3 * @brief Runs the FCGI request loop to handle web interface requests.
5 * fcgi_stdio.h must be included before all else so the stdio function
6 * redirection works ok.
9 #include <fcgi_stdio.h>
10 #include <openssl/sha.h>
12 #include <sys/types.h>
25 /**The time period (in seconds) before the control key expires */
26 #define CONTROL_TIMEOUT 180
31 * Identifies build information and the current API version to the user.
32 * Also useful for testing that the API is running and identifying the
33 * sensors and actuators present.
34 * @param context The context to work in
35 * @param params User specified paramters: [actuators, sensors]
37 static void IdentifyHandler(FCGIContext *context, char *params)
39 bool ident_sensors = false, ident_actuators = false;
42 FCGIValue values[2] = {{"sensors", &ident_sensors, FCGI_BOOL_T},
43 {"actuators", &ident_actuators, FCGI_BOOL_T}};
44 if (!FCGI_ParseRequest(context, params, values, 2))
47 FCGI_BeginJSON(context, STATUS_OK);
48 FCGI_JSONPair("description", "MCTX3420 Server API (2013)");
49 FCGI_JSONPair("build_date", __DATE__ " " __TIME__);
50 struct timespec t = {0};
51 clock_getres(CLOCK_MONOTONIC, &t);
52 FCGI_JSONDouble("clock_getres", TIMEVAL_TO_DOUBLE(t));
53 FCGI_JSONLong("api_version", API_VERSION);
55 bool has_control = FCGI_HasControl(context);
56 FCGI_JSONBool("logged_in", has_control);
57 FCGI_JSONPair("user_name", has_control ? context->user_name : "");
60 //Sensor and actuator information
62 FCGI_JSONKey("sensors");
63 FCGI_JSONValue("{\n\t\t");
64 for (i = 0; i < g_num_sensors; i++) {
66 FCGI_JSONValue(",\n\t\t");
68 DataPoint d = Sensor_LastData(i);
69 FCGI_JSONValue("\"%d\" : {\"name\" : \"%s\", \"value\" : [%f,%f] }",
70 i, Sensor_GetName(i), d.time_stamp, d.value);
72 FCGI_JSONValue("\n\t}");
74 if (ident_actuators) {
75 FCGI_JSONKey("actuators");
76 FCGI_JSONValue("{\n\t\t");
77 for (i = 0; i < g_num_actuators; i++) {
79 FCGI_JSONValue(",\n\t\t");
82 DataPoint d = Actuator_LastData(i);
83 FCGI_JSONValue("\"%d\" : {\"name\" : \"%s\", \"value\" : [%f, %f] }", i, Actuator_GetName(i), d.time_stamp, d.value);
85 FCGI_JSONValue("\n\t}");
91 * Given an authorised user, attempt to set the control over the system.
92 * Modifies members in the context structure appropriately if successful.
93 * @param context The context to work in
94 * @param user_name - Name of the user
95 * @param user_type - Type of the user, passed after successful authentication
96 * @return true on success, false otherwise (eg someone else already in control)
98 bool FCGI_LockControl(FCGIContext *context, const char * user_name, UserType user_type)
101 time_t now = time(NULL);
102 bool expired = now - context->control_timestamp > CONTROL_TIMEOUT;
105 // Can't lock control if: User not actually logged in (sanity), or key is still valid and the user is not an admin
106 if (user_type == USER_UNAUTH ||
107 (user_type != USER_ADMIN && !expired && *(context->control_key) != '\0'))
110 // Release any existing control (if any)
111 FCGI_ReleaseControl(context);
114 context->control_timestamp = now;
116 // Generate a SHA1 hash for the user
118 unsigned char sha1[20];
121 SHA1_Update(&sha1ctx, &now, sizeof(now));
122 SHA1_Update(&sha1ctx, &i, sizeof(i));
123 SHA1_Final(sha1, &sha1ctx);
124 for (i = 0; i < sizeof(sha1); i++)
125 sprintf(context->control_key + i * 2, "%02x", sha1[i]);
127 // Set the IPv4 address
128 snprintf(context->control_ip, 16, "%s", getenv("REMOTE_ADDR"));
131 int uname_len = strlen(user_name);
132 i = snprintf(context->user_name, sizeof(context->user_name), "%s", user_name);
134 Log(LOGERR, "Username at %d characters too long (limit %d)",
135 uname_len, sizeof(context->user_name));
139 context->user_type = user_type;
141 // Build the user directory
142 i = snprintf(context->user_dir, sizeof(context->user_dir), "%s/%s",
143 g_options.experiment_dir, context->user_name);
144 if (i >= sizeof(context->user_dir)) {
145 Log(LOGERR, "Experiment dir too long (required %d, limit %d)",
146 i, sizeof(context->user_dir));
150 Log(LOGDEBUG, "User dir: %s", context->user_dir);
152 if (mkdir(context->user_dir, 0777) != 0 && errno != EEXIST)
154 Log(LOGERR, "Couldn't create user directory %s - %s",
155 context->user_dir, strerror(errno));
163 * Given an FCGIContext, determines if the current user (as specified by
164 * the key) has control or not. If validated, the context control_timestamp is
166 * @param context The context to work in
167 * @return TRUE if authorized, FALSE if not.
169 bool FCGI_HasControl(FCGIContext *context)
171 time_t now = time(NULL);
172 int result = (now - context->control_timestamp) <= CONTROL_TIMEOUT &&
173 context->control_key[0] != '\0' &&
174 !strcmp(context->control_key, context->received_key);
176 context->control_timestamp = now; //Update the control_timestamp
183 * Revokes the current control key, if present.
184 * @param context The context to work in
186 void FCGI_ReleaseControl(FCGIContext *context)
188 *(context->control_key) = 0;
189 // Note: context->user_name should *not* be cleared
194 * Gets the control cookie
195 * @param buffer A storage buffer of exactly CONTROL_KEY_BUFSIZ length to
196 store the control key
198 void FCGI_GetControlCookie(char buffer[CONTROL_KEY_BUFSIZ])
200 const char *cookies = getenv("COOKIE_STRING");
201 const char *start = strstr(cookies, "mctxkey=");
203 *buffer = 0; //Clear the buffer
206 start += 8; //length of mctxkey=
207 for (i = 0; i < CONTROL_KEY_BUFSIZ; i++) {
208 if (*start == 0 || *start == ';') {
211 buffer[i] = *start++;
218 * Sends the control key to the user as a cookie.
219 * @param context the context to work in
220 * @param set Whether to set or unset the control cookie
222 void FCGI_SendControlCookie(FCGIContext *context, bool set) {
224 printf("Set-Cookie: mctxkey=%s\r\n", context->control_key);
226 printf("Set-Cookie: mctxkey=\r\n");
231 * Extracts a key/value pair from a request string.
232 * Note that the input is modified by this function.
233 * @param in The string from which to extract the pair
234 * @param key A pointer to a variable to hold the key string
235 * @param value A pointer to a variable to hold the value string
236 * @return A pointer to the start of the next search location, or NULL if
237 * the EOL is reached.
239 char *FCGI_KeyPair(char *in, const char **key, const char **value)
242 if (!in || !*in) { //Invalid input or string is EOL
247 //Find either = or &, whichever comes first
248 if ((ptr = strpbrk(in, "=&"))) {
249 if (*ptr == '&') { //No value specified
253 //Stopped at an '=' sign
256 if ((ptr = strchr(ptr,'&'))) {
262 } else { //No value specified and no other pair
270 * Aids in parsing request parameters.
271 * Input: The expected keys along with their type and whether or not
273 * @param context The context to work in
274 * @param params The parameter string to be parsed
275 * @param values An array of FCGIValue's that specify expected keys
276 * @param count The number of elements in 'values'.
277 * @return true If the parameter string was parsed successfully, false otherwise.
278 * Modes of failure include: Invalid a parsing error on the value,
279 * an unknown key is specified,
280 * a key/value pair is specified more than once, or
281 * not all required keys were present.
282 * If this function returns false, it is guaranteed that FCGI_RejectJSON
283 * has already been called with the appropriate description message.
285 bool FCGI_ParseRequest(FCGIContext *context, char *params, FCGIValue values[], size_t count)
287 const char *key, *value;
288 char buf[BUFSIZ], *ptr;
291 while ((params = FCGI_KeyPair(params, &key, &value))) {
292 for (i = 0; i < count; i++) {
293 if (!strcmp(key, values[i].key)) {
294 FCGIValue *val = &values[i];
296 if (FCGI_RECEIVED(val->flags)) {
297 snprintf(buf, BUFSIZ, "Value already specified for '%s'.", key);
298 FCGI_RejectJSON(context, buf);
301 val->flags |= FCGI_PARAM_RECEIVED;
303 switch(FCGI_TYPE(val->flags)) {
305 if (!*value) //No value: Default true
306 *((bool*) val->value) = true;
308 *((bool*) val->value) = !!(strtol(value, &ptr, 10));
310 snprintf(buf, BUFSIZ, "Expected bool for '%s' but got '%s'", key, value);
311 FCGI_RejectJSON(context, buf);
316 case FCGI_INT_T: case FCGI_LONG_T: {
317 long parsed = strtol(value, &ptr, 10);
318 if (!*value || *ptr) {
319 snprintf(buf, BUFSIZ, "Expected int for '%s' but got '%s'", key, value);
320 FCGI_RejectJSON(context, buf);
324 if (FCGI_TYPE(val->flags) == FCGI_INT_T)
325 *((int*) val->value) = (int) parsed;
327 *((long*) val->value) = parsed;
330 *((double*) val->value) = strtod(value, &ptr);
331 if (!*value || *ptr) {
332 snprintf(buf, BUFSIZ, "Expected float for '%s' but got '%s'", key, value);
333 FCGI_RejectJSON(context, buf);
338 *((const char**) val->value) = value;
341 Fatal("Invalid type %d given", FCGI_TYPE(val->flags));
343 break; //No need to search any more
347 snprintf(buf, BUFSIZ, "Unknown key '%s' specified", key);
348 FCGI_RejectJSON(context, buf);
353 //Check that required parameters are received
354 for (i = 0; i < count; i++) {
355 if (FCGI_IS_REQUIRED(values[i].flags) && !FCGI_RECEIVED(values[i].flags)) {
356 snprintf(buf, BUFSIZ, "Key '%s' required, but was not given.", values[i].key);
357 FCGI_RejectJSON(context, buf);
365 * Begins a response to the client in JSON format.
366 * @param context The context to work in.
367 * @param status_code The status code to be returned.
369 void FCGI_BeginJSON(FCGIContext *context, StatusCodes status_code)
371 printf("Content-type: application/json; charset=utf-8\r\n\r\n");
373 printf("\t\"module\" : \"%s\"", context->current_module);
374 FCGI_JSONLong("status", status_code);
375 //Time and running statistics
377 clock_gettime(CLOCK_MONOTONIC, &now);
378 FCGI_JSONDouble("start_time", TIMEVAL_TO_DOUBLE(g_options.start_time));
379 FCGI_JSONDouble("current_time", TIMEVAL_TO_DOUBLE(now));
380 FCGI_JSONDouble("running_time", TIMEVAL_DIFF(now, g_options.start_time));
381 FCGI_JSONPair("control_state", Control_GetModeName());
385 * Generic accept response in JSON format.
386 * @param context The context to work in
387 * @param description A short description.
389 void FCGI_AcceptJSON(FCGIContext *context, const char *description)
391 printf("Content-type: application/json; charset=utf-8\r\n");
393 printf("\t\"module\" : \"%s\"", context->current_module);
394 FCGI_JSONLong("status", STATUS_OK);
395 FCGI_JSONPair("description", description);
400 * Adds a key/value pair to a JSON response. The response must have already
401 * been initiated by FCGI_BeginJSON. Special characters are not escaped.
402 * @param key The key of the JSON entry
403 * @param value The value associated with the key.
405 void FCGI_JSONPair(const char *key, const char *value)
407 printf(",\r\n\t\"%s\" : \"%s\"", key, value);
411 * Similar to FCGI_JSONPair except for signed integer values.
412 * @param key The key of the JSON entry
413 * @param value The value associated with the key
415 void FCGI_JSONLong(const char *key, long value)
417 printf(",\r\n\t\"%s\" : %ld", key, value);
421 * Similar to FCGI_JsonPair except for floating point values.
422 * @param key The key of the JSON entry
423 * @param value The value associated with the key
425 void FCGI_JSONDouble(const char *key, double value)
427 printf(",\r\n\t\"%s\" : %.9f", key, value);
431 * Similar to FCGI_JsonPair except for boolean values.
432 * @param key The key of the JSON entry
433 * @param value The value associated with the key
435 void FCGI_JSONBool(const char *key, bool value)
437 printf(",\r\n\t\"%s\" : %s", key, value ? "true" : "false");
441 * Begins a JSON entry by writing the key. To be used in conjunction
442 * with FCGI_JsonValue.
443 * @param key The key of the JSON entry
445 void FCGI_JSONKey(const char *key)
447 printf(",\r\n\t\"%s\" : ", key);
451 * Ends a JSON response that was initiated by FCGI_BeginJSON.
459 * To be used when the input parameters are rejected. The return data
460 * will also have debugging information provided.
461 * @param context The context to work in
462 * @param status The status the return data should have.
463 * @param description A short description of why the input was rejected.
465 void FCGI_RejectJSONEx(FCGIContext *context, StatusCodes status, const char *description)
467 if (description == NULL)
468 description = "Unknown";
470 Log(LOGINFO, "%s: Rejected query with: %d: %s", context->current_module, status, description);
471 FCGI_BeginJSON(context, status);
472 FCGI_JSONPair("description", description);
473 FCGI_JSONLong("responsenumber", context->response_number);
474 //FCGI_JSONPair("params", getenv("QUERY_STRING")); //A bad idea if contains password but also if contains unescaped stuff
475 FCGI_JSONPair("host", getenv("SERVER_HOSTNAME"));
476 FCGI_JSONPair("user", getenv("REMOTE_USER"));
477 FCGI_JSONPair("ip", getenv("REMOTE_ADDR"));
482 * Generates a response to the client as described by the format parameter and
483 * extra arguments (exactly like printf). To be used when none of the other
484 * predefined functions will work exactly as needed. Extra care should be taken
485 * to ensure the correctness of the output.
486 * @param format The format string
487 * @param ... Any extra arguments as required by the format string.
489 void FCGI_PrintRaw(const char *format, ...)
492 va_start(list, format);
493 vprintf(format, list);
502 void FCGI_WriteBinary(void * data, size_t size, size_t num_elem)
504 Log(LOGDEBUG,"Writing!");
505 fwrite(data, size, num_elem, stdout);
509 * Escapes a string so it can be used safely.
510 * Currently escapes to ensure the validity for use as a JSON string
511 * Does not support unicode specifiers in the form of \\uXXXX.
512 * @param buf The string to be escaped
513 * @return The escaped string (return value == buf)
515 char *FCGI_EscapeText(char *buf)
518 length = strlen(buf);
520 //Escape special characters. Must count down to escape properly
521 for (i = length - 1; i >= 0; i--) {
522 if (buf[i] < 0x20) { //Control characters
524 } else if (buf[i] == '"') {
525 if (i-1 >= 0 && buf[i-1] == '\\')
529 } else if (buf[i] == '\\') {
530 if (i-1 >= 0 && buf[i-1] == '\'')
540 * Unescapes a URL encoded string in-place. The string
541 * must be NULL terminated.
542 * (e.g this%2d+string --> this- string)
543 * @param buf The buffer to decode. Will be modified in-place.
544 * @return The same buffer.
546 char *FCGI_URLDecode(char *buf)
548 char *head = buf, *tail = buf;
549 char val, hex[3] = {0};
552 if (*tail == '%') { //%hh hex to char
554 if (isxdigit(*tail) && isxdigit(*(tail+1))) {
557 val = (char)strtol(hex, NULL, 16);
558 //Control codes --> Space character
559 *head++ = (val < 0x20) ? 0x20 : val;
560 } else { //Not valid format; keep original
563 } else if (*tail == '+') { //Plus to space
566 } else { //Anything else
570 *head = 0; //NULL-terminate at new end point
576 * Main FCGI request loop that receives/responds to client requests.
577 * @param data Reserved.
578 * @returns NULL (void* required for consistency with pthreads, although at the moment this runs in the main thread anyway)
579 * TODO: Get this to exit with the rest of the program!
581 void * FCGI_RequestLoop (void *data)
583 FCGIContext context = {0};
585 Log(LOGDEBUG, "Start loop");
586 while (FCGI_Accept() >= 0) {
588 ModuleHandler module_handler = NULL;
589 char module[BUFSIZ], params[BUFSIZ];
591 //strncpy doesn't zero-truncate properly
592 snprintf(module, BUFSIZ, "%s", getenv("DOCUMENT_URI_LOCAL"));
594 //Get the GET query string
595 snprintf(params, BUFSIZ, "%s", getenv("QUERY_STRING"));
596 //URL decode the parameters
597 FCGI_URLDecode(params);
599 FCGI_GetControlCookie(context.received_key);
600 Log(LOGDEBUG, "Got request #%d - Module %s, params %s", context.response_number, module, params);
601 Log(LOGDEBUG, "Control key: %s", context.received_key);
604 //Remove trailing slashes (if present) from module query
605 size_t lastchar = strlen(module) - 1;
606 if (lastchar > 0 && module[lastchar] == '/')
607 module[lastchar] = 0;
609 //Default to the 'identify' module if none specified
611 strcpy(module, "identify");
613 if (!strcmp("identify", module)) {
614 module_handler = IdentifyHandler;
615 } else if (!strcmp("control", module)) {
616 module_handler = Control_Handler;
617 } else if (!strcmp("sensors", module)) {
618 module_handler = Sensor_Handler;
619 } else if (!strcmp("actuators", module)) {
620 module_handler = Actuator_Handler;
621 } else if (!strcmp("image", module)) {
622 module_handler = Image_Handler;
623 } else if (!strcmp("pin", module)) {
624 module_handler = Pin_Handler; // *Debug only* pin test module
625 } else if (!strcmp("bind", module)) {
626 module_handler = Login_Handler;
627 } else if (!strcmp("unbind", module)) {
628 module_handler = Logout_Handler;
631 context.current_module = module;
632 context.response_number++;
634 if (module_handler) {
635 if (module_handler == IdentifyHandler) {
636 FCGI_EscapeText(params);
637 } else if (module_handler != Login_Handler) {
638 if (!FCGI_HasControl(&context))
640 if (g_options.auth_method == AUTH_NONE) { //:(
641 Log(LOGWARN, "Locking control (no auth!)");
642 FCGI_LockControl(&context, NOAUTH_USERNAME, USER_ADMIN);
643 FCGI_SendControlCookie(&context, true);
646 FCGI_RejectJSON(&context, "Please login. Invalid control key.");
651 //Escape all special characters.
652 //Don't escape for login (password may have special chars?)
653 FCGI_EscapeText(params);
654 } else { //Only for Login handler.
655 //If GET data is empty, use POST instead.
656 if (*params == '\0') {
657 Log(LOGDEBUG, "Using POST!");
658 fgets(params, BUFSIZ, stdin);
659 FCGI_URLDecode(params);
663 module_handler(&context, params);
666 FCGI_RejectJSON(&context, "Unhandled module");
670 Log(LOGDEBUG, "Thread exiting.");
671 // NOTE: Don't call pthread_exit, because this runs in the main thread. Just return.