool path_match(std::string pattern, std::string path); }; /** * The filter http mux, directly serve the http CORS requests, * while proxy to the worker mux for services. */ class SrsHttpCorsMux : public ISrsHttpServeMux { private: bool required; bool enabled; ISrsHttpServeMux* next; public: SrsHttpCorsMux(); virtual ~SrsHttpCorsMux(); public: virtual srs_error_t initialize(ISrsHttpServeMux* worker, bool cros_enabled); // interface ISrsHttpServeMux public: virtual srs_error_t serve_http(ISrsHttpResponseWriter* w, ISrsHttpMessage* r); }; // for http header. typedef std::pair SrsHttpHeaderField; // A Request represents an HTTP request received by a server // or to be sent by a client. // // The field semantics differ slightly between client and server // usage. In addition to the notes on the fields below, see the // documentation for Request.Write and RoundTripper. // // There are some modes to determine the length of body: // 1. content-length and chunked. // 2. user confirmed infinite chunked. // 3. no body or user not confirmed infinite chunked. // For example: // ISrsHttpMessage* r = ...; // while (!r->eof()) r->read(); // read in mode 1 or 3. // For some server, we can confirm the body is infinite chunked: // ISrsHttpMessage* r = ...; // r->enter_infinite_chunked(); // while (!r->eof()) r->read(); // read in mode 2 // @rmark for mode 2, the infinite chunked, all left data is body. class ISrsHttpMessage { private: /** * use a buffer to read and send ts file. */ // TODO: FIXME: remove it. char* _http_ts_send_buffer; public: ISrsHttpMessage(); virtual ~ISrsHttpMessage(); public: /** * the http request level cache. */ virtual char* http_ts_send_buffer(); public: virtual uint8_t method() = 0; virtual uint16_t status_code() = 0; /** * method helpers. */ virtual std::string method_str() = 0; virtual bool is_http_get() = 0; virtual bool is_http_put() = 0; virtual bool is_http_post() = 0; virtual bool is_http_delete() = 0; virtual bool is_http_options() = 0; public: /** * whether should keep the connection alive. */ virtual bool is_keep_alive() = 0; /** * the uri contains the host and path. */ virtual std::string uri() = 0; /** * the url maybe the path. */ virtual std::string url() = 0; virtual std::string host() = 0; virtual std::string path() = 0; virtual std::string query() = 0; virtual std::string ext() = 0; /** * get the RESTful id, * for example, pattern is /api/v1/streams, path is /api/v1/streams/100, * then the rest id is 100. * @param pattern the handler pattern which will serve the request. * @return the REST id; -1 if not matched. */ virtual int parse_rest_id(std::string pattern) = 0; public: /** * the left all data is chunked body, the infinite chunked mode, * which is chunked encoding without chunked header. * @remark error when message is in chunked or content-length specified. */ virtual srs_error_t enter_infinite_chunked() = 0; /** * read body to string. * @remark for small http body. */ virtual srs_error_t body_read_all(std::string& body) = 0; /** * get the body reader, to read one by one. * @remark when body is very large, or chunked, use this. */ virtual ISrsHttpResponseReader* body_reader() = 0; /** * the content length, -1 for chunked or not set. */ virtual int64_t content_length() = 0; public: /** * get the param in query string, * for instance, query is "start=100&end=200", * then query_get("start") is "100", and query_get("end") is "200" */ virtual std::string query_get(std::string key) = 0; /** * get the headers. */ virtual int request_header_count() = 0; virtual std::string request_header_key_at(int index) = 0; virtual std::string request_header_value_at(int index) = 0; public: /** * whether the current request is JSONP, * which has a "callback=xxx" in QueryString. */ virtual bool is_jsonp() = 0; }; #endif /* Copyright Joyent, Inc. and other Node contributors. All rights reserved. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. */ #ifndef http_parser_h #define http_parser_h #ifdef __cplusplus extern "C" { #endif #define HTTP_PARSER_VERSION_MAJOR 2 #define HTTP_PARSER_VERSION_MINOR 1 #include #if defined(_WIN32) && !defined(__MINGW32__) && (!defined(_MSC_VER) || _MSC_VER<1600) #include #include typedef __int8 int8_t; typedef unsigned __int8 uint8_t; typedef __int16 int16_t; typedef unsigned __int16 uint16_t; typedef __int32 int32_t; typedef unsigned __int32 uint32_t; typedef __int64 int64_t; typedef unsigned __int64 uint64_t; #else #include #endif /* Compile with -DHTTP_PARSER_STRICT=0 to make less checks, but run * faster */ #ifndef HTTP_PARSER_STRICT # define HTTP_PARSER_STRICT 1 #endif /* Maximium header size allowed */ #define HTTP_MAX_HEADER_SIZE (80*1024) typedef struct http_parser http_parser; typedef struct http_parser_settings http_parser_settings; /* Callbacks should return non-zero to indicate an error. The parser will * then halt execution. * * The one exception is on_headers_complete. In a HTTP_RESPONSE parser * returning '1' from on_headers_complete will tell the parser that it * should not expect a body. This is used when receiving a response to a * HEAD request which may contain 'Content-Length' or 'Transfer-Encoding: * chunked' headers that indicate the presence of a body. * * http_data_cb does not return data chunks. It will be call arbitrarally * many times for each string. E.G. you might get 10 callbacks for "on_url" * each providing just a few characters more data. */ typedef int (*http_data_cb) (http_parser*, const char *at, size_t length); typedef int (*http_cb) (http_parser*); /* Request Methods */ #define HTTP_METHOD_MAP(XX) \ XX(0, DELETE, DELETE) \ XX(1, GET, GET) \ XX(2, HEAD, HEAD) \ XX(3, POST, POST) \ XX(4, PUT, PUT) \ /* pathological */ \ XX(5, CONNECT, CONNECT) \ XX(6, OPTIONS, OPTIONS) \ XX(7, TRACE, TRACE) \ /* webdav */ \ XX(8, COPY, COPY) \ XX(9, LOCK, LOCK) \ XX(10, MKCOL, MKCOL) \ XX(11, MOVE, MOVE) \ XX(12, PROPFIND, PROPFIND) \ XX(13, PROPPATCH, PROPPATCH) \ XX(14, SEARCH, SEARCH) \ XX(15, UNLOCK, UNLOCK) \ /* subversion */ \ XX(16, REPORT, REPORT) \ XX(17, MKACTIVITY, MKACTIVITY) \ XX(18, CHECKOUT, CHECKOUT) \ XX(19, MERGE, MERGE) \ /* upnp */ \ XX(20, MSEARCH, M-SEARCH) \ XX(21, NOTIFY, NOTIFY) \ XX(22, SUBSCRIBE, SUBSCRIBE) \ XX(23, UNSUBSCRIBE, UNSUBSCRIBE) \ /* RFC-5789 */ \ XX(24, PATCH, PATCH) \ XX(25, PURGE, PURGE) \ enum http_method { #define XX(num, name, string) HTTP_##name = num, HTTP_METHOD_MAP(XX) #undef XX }; enum http_parser_type { HTTP_REQUEST, HTTP_RESPONSE, HTTP_BOTH }; /* Flag values for http_parser.flags field */ enum flags { F_CHUNKED = 1 << 0 , F_CONNECTION_KEEP_ALIVE = 1 << 1 , F_CONNECTION_CLOSE = 1 << 2 , F_TRAILING = 1 << 3 , F_UPGRADE = 1 << 4 , F_SKIPBODY = 1 << 5 }; /* Map for errno-related constants * * The provided argument should be a macro that takes 2 arguments. */ #define HTTP_ERRNO_MAP(XX) \ /* No error */ \ XX(OK, "success") \ \ /* Callback-related errors */ \ XX(CB_message_begin, "the on_message_begin callback failed") \ XX(CB_status_complete, "the on_status_complete callback failed") \ XX(CB_url, "the on_url callback failed") \ XX(CB_header_field, "the on_header_field callback failed") \ XX(CB_header_value, "the on_header_value callback failed") \ XX(CB_headers_complete, "the on_headers_complete callback failed") \ XX(CB_body, "the on_body callback failed") \ XX(CB_message_complete, "the on_message_complete callback failed") \ \ /* Parsing-related errors */ \ XX(INVALID_EOF_STATE, "stream ended at an unexpected time") \ XX(HEADER_OVERFLOW, \ "too many header bytes seen; overflow detected") \ XX(CLOSED_CONNECTION, \ "data received after completed connection: close message") \ XX(INVALID_VERSION, "invalid HTTP version") \ XX(INVALID_STATUS, "invalid HTTP status code") \ XX(INVALID_METHOD, "invalid HTTP method") \ XX(INVALID_URL, "invalid URL") \ XX(INVALID_HOST, "invalid host") \ XX(INVALID_PORT, "invalid port") \ XX(INVALID_PATH, "invalid path") \ XX(INVALID_QUERY_STRING, "invalid query string") \ XX(INVALID_FRAGMENT, "invalid fragment") \ XX(LF_EXPECTED, "LF character expected") \ XX(INVALID_HEADER_TOKEN, "invalid character in header") \ XX(INVALID_CONTENT_LENGTH, \ "invalid character in content-length header") \ XX(INVALID_CHUNK_SIZE, \ "invalid character in chunk size header") \ XX(INVALID_CONSTANT, "invalid constant string") \ XX(INVALID_INTERNAL_STATE, "encountered unexpected internal state")\ XX(STRICT, "strict mode assertion failed") \ XX(PAUSED, "parser is paused") \ XX(UNKNOWN, "an unknown error occurred") /* Define HPE_* values for each errno value above */ #define HTTP_ERRNO_GEN(n, s) HPE_##n, enum http_errno { HTTP_ERRNO_MAP(HTTP_ERRNO_GEN) }; #undef HTTP_ERRNO_GEN /* Get an http_errno value from an http_parser */ #define HTTP_PARSER_ERRNO(p) ((enum http_errno) (p)->http_errno) struct http_parser { /** PRIVATE **/ unsigned char type : 2; /* enum http_parser_type */ unsigned char flags : 6; /* F_* values from 'flags' enum; semi-public */ unsigned char state; /* enum state from http_parser.c */ unsigned char header_state; /* enum header_state from http_parser.c */ unsigned char index; /* index into current matcher */ uint32_t nread; /* # bytes read in various scenarios */ uint64_t content_length; /* # bytes in body (0 if no Content-Length header) */ /** READ-ONLY **/ unsigned short http_major; unsigned short http_minor; unsigned short status_code; /* responses only */ unsigned char method; /* requests only */ unsigned char http_errno : 7; /* 1 = Upgrade header was present and the parser has exited because of that. * 0 = No upgrade header present. * Should be checked when http_parser_execute() returns in addition to * error checking. */ unsigned char upgrade : 1; /** PUBLIC **/ void *data; /* A pointer to get hook to the "connection" or "socket" object */ }; struct http_parser_settings { http_cb on_message_begin; http_data_cb on_url; http_cb on_status_complete; http_data_cb on_header_field; http_data_cb on_header_value; http_cb on_headers_complete; http_data_cb on_body; http_cb on_message_complete; }; enum http_parser_url_fields { UF_SCHEMA = 0 , UF_HOST = 1 , UF_PORT = 2 , UF_PATH = 3 , UF_QUERY = 4 , UF_FRAGMENT = 5 , UF_USERINFO = 6 , UF_MAX = 7 }; /* Result structure for http_parser_parse_url(). * * Callers should index into field_data[] with UF_* values iff field_set * has the relevant (1 << UF_*) bit set. As a courtesy to clients (and * because we probably have padding left over), we convert any port to * a uint16_t. */ struct http_parser_url { uint16_t field_set; /* Bitmask of (1 << UF_*) values */ uint16_t port; /* Converted UF_PORT string */ struct { uint16_t off; /* Offset into buffer in which field starts */ uint16_t len; /* Length of run in buffer */ } field_data[UF_MAX]; }; void http_parser_init(http_parser *parser, enum http_parser_type type); size_t http_parser_execute(http_parser *parser, const http_parser_settings *settings, const char *data, size_t len); /* If http_should_keep_alive() in the on_headers_complete or * on_message_complete callback returns 0, then this should be * the last message on the connection. * If you are the server, respond with the "Connection: close" header. * If you are the client, close the connection. */ int http_should_keep_alive(const http_parser *parser); /* Returns a string version of the HTTP method. */ const char *http_method_str(enum http_method m); /* Return a string name of the given error */ const char *http_errno_name(enum http_errno err); /* Return a string description of the given error */ const char *http_errno_description(enum http_errno err); /* Parse a URL; return nonzero on failure */ int http_parser_parse_url(const char *buf, size_t buflen, int is_connect, struct http_parser_url *u); /* Pause or un-pause the parser; a nonzero value pauses */ void http_parser_pause(http_parser *parser, int paused); /* Checks if this is the final chunk of the body. */ int http_body_is_final(const http_parser *parser); #ifdef __cplusplus } #endif #endif /** * used to resolve the http uri. */ class SrsHttpUri { private: std::string url; std::string schema; std::string host; int port; std::string path; std::string query; public: SrsHttpUri(); virtual ~SrsHttpUri(); public: /** * initialize the http uri. */ virtual srs_error_t initialize(std::string _url); public: virtual std::string get_url(); virtual std::string get_schema(); virtual std::string get_host(); virtual int get_port(); virtual std::string get_path(); virtual std::string get_query(); private: /** * get the parsed url field. * @return return empty string if not set. */ virtual std::string get_uri_field(std::string uri, http_parser_url* hp_u, http_parser_url_fields field); }; #endif