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|
/*
chronyd/chronyc - Programs for keeping computer clocks accurate.
**********************************************************************
* Copyright (C) Miroslav Lichvar 2020
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
**********************************************************************
=======================================================================
Client NTS-NTP authentication
*/
#include "config.h"
#include "sysincl.h"
#include "nts_ntp_client.h"
#include "conf.h"
#include "logging.h"
#include "memory.h"
#include "ntp.h"
#include "ntp_ext.h"
#include "ntp_sources.h"
#include "nts_ke_client.h"
#include "nts_ntp.h"
#include "nts_ntp_auth.h"
#include "sched.h"
#include "siv.h"
#include "util.h"
/* Maximum length of all cookies to avoid IP fragmentation */
#define MAX_TOTAL_COOKIE_LENGTH (8 * 108)
/* Retry interval for NTS-KE start (which doesn't generate network traffic) */
#define RETRY_INTERVAL_KE_START 2.0
/* Magic string of files containing keys and cookies */
#define DUMP_IDENTIFIER "NNC0\n"
struct NNC_Instance_Record {
/* Address of NTS-KE server */
IPSockAddr nts_address;
/* Hostname or IP address for certificate verification */
char *name;
/* ID of trusted certificates */
uint32_t cert_set;
/* Configured NTP port */
uint16_t default_ntp_port;
/* Address of NTP server (can be negotiated in NTS-KE) */
IPSockAddr ntp_address;
NKC_Instance nke;
SIV_Instance siv;
int nke_attempts;
double next_nke_attempt;
double last_nke_success;
NKE_Context context;
unsigned int context_id;
NKE_Cookie cookies[NTS_MAX_COOKIES];
int num_cookies;
int cookie_index;
int auth_ready;
int nak_response;
int ok_response;
unsigned char nonce[NTS_MIN_UNPADDED_NONCE_LENGTH];
unsigned char uniq_id[NTS_MIN_UNIQ_ID_LENGTH];
};
/* ================================================== */
static void save_cookies(NNC_Instance inst);
static void load_cookies(NNC_Instance inst);
/* ================================================== */
static void
reset_instance(NNC_Instance inst)
{
if (inst->nke)
NKC_DestroyInstance(inst->nke);
inst->nke = NULL;
if (inst->siv)
SIV_DestroyInstance(inst->siv);
inst->siv = NULL;
inst->nke_attempts = 0;
inst->next_nke_attempt = 0.0;
inst->last_nke_success = 0.0;
memset(&inst->context, 0, sizeof (inst->context));
inst->context_id = 0;
memset(inst->cookies, 0, sizeof (inst->cookies));
inst->num_cookies = 0;
inst->cookie_index = 0;
inst->auth_ready = 0;
inst->nak_response = 0;
inst->ok_response = 1;
memset(inst->nonce, 0, sizeof (inst->nonce));
memset(inst->uniq_id, 0, sizeof (inst->uniq_id));
}
/* ================================================== */
NNC_Instance
NNC_CreateInstance(IPSockAddr *nts_address, const char *name, uint32_t cert_set, uint16_t ntp_port)
{
NNC_Instance inst;
inst = MallocNew(struct NNC_Instance_Record);
inst->nts_address = *nts_address;
inst->name = Strdup(name);
inst->cert_set = cert_set;
inst->default_ntp_port = ntp_port;
inst->ntp_address.ip_addr = nts_address->ip_addr;
inst->ntp_address.port = ntp_port;
inst->siv = NULL;
inst->nke = NULL;
reset_instance(inst);
/* Try to reload saved keys and cookies */
load_cookies(inst);
return inst;
}
/* ================================================== */
void
NNC_DestroyInstance(NNC_Instance inst)
{
save_cookies(inst);
reset_instance(inst);
Free(inst->name);
Free(inst);
}
/* ================================================== */
static int
check_cookies(NNC_Instance inst)
{
/* Force a new NTS-KE session if a NAK was received without a valid response,
or the keys encrypting the cookies need to be refreshed */
if (inst->num_cookies > 0 &&
((inst->nak_response && !inst->ok_response) ||
SCH_GetLastEventMonoTime() - inst->last_nke_success > CNF_GetNtsRefresh())) {
inst->num_cookies = 0;
DEBUG_LOG("Dropped cookies");
}
return inst->num_cookies > 0;
}
/* ================================================== */
static int
set_ntp_address(NNC_Instance inst, NTP_Remote_Address *negotiated_address)
{
NTP_Remote_Address old_address, new_address;
old_address = inst->ntp_address;
new_address = *negotiated_address;
if (new_address.ip_addr.family == IPADDR_UNSPEC)
new_address.ip_addr = inst->nts_address.ip_addr;
if (new_address.port == 0)
new_address.port = inst->default_ntp_port;
if (UTI_CompareIPs(&old_address.ip_addr, &new_address.ip_addr, NULL) == 0 &&
old_address.port == new_address.port)
/* Nothing to do */
return 1;
if (NSR_UpdateSourceNtpAddress(&old_address, &new_address) != NSR_Success) {
LOG(LOGS_ERR, "Could not change %s to negotiated address %s",
UTI_IPToString(&old_address.ip_addr), UTI_IPToString(&new_address.ip_addr));
return 0;
}
inst->ntp_address = new_address;
return 1;
}
/* ================================================== */
static void
update_next_nke_attempt(NNC_Instance inst, int failed_start, double now)
{
int factor, interval;
if (failed_start) {
inst->next_nke_attempt = now + RETRY_INTERVAL_KE_START;
return;
}
if (!inst->nke)
return;
factor = NKC_GetRetryFactor(inst->nke);
interval = MIN(factor + inst->nke_attempts - 1, NKE_MAX_RETRY_INTERVAL2);
inst->next_nke_attempt = now + UTI_Log2ToDouble(interval);
}
/* ================================================== */
static int
get_cookies(NNC_Instance inst)
{
NTP_Remote_Address ntp_address;
int got_data, failed_start = 0;
double now;
assert(inst->num_cookies == 0);
now = SCH_GetLastEventMonoTime();
/* Create and start a new NTS-KE session if not already present */
if (!inst->nke) {
if (now < inst->next_nke_attempt) {
DEBUG_LOG("Limiting NTS-KE request rate (%f seconds)",
inst->next_nke_attempt - now);
return 0;
}
inst->nke = NKC_CreateInstance(&inst->nts_address, inst->name, inst->cert_set);
inst->nke_attempts++;
if (!NKC_Start(inst->nke))
failed_start = 1;
}
update_next_nke_attempt(inst, failed_start, now);
/* Wait until the session stops */
if (NKC_IsActive(inst->nke))
return 0;
assert(sizeof (inst->cookies) / sizeof (inst->cookies[0]) == NTS_MAX_COOKIES);
/* Get the new keys, cookies and NTP address if the session was successful */
got_data = NKC_GetNtsData(inst->nke, &inst->context,
inst->cookies, &inst->num_cookies, NTS_MAX_COOKIES,
&ntp_address);
NKC_DestroyInstance(inst->nke);
inst->nke = NULL;
if (!got_data)
return 0;
if (inst->siv)
SIV_DestroyInstance(inst->siv);
inst->siv = NULL;
inst->context_id++;
/* Force a new session if the NTP address is used by another source, with
an expectation that it will eventually get a non-conflicting address */
if (!set_ntp_address(inst, &ntp_address)) {
inst->num_cookies = 0;
return 0;
}
inst->last_nke_success = now;
inst->cookie_index = 0;
return 1;
}
/* ================================================== */
int
NNC_PrepareForAuth(NNC_Instance inst)
{
inst->auth_ready = 0;
/* Prepare data for the next request and invalidate any responses to the
previous request */
UTI_GetRandomBytes(inst->uniq_id, sizeof (inst->uniq_id));
UTI_GetRandomBytes(inst->nonce, sizeof (inst->nonce));
/* Get new cookies if there are not any, or they are no longer usable */
if (!check_cookies(inst)) {
if (!get_cookies(inst))
return 0;
}
inst->nak_response = 0;
if (!inst->siv)
inst->siv = SIV_CreateInstance(inst->context.algorithm);
if (!inst->siv ||
!SIV_SetKey(inst->siv, inst->context.c2s.key, inst->context.c2s.length)) {
DEBUG_LOG("Could not set SIV key");
return 0;
}
inst->auth_ready = 1;
return 1;
}
/* ================================================== */
int
NNC_GenerateRequestAuth(NNC_Instance inst, NTP_Packet *packet,
NTP_PacketInfo *info)
{
NKE_Cookie *cookie;
int i, req_cookies;
void *ef_body;
if (!inst->auth_ready)
return 0;
inst->auth_ready = 0;
if (inst->num_cookies <= 0 || !inst->siv)
return 0;
if (info->mode != MODE_CLIENT)
return 0;
cookie = &inst->cookies[inst->cookie_index];
inst->num_cookies--;
inst->cookie_index = (inst->cookie_index + 1) % NTS_MAX_COOKIES;
req_cookies = MIN(NTS_MAX_COOKIES - inst->num_cookies,
MAX_TOTAL_COOKIE_LENGTH / (cookie->length + 4));
if (!NEF_AddField(packet, info, NTP_EF_NTS_UNIQUE_IDENTIFIER,
inst->uniq_id, sizeof (inst->uniq_id)))
return 0;
if (!NEF_AddField(packet, info, NTP_EF_NTS_COOKIE,
cookie->cookie, cookie->length))
return 0;
for (i = 0; i < req_cookies - 1; i++) {
if (!NEF_AddBlankField(packet, info, NTP_EF_NTS_COOKIE_PLACEHOLDER,
cookie->length, &ef_body))
return 0;
memset(ef_body, 0, cookie->length);
}
if (!NNA_GenerateAuthEF(packet, info, inst->siv, inst->nonce, sizeof (inst->nonce),
(const unsigned char *)"", 0, NTP_MAX_V4_MAC_LENGTH + 4))
return 0;
inst->ok_response = 0;
return 1;
}
/* ================================================== */
static int
parse_encrypted_efs(NNC_Instance inst, unsigned char *plaintext, int length)
{
int ef_length, parsed;
for (parsed = 0; parsed < length; parsed += ef_length) {
if (!NEF_ParseSingleField(plaintext, length, parsed, &ef_length, NULL, NULL, NULL)) {
DEBUG_LOG("Could not parse encrypted EF");
return 0;
}
}
return 1;
}
/* ================================================== */
static int
extract_cookies(NNC_Instance inst, unsigned char *plaintext, int length)
{
int ef_type, ef_body_length, ef_length, parsed, index, acceptable, saved;
void *ef_body;
acceptable = saved = 0;
for (parsed = 0; parsed < length; parsed += ef_length) {
if (!NEF_ParseSingleField(plaintext, length, parsed,
&ef_length, &ef_type, &ef_body, &ef_body_length))
return 0;
if (ef_type != NTP_EF_NTS_COOKIE)
continue;
if (ef_length < NTP_MIN_EF_LENGTH || ef_body_length > sizeof (inst->cookies[0].cookie)) {
DEBUG_LOG("Unexpected cookie length %d", ef_body_length);
continue;
}
acceptable++;
if (inst->num_cookies >= NTS_MAX_COOKIES)
continue;
index = (inst->cookie_index + inst->num_cookies) % NTS_MAX_COOKIES;
assert(index >= 0 && index < NTS_MAX_COOKIES);
assert(sizeof (inst->cookies) / sizeof (inst->cookies[0]) == NTS_MAX_COOKIES);
memcpy(inst->cookies[index].cookie, ef_body, ef_body_length);
inst->cookies[index].length = ef_body_length;
inst->num_cookies++;
saved++;
}
DEBUG_LOG("Extracted %d cookies (saved %d)", acceptable, saved);
return acceptable > 0;
}
/* ================================================== */
int
NNC_CheckResponseAuth(NNC_Instance inst, NTP_Packet *packet,
NTP_PacketInfo *info)
{
int ef_type, ef_body_length, ef_length, parsed, plaintext_length;
int has_valid_uniq_id = 0, has_valid_auth = 0;
unsigned char plaintext[NTP_MAX_EXTENSIONS_LENGTH];
void *ef_body;
if (info->ext_fields == 0 || info->mode != MODE_SERVER)
return 0;
/* Accept at most one response per request */
if (inst->ok_response || inst->auth_ready)
return 0;
if (!inst->siv ||
!SIV_SetKey(inst->siv, inst->context.s2c.key, inst->context.s2c.length)) {
DEBUG_LOG("Could not set SIV key");
return 0;
}
for (parsed = NTP_HEADER_LENGTH; parsed < info->length; parsed += ef_length) {
if (!NEF_ParseField(packet, info->length, parsed,
&ef_length, &ef_type, &ef_body, &ef_body_length))
/* This is not expected as the packet already passed parsing */
return 0;
switch (ef_type) {
case NTP_EF_NTS_UNIQUE_IDENTIFIER:
if (ef_body_length != sizeof (inst->uniq_id) ||
memcmp(ef_body, inst->uniq_id, sizeof (inst->uniq_id)) != 0) {
DEBUG_LOG("Invalid uniq id");
return 0;
}
has_valid_uniq_id = 1;
break;
case NTP_EF_NTS_COOKIE:
DEBUG_LOG("Unencrypted cookie");
break;
case NTP_EF_NTS_AUTH_AND_EEF:
if (parsed + ef_length != info->length) {
DEBUG_LOG("Auth not last EF");
return 0;
}
if (!NNA_DecryptAuthEF(packet, info, inst->siv, parsed,
plaintext, sizeof (plaintext), &plaintext_length))
return 0;
if (!parse_encrypted_efs(inst, plaintext, plaintext_length))
return 0;
has_valid_auth = 1;
break;
default:
break;
}
}
if (!has_valid_uniq_id || !has_valid_auth) {
if (has_valid_uniq_id && packet->stratum == NTP_INVALID_STRATUM &&
ntohl(packet->reference_id) == NTP_KOD_NTS_NAK) {
DEBUG_LOG("NTS NAK");
inst->nak_response = 1;
return 0;
}
DEBUG_LOG("Missing NTS EF");
return 0;
}
if (!extract_cookies(inst, plaintext, plaintext_length))
return 0;
inst->ok_response = 1;
/* At this point we know the client interoperates with the server. Allow a
new NTS-KE session to be started as soon as the cookies run out. */
inst->nke_attempts = 0;
inst->next_nke_attempt = 0.0;
return 1;
}
/* ================================================== */
void
NNC_ChangeAddress(NNC_Instance inst, IPAddr *address)
{
save_cookies(inst);
inst->nts_address.ip_addr = *address;
inst->ntp_address.ip_addr = *address;
reset_instance(inst);
DEBUG_LOG("NTS reset");
load_cookies(inst);
}
/* ================================================== */
static void
save_cookies(NNC_Instance inst)
{
char buf[2 * NKE_MAX_COOKIE_LENGTH + 2], *dump_dir, *filename;
struct timespec now;
double context_time;
FILE *f;
int i;
if (inst->num_cookies < 1 || !UTI_IsIPReal(&inst->nts_address.ip_addr))
return;
dump_dir = CNF_GetNtsDumpDir();
if (!dump_dir)
return;
filename = UTI_IPToString(&inst->nts_address.ip_addr);
f = UTI_OpenFile(dump_dir, filename, ".tmp", 'w', 0600);
if (!f)
return;
SCH_GetLastEventTime(&now, NULL, NULL);
context_time = inst->last_nke_success - SCH_GetLastEventMonoTime();
context_time += UTI_TimespecToDouble(&now);
if (fprintf(f, "%s%s\n%.1f\n%s %d\n%u %d ",
DUMP_IDENTIFIER, inst->name, context_time,
UTI_IPToString(&inst->ntp_address.ip_addr), inst->ntp_address.port,
inst->context_id, (int)inst->context.algorithm) < 0 ||
!UTI_BytesToHex(inst->context.s2c.key, inst->context.s2c.length, buf, sizeof (buf)) ||
fprintf(f, "%s ", buf) < 0 ||
!UTI_BytesToHex(inst->context.c2s.key, inst->context.c2s.length, buf, sizeof (buf)) ||
fprintf(f, "%s\n", buf) < 0)
goto error;
for (i = 0; i < inst->num_cookies; i++) {
if (!UTI_BytesToHex(inst->cookies[i].cookie, inst->cookies[i].length, buf, sizeof (buf)) ||
fprintf(f, "%s\n", buf) < 0)
goto error;
}
fclose(f);
if (!UTI_RenameTempFile(dump_dir, filename, ".tmp", ".nts"))
;
return;
error:
DEBUG_LOG("Could not %s cookies for %s", "save", filename);
fclose(f);
if (!UTI_RemoveFile(dump_dir, filename, ".nts"))
;
}
/* ================================================== */
#define MAX_WORDS 4
static void
load_cookies(NNC_Instance inst)
{
char line[2 * NKE_MAX_COOKIE_LENGTH + 2], *dump_dir, *filename, *words[MAX_WORDS];
unsigned int context_id;
int i, algorithm, port;
double context_time;
struct timespec now;
IPSockAddr ntp_addr;
FILE *f;
dump_dir = CNF_GetNtsDumpDir();
if (!dump_dir)
return;
filename = UTI_IPToString(&inst->nts_address.ip_addr);
f = UTI_OpenFile(dump_dir, filename, ".nts", 'r', 0);
if (!f)
return;
/* Don't load this file again */
if (!UTI_RemoveFile(dump_dir, filename, ".nts"))
;
if (inst->siv)
SIV_DestroyInstance(inst->siv);
inst->siv = NULL;
if (!fgets(line, sizeof (line), f) || strcmp(line, DUMP_IDENTIFIER) != 0 ||
!fgets(line, sizeof (line), f) || UTI_SplitString(line, words, MAX_WORDS) != 1 ||
strcmp(words[0], inst->name) != 0 ||
!fgets(line, sizeof (line), f) || UTI_SplitString(line, words, MAX_WORDS) != 1 ||
sscanf(words[0], "%lf", &context_time) != 1 ||
!fgets(line, sizeof (line), f) || UTI_SplitString(line, words, MAX_WORDS) != 2 ||
!UTI_StringToIP(words[0], &ntp_addr.ip_addr) || sscanf(words[1], "%d", &port) != 1 ||
!fgets(line, sizeof (line), f) || UTI_SplitString(line, words, MAX_WORDS) != 4 ||
sscanf(words[0], "%u", &context_id) != 1 || sscanf(words[1], "%d", &algorithm) != 1)
goto error;
inst->context.algorithm = algorithm;
inst->context.s2c.length = UTI_HexToBytes(words[2], inst->context.s2c.key,
sizeof (inst->context.s2c.key));
inst->context.c2s.length = UTI_HexToBytes(words[3], inst->context.c2s.key,
sizeof (inst->context.c2s.key));
if (inst->context.s2c.length != SIV_GetKeyLength(algorithm) ||
inst->context.s2c.length <= 0 ||
inst->context.c2s.length != inst->context.s2c.length)
goto error;
for (i = 0; i < NTS_MAX_COOKIES && fgets(line, sizeof (line), f); i++) {
if (UTI_SplitString(line, words, MAX_WORDS) != 1)
goto error;
inst->cookies[i].length = UTI_HexToBytes(words[0], inst->cookies[i].cookie,
sizeof (inst->cookies[i].cookie));
if (inst->cookies[i].length == 0)
goto error;
}
inst->num_cookies = i;
ntp_addr.port = port;
if (!set_ntp_address(inst, &ntp_addr))
goto error;
SCH_GetLastEventTime(&now, NULL, NULL);
context_time -= UTI_TimespecToDouble(&now);
if (context_time > 0)
context_time = 0;
inst->last_nke_success = context_time + SCH_GetLastEventMonoTime();
inst->context_id = context_id;
fclose(f);
DEBUG_LOG("Loaded %d cookies for %s", i, filename);
return;
error:
DEBUG_LOG("Could not %s cookies for %s", "load", filename);
fclose(f);
memset(&inst->context, 0, sizeof (inst->context));
inst->num_cookies = 0;
}
/* ================================================== */
void
NNC_DumpData(NNC_Instance inst)
{
save_cookies(inst);
}
/* ================================================== */
void
NNC_GetReport(NNC_Instance inst, RPT_AuthReport *report)
{
report->key_id = inst->context_id;
report->key_type = inst->context.algorithm;
report->key_length = 8 * inst->context.s2c.length;
report->ke_attempts = inst->nke_attempts;
if (report->key_length > 0)
report->last_ke_ago = SCH_GetLastEventMonoTime() - inst->last_nke_success;
else
report->last_ke_ago = -1;
report->cookies = inst->num_cookies;
report->cookie_length = inst->num_cookies > 0 ? inst->cookies[inst->cookie_index].length : 0;
report->nak = inst->nak_response;
}
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