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#include "registry_internals.h"
struct registry registry;
// ----------------------------------------------------------------------------
// common functions
// parse a GUID and re-generated to be always lower case
// this is used as a protection against the variations of GUIDs
int registry_regenerate_guid(const char *guid, char *result) {
uuid_t uuid;
if(unlikely(uuid_parse(guid, uuid) == -1)) {
info("Registry: GUID '%s' is not a valid GUID.", guid);
return -1;
}
else {
uuid_unparse_lower(uuid, result);
#ifdef NETDATA_INTERNAL_CHECKS
if(strcmp(guid, result))
info("Registry: source GUID '%s' and re-generated GUID '%s' differ!", guid, result);
#endif /* NETDATA_INTERNAL_CHECKS */
}
return 0;
}
// make sure the names of the machines / URLs do not contain any tabs
// (which are used as our separator in the database files)
// and are properly trimmed (before and after)
static inline char *registry_fix_machine_name(char *name, size_t *len) {
char *s = name?name:"";
// skip leading spaces
while(*s && isspace(*s)) s++;
// make sure all spaces are a SPACE
char *t = s;
while(*t) {
if(unlikely(isspace(*t)))
*t = ' ';
t++;
}
// remove trailing spaces
while(--t >= s) {
if(*t == ' ')
*t = '\0';
else
break;
}
t++;
if(likely(len))
*len = (t - s);
return s;
}
static inline char *registry_fix_url(char *url, size_t *len) {
size_t l = 0;
char *s = registry_fix_machine_name(url, &l);
// protection from too big URLs
if(l > registry.max_url_length) {
l = registry.max_url_length;
s[l] = '\0';
}
if(len) *len = l;
return s;
}
// ----------------------------------------------------------------------------
// forward definition of functions
extern REGISTRY_PERSON *registry_request_access(char *person_guid, char *machine_guid, char *url, char *name, time_t when);
extern REGISTRY_PERSON *registry_request_delete(char *person_guid, char *machine_guid, char *url, char *delete_url, time_t when);
// ----------------------------------------------------------------------------
// HELPERS
// verify the person, the machine and the URL exist in our DB
REGISTRY_PERSON_URL *registry_verify_request(char *person_guid, char *machine_guid, char *url, REGISTRY_PERSON **pp, REGISTRY_MACHINE **mm) {
char pbuf[GUID_LEN + 1], mbuf[GUID_LEN + 1];
if(!person_guid || !*person_guid || !machine_guid || !*machine_guid || !url || !*url) {
info("Registry Request Verification: invalid request! person: '%s', machine '%s', url '%s'", person_guid?person_guid:"UNSET", machine_guid?machine_guid:"UNSET", url?url:"UNSET");
return NULL;
}
// normalize the url
url = registry_fix_url(url, NULL);
// make sure the person GUID is valid
if(registry_regenerate_guid(person_guid, pbuf) == -1) {
info("Registry Request Verification: invalid person GUID, person: '%s', machine '%s', url '%s'", person_guid, machine_guid, url);
return NULL;
}
person_guid = pbuf;
// make sure the machine GUID is valid
if(registry_regenerate_guid(machine_guid, mbuf) == -1) {
info("Registry Request Verification: invalid machine GUID, person: '%s', machine '%s', url '%s'", person_guid, machine_guid, url);
return NULL;
}
machine_guid = mbuf;
// make sure the machine exists
REGISTRY_MACHINE *m = registry_machine_find(machine_guid);
if(!m) {
info("Registry Request Verification: machine not found, person: '%s', machine '%s', url '%s'", person_guid, machine_guid, url);
return NULL;
}
if(mm) *mm = m;
// make sure the person exist
REGISTRY_PERSON *p = registry_person_find(person_guid);
if(!p) {
info("Registry Request Verification: person not found, person: '%s', machine '%s', url '%s'", person_guid, machine_guid, url);
return NULL;
}
if(pp) *pp = p;
REGISTRY_PERSON_URL *pu = registry_person_url_index_find(p, url);
if(!pu) {
info("Registry Request Verification: URL not found for person, person: '%s', machine '%s', url '%s'", person_guid, machine_guid, url);
return NULL;
}
return pu;
}
// ----------------------------------------------------------------------------
// REGISTRY REQUESTS
REGISTRY_PERSON *registry_request_access(char *person_guid, char *machine_guid, char *url, char *name, time_t when) {
debug(D_REGISTRY, "registry_request_access('%s', '%s', '%s'): NEW REQUEST", (person_guid)?person_guid:"", machine_guid, url);
REGISTRY_MACHINE *m = registry_machine_get(machine_guid, when);
if(!m) return NULL;
// make sure the name is valid
size_t namelen;
name = registry_fix_machine_name(name, &namelen);
size_t urllen;
url = registry_fix_url(url, &urllen);
REGISTRY_PERSON *p = registry_person_get(person_guid, when);
REGISTRY_URL *u = registry_url_get(url, urllen);
registry_person_link_to_url(p, m, u, name, namelen, when);
registry_machine_link_to_url(m, u, when);
registry_log('A', p, m, u, name);
registry.usages_count++;
return p;
}
REGISTRY_PERSON *registry_request_delete(char *person_guid, char *machine_guid, char *url, char *delete_url, time_t when) {
(void) when;
REGISTRY_PERSON *p = NULL;
REGISTRY_MACHINE *m = NULL;
REGISTRY_PERSON_URL *pu = registry_verify_request(person_guid, machine_guid, url, &p, &m);
if(!pu || !p || !m) return NULL;
// normalize the url
delete_url = registry_fix_url(delete_url, NULL);
// make sure the user is not deleting the url it uses
if(!strcmp(delete_url, pu->url->url)) {
info("Registry Delete Request: delete URL is the one currently accessed, person: '%s', machine '%s', url '%s', delete url '%s'"
, p->guid, m->guid, pu->url->url, delete_url);
return NULL;
}
REGISTRY_PERSON_URL *dpu = registry_person_url_index_find(p, delete_url);
if(!dpu) {
info("Registry Delete Request: URL not found for person: '%s', machine '%s', url '%s', delete url '%s'", p->guid
, m->guid, pu->url->url, delete_url);
return NULL;
}
registry_log('D', p, m, pu->url, dpu->url->url);
registry_person_unlink_from_url(p, dpu);
return p;
}
// a structure to pass to the dictionary_get_all() callback handler
struct machine_request_callback_data {
REGISTRY_MACHINE *find_this_machine;
REGISTRY_PERSON_URL *result;
};
// the callback function
// this will be run for every PERSON_URL of this PERSON
static int machine_request_callback(void *entry, void *data) {
REGISTRY_PERSON_URL *mypu = (REGISTRY_PERSON_URL *)entry;
struct machine_request_callback_data *myrdata = (struct machine_request_callback_data *)data;
if(mypu->machine == myrdata->find_this_machine) {
myrdata->result = mypu;
return -1; // this will also stop the walk through
}
return 0; // continue
}
REGISTRY_MACHINE *registry_request_machine(char *person_guid, char *machine_guid, char *url, char *request_machine, time_t when) {
(void)when;
char mbuf[GUID_LEN + 1];
REGISTRY_PERSON *p = NULL;
REGISTRY_MACHINE *m = NULL;
REGISTRY_PERSON_URL *pu = registry_verify_request(person_guid, machine_guid, url, &p, &m);
if(!pu || !p || !m) return NULL;
// make sure the machine GUID is valid
if(registry_regenerate_guid(request_machine, mbuf) == -1) {
info("Registry Machine URLs request: invalid machine GUID, person: '%s', machine '%s', url '%s', request machine '%s'", p->guid, m->guid, pu->url->url, request_machine);
return NULL;
}
request_machine = mbuf;
// make sure the machine exists
m = registry_machine_find(request_machine);
if(!m) {
info("Registry Machine URLs request: machine not found, person: '%s', machine '%s', url '%s', request machine '%s'", p->guid, machine_guid, pu->url->url, request_machine);
return NULL;
}
// Verify the user has in the past accessed this machine
// We will walk through the PERSON_URLs to find the machine
// linking to our machine
// a structure to pass to the dictionary_get_all() callback handler
struct machine_request_callback_data rdata = { m, NULL };
// request a walk through on the dictionary
avl_traverse(&p->person_urls, machine_request_callback, &rdata);
if(rdata.result)
return m;
return NULL;
}
// ----------------------------------------------------------------------------
// REGISTRY THIS MACHINE UNIQUE ID
static inline int is_machine_guid_blacklisted(const char *guid) {
// these are machine GUIDs that have been included in distribution packages.
// we blacklist them here, so that the next version of netdata will generate
// new ones.
if(!strcmp(guid, "8a795b0c-2311-11e6-8563-000c295076a6")
|| !strcmp(guid, "4aed1458-1c3e-11e6-a53f-000c290fc8f5")
) {
error("Blacklisted machine GUID '%s' found.", guid);
return 1;
}
return 0;
}
char *registry_get_this_machine_guid(void) {
if(likely(registry.machine_guid[0]))
return registry.machine_guid;
// read it from disk
int fd = open(registry.machine_guid_filename, O_RDONLY);
if(fd != -1) {
char buf[GUID_LEN + 1];
if(read(fd, buf, GUID_LEN) != GUID_LEN)
error("Failed to read machine GUID from '%s'", registry.machine_guid_filename);
else {
buf[GUID_LEN] = '\0';
if(registry_regenerate_guid(buf, registry.machine_guid) == -1) {
error("Failed to validate machine GUID '%s' from '%s'. Ignoring it - this might mean this netdata will appear as duplicate in the registry.",
buf, registry.machine_guid_filename);
registry.machine_guid[0] = '\0';
}
else if(is_machine_guid_blacklisted(registry.machine_guid))
registry.machine_guid[0] = '\0';
}
close(fd);
}
// generate a new one?
if(!registry.machine_guid[0]) {
uuid_t uuid;
uuid_generate_time(uuid);
uuid_unparse_lower(uuid, registry.machine_guid);
registry.machine_guid[GUID_LEN] = '\0';
// save it
fd = open(registry.machine_guid_filename, O_WRONLY|O_CREAT|O_TRUNC, 444);
if(fd == -1)
fatal("Cannot create unique machine id file '%s'. Please fix this.", registry.machine_guid_filename);
if(write(fd, registry.machine_guid, GUID_LEN) != GUID_LEN)
fatal("Cannot write the unique machine id file '%s'. Please fix this.", registry.machine_guid_filename);
close(fd);
}
setenv("NETDATA_REGISTRY_UNIQUE_ID", registry.machine_guid, 1);
return registry.machine_guid;
}
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