#include <freeradius-devel/ident.h>
RCSID("$Id$")
-#include <freeradius-devel/autoconf.h>
-
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-
#include <freeradius-devel/radiusd.h>
#include <freeradius-devel/modpriv.h>
#include <freeradius-devel/modcall.h>
#include <freeradius-devel/rad_assert.h>
+extern int check_config;
+
typedef struct indexed_modcallable {
- int comp;
- int idx;
- modcallable *modulelist;
+ int comp;
+ int idx;
+ modcallable *modulelist;
} indexed_modcallable;
+typedef struct virtual_server_t {
+ const char *name;
+ time_t created;
+ int can_free;
+ CONF_SECTION *cs;
+ rbtree_t *components;
+ modcallable *mc[RLM_COMPONENT_COUNT];
+ CONF_SECTION *subcs[RLM_COMPONENT_COUNT];
+ struct virtual_server_t *next;
+} virtual_server_t;
+
/*
- * For each component, keep an ordered list of ones to call.
+ * Keep a hash of virtual servers, so that we can reload them.
*/
-static lrad_hash_table_t *components;
+#define VIRTUAL_SERVER_HASH_SIZE (256)
+static virtual_server_t *virtual_servers[VIRTUAL_SERVER_HASH_SIZE];
static rbtree_t *module_tree = NULL;
+static rbtree_t *instance_tree = NULL;
+
+struct fr_module_hup_t {
+ module_instance_t *mi;
+ time_t when;
+ void *insthandle;
+ fr_module_hup_t *next;
+};
+
+
typedef struct section_type_value_t {
const char *section;
const char *typename;
int attr;
} section_type_value_t;
-
/*
* Ordered by component
*/
{ "session", "Session-Type", PW_SESSION_TYPE },
{ "pre-proxy", "Pre-Proxy-Type", PW_PRE_PROXY_TYPE },
{ "post-proxy", "Post-Proxy-Type", PW_POST_PROXY_TYPE },
- { "post-auth", "Post-Auth-Type", PW_POST_AUTH_TYPE },
+ { "post-auth", "Post-Auth-Type", PW_POST_AUTH_TYPE }
+#ifdef WITH_COA
+ ,
+ { "recv-coa", "Recv-CoA-Type", PW_RECV_COA_TYPE },
+ { "send-coa", "Send-CoA-Type", PW_SEND_COA_TYPE }
+#endif
};
+
+#ifdef WITHOUT_LIBLTDL
+#ifdef WITH_DLOPEN
+#include <dlfcn.h>
+
+#ifndef RTLD_NOW
+#define RTLD_NOW (0)
+#endif
+#ifndef RTLD_LOCAL
+#define RTLD_LOCAL (0)
+#endif
+
+#define fr_dlopenext lt_dlopenext
+#ifndef LT_SHREXT
+#ifdef __APPLE__
+#define LT_SHREXT ".so"
+#elif defined (WIN32)
+#define LT_SHREXT ".dll"
+#else
+#define LT_SHREXT ".dylib"
+#endif
+#endif
+
+lt_dlhandle lt_dlopenext(const char *name)
+{
+ char buffer[256];
+
+ strlcpy(buffer, name, sizeof(buffer));
+
+ /*
+ * FIXME: Make this configurable...
+ */
+ strlcat(buffer, LT_SHREXT, sizeof(buffer));
+
+ return dlopen(buffer, RTLD_NOW | RTLD_LOCAL);
+}
+
+void *lt_dlsym(lt_dlhandle handle, UNUSED const char *symbol)
+{
+ return dlsym(handle, symbol);
+}
+
+int lt_dlclose(lt_dlhandle handle)
+{
+ if (!handle) return 0;
+
+ return dlclose(handle);
+}
+
+const char *lt_dlerror(void)
+{
+ return dlerror();
+}
+
+
+#else /* without dlopen */
+typedef struct lt_dlmodule_t {
+ const char *name;
+ void *ref;
+} lt_dlmodule_t;
+
+typedef struct eap_type_t EAP_TYPE;
+typedef struct rlm_sql_module_t rlm_sql_module_t;
+
/*
- * Delete ASAP.
+ * FIXME: Write hackery to auto-generate this data.
+ * We only need to do this on systems that don't have dlopen.
*/
-static const section_type_value_t old_section_type_value[] = {
- { "authenticate", "authtype", PW_AUTH_TYPE },
- { "authorize", "autztype", PW_AUTZ_TYPE },
- { "preacct", "Pre-Acct-Type", PW_PRE_ACCT_TYPE },/* unused */
- { "accounting", "acctype", PW_ACCT_TYPE },
- { "session", "sesstype", PW_SESSION_TYPE },
- { "pre-proxy", "Pre-Proxy-Type", PW_PRE_PROXY_TYPE }, /* unused */
- { "post-proxy", "Post-Proxy-Type", PW_POST_PROXY_TYPE }, /* unused */
- { "post-auth", "post-authtype", PW_POST_AUTH_TYPE }
+extern module_t rlm_pap;
+extern module_t rlm_chap;
+extern module_t rlm_eap;
+extern module_t rlm_sql;
+/* and so on ... */
+
+extern EAP_TYPE rlm_eap_md5;
+extern rlm_sql_module_t rlm_sql_mysql;
+/* and so on ... */
+
+static const lt_dlmodule_t lt_dlmodules[] = {
+ { "rlm_pap", &rlm_pap },
+ { "rlm_chap", &rlm_chap },
+ { "rlm_eap", &rlm_eap },
+ /* and so on ... */
+
+ { "rlm_eap_md5", &rlm_eap_md5 },
+ /* and so on ... */
+
+ { "rlm_sql_mysql", &rlm_sql_mysql },
+ /* and so on ... */
+
+ { NULL, NULL }
};
+#define fr_dlopenext lt_dlopenext
+lt_dlhandle lt_dlopenext(const char *name)
+{
+ int i;
-static void indexed_modcallable_free(void *data)
+ for (i = 0; lt_dlmodules[i].name != NULL; i++) {
+ if (strcmp(name, lt_dlmodules[i].name) == 0) {
+ return lt_dlmodules[i].ref;
+ }
+ }
+
+ return NULL;
+}
+
+void *lt_dlsym(lt_dlhandle handle, UNUSED const char *symbol)
{
- indexed_modcallable *c = data;
+ return handle;
+}
- modcallable_free(&c->modulelist);
- free(c);
+int lt_dlclose(lt_dlhandle handle)
+{
+ return 0;
}
-static uint32_t indexed_modcallable_hash(const void *data)
+const char *lt_dlerror(void)
+{
+ return "Unspecified error";
+}
+
+#endif /* WITH_DLOPEN */
+#else /* WITHOUT_LIBLTDL */
+
+/*
+ * Solve the issues of libraries linking to other libraries
+ * by using a newer libltdl API.
+ */
+#ifndef HAVE_LT_DLADVISE_INIT
+#define fr_dlopenext lt_dlopenext
+#else
+static lt_dlhandle fr_dlopenext(const char *filename)
+{
+ lt_dlhandle handle = 0;
+ lt_dladvise advise;
+
+ if (!lt_dladvise_init (&advise) &&
+ !lt_dladvise_ext (&advise) &&
+ !lt_dladvise_global (&advise)) {
+ handle = lt_dlopenadvise (filename, advise);
+ }
+
+ lt_dladvise_destroy (&advise);
+
+ return handle;
+}
+#endif /* HAVE_LT_DLADVISE_INIT */
+#endif /* WITHOUT_LIBLTDL */
+
+static int virtual_server_idx(const char *name)
{
uint32_t hash;
- const indexed_modcallable *c = data;
- hash = lrad_hash(&c->comp, sizeof(c->comp));
- return lrad_hash_update(&c->idx, sizeof(c->idx), hash);
+ if (!name) return 0;
+
+ hash = fr_hash_string(name);
+
+ return hash & (VIRTUAL_SERVER_HASH_SIZE - 1);
+}
+
+static void virtual_server_free(virtual_server_t *server)
+{
+ if (!server) return;
+
+ if (server->components) rbtree_free(server->components);
+ server->components = NULL;
+
+ free(server);
+}
+
+void virtual_servers_free(time_t when)
+{
+ int i;
+ virtual_server_t **last;
+
+ for (i = 0; i < VIRTUAL_SERVER_HASH_SIZE; i++) {
+ virtual_server_t *server, *next;
+
+ last = &virtual_servers[i];
+ for (server = virtual_servers[i];
+ server != NULL;
+ server = next) {
+ next = server->next;
+
+ /*
+ * If we delete it, fix the links so that
+ * we don't orphan anything. Also,
+ * delete it if it's old, AND a newer one
+ * was defined.
+ *
+ * Otherwise, the last pointer gets set to
+ * the one we didn't delete.
+ */
+ if ((when == 0) ||
+ ((server->created < when) && server->can_free)) {
+ *last = server->next;
+ virtual_server_free(server);
+ } else {
+ last = &(server->next);
+ }
+ }
+ }
+}
+
+static void indexed_modcallable_free(void *data)
+{
+ indexed_modcallable *c = data;
+
+ modcallable_free(&c->modulelist);
+ free(c);
}
static int indexed_modcallable_cmp(const void *one, const void *two)
/*
+ * Compare two module entries
+ */
+static int module_instance_cmp(const void *one, const void *two)
+{
+ const module_instance_t *a = one;
+ const module_instance_t *b = two;
+
+ return strcmp(a->name, b->name);
+}
+
+
+static void module_instance_free_old(CONF_SECTION *cs, module_instance_t *node,
+ time_t when)
+{
+ fr_module_hup_t *mh, **last;
+
+ /*
+ * Walk the list, freeing up old instances.
+ */
+ last = &(node->mh);
+ while (*last) {
+ mh = *last;
+
+ /*
+ * Free only every 60 seconds.
+ */
+ if ((when - mh->when) < 60) {
+ last = &(mh->next);
+ continue;
+ }
+
+ cf_section_parse_free(cs, mh->insthandle);
+
+ if (node->entry->module->detach) {
+ (node->entry->module->detach)(mh->insthandle);
+ } else {
+ free(mh->insthandle);
+ }
+
+ *last = mh->next;
+ free(mh);
+ }
+}
+
+
+/*
* Free a module instance.
*/
static void module_instance_free(void *data)
{
module_instance_t *this = data;
- if (this->entry->module->detach)
+ module_instance_free_old(this->cs, this, time(NULL) + 100);
+
+ if (this->entry->module->detach) {
(this->entry->module->detach)(this->insthandle);
+ }
+
#ifdef HAVE_PTHREAD_H
if (this->mutex) {
/*
free(this->mutex);
}
#endif
+ memset(this, 0, sizeof(*this));
free(this);
}
module_entry_t *this = data;
lt_dlclose(this->handle); /* ignore any errors */
+ memset(this, 0, sizeof(*this));
free(this);
}
*/
int detach_modules(void)
{
- lrad_hash_table_free(components);
+ rbtree_free(instance_tree);
rbtree_free(module_tree);
+ lt_dlexit();
+
return 0;
}
* Find a module on disk or in memory, and link to it.
*/
static module_entry_t *linkto_module(const char *module_name,
- const char *cffilename, int cflineno)
+ CONF_SECTION *cs)
{
module_entry_t myentry;
module_entry_t *node;
- lt_dlhandle handle;
+ lt_dlhandle handle = NULL;
char module_struct[256];
char *p;
- const void *module;
+ const module_t *module;
- strNcpy(myentry.name, module_name, sizeof(myentry.name));
+ strlcpy(myentry.name, module_name, sizeof(myentry.name));
node = rbtree_finddata(module_tree, &myentry);
if (node) return node;
/*
- * Keep the handle around so we can dlclose() it.
- */
- handle = lt_dlopenext(module_name);
- if (handle == NULL) {
- radlog(L_ERR|L_CONS, "%s[%d] Failed to link to module '%s':"
- " %s\n", cffilename, cflineno, module_name, lt_dlerror());
- return NULL;
- }
-
- /*
* Link to the module's rlm_FOO{} module structure.
*
* The module_name variable has the version number
p = strrchr(module_struct, '-');
if (p) *p = '\0';
+#if defined(WITHOUT_LIBLTDL) && defined (WITH_DLOPEN) && defined(RTLD_SELF)
+ module = lt_dlsym(RTLD_SELF, module_struct);
+ if (module) goto open_self;
+#endif
+
+ /*
+ * Keep the handle around so we can dlclose() it.
+ */
+ handle = fr_dlopenext(module_name);
+ if (handle == NULL) {
+ cf_log_err(cf_sectiontoitem(cs),
+ "Failed to link to module '%s': %s\n",
+ module_name, lt_dlerror());
+ return NULL;
+ }
+
DEBUG3(" (Loaded %s, checking if it's valid)", module_name);
/*
*/
module = lt_dlsym(handle, module_struct);
if (!module) {
- radlog(L_ERR|L_CONS, "%s[%d] Failed linking to "
- "%s structure in %s: %s\n",
- cffilename, cflineno,
- module_name, cffilename, lt_dlerror());
+ cf_log_err(cf_sectiontoitem(cs),
+ "Failed linking to %s structure: %s\n",
+ module_name, lt_dlerror());
lt_dlclose(handle);
return NULL;
}
+
+#if defined(WITHOUT_LIBLTDL) && defined (WITH_DLOPEN) && defined(RTLD_SELF)
+ open_self:
+#endif
/*
* Before doing anything else, check if it's sane.
*/
- if ((*(const uint32_t *) module) != RLM_MODULE_MAGIC_NUMBER) {
+ if (module->magic != RLM_MODULE_MAGIC_NUMBER) {
lt_dlclose(handle);
- radlog(L_ERR|L_CONS, "%s[%d] Invalid version in module '%s'",
- cffilename, cflineno, module_name);
+ cf_log_err(cf_sectiontoitem(cs),
+ "Invalid version in module '%s'",
+ module_name);
return NULL;
-
+
}
/* make room for the module type */
node = rad_malloc(sizeof(*node));
memset(node, 0, sizeof(*node));
- strNcpy(node->name, module_name, sizeof(node->name));
+ strlcpy(node->name, module_name, sizeof(node->name));
node->module = module;
node->handle = handle;
- DEBUG("Module: Loaded %s ", node->module->name);
+ cf_log_module(cs, "Linked to module %s", module_name);
/*
* Add the module as "rlm_foo-version" to the configuration
* Find a module instance.
*/
module_instance_t *find_module_instance(CONF_SECTION *modules,
- const char *instname)
+ const char *instname, int do_link)
{
+ int check_config_safe = FALSE;
CONF_SECTION *cs;
- const char *name1, *name2;
- module_instance_t *node;
+ const char *name1;
+ module_instance_t *node, myNode;
char module_name[256];
if (!modules) return NULL;
*/
cs = cf_section_sub_find_name2(modules, NULL, instname);
if (cs == NULL) {
- radlog(L_ERR|L_CONS, "ERROR: Cannot find a configuration entry for module \"%s\".\n", instname);
+ radlog(L_ERR, "ERROR: Cannot find a configuration entry for module \"%s\".\n", instname);
return NULL;
}
/*
* If there's already a module instance, return it.
*/
- node = cf_data_find(cs, "instance");
+ strlcpy(myNode.name, instname, sizeof(myNode.name));
+ node = rbtree_finddata(instance_tree, &myNode);
if (node) return node;
+ if (!do_link) return NULL;
+
name1 = cf_section_name1(cs);
- name2 = cf_section_name2(cs);
/*
* Found the configuration entry.
memset(node, 0, sizeof(*node));
node->insthandle = NULL;
+ node->cs = cs;
/*
* Names in the "modules" section aren't prefixed
*/
snprintf(module_name, sizeof(module_name), "rlm_%s", name1);
- node->entry = linkto_module(module_name,
- mainconfig.radiusd_conf,
- cf_section_lineno(cs));
+ node->entry = linkto_module(module_name, cs);
if (!node->entry) {
free(node);
/* linkto_module logs any errors */
return NULL;
}
+ if (check_config && (node->entry->module->instantiate) &&
+ (node->entry->module->type & RLM_TYPE_CHECK_CONFIG_SAFE) == 0) {
+ const char *value = NULL;
+ CONF_PAIR *cp;
+
+ cp = cf_pair_find(cs, "force_check_config");
+ if (cp) value = cf_pair_value(cp);
+
+ if (value && (strcmp(value, "yes") == 0)) goto print_inst;
+
+ cf_log_module(cs, "Skipping instantiation of %s", instname);
+ } else {
+ print_inst:
+ check_config_safe = TRUE;
+ cf_log_module(cs, "Instantiating module \"%s\" from file %s",
+ instname, cf_section_filename(cs));
+ }
+
/*
* Call the module's instantiation routine.
*/
if ((node->entry->module->instantiate) &&
+ (!check_config || check_config_safe) &&
((node->entry->module->instantiate)(cs, &node->insthandle) < 0)) {
- radlog(L_ERR|L_CONS,
- "%s[%d]: %s: Module instantiation failed.\n",
- mainconfig.radiusd_conf, cf_section_lineno(cs),
- instname);
+ cf_log_err(cf_sectiontoitem(cs),
+ "Instantiation failed for module \"%s\"",
+ instname);
free(node);
return NULL;
}
* We're done. Fill in the rest of the data structure,
* and link it to the module instance list.
*/
- strNcpy(node->name, instname, sizeof(node->name));
+ strlcpy(node->name, instname, sizeof(node->name));
#ifdef HAVE_PTHREAD_H
/*
}
#endif
- cf_data_add(cs, "instance", node, module_instance_free);
-
- DEBUG("Module: Instantiated %s (%s) ", name1, node->name);
+ rbtree_insert(instance_tree, node);
return node;
}
-static indexed_modcallable *lookup_by_index(int comp, int idx)
+static indexed_modcallable *lookup_by_index(rbtree_t *components,
+ int comp, int idx)
{
indexed_modcallable myc;
-
+
myc.comp = comp;
myc.idx = idx;
- return lrad_hash_table_finddata(components, &myc);
+ return rbtree_finddata(components, &myc);
}
/*
* Create a new sublist.
*/
-static indexed_modcallable *new_sublist(int comp, int idx)
+static indexed_modcallable *new_sublist(rbtree_t *components, int comp, int idx)
{
indexed_modcallable *c;
- c = lookup_by_index(comp, idx);
+ c = lookup_by_index(components, comp, idx);
/* It is an error to try to create a sublist that already
* exists. It would almost certainly be caused by accidental
c->comp = comp;
c->idx = idx;
- if (!lrad_hash_table_insert(components, c)) {
+ if (!rbtree_insert(components, c)) {
free(c);
return NULL;
}
return c;
}
-static int indexed_modcall(int comp, int idx, REQUEST *request)
+int indexed_modcall(int comp, int idx, REQUEST *request)
{
int rcode;
- indexed_modcallable *this;
-
- this = lookup_by_index(comp, idx);
- if (!this) {
- if (idx != 0) DEBUG2(" ERROR: Unknown value specified for %s. Cannot perform requested action.",
- section_type_value[comp].typename);
- request->component = section_type_value[comp].typename;
- rcode = modcall(comp, NULL, request); /* does default action */
+ modcallable *list = NULL;
+ virtual_server_t *server;
+
+ /*
+ * Hack to find the correct virtual server.
+ */
+ rcode = virtual_server_idx(request->server);
+ for (server = virtual_servers[rcode];
+ server != NULL;
+ server = server->next) {
+ if (!request->server && !server->name) break;
+
+ if ((request->server && server->name) &&
+ (strcmp(request->server, server->name) == 0)) break;
+ }
+
+ if (!server) {
+ RDEBUG("No such virtual server \"%s\"", request->server);
+ return RLM_MODULE_FAIL;
+ }
+
+ if (idx == 0) {
+ list = server->mc[comp];
+ if (!list) RDEBUG2(" WARNING: Empty %s section. Using default return values.", section_type_value[comp].section);
+
} else {
- DEBUG2(" Processing the %s section of %s",
- section_type_value[comp].section,
- mainconfig.radiusd_conf);
- request->component = section_type_value[comp].typename;
- rcode = modcall(comp, this->modulelist, request);
+ indexed_modcallable *this;
+
+ this = lookup_by_index(server->components, comp, idx);
+ if (this) {
+ list = this->modulelist;
+ } else {
+ RDEBUG2(" WARNING: Unknown value specified for %s. Cannot perform requested action.",
+ section_type_value[comp].typename);
+ }
+ }
+
+ if (server->subcs[comp]) {
+ if (idx == 0) {
+ RDEBUG("# Executing section %s from file %s",
+ section_type_value[comp].section,
+ cf_section_filename(server->subcs[comp]));
+ } else {
+ RDEBUG("# Executing group from file %s",
+ cf_section_filename(server->subcs[comp]));
+ }
}
- request->module = "<server-core>";
- request->component = "<server-core>";
+ request->component = section_type_value[comp].section;
+
+ rcode = modcall(comp, list, request);
+
+ request->module = "";
+ request->component = "<core>";
return rcode;
}
* Load a sub-module list, as found inside an Auth-Type foo {}
* block
*/
-static int load_subcomponent_section(modcallable *parent,
- CONF_SECTION *cs, int comp,
- const char *filename)
+static int load_subcomponent_section(modcallable *parent, CONF_SECTION *cs,
+ rbtree_t *components, int attr, int comp)
{
indexed_modcallable *subcomp;
modcallable *ml;
const char *name2 = cf_section_name2(cs);
rad_assert(comp >= RLM_COMPONENT_AUTH);
- rad_assert(comp <= RLM_COMPONENT_COUNT);
+ rad_assert(comp < RLM_COMPONENT_COUNT);
/*
* Sanity check.
*/
if (!name2) {
- radlog(L_ERR|L_CONS,
- "%s[%d]: No name specified for %s block",
- filename, cf_section_lineno(cs),
- section_type_value[comp].typename);
+ cf_log_err(cf_sectiontoitem(cs),
+ "No name specified for %s block",
+ section_type_value[comp].typename);
return 1;
}
/*
* Compile the group.
*/
- ml = compile_modgroup(parent, comp, cs, filename);
+ ml = compile_modgroup(parent, comp, cs);
if (!ml) {
return 0;
- }
+ }
/*
* We must assign a numeric index to this subcomponent.
- * It is generated and placed in the dictionary by
- * setup_modules(), when it loads the sections. If it
- * isn't found, it's a serious error.
+ * It is generated and placed in the dictionary
+ * automatically. If it isn't found, it's a serious
+ * error.
*/
- dval = dict_valbyname(section_type_value[comp].attr, name2);
+ dval = dict_valbyname(attr, 0, name2);
if (!dval) {
- radlog(L_ERR|L_CONS,
- "%s[%d] %s %s Not previously configured",
- filename, cf_section_lineno(cs),
- section_type_value[comp].typename, name2);
+ cf_log_err(cf_sectiontoitem(cs),
+ "%s %s Not previously configured",
+ section_type_value[comp].typename, name2);
modcallable_free(&ml);
return 0;
}
- subcomp = new_sublist(comp, dval->value);
+ subcomp = new_sublist(components, comp, dval->value);
if (!subcomp) {
- radlog(L_ERR|L_CONS,
- "%s[%d] %s %s already configured - skipping",
- filename, cf_section_lineno(cs),
- section_type_value[comp].typename, name2);
modcallable_free(&ml);
return 1;
}
return 1; /* OK */
}
-static int load_component_section(modcallable *parent,
- CONF_SECTION *cs, int comp,
- const char *filename)
+static int define_type(const DICT_ATTR *dattr, const char *name)
+{
+ uint32_t value;
+ DICT_VALUE *dval;
+
+ /*
+ * If the value already exists, don't
+ * create it again.
+ */
+ dval = dict_valbyname(dattr->attr, dattr->vendor, name);
+ if (dval) return 1;
+
+ /*
+ * Create a new unique value with a
+ * meaningless number. You can't look at
+ * it from outside of this code, so it
+ * doesn't matter. The only requirement
+ * is that it's unique.
+ */
+ do {
+ value = fr_rand() & 0x00ffffff;
+ } while (dict_valbyattr(dattr->attr, dattr->vendor, value));
+
+ if (dict_addvalue(name, dattr->name, value) < 0) {
+ radlog(L_ERR, "%s", fr_strerror());
+ return 0;
+ }
+
+ return 1;
+}
+
+static int load_component_section(CONF_SECTION *cs,
+ rbtree_t *components, int comp)
{
modcallable *this;
CONF_ITEM *modref;
indexed_modcallable *subcomp;
const char *modname;
const char *visiblename;
+ const DICT_ATTR *dattr;
/*
- * Loop over the entries in the named section.
+ * Find the attribute used to store VALUEs for this section.
+ */
+ dattr = dict_attrbyvalue(section_type_value[comp].attr, 0);
+ if (!dattr) {
+ cf_log_err(cf_sectiontoitem(cs),
+ "No such attribute %s",
+ section_type_value[comp].typename);
+ return -1;
+ }
+
+ /*
+ * Loop over the entries in the named section, loading
+ * the sections this time.
*/
for (modref = cf_item_find_next(cs, NULL);
modref != NULL;
modref = cf_item_find_next(cs, modref)) {
+ const char *name1;
CONF_PAIR *cp = NULL;
CONF_SECTION *scs = NULL;
- /*
- * Look for Auth-Type foo {}, which are special
- * cases of named sections, and allowable ONLY
- * at the top-level.
- *
- * i.e. They're not allowed in a "group" or "redundant"
- * subsection.
- */
if (cf_item_is_section(modref)) {
- const char *sec_name;
scs = cf_itemtosection(modref);
- sec_name = cf_section_name1(scs);
+ name1 = cf_section_name1(scs);
- if (strcmp(sec_name,
+ if (strcmp(name1,
section_type_value[comp].typename) == 0) {
- if (!load_subcomponent_section(parent, scs,
- comp,
- filename)) {
+ if (!load_subcomponent_section(NULL, scs,
+ components,
+ dattr->attr,
+ comp)) {
return -1; /* FIXME: memleak? */
}
continue;
}
- /*
- * Allow old names, too.
- */
- if (strcmp(sec_name,
- old_section_type_value[comp].typename) == 0) {
- if (!load_subcomponent_section(parent, scs,
- comp,
- filename)) {
- return -1; /* FIXME: memleak? */
- }
- continue;
- }
cp = NULL;
+
} else if (cf_item_is_pair(modref)) {
cp = cf_itemtopair(modref);
+
} else {
continue; /* ignore it */
}
/*
* Try to compile one entry.
*/
- this = compile_modsingle(parent, comp, modref, filename,
- &modname);
+ this = compile_modsingle(NULL, comp, modref, &modname);
if (!this) {
- radlog(L_ERR|L_CONS,
- "%s[%d] Failed to parse %s section.\n",
- filename, cf_section_lineno(cs),
- cf_section_name1(cs));
+ cf_log_err(cf_sectiontoitem(cs),
+ "Errors parsing %s section.\n",
+ cf_section_name1(cs));
return -1;
}
+ /*
+ * Look for Auth-Type foo {}, which are special
+ * cases of named sections, and allowable ONLY
+ * at the top-level.
+ *
+ * i.e. They're not allowed in a "group" or "redundant"
+ * subsection.
+ */
if (comp == RLM_COMPONENT_AUTH) {
DICT_VALUE *dval;
const char *modrefname = NULL;
- int lineno = 0;
-
if (cp) {
modrefname = cf_pair_attr(cp);
- lineno = cf_pair_lineno(cp);
} else {
modrefname = cf_section_name2(scs);
- lineno = cf_section_lineno(scs);
if (!modrefname) {
- radlog(L_ERR|L_CONS,
- "%s[%d] Failed to parse %s sub-section.\n",
- filename, lineno,
- cf_section_name1(scs));
+ modcallable_free(&this);
+ cf_log_err(cf_sectiontoitem(cs),
+ "Errors parsing %s sub-section.\n",
+ cf_section_name1(scs));
return -1;
}
}
- dval = dict_valbyname(PW_AUTH_TYPE, modrefname);
+ dval = dict_valbyname(PW_AUTH_TYPE, 0, modrefname);
if (!dval) {
/*
* It's a section, but nothing we
* recognize. Die!
*/
- radlog(L_ERR|L_CONS, "%s[%d] Unknown Auth-Type \"%s\" in %s sub-section.",
- filename, lineno,
- modrefname, section_type_value[comp].section);
+ modcallable_free(&this);
+ cf_log_err(cf_sectiontoitem(cs),
+ "Unknown Auth-Type \"%s\" in %s sub-section.",
+ modrefname, section_type_value[comp].section);
return -1;
}
idx = dval->value;
idx = 0;
}
- subcomp = new_sublist(comp, idx);
+ subcomp = new_sublist(components, comp, idx);
if (subcomp == NULL) {
- radlog(L_INFO|L_CONS,
- "%s %s %s already configured - skipping",
- filename, section_type_value[comp].typename,
- modname);
modcallable_free(&this);
continue;
}
return 0;
}
-
-/*
- * Parse the module config sections, and load
- * and call each module's init() function.
- *
- * Libtool makes your life a LOT easier, especially with libltdl.
- * see: http://www.gnu.org/software/libtool/
- */
-int setup_modules(int reload)
+static int load_byserver(CONF_SECTION *cs)
{
- int comp;
- CONF_SECTION *cs, *modules;
- int do_component[RLM_COMPONENT_COUNT];
- rad_listen_t *listener;
+ int comp, flag;
+ const char *name = cf_section_name2(cs);
+ rbtree_t *components;
+ virtual_server_t *server = NULL;
+ indexed_modcallable *c;
+
+ if (name) {
+ cf_log_info(cs, "server %s { # from file %s",
+ name, cf_section_filename(cs));
+ } else {
+ cf_log_info(cs, "server { # from file %s",
+ cf_section_filename(cs));
+ }
+
+ cf_log_info(cs, " modules {");
+
+ components = rbtree_create(indexed_modcallable_cmp,
+ indexed_modcallable_free, 0);
+ if (!components) {
+ radlog(L_ERR, "Failed to initialize components\n");
+ goto error;
+ }
+
+ server = rad_malloc(sizeof(*server));
+ memset(server, 0, sizeof(*server));
+
+ server->name = name;
+ server->created = time(NULL);
+ server->cs = cs;
+ server->components = components;
/*
- * If necessary, initialize libltdl.
+ * Define types first.
*/
- if (!reload) {
+ for (comp = 0; comp < RLM_COMPONENT_COUNT; ++comp) {
+ CONF_SECTION *subcs;
+ CONF_ITEM *modref;
+ DICT_ATTR *dattr;
+
+ subcs = cf_section_sub_find(cs,
+ section_type_value[comp].section);
+ if (!subcs) continue;
+
+ if (cf_item_find_next(subcs, NULL) == NULL) continue;
+
/*
- * Set the default list of preloaded symbols.
- * This is used to initialize libltdl's list of
- * preloaded modules.
- *
- * i.e. Static modules.
+ * Find the attribute used to store VALUEs for this section.
*/
- LTDL_SET_PRELOADED_SYMBOLS();
-
- if (lt_dlinit() != 0) {
- radlog(L_ERR|L_CONS, "Failed to initialize libraries: %s\n",
- lt_dlerror());
+ dattr = dict_attrbyvalue(section_type_value[comp].attr, 0);
+ if (!dattr) {
+ cf_log_err(cf_sectiontoitem(subcs),
+ "No such attribute %s",
+ section_type_value[comp].typename);
+ error:
+ if (debug_flag == 0) {
+ radlog(L_ERR, "Failed to load virtual server %s",
+ (name != NULL) ? name : "<default>");
+ }
+ virtual_server_free(server);
return -1;
}
/*
- * Set the search path to ONLY our library directory.
- * This prevents the modules from being found from
- * any location on the disk.
+ * Define dynamic types, so that others can reference
+ * them.
*/
- lt_dlsetsearchpath(radlib_dir);
+ for (modref = cf_item_find_next(subcs, NULL);
+ modref != NULL;
+ modref = cf_item_find_next(subcs, modref)) {
+ const char *name1;
+ CONF_SECTION *subsubcs;
+
+ /*
+ * Create types for simple references
+ * only when parsing the authenticate
+ * section.
+ */
+ if ((section_type_value[comp].attr == PW_AUTH_TYPE) &&
+ cf_item_is_pair(modref)) {
+ CONF_PAIR *cp = cf_itemtopair(modref);
+ if (!define_type(dattr, cf_pair_attr(cp))) {
+ goto error;
+ }
- DEBUG2("Module: Library search path is %s",
- lt_dlgetsearchpath());
+ continue;
+ }
+
+ if (!cf_item_is_section(modref)) continue;
+
+ subsubcs = cf_itemtosection(modref);
+ name1 = cf_section_name1(subsubcs);
+
+ if (strcmp(name1, section_type_value[comp].typename) == 0) {
+ if (!define_type(dattr,
+ cf_section_name2(subsubcs))) {
+ goto error;
+ }
+ }
+ }
+ } /* loop over components */
+
+ /*
+ * Loop over all of the known components, finding their
+ * configuration section, and loading it.
+ */
+ flag = 0;
+ for (comp = 0; comp < RLM_COMPONENT_COUNT; ++comp) {
+ CONF_SECTION *subcs;
+
+ subcs = cf_section_sub_find(cs,
+ section_type_value[comp].section);
+ if (!subcs) continue;
+
+ if (cf_item_find_next(subcs, NULL) == NULL) continue;
+
+ cf_log_module(cs, "Checking %s {...} for more modules to load",
+ section_type_value[comp].section);
/*
- * Set up the internal module struct.
+ * Skip pre/post-proxy sections if we're not
+ * proxying.
*/
- module_tree = rbtree_create(module_entry_cmp,
- module_entry_free, 0);
- if (!module_tree) {
- radlog(L_ERR|L_CONS, "Failed to initialize modules\n");
- return -1;
+ if (
+#ifdef WITH_PROXY
+ !mainconfig.proxy_requests &&
+#endif
+ ((comp == RLM_COMPONENT_PRE_PROXY) ||
+ (comp == RLM_COMPONENT_POST_PROXY))) {
+ continue;
}
- } else {
- lrad_hash_table_free(components);
+
+ if (load_component_section(subcs, components, comp) < 0) {
+ goto error;
+ }
+
+ /*
+ * Cache a default, if it exists. Some people
+ * put empty sections for some reason...
+ */
+ c = lookup_by_index(components, comp, 0);
+ if (c) server->mc[comp] = c->modulelist;
+
+ server->subcs[comp] = subcs;
+
+ flag = 1;
+ } /* loop over components */
+
+ /*
+ * We haven't loaded any of the normal sections. Maybe we're
+ * supposed to load the vmps section.
+ *
+ * This is a bit of a hack...
+ */
+ if (!flag) {
+ CONF_SECTION *subcs;
+
+ subcs = cf_section_sub_find(cs, "vmps");
+ if (subcs) {
+ cf_log_module(cs, "Checking vmps {...} for more modules to load");
+ if (load_component_section(subcs, components,
+ RLM_COMPONENT_POST_AUTH) < 0) {
+ goto error;
+ }
+ c = lookup_by_index(components,
+ RLM_COMPONENT_POST_AUTH, 0);
+ if (c) server->mc[RLM_COMPONENT_POST_AUTH] = c->modulelist;
+ flag = 1;
+ }
+
+#ifdef WITH_DHCP
+ if (!flag) {
+ const DICT_ATTR *dattr;
+
+ dattr = dict_attrbyname("DHCP-Message-Type");
+
+ /*
+ * Handle each DHCP Message type separately.
+ */
+ if (dattr) for (subcs = cf_subsection_find_next(cs, NULL, "dhcp");
+ subcs != NULL;
+ subcs = cf_subsection_find_next(cs, subcs,
+ "dhcp")) {
+ const char *name2 = cf_section_name2(subcs);
+
+ DEBUG2(" Module: Checking dhcp %s {...} for more modules to load", name2);
+ if (!load_subcomponent_section(NULL, subcs,
+ components,
+ dattr->attr,
+ RLM_COMPONENT_POST_AUTH)) {
+ goto error; /* FIXME: memleak? */
+ }
+ c = lookup_by_index(components,
+ RLM_COMPONENT_POST_AUTH, 0);
+ if (c) server->mc[RLM_COMPONENT_POST_AUTH] = c->modulelist;
+ flag = 1;
+ }
+ }
+#endif
}
- components = lrad_hash_table_create(indexed_modcallable_hash,
- indexed_modcallable_cmp,
- indexed_modcallable_free);
- if (!components) {
- radlog(L_ERR|L_CONS, "Failed to initialize components\n");
- return -1;
+ cf_log_info(cs, " } # modules");
+ cf_log_info(cs, "} # server");
+
+ if (!flag && name) {
+ DEBUG("WARNING: Server %s is empty, and will do nothing!",
+ name);
+ }
+
+ if (debug_flag == 0) {
+ radlog(L_INFO, "Loaded virtual server %s",
+ (name != NULL) ? name : "<default>");
}
/*
- * Figure out which sections to load.
+ * Now that it is OK, insert it into the list.
+ *
+ * This is thread-safe...
*/
- memset(do_component, 0, sizeof(do_component));
- for (listener = mainconfig.listen;
- listener != NULL;
- listener = listener->next) {
- switch (listener->type) {
- case RAD_LISTEN_AUTH:
- do_component[RLM_COMPONENT_AUTZ] = 1;
- do_component[RLM_COMPONENT_AUTH] = 1;
- do_component[RLM_COMPONENT_POST_AUTH] = 1;
- do_component[RLM_COMPONENT_SESS] = 1;
- break;
+ comp = virtual_server_idx(name);
+ server->next = virtual_servers[comp];
+ virtual_servers[comp] = server;
- case RAD_LISTEN_DETAIL: /* just like acct */
- case RAD_LISTEN_ACCT:
- do_component[RLM_COMPONENT_PREACCT] = 1;
- do_component[RLM_COMPONENT_ACCT] = 1;
+ /*
+ * Mark OLDER ones of the same name as being unused.
+ */
+ server = server->next;
+ while (server) {
+ if ((!name && !server->name) ||
+ (name && server->name &&
+ (strcmp(server->name, name) == 0))) {
+ server->can_free = TRUE;
break;
+ }
+ server = server->next;
+ }
- case RAD_LISTEN_PROXY:
- do_component[RLM_COMPONENT_PRE_PROXY] = 1;
- do_component[RLM_COMPONENT_POST_PROXY] = 1;
- break;
+ return 0;
+}
- default:
- rad_assert(0 == 1);
- break;
+
+/*
+ * Load all of the virtual servers.
+ */
+int virtual_servers_load(CONF_SECTION *config)
+{
+ int null_server = FALSE;
+ CONF_SECTION *cs;
+ static int first_time = TRUE;
+
+ DEBUG2("%s: #### Loading Virtual Servers ####", mainconfig.name);
+
+ /*
+ * Load all of the virtual servers.
+ */
+ for (cs = cf_subsection_find_next(config, NULL, "server");
+ cs != NULL;
+ cs = cf_subsection_find_next(config, cs, "server")) {
+ if (!cf_section_name2(cs)) null_server = TRUE;
+
+ if (load_byserver(cs) < 0) {
+ /*
+ * Once we successfully staryed once,
+ * continue loading the OTHER servers,
+ * even if one fails.
+ */
+ if (!first_time) continue;
+ return -1;
}
}
- for (comp = RLM_COMPONENT_AUTH; comp < RLM_COMPONENT_COUNT; comp++) {
- /*
- * Have the debugging messages all in one place.
- */
- if (!do_component[comp]) {
- DEBUG2("modules: Not loading %s{} section",
- section_type_value[comp].section);
+ /*
+ * No empty server defined. Try to load an old-style
+ * one for backwards compatibility.
+ */
+ if (!null_server) {
+ if (load_byserver(config) < 0) {
+ return -1;
}
}
/*
- * Create any DICT_VALUE's for the types. See
- * 'doc/configurable_failover' for examples of 'authtype'
- * used to create new Auth-Type values. In order to
- * let the user create new names, we've got to look for
- * those names, and create DICT_VALUE's for them.
+ * If we succeed the first time around, remember that.
+ */
+ first_time = FALSE;
+
+ return 0;
+}
+
+int module_hup_module(CONF_SECTION *cs, module_instance_t *node, time_t when)
+{
+ void *insthandle = NULL;
+ fr_module_hup_t *mh;
+
+ if (!node ||
+ !node->entry->module->instantiate ||
+ ((node->entry->module->type & RLM_TYPE_HUP_SAFE) == 0)) {
+ return 1;
+ }
+
+ cf_log_module(cs, "Trying to reload module \"%s\"", node->name);
+
+ if ((node->entry->module->instantiate)(cs, &insthandle) < 0) {
+ cf_log_err(cf_sectiontoitem(cs),
+ "HUP failed for module \"%s\". Using old configuration.",
+ node->name);
+ return 0;
+ }
+
+ radlog(L_INFO, " Module: Reloaded module \"%s\"", node->name);
+
+ module_instance_free_old(cs, node, when);
+
+ /*
+ * Save the old instance handle for later deletion.
*/
- for (comp = RLM_COMPONENT_AUTH; comp < RLM_COMPONENT_COUNT; comp++) {
- int value;
- const char *name2;
- DICT_ATTR *dattr;
- DICT_VALUE *dval;
- CONF_SECTION *sub, *next;
- CONF_PAIR *cp;
+ mh = rad_malloc(sizeof(*mh));
+ mh->mi = node;
+ mh->when = when;
+ mh->insthandle = node->insthandle;
+ mh->next = node->mh;
+ node->mh = mh;
+
+ node->insthandle = insthandle;
+
+ /*
+ * FIXME: Set a timeout to come back in 60s, so that
+ * we can pro-actively clean up the old instances.
+ */
+
+ return 1;
+}
+
+
+int module_hup(CONF_SECTION *modules)
+{
+ time_t when;
+ CONF_ITEM *ci;
+ CONF_SECTION *cs;
+ module_instance_t *node;
+
+ if (!modules) return 0;
+
+ when = time(NULL);
+
+ /*
+ * Loop over the modules
+ */
+ for (ci=cf_item_find_next(modules, NULL);
+ ci != NULL;
+ ci=cf_item_find_next(modules, ci)) {
+ const char *instname;
+ module_instance_t myNode;
/*
- * Not needed, don't load it.
+ * If it's not a section, ignore it.
*/
- if (!do_component[comp]) {
- continue;
- }
- cs = cf_section_find(section_type_value[comp].section);
+ if (!cf_item_is_section(ci)) continue;
- if (!cs) continue;
-
- sub = NULL;
- do {
- /*
- * See if there's a sub-section by that
- * name.
- */
- next = cf_subsection_find_next(cs, sub,
- section_type_value[comp].typename);
+ cs = cf_itemtosection(ci);
+ instname = cf_section_name2(cs);
+ if (!instname) instname = cf_section_name1(cs);
- /*
- * Allow some old names, too.
- */
- if (!next && (comp <= 4)) {
- next = cf_subsection_find_next(cs, sub,
- old_section_type_value[comp].typename);
- }
- sub = next;
+ strlcpy(myNode.name, instname, sizeof(myNode.name));
+ node = rbtree_finddata(instance_tree, &myNode);
- /*
- * If so, look for it to define a new
- * value.
- */
- name2 = cf_section_name2(sub);
- if (!name2) continue;
+ module_hup_module(cs, node, when);
+ }
+ return 1;
+}
- /*
- * If the value already exists, don't
- * create it again.
- */
- dval = dict_valbyname(section_type_value[comp].attr,
- name2);
- if (dval) continue;
- /*
- * Find the attribute for the value.
- */
- dattr = dict_attrbyvalue(section_type_value[comp].attr);
- if (!dattr) {
- radlog(L_ERR, "%s[%d]: No such attribute %s",
- mainconfig.radiusd_conf,
- cf_section_lineno(sub),
- section_type_value[comp].typename);
- continue;
- }
+/*
+ * Parse the module config sections, and load
+ * and call each module's init() function.
+ *
+ * Libtool makes your life a LOT easier, especially with libltdl.
+ * see: http://www.gnu.org/software/libtool/
+ */
+int setup_modules(int reload, CONF_SECTION *config)
+{
+ CONF_SECTION *cs, *modules;
+ rad_listen_t *listener;
- /*
- * Create a new unique value with a
- * meaningless number. You can't look at
- * it from outside of this code, so it
- * doesn't matter. The only requirement
- * is that it's unique.
- */
- do {
- value = lrad_rand() & 0x00ffffff;
- } while (dict_valbyattr(dattr->attr, value));
+ if (reload) return 0;
- if (dict_addvalue(name2, dattr->name, value) < 0) {
- radlog(L_ERR, "%s", librad_errstr);
- return -1;
- }
- } while (sub != NULL);
+ /*
+ * If necessary, initialize libltdl.
+ */
+ if (!reload) {
+ /*
+ * This line works around a completely
+ *
+ * RIDICULOUS INSANE IDIOTIC
+ *
+ * bug in libltdl on certain systems. The "set
+ * preloaded symbols" macro below ends up
+ * referencing this name, but it isn't defined
+ * anywhere in the libltdl source. As a result,
+ * any program STUPID enough to rely on libltdl
+ * fails to link, because the symbol isn't
+ * defined anywhere.
+ *
+ * It's like libtool and libltdl are some kind
+ * of sick joke.
+ */
+#ifdef IE_LIBTOOL_DIE
+#define lt__PROGRAM__LTX_preloaded_symbols lt_libltdl_LTX_preloaded_symbols
+#endif
/*
- * Loop over the non-sub-sections, too.
+ * Set the default list of preloaded symbols.
+ * This is used to initialize libltdl's list of
+ * preloaded modules.
+ *
+ * i.e. Static modules.
*/
- cp = NULL;
- do {
- /*
- * See if there's a conf-pair by that
- * name.
- */
- cp = cf_pair_find_next(cs, cp, NULL);
- if (!cp) break;
+ LTDL_SET_PRELOADED_SYMBOLS();
+ if (lt_dlinit() != 0) {
+ radlog(L_ERR, "Failed to initialize libraries: %s\n",
+ lt_dlerror());
+ return -1;
+ }
- /*
- * If the value already exists, don't
- * create it again.
- */
- name2 = cf_pair_attr(cp);
- dval = dict_valbyname(section_type_value[comp].attr,
- name2);
- if (dval) continue;
+ /*
+ * Set the search path to ONLY our library directory.
+ * This prevents the modules from being found from
+ * any location on the disk.
+ */
+ lt_dlsetsearchpath(radlib_dir);
- /*
- * Find the attribute for the value.
- */
- dattr = dict_attrbyvalue(section_type_value[comp].attr);
- if (!dattr) {
- radlog(L_ERR, "%s[%d]: No such attribute %s",
- mainconfig.radiusd_conf,
- cf_section_lineno(sub),
- section_type_value[comp].typename);
- continue;
- }
+ /*
+ * Set up the internal module struct.
+ */
+ module_tree = rbtree_create(module_entry_cmp,
+ module_entry_free, 0);
+ if (!module_tree) {
+ radlog(L_ERR, "Failed to initialize modules\n");
+ return -1;
+ }
- /*
- * Finally, create the new attribute.
- */
- do {
- value = lrad_rand() & 0x00ffffff;
- } while (dict_valbyattr(dattr->attr, value));
- if (dict_addvalue(name2, dattr->name, value) < 0) {
- radlog(L_ERR, "%s", librad_errstr);
- return -1;
- }
- } while (cp != NULL);
- } /* over the sections which can have redundent sub-sections */
+ instance_tree = rbtree_create(module_instance_cmp,
+ module_instance_free, 0);
+ if (!instance_tree) {
+ radlog(L_ERR, "Failed to initialize modules\n");
+ return -1;
+ }
+ }
+
+ memset(virtual_servers, 0, sizeof(virtual_servers));
/*
* Remember where the modules were stored.
*/
- modules = cf_section_find("modules");
+ modules = cf_section_sub_find(config, "modules");
if (!modules) {
radlog(L_ERR, "Cannot find a \"modules\" section in the configuration file!");
return -1;
}
+ DEBUG2("%s: #### Instantiating modules ####", mainconfig.name);
+
/*
* Look for the 'instantiate' section, which tells us
* the instantiation order of the modules, and also allows
* us to load modules with no authorize/authenticate/etc.
* sections.
*/
- cs = cf_section_find("instantiate");
+ cs = cf_section_sub_find(config, "instantiate");
if (cs != NULL) {
CONF_ITEM *ci;
CONF_PAIR *cp;
module_instance_t *module;
const char *name;
+ cf_log_info(cs, " instantiate {");
+
/*
* Loop over the items in the 'instantiate' section.
*/
ci=cf_item_find_next(cs, ci)) {
/*
- * Skip sections. They'll be handled
- * later, if they're referenced at all...
+ * Skip sections and "other" stuff.
+ * Sections will be handled later, if
+ * they're referenced at all...
*/
- if (cf_item_is_section(ci)) {
+ if (!cf_item_is_pair(ci)) {
continue;
}
cp = cf_itemtopair(ci);
name = cf_pair_attr(cp);
- module = find_module_instance(modules, name);
+ module = find_module_instance(modules, name, 1);
if (!module) {
return -1;
}
} /* loop over items in the subsection */
+
+ cf_log_info(cs, " }");
} /* if there's an 'instantiate' section. */
/*
- * Loop over all of the known components, finding their
- * configuration section, and loading it.
+ * Loop over the listeners, figuring out which sections
+ * to load.
*/
- for (comp = 0; comp < RLM_COMPONENT_COUNT; ++comp) {
- cs = cf_section_find(section_type_value[comp].section);
- if (cs == NULL)
- continue;
+ for (listener = mainconfig.listen;
+ listener != NULL;
+ listener = listener->next) {
+ char buffer[256];
- if (!do_component[comp]) {
- continue;
- }
+#ifdef WITH_PROXY
+ if (listener->type == RAD_LISTEN_PROXY) continue;
+#endif
- if (load_component_section(NULL, cs, comp, mainconfig.radiusd_conf) < 0) {
+ cs = cf_section_sub_find_name2(config,
+ "server", listener->server);
+ if (!cs && (listener->server != NULL)) {
+ listener->print(listener, buffer, sizeof(buffer));
+
+ radlog(L_ERR, "No server has been defined for %s", buffer);
return -1;
}
}
+ if (virtual_servers_load(config) < 0) return -1;
+
return 0;
}
*/
int module_authorize(int autz_type, REQUEST *request)
{
- /*
- * Older versions of the server would pass proxy requests
- * through the 'authorize' sections twice; once when the
- * packet was received from the NAS, and again after the
- * reply was received from the home server. Now that we
- * have a 'post_proxy' section, the replies from the home
- * server should be sent through that, instead of through
- * the 'authorize' section again.
- */
- if (request->proxy != NULL) {
- DEBUG2(" authorize: Skipping authorize in post-proxy stage");
- return RLM_MODULE_NOOP;
- }
-
return indexed_modcall(RLM_COMPONENT_AUTZ, autz_type, request);
}
return indexed_modcall(RLM_COMPONENT_AUTH, auth_type, request);
}
+#ifdef WITH_ACCOUNTING
/*
* Do pre-accounting for ALL configured sessions
*/
{
return indexed_modcall(RLM_COMPONENT_ACCT, acct_type, request);
}
+#endif
+#ifdef WITH_SESSION_MGMT
/*
* See if a user is already logged in.
*
return (request->simul_count < maxsimul) ? 0 : request->simul_mpp;
}
+#endif
+#ifdef WITH_PROXY
/*
* Do pre-proxying for ALL configured sessions
*/
{
return indexed_modcall(RLM_COMPONENT_POST_PROXY, type, request);
}
+#endif
/*
* Do post-authentication for ALL configured sessions
return indexed_modcall(RLM_COMPONENT_POST_AUTH, postauth_type, request);
}
+#ifdef WITH_COA
+int module_recv_coa(int recv_coa_type, REQUEST *request)
+{
+ return indexed_modcall(RLM_COMPONENT_RECV_COA, recv_coa_type, request);
+}
+
+int module_send_coa(int send_coa_type, REQUEST *request)
+{
+ return indexed_modcall(RLM_COMPONENT_SEND_COA, send_coa_type, request);
+}
+#endif