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// SPDX-License-Identifier: GPL-3.0-or-later
#include "daemon/common.h"
#include "registry_internals.h"
#define REGISTRY_STATUS_OK "ok"
#define REGISTRY_STATUS_FAILED "failed"
#define REGISTRY_STATUS_DISABLED "disabled"
// ----------------------------------------------------------------------------
// REGISTRY concurrency locking
static inline void registry_lock(void) {
netdata_mutex_lock(®istry.lock);
}
static inline void registry_unlock(void) {
netdata_mutex_unlock(®istry.lock);
}
// ----------------------------------------------------------------------------
// COOKIES
static void registry_set_cookie(struct web_client *w, const char *guid) {
char edate[100], domain[512];
time_t et = now_realtime_sec() + registry.persons_expiration;
struct tm etmbuf, *etm = gmtime_r(&et, &etmbuf);
strftime(edate, sizeof(edate), "%a, %d %b %Y %H:%M:%S %Z", etm);
snprintfz(w->cookie1, NETDATA_WEB_REQUEST_COOKIE_SIZE, NETDATA_REGISTRY_COOKIE_NAME "=%s; Expires=%s", guid, edate);
if(registry.registry_domain && registry.registry_domain[0])
snprintfz(domain, 511, "Domain=%s", registry.registry_domain);
else
domain[0]='\0';
int length = snprintfz(w->cookie2, NETDATA_WEB_REQUEST_COOKIE_SIZE,
NETDATA_REGISTRY_COOKIE_NAME "=%s; Expires=%s; %s",
guid, edate, domain);
size_t remaining_length = NETDATA_WEB_REQUEST_COOKIE_SIZE - length;
// 25 is the necessary length to add new cookies
if (registry.enable_cookies_samesite_secure) {
if (length > 0 && remaining_length > 25)
snprintfz(&w->cookie2[length], remaining_length, "; SameSite=None; Secure");
else
error("Netdata does not have enough space to store cookies SameSite and Secure");
}
}
static inline void registry_set_person_cookie(struct web_client *w, REGISTRY_PERSON *p) {
registry_set_cookie(w, p->guid);
}
// ----------------------------------------------------------------------------
// JSON GENERATION
static inline void registry_json_header(RRDHOST *host, struct web_client *w, const char *action, const char *status) {
buffer_flush(w->response.data);
w->response.data->contenttype = CT_APPLICATION_JSON;
buffer_sprintf(w->response.data, "{\n\t\"action\": \"%s\",\n\t\"status\": \"%s\",\n\t\"hostname\": \"%s\",\n\t\"machine_guid\": \"%s\"",
action, status, host->registry_hostname, host->machine_guid);
}
static inline void registry_json_footer(struct web_client *w) {
buffer_strcat(w->response.data, "\n}\n");
}
static inline int registry_json_disabled(RRDHOST *host, struct web_client *w, const char *action) {
registry_json_header(host, w, action, REGISTRY_STATUS_DISABLED);
buffer_sprintf(w->response.data, ",\n\t\"registry\": \"%s\"",
registry.registry_to_announce);
registry_json_footer(w);
return 200;
}
// ----------------------------------------------------------------------------
// CALLBACKS FOR WALKING THROUGH REGISTRY OBJECTS
// structure used be the callbacks below
struct registry_json_walk_person_urls_callback {
REGISTRY_PERSON *p;
REGISTRY_MACHINE *m;
struct web_client *w;
int count;
};
// callback for rendering PERSON_URLs
static int registry_json_person_url_callback(void *entry, void *data) {
REGISTRY_PERSON_URL *pu = (REGISTRY_PERSON_URL *)entry;
struct registry_json_walk_person_urls_callback *c = (struct registry_json_walk_person_urls_callback *)data;
struct web_client *w = c->w;
if (!strcmp(pu->url->url,"***")) return 0;
if(unlikely(c->count++))
buffer_strcat(w->response.data, ",");
buffer_sprintf(w->response.data, "\n\t\t[ \"%s\", \"%s\", %u000, %u, \"%s\" ]",
pu->machine->guid, pu->url->url, pu->last_t, pu->usages, pu->machine_name);
return 0;
}
// callback for rendering MACHINE_URLs
static int registry_json_machine_url_callback(const char *name, void *entry, void *data) {
(void)name;
REGISTRY_MACHINE_URL *mu = (REGISTRY_MACHINE_URL *)entry;
struct registry_json_walk_person_urls_callback *c = (struct registry_json_walk_person_urls_callback *)data;
struct web_client *w = c->w;
REGISTRY_MACHINE *m = c->m;
if (!strcmp(mu->url->url,"***")) return 1;
if(unlikely(c->count++))
buffer_strcat(w->response.data, ",");
buffer_sprintf(w->response.data, "\n\t\t[ \"%s\", \"%s\", %u000, %u ]",
m->guid, mu->url->url, mu->last_t, mu->usages);
return 1;
}
// ----------------------------------------------------------------------------
// structure used be the callbacks below
struct registry_person_url_callback_verify_machine_exists_data {
REGISTRY_MACHINE *m;
int count;
};
static inline int registry_person_url_callback_verify_machine_exists(void *entry, void *data) {
struct registry_person_url_callback_verify_machine_exists_data *d = (struct registry_person_url_callback_verify_machine_exists_data *)data;
REGISTRY_PERSON_URL *pu = (REGISTRY_PERSON_URL *)entry;
REGISTRY_MACHINE *m = d->m;
if(pu->machine == m)
d->count++;
return 0;
}
// ----------------------------------------------------------------------------
// dynamic update of the configuration
// The registry does not seem to be designed to support this and I cannot see any concurrency protection
// that could make this safe, so try to be as atomic as possible.
void registry_update_cloud_base_url()
{
// This is guaranteed to be set early in main via post_conf_load()
registry.cloud_base_url = appconfig_get(&cloud_config, CONFIG_SECTION_GLOBAL, "cloud base url", NULL);
if (registry.cloud_base_url == NULL)
fatal("Do not move the cloud base url out of post_conf_load!!");
setenv("NETDATA_REGISTRY_CLOUD_BASE_URL", registry.cloud_base_url, 1);
}
// ----------------------------------------------------------------------------
// public HELLO request
int registry_request_hello_json(RRDHOST *host, struct web_client *w) {
registry_json_header(host, w, "hello", REGISTRY_STATUS_OK);
buffer_sprintf(w->response.data,
",\n\t\"registry\": \"%s\",\n\t\"cloud_base_url\": \"%s\",\n\t\"anonymous_statistics\": %s",
registry.registry_to_announce,
registry.cloud_base_url, netdata_anonymous_statistics_enabled?"true":"false");
registry_json_footer(w);
return 200;
}
// ----------------------------------------------------------------------------
//public ACCESS request
#define REGISTRY_VERIFY_COOKIES_GUID "give-me-back-this-cookie-now--please"
// the main method for registering an access
int registry_request_access_json(RRDHOST *host, struct web_client *w, char *person_guid, char *machine_guid, char *url, char *name, time_t when) {
if(unlikely(!registry.enabled))
return registry_json_disabled(host, w, "access");
// ------------------------------------------------------------------------
// verify the browser supports cookies
if(registry.verify_cookies_redirects > 0 && !person_guid[0]) {
buffer_flush(w->response.data);
registry_set_cookie(w, REGISTRY_VERIFY_COOKIES_GUID);
w->response.data->contenttype = CT_APPLICATION_JSON;
buffer_sprintf(w->response.data, "{ \"status\": \"redirect\", \"registry\": \"%s\" }", registry.registry_to_announce);
return 200;
}
if(unlikely(person_guid[0] && !strcmp(person_guid, REGISTRY_VERIFY_COOKIES_GUID)))
person_guid[0] = '\0';
// ------------------------------------------------------------------------
registry_lock();
REGISTRY_PERSON *p = registry_request_access(person_guid, machine_guid, url, name, when);
if(!p) {
registry_json_header(host, w, "access", REGISTRY_STATUS_FAILED);
registry_json_footer(w);
registry_unlock();
return 412;
}
// set the cookie
registry_set_person_cookie(w, p);
// generate the response
registry_json_header(host, w, "access", REGISTRY_STATUS_OK);
buffer_sprintf(w->response.data, ",\n\t\"person_guid\": \"%s\",\n\t\"urls\": [", p->guid);
struct registry_json_walk_person_urls_callback c = { p, NULL, w, 0 };
avl_traverse(&p->person_urls, registry_json_person_url_callback, &c);
buffer_strcat(w->response.data, "\n\t]\n");
registry_json_footer(w);
registry_unlock();
return 200;
}
// ----------------------------------------------------------------------------
// public DELETE request
// the main method for deleting a URL from a person
int registry_request_delete_json(RRDHOST *host, struct web_client *w, char *person_guid, char *machine_guid, char *url, char *delete_url, time_t when) {
if(!registry.enabled)
return registry_json_disabled(host, w, "delete");
registry_lock();
REGISTRY_PERSON *p = registry_request_delete(person_guid, machine_guid, url, delete_url, when);
if(!p) {
registry_json_header(host, w, "delete", REGISTRY_STATUS_FAILED);
registry_json_footer(w);
registry_unlock();
return 412;
}
// generate the response
registry_json_header(host, w, "delete", REGISTRY_STATUS_OK);
registry_json_footer(w);
registry_unlock();
return 200;
}
// ----------------------------------------------------------------------------
// public SEARCH request
// the main method for searching the URLs of a netdata
int registry_request_search_json(RRDHOST *host, struct web_client *w, char *person_guid, char *machine_guid, char *url, char *request_machine, time_t when) {
if(!registry.enabled)
return registry_json_disabled(host, w, "search");
registry_lock();
REGISTRY_MACHINE *m = registry_request_machine(person_guid, machine_guid, url, request_machine, when);
if(!m) {
registry_json_header(host, w, "search", REGISTRY_STATUS_FAILED);
registry_json_footer(w);
registry_unlock();
return 404;
}
registry_json_header(host, w, "search", REGISTRY_STATUS_OK);
buffer_strcat(w->response.data, ",\n\t\"urls\": [");
struct registry_json_walk_person_urls_callback c = { NULL, m, w, 0 };
dictionary_walkthrough_read(m->machine_urls, registry_json_machine_url_callback, &c);
buffer_strcat(w->response.data, "\n\t]\n");
registry_json_footer(w);
registry_unlock();
return 200;
}
// ----------------------------------------------------------------------------
// SWITCH REQUEST
// the main method for switching user identity
int registry_request_switch_json(RRDHOST *host, struct web_client *w, char *person_guid, char *machine_guid, char *url, char *new_person_guid, time_t when) {
if(!registry.enabled)
return registry_json_disabled(host, w, "switch");
(void)url;
(void)when;
registry_lock();
REGISTRY_PERSON *op = registry_person_find(person_guid);
if(!op) {
registry_json_header(host, w, "switch", REGISTRY_STATUS_FAILED);
registry_json_footer(w);
registry_unlock();
return 430;
}
REGISTRY_PERSON *np = registry_person_find(new_person_guid);
if(!np) {
registry_json_header(host, w, "switch", REGISTRY_STATUS_FAILED);
registry_json_footer(w);
registry_unlock();
return 431;
}
REGISTRY_MACHINE *m = registry_machine_find(machine_guid);
if(!m) {
registry_json_header(host, w, "switch", REGISTRY_STATUS_FAILED);
registry_json_footer(w);
registry_unlock();
return 432;
}
struct registry_person_url_callback_verify_machine_exists_data data = { m, 0 };
// verify the old person has access to this machine
avl_traverse(&op->person_urls, registry_person_url_callback_verify_machine_exists, &data);
if(!data.count) {
registry_json_header(host, w, "switch", REGISTRY_STATUS_FAILED);
registry_json_footer(w);
registry_unlock();
return 433;
}
// verify the new person has access to this machine
data.count = 0;
avl_traverse(&np->person_urls, registry_person_url_callback_verify_machine_exists, &data);
if(!data.count) {
registry_json_header(host, w, "switch", REGISTRY_STATUS_FAILED);
registry_json_footer(w);
registry_unlock();
return 434;
}
// set the cookie of the new person
// the user just switched identity
registry_set_person_cookie(w, np);
// generate the response
registry_json_header(host, w, "switch", REGISTRY_STATUS_OK);
buffer_sprintf(w->response.data, ",\n\t\"person_guid\": \"%s\"", np->guid);
registry_json_footer(w);
registry_unlock();
return 200;
}
// ----------------------------------------------------------------------------
// STATISTICS
void registry_statistics(void) {
if(!registry.enabled) return;
static RRDSET *sts = NULL, *stc = NULL, *stm = NULL;
if(unlikely(!sts)) {
sts = rrdset_create_localhost(
"netdata"
, "registry_sessions"
, NULL
, "registry"
, NULL
, "Netdata Registry Sessions"
, "sessions"
, "registry"
, "stats"
, 131000
, localhost->rrd_update_every
, RRDSET_TYPE_LINE
);
rrddim_add(sts, "sessions", NULL, 1, 1, RRD_ALGORITHM_ABSOLUTE);
}
else rrdset_next(sts);
rrddim_set(sts, "sessions", registry.usages_count);
rrdset_done(sts);
// ------------------------------------------------------------------------
if(unlikely(!stc)) {
stc = rrdset_create_localhost(
"netdata"
, "registry_entries"
, NULL
, "registry"
, NULL
, "Netdata Registry Entries"
, "entries"
, "registry"
, "stats"
, 131100
, localhost->rrd_update_every
, RRDSET_TYPE_LINE
);
rrddim_add(stc, "persons", NULL, 1, 1, RRD_ALGORITHM_ABSOLUTE);
rrddim_add(stc, "machines", NULL, 1, 1, RRD_ALGORITHM_ABSOLUTE);
rrddim_add(stc, "urls", NULL, 1, 1, RRD_ALGORITHM_ABSOLUTE);
rrddim_add(stc, "persons_urls", NULL, 1, 1, RRD_ALGORITHM_ABSOLUTE);
rrddim_add(stc, "machines_urls", NULL, 1, 1, RRD_ALGORITHM_ABSOLUTE);
}
else rrdset_next(stc);
rrddim_set(stc, "persons", registry.persons_count);
rrddim_set(stc, "machines", registry.machines_count);
rrddim_set(stc, "urls", registry.urls_count);
rrddim_set(stc, "persons_urls", registry.persons_urls_count);
rrddim_set(stc, "machines_urls", registry.machines_urls_count);
rrdset_done(stc);
// ------------------------------------------------------------------------
if(unlikely(!stm)) {
stm = rrdset_create_localhost(
"netdata"
, "registry_mem"
, NULL
, "registry"
, NULL
, "Netdata Registry Memory"
, "KiB"
, "registry"
, "stats"
, 131300
, localhost->rrd_update_every
, RRDSET_TYPE_STACKED
);
rrddim_add(stm, "persons", NULL, 1, 1024, RRD_ALGORITHM_ABSOLUTE);
rrddim_add(stm, "machines", NULL, 1, 1024, RRD_ALGORITHM_ABSOLUTE);
rrddim_add(stm, "urls", NULL, 1, 1024, RRD_ALGORITHM_ABSOLUTE);
rrddim_add(stm, "persons_urls", NULL, 1, 1024, RRD_ALGORITHM_ABSOLUTE);
rrddim_add(stm, "machines_urls", NULL, 1, 1024, RRD_ALGORITHM_ABSOLUTE);
}
else rrdset_next(stm);
rrddim_set(stm, "persons", registry.persons_memory + dictionary_stats_allocated_memory(registry.persons));
rrddim_set(stm, "machines", registry.machines_memory + dictionary_stats_allocated_memory(registry.machines));
rrddim_set(stm, "urls", registry.urls_memory);
rrddim_set(stm, "persons_urls", registry.persons_urls_memory);
rrddim_set(stm, "machines_urls", registry.machines_urls_memory);
rrdset_done(stm);
}
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