/*
- * Copyright (c) 2012, JANET(UK)
+ * Copyright (c) 2012, 2015, JANET(UK)
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
*/
#include <stdio.h>
+#include <stdlib.h>
#include <jansson.h>
+#include <argp.h>
+#include <event2/event.h>
+#include <talloc.h>
+#include <sys/stat.h>
#include <tr.h>
#include <tr_filter.h>
#include <tr_comm.h>
#include <tr_idp.h>
#include <tr_rp.h>
+#include <tr_debug.h>
/* Structure to hold TR instance and original request in one cookie */
typedef struct tr_resp_cookie {
TID_RESP *resp,
void *resp_cookie)
{
- fprintf(stderr, "tr_tidc_resp_handler: Response received (conn = %d)! Realm = %s, Community = %s.\n", ((TR_RESP_COOKIE *)resp_cookie)->orig_req->conn, resp->realm->buf, resp->comm->buf);
+ tr_debug("tr_tidc_resp_handler: Response received (conn = %d)! Realm = %s, Community = %s.", ((TR_RESP_COOKIE *)resp_cookie)->orig_req->conn, resp->realm->buf, resp->comm->buf);
req->resp_rcvd = 1;
/* TBD -- handle concatentation of multiple responses to single req */
static int tr_tids_req_handler (TIDS_INSTANCE *tids,
TID_REQ *orig_req,
- TID_RESP **resp,
- void *tr)
+ TID_RESP *resp,
+ void *tr_in)
{
TIDC_INSTANCE *tidc = NULL;
TR_RESP_COOKIE resp_cookie;
TID_REQ *fwd_req = NULL;
TR_COMM *cfg_comm = NULL;
TR_COMM *cfg_apc = NULL;
+ TR_INSTANCE *tr = (TR_INSTANCE *) tr_in;
int oaction = TR_FILTER_ACTION_REJECT;
int rc = 0;
+ time_t expiration_interval;
- if ((!tids) || (!orig_req) || (!resp) || (!(*resp)) || (!tr)) {
- fprintf(stderr, "tids_req_handler: Bad parameters\n");
+ if ((!tids) || (!orig_req) || (!resp) || (!tr)) {
+ tr_debug("tr_tids_req_handler: Bad parameters");
return -1;
}
- fprintf(stdout, "tr_tids_req_handler: Request received (conn = %d)! Realm = %s, Comm = %s\n", orig_req->conn,
+ tr_debug("tr_tids_req_handler: Request received (conn = %d)! Realm = %s, Comm = %s", orig_req->conn,
orig_req->realm->buf, orig_req->comm->buf);
if (tids)
tids->req_count++;
/* Duplicate the request, so we can modify and forward it */
if (NULL == (fwd_req = tid_dup_req(orig_req))) {
- fprintf(stderr, "tr_tids_req_handler: Unable to duplicate request.\n");
+ tr_debug("tr_tids_req_handler: Unable to duplicate request.");
return -1;
}
- if (NULL == (cfg_comm = tr_comm_lookup((TR_INSTANCE *)tids->cookie, orig_req->comm))) {
- fprintf(stderr, "tr_tids_req_hander: Request for unknown comm: %s.\n", orig_req->comm->buf);
+ if (NULL == (cfg_comm = tr_comm_lookup(tids->cookie, orig_req->comm))) {
+ tr_notice("tr_tids_req_hander: Request for unknown comm: %s.", orig_req->comm->buf);
tids_send_err_response(tids, orig_req, "Unknown community");
return -1;
}
/* Check that the rp_realm matches the filter for the GSS name that
* was received. */
- if ((!((TR_INSTANCE *)tr)->rp_gss) ||
- (!((TR_INSTANCE *)tr)->rp_gss->filter)) {
- fprintf(stderr, "tr_tids_req_handler: No GSS name for incoming request.\n");
+ if ((!(tr)->rp_gss) ||
+ (!(tr)->rp_gss->filter)) {
+ tr_notice("tr_tids_req_handler: No GSS name for incoming request.");
tids_send_err_response(tids, orig_req, "No GSS name for request");
return -1;
}
- if ((TR_FILTER_NO_MATCH == tr_filter_process_rp_permitted(orig_req->rp_realm, ((TR_INSTANCE *)tr)->rp_gss->filter, orig_req->cons, &fwd_req->cons, &oaction)) ||
+ if ((TR_FILTER_NO_MATCH == tr_filter_process_rp_permitted(orig_req->rp_realm, (tr)->rp_gss->filter, orig_req->cons, &fwd_req->cons, &oaction)) ||
(TR_FILTER_ACTION_REJECT == oaction)) {
- fprintf(stderr, "tr_tids_req_handler: RP realm (%s) does not match RP Realm filter for GSS name\n", orig_req->rp_realm->buf);
+ tr_notice("tr_tids_req_handler: RP realm (%s) does not match RP Realm filter for GSS name", orig_req->rp_realm->buf);
tids_send_err_response(tids, orig_req, "RP Realm filter error");
return -1;
}
- /* Check that the rp_realm and target_realm are members of the community in the request */
+ /* Check that the rp_realm is a member of the community in the request */
if (NULL == (tr_find_comm_rp(cfg_comm, orig_req->rp_realm))) {
- fprintf(stderr, "tr_tids_req_hander: RP Realm (%s) not member of community (%s).\n", orig_req->rp_realm->buf, orig_req->comm->buf);
+ tr_notice("tr_tids_req_handler: RP Realm (%s) not member of community (%s).", orig_req->rp_realm->buf, orig_req->comm->buf);
tids_send_err_response(tids, orig_req, "RP COI membership error");
return -1;
}
- if (NULL == (tr_find_comm_idp(cfg_comm, orig_req->realm))) {
- fprintf(stderr, "tr_tids_req_hander: IDP Realm (%s) not member of APC (%s).\n", orig_req->realm->buf, orig_req->comm->buf);
- tids_send_err_response(tids, orig_req, "IDP COI membership error");
- return -1;
- }
/* Map the comm in the request from a COI to an APC, if needed */
if (TR_COMM_COI == cfg_comm->type) {
- fprintf(stderr, "tr_tids_req_handler: Community was a COI, switching.\n");
+ tr_debug("tr_tids_req_handler: Community was a COI, switching.");
/* TBD -- In theory there can be more than one? How would that work? */
if ((!cfg_comm->apcs) || (!cfg_comm->apcs->id)) {
- fprintf(stderr, "No valid APC for COI %s.\n", orig_req->comm->buf);
+ tr_notice("No valid APC for COI %s.", orig_req->comm->buf);
tids_send_err_response(tids, orig_req, "No valid APC for community");
return -1;
}
apc = tr_dup_name(cfg_comm->apcs->id);
/* Check that the APC is configured */
- if (NULL == (cfg_apc = tr_comm_lookup((TR_INSTANCE *)tids->cookie, apc))) {
- fprintf(stderr, "tr_tids_req_hander: Request for unknown comm: %s.\n", apc->buf);
+ if (NULL == (cfg_apc = tr_comm_lookup(tids->cookie, apc))) {
+ tr_notice("tr_tids_req_hander: Request for unknown comm: %s.", apc->buf);
tids_send_err_response(tids, orig_req, "Unknown APC");
return -1;
}
fwd_req->comm = apc;
fwd_req->orig_coi = orig_req->comm;
- /* Check that rp_realm and target_realm are members of this APC */
+ /* Check that rp_realm is a member of this APC */
if (NULL == (tr_find_comm_rp(cfg_apc, orig_req->rp_realm))) {
- fprintf(stderr, "tr_tids_req_hander: RP Realm (%s) not member of community (%s).\n", orig_req->rp_realm->buf, orig_req->comm->buf);
+ tr_notice("tr_tids_req_hander: RP Realm (%s) not member of community (%s).", orig_req->rp_realm->buf, orig_req->comm->buf);
tids_send_err_response(tids, orig_req, "RP APC membership error");
return -1;
}
- if (NULL == (tr_find_comm_idp(cfg_apc, orig_req->realm))) {
- fprintf(stderr, "tr_tids_req_hander: IDP Realm (%s) not member of APC (%s).\n", orig_req->realm->buf, orig_req->comm->buf);
- tids_send_err_response(tids, orig_req, "IDP APC membership error");
- return -1;
- }
}
/* Find the AAA server(s) for this request */
if (NULL == (aaa_servers = tr_idp_aaa_server_lookup((TR_INSTANCE *)tids->cookie,
orig_req->realm,
orig_req->comm))) {
- fprintf(stderr, "tr_tids_req_handler: No AAA Servers for realm %s.\n", orig_req->realm->buf);
- tids_send_err_response(tids, orig_req, "No path to AAA Server(s) for realm");
+ tr_debug("tr_tids_req_handler: No AAA Servers for realm %s, defaulting.", orig_req->realm->buf);
+ if (NULL == (aaa_servers = tr_default_server_lookup ((TR_INSTANCE *)tids->cookie,
+ orig_req->comm))) {
+ tr_notice("tr_tids_req_handler: No default AAA servers, discarded.");
+ tids_send_err_response(tids, orig_req, "No path to AAA Server(s) for realm");
+ return -1;
+ }
+ } else {
+ /* if we aren't defaulting, check idp coi and apc membership */
+ if (NULL == (tr_find_comm_idp(cfg_comm, fwd_req->realm))) {
+ tr_notice("tr_tids_req_handler: IDP Realm (%s) not member of community (%s).", orig_req->realm->buf, orig_req->comm->buf);
+ tids_send_err_response(tids, orig_req, "IDP community membership error");
return -1;
}
+ if ( cfg_apc && (NULL == (tr_find_comm_idp(cfg_apc, fwd_req->realm)))) {
+ tr_notice("tr_tids_req_handler: IDP Realm (%s) not member of APC (%s).", orig_req->realm->buf, orig_req->comm->buf);
+ tids_send_err_response(tids, orig_req, "IDP APC membership error");
+ return -1;
+ }
+ }
+
/* send a TID request to the AAA server(s), and get the answer(s) */
/* TBD -- Handle multiple servers */
+ if (cfg_apc)
+ expiration_interval = cfg_apc->expiration_interval;
+ else expiration_interval = cfg_comm->expiration_interval;
+ if (fwd_req->expiration_interval)
+ fwd_req->expiration_interval = (expiration_interval < fwd_req->expiration_interval) ? expiration_interval : fwd_req->expiration_interval;
+ else fwd_req->expiration_interval = expiration_interval;
/* Create a TID client instance */
if (NULL == (tidc = tidc_create())) {
- fprintf(stderr, "tr_tids_req_hander: Unable to allocate TIDC instance.\n");
+ tr_crit("tr_tids_req_hander: Unable to allocate TIDC instance.");
tids_send_err_response(tids, orig_req, "Memory allocation failure");
return -1;
}
-
/* Use the DH parameters from the original request */
/* TBD -- this needs to be fixed when we handle more than one req per conn */
tidc->client_dh = orig_req->tidc_dh;
aaa_servers->hostname->buf,
TID_PORT,
&(fwd_req->gssctx)))) {
- fprintf(stderr, "tr_tids_req_handler: Error in tidc_open_connection.\n");
+ tr_notice("tr_tids_req_handler: Error in tidc_open_connection.");
tids_send_err_response(tids, orig_req, "Can't open connection to next hop TIDS");
return -1;
};
/* Send a TID request */
if (0 > (rc = tidc_fwd_request(tidc, fwd_req, &tr_tidc_resp_handler, (void *)&resp_cookie))) {
- fprintf(stderr, "Error from tidc_fwd_request, rc = %d.\n", rc);
+ tr_notice("Error from tidc_fwd_request, rc = %d.", rc);
tids_send_err_response(tids, orig_req, "Can't forward request to next hop TIDS");
+ tid_req_free(orig_req);
return -1;
}
+ tid_req_free(orig_req);
return 0;
}
static int tr_tids_gss_handler(gss_name_t client_name, TR_NAME *gss_name,
- void *tr)
+ void *tr_in)
{
TR_RP_CLIENT *rp;
+ TR_INSTANCE *tr = (TR_INSTANCE *) tr_in;
if ((!client_name) || (!gss_name) || (!tr)) {
- fprintf(stderr, "tr_tidc_gss_handler: Bad parameters.\n");
+ tr_debug("tr_tidc_gss_handler: Bad parameters.");
return -1;
}
/* look up the RP client matching the GSS name */
if ((NULL == (rp = tr_rp_client_lookup(tr, gss_name)))) {
- fprintf(stderr, "tr_tids_gss_handler: Unknown GSS name %s\n", gss_name->buf);
+ tr_debug("tr_tids_gss_handler: Unknown GSS name %s", gss_name->buf);
return -1;
}
/* Store the rp client in the TR_INSTANCE structure for now...
* TBD -- fix me for new tasking model. */
- ((TR_INSTANCE *)tr)->rp_gss = rp;
- fprintf( stderr, "Client's GSS Name: %s\n", gss_name->buf);
+ (tr)->rp_gss = rp;
+ tr_debug("Client's GSS Name: %s", gss_name->buf);
+
return 0;
}
+/***** event loop management ****/
+
+/* struct for hanging on to a socket listener event */
+struct tr_socket_event {
+ int sock_fd; /* the fd for the socket */
+ struct event *ev; /* its event */
+};
+
+/* Allocate and set up the event base, return a pointer
+ * to the new event_base or NULL on failure.
+ * Does not currently enable thread-safe mode. */
+static struct event_base *tr_event_loop_init(void)
+{
+ struct event_base *base=NULL;
+
+ base=event_base_new();
+ if (base==NULL) {
+ tr_crit("Error initializing event loop.");
+ return NULL;
+ }
+ return base;
+}
+
+/* run the loop, does not normally return */
+static int tr_event_loop_run(struct event_base *base)
+{
+ return event_base_dispatch(base);
+}
+
+/* called when a connection to the TIDS port is received */
+static void tr_tids_event_cb(int listener, short event, void *arg)
+{
+ TIDS_INSTANCE *tids = (TIDS_INSTANCE *)arg;
+
+ if (0==(event & EV_READ))
+ tr_debug("tr_tids_event_cb: unexpected event on TIDS socket (event=0x%X)", event);
+ else
+ tids_accept(tids, listener);
+}
+
+/* Configure the tids instance and set up its event handler.
+ * Returns 0 on success, nonzero on failure. Fills in
+ * *tids_event (which should be allocated). */
+static int tr_tids_event_init(struct event_base *base,
+ TR_INSTANCE *tr,
+ struct tr_socket_event *tids_ev)
+{
+ if (tids_ev == NULL) {
+ tr_debug("tr_tids_event_init: Null tids_ev.");
+ return 1;
+ }
+
+ /* get a tids listener */
+ tids_ev->sock_fd=tids_get_listener(tr->tids,
+ tr_tids_req_handler,
+ tr_tids_gss_handler,
+ tr->active_cfg->internal->hostname,
+ tr->active_cfg->internal->tids_port,
+ (void *)tr);
+ if (tids_ev->sock_fd < 0) {
+ tr_crit("Error opening TID server socket.");
+ return 1;
+ }
+
+ /* and its event */
+ tids_ev->ev=event_new(base,
+ tids_ev->sock_fd,
+ EV_READ|EV_PERSIST,
+ tr_tids_event_cb,
+ (void *)tr->tids);
+ event_add(tids_ev->ev, NULL);
+
+ return 0;
+}
+
+
+/***** config file watching *****/
+
+struct tr_fstat {
+ char *name;
+ struct timespec mtime;
+};
+
+struct tr_cfgwatch_data {
+ struct timeval poll_interval;
+ char *config_dir;
+ struct tr_fstat *fstat_list;
+ int n_files;
+};
+
+/* Obtain the file modification time as seconds since epoch. Returns 0 on success. */
+static int tr_get_mtime(const char *path, struct timespec *ts)
+{
+ struct stat file_status;
+
+ if (stat(path, &file_status) != 0) {
+ return -1;
+ } else {
+ (*ts)=file_status.st_mtim;
+ }
+ return 0;
+}
+
+static char *tr_join_paths(TALLOC_CTX *mem_ctx, const char *p1, const char *p2)
+{
+ return talloc_asprintf(mem_ctx, "%s/%s", p1, p2); /* returns NULL on a failure */
+}
+
+static int tr_fstat_namecmp(const void *p1_arg, const void *p2_arg)
+{
+ struct tr_fstat *p1=(struct tr_fstat *) p1_arg;
+ struct tr_fstat *p2=(struct tr_fstat *) p2_arg;
+
+ return strcmp(p1->name, p2->name);
+}
+
+static int tr_fstat_mtimecmp(const void *p1_arg, const void *p2_arg)
+{
+ struct tr_fstat *p1=(struct tr_fstat *) p1_arg;
+ struct tr_fstat *p2=(struct tr_fstat *) p2_arg;
+
+ if (p1->mtime.tv_sec == p2->mtime.tv_sec)
+ return (p1->mtime.tv_nsec) - (p2->mtime.tv_nsec);
+ else
+ return (p1->mtime.tv_sec) - (p2->mtime.tv_sec);
+}
+
+/* Get status of all files in cfg_files. Returns list, or NULL on error.
+ * Files are sorted by filename.
+ * After success, caller must eventually free result with talloc_free. */
+static struct tr_fstat *tr_fstat_get_all(TALLOC_CTX *mem_ctx,
+ const char *config_path,
+ struct dirent **cfg_files,
+ int n_files)
+{
+ TALLOC_CTX *tmp_ctx=talloc_new(NULL);
+ struct tr_fstat *fstat_list=NULL;
+ int ii=0;
+
+ /* create a new fstat list (may be discarded) */
+ fstat_list=talloc_array(tmp_ctx, struct tr_fstat, n_files);
+ if (fstat_list==NULL) {
+ tr_err("tr_fstat_get_all: Could not allocate fstat list.");
+ goto cleanup;
+ }
+
+ for (ii=0; ii<n_files; ii++) {
+ fstat_list[ii].name=talloc_strdup(fstat_list, cfg_files[ii]->d_name);
+ if (0 != tr_get_mtime(tr_join_paths(tmp_ctx, config_path, fstat_list[ii].name),
+ &(fstat_list[ii].mtime))) {
+ tr_warning("tr_fstat_get_all: Could not obtain mtime for file %s", fstat_list[ii].name);
+ }
+ }
+
+ /* sort the list */
+ qsort(fstat_list, n_files, sizeof(struct tr_fstat), tr_fstat_namecmp);
+
+ /* put list in the caller's context and return it */
+ talloc_steal(mem_ctx, fstat_list);
+ cleanup:
+ talloc_free(tmp_ctx);
+ return fstat_list;
+}
-int main (int argc, const char *argv[])
+/* Checks whether any config files have appeared/disappeared/modified.
+ * Returns 1 if so, 0 otherwise. */
+static int tr_cfgwatch_update_needed(struct tr_cfgwatch_data *cfg_status)
{
+ TALLOC_CTX *tmp_ctx=talloc_new(NULL);
+ struct tr_fstat *fstat_list=NULL;
+ int n_files=0;
+ int ii=0;
+ struct dirent **cfg_files=NULL;
+ int update_needed=0; /* return value */
+
+ /* get the list, must free cfg_files later with tr_free_cfg_file_list */
+ n_files = tr_find_config_files(cfg_status->config_dir, &cfg_files);
+ if (n_files <= 0) {
+ tr_warning("tr_cfgwatch_update: configuration files disappeared, skipping update.");
+ goto cleanup;
+ }
+
+ /* create a new fstat list (will be discarded) */
+ fstat_list=tr_fstat_get_all(tmp_ctx, cfg_status->config_dir, cfg_files, n_files);
+ if (fstat_list==NULL) {
+ tr_err("tr_cfgwatch_update: Error getting fstat list.");
+ goto cleanup;
+ }
+
+ /* see if the number of files change, if so need to update */
+ if (n_files != cfg_status->n_files) {
+ tr_debug("tr_cfgwatch_update: Changed number of config files (was %d, now %d).",
+ cfg_status->n_files,
+ n_files);
+ update_needed=1;
+ goto cleanup;
+ }
+
+ /* See if any files have a changed mtime. Both are sorted by name so this is easy. */
+ for (ii=0; ii<n_files; ii++) {
+ if ((0 != tr_fstat_mtimecmp(&fstat_list[ii], &cfg_status->fstat_list[ii]))
+ || (0 != tr_fstat_namecmp(&fstat_list[ii], &cfg_status->fstat_list[ii]))){
+ update_needed=1;
+ goto cleanup;
+ }
+ }
+
+ cleanup:
+ tr_free_config_file_list(n_files, &cfg_files);
+ talloc_free(tmp_ctx);
+ return update_needed;
+}
+
+static void tr_cfgwatch_event_cb(int listener, short event, void *arg)
+{
+ TALLOC_CTX *tmp_ctx=talloc_new(NULL);
+ struct tr_cfgwatch_data *cfg_status=(struct tr_cfgwatch_data *) arg;
+
+ if (tr_cfgwatch_update_needed(cfg_status)) {
+ tr_notice("tr_cfgwatch_event_cb: update needed!"); /* remove */
+ }
+
+ talloc_free(tmp_ctx);
+}
+
+
+/* Configure the cfgwatch instance and set up its event handler.
+ * Returns 0 on success, nonzero on failure. Points
+ * *cfgwatch_ev to the event struct. */
+static int tr_cfgwatch_event_init(struct event_base *base,
+ struct tr_cfgwatch_data *cfg_status,
+ struct event **cfgwatch_ev)
+{
+ if (cfgwatch_ev == NULL) {
+ tr_debug("tr_cfgwatch_event_init: Null cfgwatch_ev.");
+ return 1;
+ }
+
+ *cfgwatch_ev=event_new(base, -1, EV_TIMEOUT|EV_PERSIST, tr_cfgwatch_event_cb, (void *)cfg_status);
+ event_add(*cfgwatch_ev, &(cfg_status->poll_interval));
+
+ tr_info("tr_cfgwatch_event_init: Added configuration file watcher with %0d.%06d second poll interval.",
+ cfg_status->poll_interval.tv_sec,
+ cfg_status->poll_interval.tv_usec);
+ return 0;
+}
+
+
+/***** command-line option handling / setup *****/
+
+/* Strip trailing / from a path name.*/
+static void remove_trailing_slash(char *s) {
+ size_t n;
+
+ n=strlen(s);
+ if(s[n-1]=='/') {
+ s[n-1]='\0';
+ }
+}
+
+/* argp global parameters */
+const char *argp_program_bug_address=PACKAGE_BUGREPORT; /* bug reporting address */
+
+/* doc strings */
+static const char doc[]=PACKAGE_NAME " - Moonshot Trust Router";
+static const char arg_doc[]=""; /* string describing arguments, if any */
+
+/* define the options here. Fields are:
+ * { long-name, short-name, variable name, options, help description } */
+static const struct argp_option cmdline_options[] = {
+ { "config-dir", 'c', "DIR", 0, "Specify configuration file location (default is current directory)"},
+ { NULL }
+};
+
+/* structure for communicating with option parser */
+struct cmdline_args {
+ char *config_dir;
+};
+
+/* parser for individual options - fills in a struct cmdline_args */
+static error_t parse_option(int key, char *arg, struct argp_state *state)
+{
+ /* get a shorthand to the command line argument structure, part of state */
+ struct cmdline_args *arguments=state->input;
+
+ switch (key) {
+ case 'c':
+ if (arg == NULL) {
+ /* somehow we got called without an argument */
+ return ARGP_ERR_UNKNOWN;
+ }
+ arguments->config_dir=arg;
+ break;
+
+ default:
+ return ARGP_ERR_UNKNOWN;
+ }
+
+ return 0; /* success */
+}
+
+/* assemble the argp parser */
+static struct argp argp = {cmdline_options, parse_option, arg_doc, doc};
+
+
+int main (int argc, char *argv[])
+
+{
+ TALLOC_CTX *main_ctx=talloc_new(NULL);
+
TR_INSTANCE *tr = NULL;
struct dirent **cfg_files = NULL;
- json_t *jcfg = NULL;
+ int n_files = 0;
TR_CFG_RC rc = TR_CFG_SUCCESS; /* presume success */
- int err = 0, n = 0;;
+ struct cmdline_args opts;
+ struct event_base *ev_base;
+ struct tr_socket_event tids_ev;
+ struct event *cfgwatch_ev;
+ struct tr_cfgwatch_data cfgwatch;
+
+ /***** parse command-line arguments *****/
+ /* set defaults */
+ opts.config_dir=".";
+
+ /* parse the command line*/
+ argp_parse(&argp, argc, argv, 0, 0, &opts);
- /* parse command-line arguments? -- TBD */
+ /* process options */
+ remove_trailing_slash(opts.config_dir);
- /* create a Trust Router instance */
+
+ /* Use standalone logging */
+ tr_log_open();
+
+ /***** create a Trust Router instance *****/
if (NULL == (tr = tr_create())) {
- fprintf(stderr, "Unable to create Trust Router instance, exiting.\n");
+ tr_crit("Unable to create Trust Router instance, exiting.");
return 1;
}
- /* find the configuration files */
- if (0 == (n = tr_find_config_files(&cfg_files))) {
- fprintf (stderr, "Can't locate configuration files, exiting.\n");
+
+ /***** process configuration *****/
+
+ /* find the configuration files -- n.b., tr_find_config_files()
+ * allocates memory to cfg_files which we must later free */
+ tr_debug("Reading configuration files from %s/", opts.config_dir);
+ n_files = tr_find_config_files(opts.config_dir, &cfg_files);
+ if (n_files <= 0) {
+ tr_crit("Can't locate configuration files, exiting.");
+ tr_free_config_file_list(n_files, &cfg_files);
exit(1);
}
- /* read and parse initial configuration */
- if (NULL == (jcfg = tr_read_config (n, cfg_files))) {
- fprintf (stderr, "Error reading or parsing configuration files, exiting.\n");
+ if (TR_CFG_SUCCESS != tr_parse_config(tr, opts.config_dir, n_files, cfg_files)) {
+ tr_crit("Error decoding configuration information, exiting.");
+ tr_free_config_file_list(n_files, &cfg_files);
exit(1);
}
- if (TR_CFG_SUCCESS != tr_parse_config(tr, jcfg)) {
- fprintf (stderr, "Error decoding configuration information, exiting.\n");
+
+ /* get the list of update times */
+ cfgwatch.config_dir=opts.config_dir;
+ cfgwatch.n_files=n_files;
+ cfgwatch.fstat_list=tr_fstat_get_all(main_ctx, opts.config_dir, cfg_files, n_files);
+ if (cfgwatch.fstat_list==NULL) {
+ tr_crit("Could not allocate config file status list.");
+ tr_free_config_file_list(n_files, &cfg_files);
exit(1);
}
+
+ /* we are now done with the config filenames, free those */
+ tr_free_config_file_list(n_files, &cfg_files);
/* apply initial configuration */
if (TR_CFG_SUCCESS != (rc = tr_apply_new_config(tr))) {
- fprintf (stderr, "Error applying configuration, rc = %d.\n", rc);
+ tr_crit("Error applying configuration, rc = %d.", rc);
exit(1);
}
- /* initialize the trust path query server instance */
+
+ /***** initialize the trust path query server instance *****/
if (0 == (tr->tids = tids_create ())) {
- fprintf (stderr, "Error initializing Trust Path Query Server instance.\n");
+ tr_crit("Error initializing Trust Path Query Server instance.");
+ exit(1);
+ }
+
+ /***** Set up the event loop *****/
+ ev_base=tr_event_loop_init(); /* Set up the event loop */
+
+ /* install configuration file watching events */
+ cfgwatch.poll_interval.tv_sec=1; /* set poll interval */
+ cfgwatch.poll_interval.tv_usec=0;
+ /* already set config_dir, fstat_list and n_files earlier */
+ if (0 != tr_cfgwatch_event_init(ev_base, &cfgwatch, &cfgwatch_ev)) {
+ tr_crit("Error initializing configuration file watcher.");
exit(1);
}
- /* start the trust path query server, won't return unless fatal error. */
- if (0 != (err = tids_start(tr->tids, &tr_tids_req_handler, &tr_tids_gss_handler, tr->active_cfg->internal->hostname, tr->active_cfg->internal->tids_port, (void *)tr))) {
- fprintf (stderr, "Error from Trust Path Query Server, err = %d.\n", err);
- exit(err);
+ /*tr_status_event_init();*/ /* install status reporting events */
+
+ /* install TID server events */
+ if (0 != tr_tids_event_init(ev_base, tr, &tids_ev)) {
+ tr_crit("Error initializing Trust Path Query Server instance.");
+ exit(1);
}
+ /*tr_trp_event_init();*/ /* install TRP handler events */
+
+ fflush(stdout); fflush(stderr);
+ tr_event_loop_run(ev_base); /* does not return until we are done */
+
+ /* TODO: update the cleanup code */
tids_destroy(tr->tids);
tr_destroy(tr);
+
+ talloc_free(main_ctx);
exit(0);
}