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391 lines
13 KiB
C
391 lines
13 KiB
C
// This file is part of the Mongoose project, http://code.google.com/p/mongoose
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// It implements an online chat server. For more details,
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// see the documentation on the project web site.
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// To test the application,
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// 1. type "make" in the directory where this file lives
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// 2. point your browser to http://127.0.0.1:8081
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#include <stdio.h>
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#include <stdlib.h>
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#include <assert.h>
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#include <string.h>
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#include <time.h>
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#include <stdarg.h>
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#include <pthread.h>
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#include "mongoose.h"
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#define MAX_USER_LEN 20
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#define MAX_MESSAGE_LEN 100
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#define MAX_MESSAGES 5
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#define MAX_SESSIONS 2
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#define SESSION_TTL 120
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static const char *authorize_url = "/authorize";
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static const char *login_url = "/login.html";
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static const char *ajax_reply_start =
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"HTTP/1.1 200 OK\r\n"
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"Cache: no-cache\r\n"
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"Content-Type: application/x-javascript\r\n"
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"\r\n";
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// Describes single message sent to a chat. If user is empty (0 length),
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// the message is then originated from the server itself.
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struct message {
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long id; // Message ID
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char user[MAX_USER_LEN]; // User that have sent the message
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char text[MAX_MESSAGE_LEN]; // Message text
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time_t timestamp; // Message timestamp, UTC
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};
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// Describes web session.
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struct session {
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char session_id[33]; // Session ID, must be unique
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char random[20]; // Random data used for extra user validation
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char user[MAX_USER_LEN]; // Authenticated user
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time_t expire; // Expiration timestamp, UTC
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};
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static struct message messages[MAX_MESSAGES]; // Ringbuffer for messages
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static struct session sessions[MAX_SESSIONS]; // Current sessions
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static long last_message_id;
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// Protects messages, sessions, last_message_id
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static pthread_rwlock_t rwlock = PTHREAD_RWLOCK_INITIALIZER;
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// Get session object for the connection. Caller must hold the lock.
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static struct session *get_session(const struct mg_connection *conn) {
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int i;
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char session_id[33];
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time_t now = time(NULL);
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mg_get_cookie(conn, "session", session_id, sizeof(session_id));
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for (i = 0; i < MAX_SESSIONS; i++) {
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if (sessions[i].expire != 0 &&
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sessions[i].expire > now &&
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strcmp(sessions[i].session_id, session_id) == 0) {
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break;
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}
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}
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return i == MAX_SESSIONS ? NULL : &sessions[i];
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}
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static void get_qsvar(const struct mg_request_info *request_info,
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const char *name, char *dst, size_t dst_len) {
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const char *qs = request_info->query_string;
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mg_get_var(qs, strlen(qs == NULL ? "" : qs), name, dst, dst_len);
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}
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// Get a get of messages with IDs greater than last_id and transform them
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// into a JSON string. Return that string to the caller. The string is
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// dynamically allocated, caller must free it. If there are no messages,
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// NULL is returned.
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static char *messages_to_json(long last_id) {
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const struct message *message;
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int max_msgs, len;
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char buf[sizeof(messages)]; // Large enough to hold all messages
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// Read-lock the ringbuffer. Loop over all messages, making a JSON string.
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pthread_rwlock_rdlock(&rwlock);
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len = 0;
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max_msgs = sizeof(messages) / sizeof(messages[0]);
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// If client is too far behind, return all messages.
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if (last_message_id - last_id > max_msgs) {
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last_id = last_message_id - max_msgs;
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}
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for (; last_id < last_message_id; last_id++) {
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message = &messages[last_id % max_msgs];
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if (message->timestamp == 0) {
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break;
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}
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// buf is allocated on stack and hopefully is large enough to hold all
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// messages (it may be too small if the ringbuffer is full and all
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// messages are large. in this case asserts will trigger).
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len += snprintf(buf + len, sizeof(buf) - len,
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"{user: '%s', text: '%s', timestamp: %lu, id: %lu},",
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message->user, message->text, message->timestamp, message->id);
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assert(len > 0);
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assert((size_t) len < sizeof(buf));
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}
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pthread_rwlock_unlock(&rwlock);
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return len == 0 ? NULL : strdup(buf);
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}
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// If "callback" param is present in query string, this is JSONP call.
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// Return 1 in this case, or 0 if "callback" is not specified.
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// Wrap an output in Javascript function call.
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static int handle_jsonp(struct mg_connection *conn,
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const struct mg_request_info *request_info) {
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char cb[64];
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get_qsvar(request_info, "callback", cb, sizeof(cb));
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if (cb[0] != '\0') {
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mg_printf(conn, "%s(", cb);
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}
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return cb[0] == '\0' ? 0 : 1;
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}
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// A handler for the /ajax/get_messages endpoint.
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// Return a list of messages with ID greater than requested.
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static void ajax_get_messages(struct mg_connection *conn,
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const struct mg_request_info *request_info) {
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char last_id[32], *json;
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int is_jsonp;
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mg_printf(conn, "%s", ajax_reply_start);
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is_jsonp = handle_jsonp(conn, request_info);
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get_qsvar(request_info, "last_id", last_id, sizeof(last_id));
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if ((json = messages_to_json(strtoul(last_id, NULL, 10))) != NULL) {
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mg_printf(conn, "[%s]", json);
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free(json);
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}
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if (is_jsonp) {
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mg_printf(conn, "%s", ")");
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}
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}
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// Allocate new message. Caller must hold the lock.
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static struct message *new_message(void) {
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static int size = sizeof(messages) / sizeof(messages[0]);
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struct message *message = &messages[last_message_id % size];
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message->id = last_message_id++;
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message->timestamp = time(0);
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return message;
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}
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static void my_strlcpy(char *dst, const char *src, size_t len) {
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strncpy(dst, src, len);
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dst[len - 1] = '\0';
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}
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// A handler for the /ajax/send_message endpoint.
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static void ajax_send_message(struct mg_connection *conn,
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const struct mg_request_info *request_info) {
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struct message *message;
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struct session *session;
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char text[sizeof(message->text) - 1];
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int is_jsonp;
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mg_printf(conn, "%s", ajax_reply_start);
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is_jsonp = handle_jsonp(conn, request_info);
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get_qsvar(request_info, "text", text, sizeof(text));
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if (text[0] != '\0') {
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// We have a message to store. Write-lock the ringbuffer,
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// grab the next message and copy data into it.
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pthread_rwlock_wrlock(&rwlock);
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message = new_message();
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// TODO(lsm): JSON-encode all text strings
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session = get_session(conn);
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assert(session != NULL);
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my_strlcpy(message->text, text, sizeof(text));
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my_strlcpy(message->user, session->user, sizeof(message->user));
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pthread_rwlock_unlock(&rwlock);
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}
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mg_printf(conn, "%s", text[0] == '\0' ? "false" : "true");
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if (is_jsonp) {
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mg_printf(conn, "%s", ")");
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}
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}
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// Redirect user to the login form. In the cookie, store the original URL
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// we came from, so that after the authorization we could redirect back.
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static void redirect_to_login(struct mg_connection *conn,
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const struct mg_request_info *request_info) {
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mg_printf(conn, "HTTP/1.1 302 Found\r\n"
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"Set-Cookie: original_url=%s\r\n"
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"Location: %s\r\n\r\n",
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request_info->uri, login_url);
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}
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// Return 1 if username/password is allowed, 0 otherwise.
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static int check_password(const char *user, const char *password) {
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// In production environment we should ask an authentication system
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// to authenticate the user.
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// Here however we do trivial check that user and password are not empty
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return (user[0] && password[0]);
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}
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// Allocate new session object
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static struct session *new_session(void) {
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int i;
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time_t now = time(NULL);
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pthread_rwlock_wrlock(&rwlock);
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for (i = 0; i < MAX_SESSIONS; i++) {
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if (sessions[i].expire == 0 || sessions[i].expire < now) {
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sessions[i].expire = time(0) + SESSION_TTL;
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break;
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}
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}
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pthread_rwlock_unlock(&rwlock);
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return i == MAX_SESSIONS ? NULL : &sessions[i];
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}
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// Generate session ID. buf must be 33 bytes in size.
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// Note that it is easy to steal session cookies by sniffing traffic.
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// This is why all communication must be SSL-ed.
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static void generate_session_id(char *buf, const char *random,
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const char *user) {
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mg_md5(buf, random, user, NULL);
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}
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static void send_server_message(const char *fmt, ...) {
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va_list ap;
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struct message *message;
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pthread_rwlock_wrlock(&rwlock);
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message = new_message();
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message->user[0] = '\0'; // Empty user indicates server message
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va_start(ap, fmt);
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vsnprintf(message->text, sizeof(message->text), fmt, ap);
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va_end(ap);
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pthread_rwlock_unlock(&rwlock);
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}
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// A handler for the /authorize endpoint.
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// Login page form sends user name and password to this endpoint.
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static void authorize(struct mg_connection *conn,
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const struct mg_request_info *request_info) {
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char user[MAX_USER_LEN], password[MAX_USER_LEN];
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struct session *session;
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// Fetch user name and password.
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get_qsvar(request_info, "user", user, sizeof(user));
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get_qsvar(request_info, "password", password, sizeof(password));
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if (check_password(user, password) && (session = new_session()) != NULL) {
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// Authentication success:
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// 1. create new session
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// 2. set session ID token in the cookie
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// 3. remove original_url from the cookie - not needed anymore
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// 4. redirect client back to the original URL
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//
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// The most secure way is to stay HTTPS all the time. However, just to
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// show the technique, we redirect to HTTP after the successful
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// authentication. The danger of doing this is that session cookie can
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// be stolen and an attacker may impersonate the user.
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// Secure application must use HTTPS all the time.
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my_strlcpy(session->user, user, sizeof(session->user));
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snprintf(session->random, sizeof(session->random), "%d", rand());
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generate_session_id(session->session_id, session->random, session->user);
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send_server_message("<%s> joined", session->user);
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mg_printf(conn, "HTTP/1.1 302 Found\r\n"
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"Set-Cookie: session=%s; max-age=3600; http-only\r\n" // Session ID
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"Set-Cookie: user=%s\r\n" // Set user, needed by Javascript code
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"Set-Cookie: original_url=/; max-age=0\r\n" // Delete original_url
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"Location: /\r\n\r\n",
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session->session_id, session->user);
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} else {
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// Authentication failure, redirect to login.
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redirect_to_login(conn, request_info);
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}
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}
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// Return 1 if request is authorized, 0 otherwise.
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static int is_authorized(const struct mg_connection *conn,
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const struct mg_request_info *request_info) {
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struct session *session;
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char valid_id[33];
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int authorized = 0;
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// Always authorize accesses to login page and to authorize URI
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if (!strcmp(request_info->uri, login_url) ||
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!strcmp(request_info->uri, authorize_url)) {
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return 1;
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}
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pthread_rwlock_rdlock(&rwlock);
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if ((session = get_session(conn)) != NULL) {
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generate_session_id(valid_id, session->random, session->user);
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if (strcmp(valid_id, session->session_id) == 0) {
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session->expire = time(0) + SESSION_TTL;
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authorized = 1;
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}
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}
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pthread_rwlock_unlock(&rwlock);
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return authorized;
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}
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static void redirect_to_ssl(struct mg_connection *conn,
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const struct mg_request_info *request_info) {
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const char *p, *host = mg_get_header(conn, "Host");
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if (host != NULL && (p = strchr(host, ':')) != NULL) {
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mg_printf(conn, "HTTP/1.1 302 Found\r\n"
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"Location: https://%.*s:8082/%s:8082\r\n\r\n",
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(int) (p - host), host, request_info->uri);
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} else {
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mg_printf(conn, "%s", "HTTP/1.1 500 Error\r\n\r\nHost: header is not set");
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}
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}
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static void *event_handler(enum mg_event event,
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struct mg_connection *conn) {
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const struct mg_request_info *request_info = mg_get_request_info(conn);
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void *processed = "yes";
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if (event == MG_NEW_REQUEST) {
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if (!request_info->is_ssl) {
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redirect_to_ssl(conn, request_info);
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} else if (!is_authorized(conn, request_info)) {
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redirect_to_login(conn, request_info);
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} else if (strcmp(request_info->uri, authorize_url) == 0) {
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authorize(conn, request_info);
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} else if (strcmp(request_info->uri, "/ajax/get_messages") == 0) {
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ajax_get_messages(conn, request_info);
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} else if (strcmp(request_info->uri, "/ajax/send_message") == 0) {
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ajax_send_message(conn, request_info);
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} else {
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// No suitable handler found, mark as not processed. Mongoose will
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// try to serve the request.
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processed = NULL;
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}
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} else if (event == MG_EVENT_LOG) {
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printf("%s\n", (const char *) mg_get_request_info(conn)->ev_data);
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processed = NULL;
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} else {
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processed = NULL;
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}
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return processed;
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}
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static const char *options[] = {
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"document_root", "html",
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"listening_ports", "8081,8082s",
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"ssl_certificate", "ssl_cert.pem",
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"num_threads", "5",
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NULL
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};
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int main(void) {
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struct mg_context *ctx;
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// Initialize random number generator. It will be used later on for
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// the session identifier creation.
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srand((unsigned) time(0));
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// Setup and start Mongoose
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if ((ctx = mg_start(&event_handler, NULL, options)) == NULL) {
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printf("%s\n", "Cannot start chat server, fatal exit");
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exit(EXIT_FAILURE);
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}
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// Wait until enter is pressed, then exit
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printf("Chat server started on ports %s, press enter to quit.\n",
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mg_get_option(ctx, "listening_ports"));
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getchar();
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mg_stop(ctx);
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printf("%s\n", "Chat server stopped.");
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return EXIT_SUCCESS;
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}
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// vim:ts=2:sw=2:et
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