• Mongoose源码剖析:核心处理模块


    引言

    前面我们介绍了Mongoose所有的几个主要的数据结构mg_context、mg_connection、mg_request_info,还有Mongoose的生命主线。有了这些基础就可以来看看Mongoose的核心处理工作是怎样的。如果你还没有阅读前面的文章,你可以通过下面的隧道直通:

    本文从下面几个方面去介绍Mongoose的核心处理模块,连接建立之后的:

    • 请求解析
    • 请求验证
    • 请求满足

    1、连接的建立

    Mongoose的主线程master_thread在接受一个新的client连接请求时,会将client的socket地址放入一个queue(调用put_socket()方法);而当worker_thread线程处理client的请求时,是通过get_socket()方法从queue取出client的socket地址,然后与它建立连接。

    建立连接就用到了数据结构mg_connection,该结构保存了client的连接信息。该结构体中有两个非常重要的成员:mg_request_info用于保存client的请求信息、mg_context用于保存该client请求的mongoose上下文。建立连接的代码片段如下:

    	while (get_socket(ctx, &conn.client) == TRUE) {
    		conn.birth_time = time(NULL);
    		conn.ctx = ctx;
    
    		if (conn.client.is_ssl &&
    		    (conn.ssl = SSL_new(conn.ctx->ssl_ctx)) == NULL) {
    			cry(&conn, "%s: SSL_new: %d", __func__, ERRNO);
    		} else if (conn.client.is_ssl &&
    		    SSL_set_fd(conn.ssl, conn.client.sock) != 1) {
    			cry(&conn, "%s: SSL_set_fd: %d", __func__, ERRNO);
    		} else if (conn.client.is_ssl && SSL_accept(conn.ssl) != 1) {
    			cry(&conn, "%s: SSL handshake error", __func__);
    		} else {
    			process_new_connection(&conn);
    		}
    
    		close_connection(&conn);
    	}

    其中以SSL_开头的函数都是加载自SSL的库,加载库调用了如下接口:static bool_t set_ssl_option(struct mg_context *ctx, const char *pem),有兴趣的话你可以追踪下去。

    2、请求信息获取

    建立连接之后,在process_new_connection中会去读取client的请求信息,然后才去解析请求。读取client端的请求的信息用到了下面的方法:

    /*
     * Keep reading the input (either opened file descriptor fd, or socket sock,
     * or SSL descriptor ssl) into buffer buf, until \r\n\r\n appears in the
     * buffer (which marks the end of HTTP request). Buffer buf may already
     * have some data. The length of the data is stored in nread.
     * Upon every read operation, increase nread by the number of bytes read.
     */
    static int
    read_request(FILE *fp, SOCKET sock, SSL *ssl, char *buf, int bufsiz, int *nread)
    {
    	int	n, request_len;
    
    	request_len = 0;
    	while (*nread < bufsiz && request_len == 0) {
    		n = pull(fp, sock, ssl, buf + *nread, bufsiz - *nread);
    		if (n <= 0) {
    			break;
    		} else {
    			*nread += n;
    			request_len = get_request_len(buf, (size_t) *nread);
    		}
    	}
    
    	return (request_len);
    }

    其中pull()方法的代码如下:

    /*
     * Read from IO channel - opened file descriptor, socket, or SSL descriptor.
     * Return number of bytes read.
     */
    static int
    pull(FILE *fp, SOCKET sock, SSL *ssl, char *buf, int len)
    {
    	int	nread;
    
    	if (ssl != NULL) {
    		nread = SSL_read(ssl, buf, len);
    	} else if (fp != NULL) {
    		nread = fread(buf, 1, (size_t) len, fp);
    		if (ferror(fp))
    			nread = -1;
    	} else {
    		nread = recv(sock, buf, (size_t) len, 0);
    	}
    
    	return (nread);
    }

    这样client发送的HTTP请求消息就被worker_thread读取到了,并存储在buf中, 接下来的工作就是解析读取到的请求信息,明白client到底想干嘛,说白了就从buf中提取信息并存储到结构体mg_request_info中去。

    3、请求解析

    请求解析的工作都封装在parse_http_request()函数汇中,它的代码如下:

    /*
     * Parse HTTP request, fill in mg_request_info structure.
     */
    static bool_t
    parse_http_request(char *buf, struct mg_request_info *ri, const struct usa *usa)
    {
    	char	*http_version;
    	int	n, success_code = FALSE;
    
    	ri->request_method = skip(&buf, " ");
    	ri->uri = skip(&buf, " ");
    	http_version = skip(&buf, "\r\n");
    
    	if (is_known_http_method(ri->request_method) &&
    	    ri->uri[0] == '/' &&
    	    sscanf(http_version, "HTTP/%d.%d%n",
    	    &ri->http_version_major, &ri->http_version_minor, &n) == 2 &&
    	    http_version[n] == '\0') {
    		parse_http_headers(&buf, ri);
    		ri->remote_port = ntohs(usa->u.sin.sin_port);
    		(void) memcpy(&ri->remote_ip, &usa->u.sin.sin_addr.s_addr, 4);
    		ri->remote_ip = ntohl(ri->remote_ip);
    		success_code = TRUE;
    	}
    
    	return (success_code);
    }
    它的主要工作就是从buf中提取出信息放到ri(一个mg_request_info结构)中去,因为buf是一个无结构的字符串数组。要将它存储到ri中去,需要找到对应的子串。

    这里主要用到了skip()、parse_http_headers()方法,其中skip()很关键,代码如下:

    /*
     * Skip the characters until one of the delimiters characters found.
     * 0-terminate resulting word. Skip the rest of the delimiters if any.
     * Advance pointer to buffer to the next word. Return found 0-terminated word.
     */
    static char *
    skip(char **buf, const char *delimiters)
    {
    	char	*p, *begin_word, *end_word, *end_delimiters;
    
    	begin_word = *buf;
    	end_word = begin_word + strcspn(begin_word, delimiters);
    	end_delimiters = end_word + strspn(end_word, delimiters);
    
    	for (p = end_word; p < end_delimiters; p++)
    		*p = '\0';
    
    	*buf = end_delimiters;
    
    	return (begin_word);
    }

    我们来分析一下skip的作用及实现。如要从buf中解析出client请求的methods是哪个(PUT、GET、POST等等)?只需要这样做就可以了:
    ri->request_method = skip(&buf, " ");
    为了分析,到底是如何实现这个的,我在porcess_new_connection()中加入下面一行输出buf信息的代码:

    image

    看当我们想mongoose发送的请求信息,这时我们在浏览其中输入http://ip:8080,终端会输出buf的信息,如下:
    image

    看到第一行就是GET /favicon.ico HTTP/1.1。知道了buf中的字符信息,但在我们分析skip(&buf, " ")是如何提取出GET的之前,还要知道strcspn、strspn的作用,下面是它们的原型:

           #include <string.h>
           size_t strspn(const char *s, const char *accept);
           size_t strcspn(const char *s, const char *reject);

    下面解释它们的作用:

    DESCRIPTION
           The strspn() function calculates the length of the initial segment of s
    which consists entirely of characters in accept.

           The strcspn() function calculates the length of the initial segment  of s which consists entirely of characters not in reject.

    RETURN VALUE
           The  strspn()  function returns the number of characters in the initial segment of s which consist only of characters from accept.

           The strcspn() function returns the number of characters in the  initial segment of s which are not in the string reject.

    现在已经万事俱备了,skip(&buf, " ")的执行情况如下:

    image

    其余的解析工作也是类似地进行的,我就不一一阐述了。

    4、请求验证

    请求验证分布在从连接请求开始到请求得到回应的整个过程中。在请求解析之前,比如验证socket的合法性等。在请求解析之后,从buf中解析出HTTP请求消息的各个字段之后,就做一些简单的验证工作,比如说HTTP版本的验证。如果在解析buf时出错,说明请求的格式不对。

    而且在满足client请求的时候也要进行一些验证,诸如是否有浏览目录的权限、请求的文件是否存在等等,我就不在详述了。

    5、请求满足

    在parse_http_request()之后,调用analyze_request()去满足client的请求。这是Mongoose的核心内容,也是不同web服务器软件相区别的地方。analyze_request()封装了一些操作,即调用了一些接口去满足client的请求,代码如下:

    /*
     * This is the heart of the Mongoose's logic.
     * This function is called when the request is read, parsed and validated,
     * and Mongoose must decide what action to take: serve a file, or
     * a directory, or call embedded function, etcetera.
     */
    static void
    analyze_request(struct mg_connection *conn)
    {
    	struct mg_request_info *ri = &conn->request_info;
    	char			path[FILENAME_MAX], *uri = ri->uri;
    	struct mgstat		st;
    	const struct callback	*cb;
    
    	if ((conn->request_info.query_string = strchr(uri, '?')) != NULL)
    		* conn->request_info.query_string++ = '\0';
    
    	(void) url_decode(uri, (int) strlen(uri), uri, strlen(uri) + 1, FALSE);
    	remove_double_dots_and_double_slashes(uri);
    	convert_uri_to_file_name(conn, uri, path, sizeof(path));
    
    	if (!check_authorization(conn, path)) {
    		send_authorization_request(conn);
    	} else if (check_embedded_authorization(conn) == FALSE) {
    		/*
    		 * Embedded code failed authorization. Do nothing here, since
    		 * an embedded code must handle this itself by either
    		 * showing proper error message, or redirecting to some
    		 * sort of login page, or something else.
    		 */
    	} else if ((cb = find_callback(conn->ctx, FALSE, uri, -1)) != NULL) {
    		if ((strcmp(ri->request_method, "POST") != 0 &&
    		    strcmp(ri->request_method, "PUT") != 0) ||
    		    handle_request_body(conn, NULL))
    			cb->func(conn, &conn->request_info, cb->user_data);
    	} else if (strstr(path, PASSWORDS_FILE_NAME)) {
    		/* Do not allow to view passwords files */
    		send_error(conn, 403, "Forbidden", "Access Forbidden");
    	} else if ((!strcmp(ri->request_method, "PUT") ||
    	    !strcmp(ri->request_method, "DELETE")) &&
    	    (conn->ctx->options[OPT_AUTH_PUT] == NULL ||
    	     !is_authorized_for_put(conn))) {
    		send_authorization_request(conn);
    	} else if (!strcmp(ri->request_method, "PUT")) {
    		put_file(conn, path);
    	} else if (!strcmp(ri->request_method, "DELETE")) {
    		if (mg_remove(path) == 0)
    			send_error(conn, 200, "OK", "");
    		else
    			send_error(conn, 500, http_500_error,
    			    "remove(%s): %s", path, strerror(ERRNO));
    	} else if (mg_stat(path, &st) != 0) {
    		send_error(conn, 404, "Not Found", "%s", "File not found");
    	} else if (st.is_directory && uri[strlen(uri) - 1] != '/') {
    		(void) mg_printf(conn,
    		    "HTTP/1.1 301 Moved Permanently\r\n"
    		    "Location: %s/\r\n\r\n", uri);
    	} else if (st.is_directory &&
    	    substitute_index_file(conn, path, sizeof(path), &st) == FALSE) {
    		if (is_true(conn->ctx->options[OPT_DIR_LIST])) {
    			send_directory(conn, path);
    		} else {
    			send_error(conn, 403, "Directory Listing Denied",
    			    "Directory listing denied");
    		}
    #if !defined(NO_CGI)
    	} else if (match_extension(path,
    	    conn->ctx->options[OPT_CGI_EXTENSIONS])) {
    		if (strcmp(ri->request_method, "POST") &&
    		    strcmp(ri->request_method, "GET")) {
    			send_error(conn, 501, "Not Implemented",
    			    "Method %s is not implemented", ri->request_method);
    		} else {
    			send_cgi(conn, path);
    		}
    #endif /* NO_CGI */
    #if !defined(NO_SSI)
    	} else if (match_extension(path,
    	    conn->ctx->options[OPT_SSI_EXTENSIONS])) {
    		send_ssi(conn, path);
    #endif /* NO_SSI */
    	} else if (is_not_modified(conn, &st)) {
    		send_error(conn, 304, "Not Modified", "");
    	} else {
    		send_file(conn, path, &st);
    	}
    }

    上面的代码比较好理解我就不把它嚼烂之后,再展现给你!那样也没有意思~\(≧▽≦)/~啦啦啦。感兴趣的自己去逐一分析。

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  • 原文地址:https://www.cnblogs.com/skynet/p/1784710.html
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