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hostap/src/ap/pmksa_cache_auth.c
Jouni Malinen 41b8191485 FILS: Update PMKID derivation rules for ERP key hierarchy establishment 
IEEE Std 802.11ai-2016 had missed a change in the Pairwise key hierarchy
clause (12.7.1.3 in IEEE Std 802.11-2016) and due to that, the previous
implementation ended up using HMAC-SHA-1 -based PMKID derivation. This
was not really the intent of the FILS design and that issue was fixed
during REVmd work with the changes proposed in
https://mentor.ieee.org/802.11/dcn/17/11-17-0906-04-000m-fils-fixes.docx
that change FILS cases to use HMAC-SHA-256 and HMAC-SHA-384 based on the
negotiated AKM.

Update the implementation to match the new design. This changes the
rsn_pmkid() function to take in the more generic AKMP identifier instead
of a boolean identifying whether SHA256 is used.

Note: This is not backwards compatible, i.e., this breaks PMKSA caching
based on the initial ERP key hierarchy setup if only STA or AP side
implementation is updated. PMKSA caching based on FILS authentication
exchange is not impacted by this, though.

Signed-off-by: Jouni Malinen <jouni@qca.qualcomm.com>
2017-09-13 22:17:58 +03:00

730 lines
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/*
* hostapd - PMKSA cache for IEEE 802.11i RSN
* Copyright (c) 2004-2008, 2012-2015, Jouni Malinen <j@w1.fi>
*
* This software may be distributed under the terms of the BSD license.
* See README for more details.
*/
#include "utils/includes.h"
#include "utils/common.h"
#include "utils/eloop.h"
#include "eapol_auth/eapol_auth_sm.h"
#include "eapol_auth/eapol_auth_sm_i.h"
#include "radius/radius_das.h"
#include "sta_info.h"
#include "ap_config.h"
#include "pmksa_cache_auth.h"
static const int pmksa_cache_max_entries = 1024;
static const int dot11RSNAConfigPMKLifetime = 43200;
struct rsn_pmksa_cache {
#define PMKID_HASH_SIZE 128
#define PMKID_HASH(pmkid) (unsigned int) ((pmkid)[0] & 0x7f)
struct rsn_pmksa_cache_entry *pmkid[PMKID_HASH_SIZE];
struct rsn_pmksa_cache_entry *pmksa;
int pmksa_count;
void (*free_cb)(struct rsn_pmksa_cache_entry *entry, void *ctx);
void *ctx;
};
static void pmksa_cache_set_expiration(struct rsn_pmksa_cache *pmksa);
static void _pmksa_cache_free_entry(struct rsn_pmksa_cache_entry *entry)
{
os_free(entry->vlan_desc);
os_free(entry->identity);
wpabuf_free(entry->cui);
#ifndef CONFIG_NO_RADIUS
radius_free_class(&entry->radius_class);
#endif /* CONFIG_NO_RADIUS */
bin_clear_free(entry, sizeof(*entry));
}
void pmksa_cache_free_entry(struct rsn_pmksa_cache *pmksa,
struct rsn_pmksa_cache_entry *entry)
{
struct rsn_pmksa_cache_entry *pos, *prev;
unsigned int hash;
pmksa->pmksa_count--;
pmksa->free_cb(entry, pmksa->ctx);
/* unlink from hash list */
hash = PMKID_HASH(entry->pmkid);
pos = pmksa->pmkid[hash];
prev = NULL;
while (pos) {
if (pos == entry) {
if (prev != NULL)
prev->hnext = entry->hnext;
else
pmksa->pmkid[hash] = entry->hnext;
break;
}
prev = pos;
pos = pos->hnext;
}
/* unlink from entry list */
pos = pmksa->pmksa;
prev = NULL;
while (pos) {
if (pos == entry) {
if (prev != NULL)
prev->next = entry->next;
else
pmksa->pmksa = entry->next;
break;
}
prev = pos;
pos = pos->next;
}
_pmksa_cache_free_entry(entry);
}
/**
* pmksa_cache_auth_flush - Flush all PMKSA cache entries
* @pmksa: Pointer to PMKSA cache data from pmksa_cache_auth_init()
*/
void pmksa_cache_auth_flush(struct rsn_pmksa_cache *pmksa)
{
while (pmksa->pmksa) {
wpa_printf(MSG_DEBUG, "RSN: Flush PMKSA cache entry for "
MACSTR, MAC2STR(pmksa->pmksa->spa));
pmksa_cache_free_entry(pmksa, pmksa->pmksa);
}
}
static void pmksa_cache_expire(void *eloop_ctx, void *timeout_ctx)
{
struct rsn_pmksa_cache *pmksa = eloop_ctx;
struct os_reltime now;
os_get_reltime(&now);
while (pmksa->pmksa && pmksa->pmksa->expiration <= now.sec) {
wpa_printf(MSG_DEBUG, "RSN: expired PMKSA cache entry for "
MACSTR, MAC2STR(pmksa->pmksa->spa));
pmksa_cache_free_entry(pmksa, pmksa->pmksa);
}
pmksa_cache_set_expiration(pmksa);
}
static void pmksa_cache_set_expiration(struct rsn_pmksa_cache *pmksa)
{
int sec;
struct os_reltime now;
eloop_cancel_timeout(pmksa_cache_expire, pmksa, NULL);
if (pmksa->pmksa == NULL)
return;
os_get_reltime(&now);
sec = pmksa->pmksa->expiration - now.sec;
if (sec < 0)
sec = 0;
eloop_register_timeout(sec + 1, 0, pmksa_cache_expire, pmksa, NULL);
}
static void pmksa_cache_from_eapol_data(struct rsn_pmksa_cache_entry *entry,
struct eapol_state_machine *eapol)
{
struct vlan_description *vlan_desc;
if (eapol == NULL)
return;
if (eapol->identity) {
entry->identity = os_malloc(eapol->identity_len);
if (entry->identity) {
entry->identity_len = eapol->identity_len;
os_memcpy(entry->identity, eapol->identity,
eapol->identity_len);
}
}
if (eapol->radius_cui)
entry->cui = wpabuf_dup(eapol->radius_cui);
#ifndef CONFIG_NO_RADIUS
radius_copy_class(&entry->radius_class, &eapol->radius_class);
#endif /* CONFIG_NO_RADIUS */
entry->eap_type_authsrv = eapol->eap_type_authsrv;
vlan_desc = ((struct sta_info *) eapol->sta)->vlan_desc;
if (vlan_desc && vlan_desc->notempty) {
entry->vlan_desc = os_zalloc(sizeof(struct vlan_description));
if (entry->vlan_desc)
*entry->vlan_desc = *vlan_desc;
} else {
entry->vlan_desc = NULL;
}
entry->acct_multi_session_id = eapol->acct_multi_session_id;
}
void pmksa_cache_to_eapol_data(struct hostapd_data *hapd,
struct rsn_pmksa_cache_entry *entry,
struct eapol_state_machine *eapol)
{
if (entry == NULL || eapol == NULL)
return;
if (entry->identity) {
os_free(eapol->identity);
eapol->identity = os_malloc(entry->identity_len);
if (eapol->identity) {
eapol->identity_len = entry->identity_len;
os_memcpy(eapol->identity, entry->identity,
entry->identity_len);
}
wpa_hexdump_ascii(MSG_DEBUG, "STA identity from PMKSA",
eapol->identity, eapol->identity_len);
}
if (entry->cui) {
wpabuf_free(eapol->radius_cui);
eapol->radius_cui = wpabuf_dup(entry->cui);
}
#ifndef CONFIG_NO_RADIUS
radius_free_class(&eapol->radius_class);
radius_copy_class(&eapol->radius_class, &entry->radius_class);
#endif /* CONFIG_NO_RADIUS */
if (eapol->radius_class.attr) {
wpa_printf(MSG_DEBUG, "Copied %lu Class attribute(s) from "
"PMKSA", (unsigned long) eapol->radius_class.count);
}
eapol->eap_type_authsrv = entry->eap_type_authsrv;
#ifndef CONFIG_NO_VLAN
ap_sta_set_vlan(hapd, eapol->sta, entry->vlan_desc);
#endif /* CONFIG_NO_VLAN */
eapol->acct_multi_session_id = entry->acct_multi_session_id;
}
static void pmksa_cache_link_entry(struct rsn_pmksa_cache *pmksa,
struct rsn_pmksa_cache_entry *entry)
{
struct rsn_pmksa_cache_entry *pos, *prev;
int hash;
/* Add the new entry; order by expiration time */
pos = pmksa->pmksa;
prev = NULL;
while (pos) {
if (pos->expiration > entry->expiration)
break;
prev = pos;
pos = pos->next;
}
if (prev == NULL) {
entry->next = pmksa->pmksa;
pmksa->pmksa = entry;
} else {
entry->next = prev->next;
prev->next = entry;
}
hash = PMKID_HASH(entry->pmkid);
entry->hnext = pmksa->pmkid[hash];
pmksa->pmkid[hash] = entry;
pmksa->pmksa_count++;
if (prev == NULL)
pmksa_cache_set_expiration(pmksa);
wpa_printf(MSG_DEBUG, "RSN: added PMKSA cache entry for " MACSTR,
MAC2STR(entry->spa));
wpa_hexdump(MSG_DEBUG, "RSN: added PMKID", entry->pmkid, PMKID_LEN);
}
/**
* pmksa_cache_auth_add - Add a PMKSA cache entry
* @pmksa: Pointer to PMKSA cache data from pmksa_cache_auth_init()
* @pmk: The new pairwise master key
* @pmk_len: PMK length in bytes, usually PMK_LEN (32)
* @pmkid: Calculated PMKID
* @kck: Key confirmation key or %NULL if not yet derived
* @kck_len: KCK length in bytes
* @aa: Authenticator address
* @spa: Supplicant address
* @session_timeout: Session timeout
* @eapol: Pointer to EAPOL state machine data
* @akmp: WPA_KEY_MGMT_* used in key derivation
* Returns: Pointer to the added PMKSA cache entry or %NULL on error
*
* This function create a PMKSA entry for a new PMK and adds it to the PMKSA
* cache. If an old entry is already in the cache for the same Supplicant,
* this entry will be replaced with the new entry. PMKID will be calculated
* based on the PMK.
*/
struct rsn_pmksa_cache_entry *
pmksa_cache_auth_add(struct rsn_pmksa_cache *pmksa,
const u8 *pmk, size_t pmk_len, const u8 *pmkid,
const u8 *kck, size_t kck_len,
const u8 *aa, const u8 *spa, int session_timeout,
struct eapol_state_machine *eapol, int akmp)
{
struct rsn_pmksa_cache_entry *entry;
entry = pmksa_cache_auth_create_entry(pmk, pmk_len, pmkid, kck, kck_len,
aa, spa, session_timeout, eapol,
akmp);
if (pmksa_cache_auth_add_entry(pmksa, entry) < 0)
return NULL;
return entry;
}
/**
* pmksa_cache_auth_create_entry - Create a PMKSA cache entry
* @pmk: The new pairwise master key
* @pmk_len: PMK length in bytes, usually PMK_LEN (32)
* @pmkid: Calculated PMKID
* @kck: Key confirmation key or %NULL if not yet derived
* @kck_len: KCK length in bytes
* @aa: Authenticator address
* @spa: Supplicant address
* @session_timeout: Session timeout
* @eapol: Pointer to EAPOL state machine data
* @akmp: WPA_KEY_MGMT_* used in key derivation
* Returns: Pointer to the added PMKSA cache entry or %NULL on error
*
* This function creates a PMKSA entry.
*/
struct rsn_pmksa_cache_entry *
pmksa_cache_auth_create_entry(const u8 *pmk, size_t pmk_len, const u8 *pmkid,
const u8 *kck, size_t kck_len, const u8 *aa,
const u8 *spa, int session_timeout,
struct eapol_state_machine *eapol, int akmp)
{
struct rsn_pmksa_cache_entry *entry;
struct os_reltime now;
if (pmk_len > PMK_LEN_MAX)
return NULL;
if (wpa_key_mgmt_suite_b(akmp) && !kck)
return NULL;
entry = os_zalloc(sizeof(*entry));
if (entry == NULL)
return NULL;
os_memcpy(entry->pmk, pmk, pmk_len);
entry->pmk_len = pmk_len;
if (pmkid)
os_memcpy(entry->pmkid, pmkid, PMKID_LEN);
else if (akmp == WPA_KEY_MGMT_IEEE8021X_SUITE_B_192)
rsn_pmkid_suite_b_192(kck, kck_len, aa, spa, entry->pmkid);
else if (wpa_key_mgmt_suite_b(akmp))
rsn_pmkid_suite_b(kck, kck_len, aa, spa, entry->pmkid);
else
rsn_pmkid(pmk, pmk_len, aa, spa, entry->pmkid, akmp);
os_get_reltime(&now);
entry->expiration = now.sec;
if (session_timeout > 0)
entry->expiration += session_timeout;
else
entry->expiration += dot11RSNAConfigPMKLifetime;
entry->akmp = akmp;
os_memcpy(entry->spa, spa, ETH_ALEN);
pmksa_cache_from_eapol_data(entry, eapol);
return entry;
}
/**
* pmksa_cache_auth_add_entry - Add a PMKSA cache entry
* @pmksa: Pointer to PMKSA cache data from pmksa_cache_auth_init()
* @entry: Pointer to PMKSA cache entry
*
* This function adds PMKSA cache entry to the PMKSA cache. If an old entry is
* already in the cache for the same Supplicant, this entry will be replaced
* with the new entry. PMKID will be calculated based on the PMK.
*/
int pmksa_cache_auth_add_entry(struct rsn_pmksa_cache *pmksa,
struct rsn_pmksa_cache_entry *entry)
{
struct rsn_pmksa_cache_entry *pos;
if (entry == NULL)
return -1;
/* Replace an old entry for the same STA (if found) with the new entry
*/
pos = pmksa_cache_auth_get(pmksa, entry->spa, NULL);
if (pos)
pmksa_cache_free_entry(pmksa, pos);
if (pmksa->pmksa_count >= pmksa_cache_max_entries && pmksa->pmksa) {
/* Remove the oldest entry to make room for the new entry */
wpa_printf(MSG_DEBUG, "RSN: removed the oldest PMKSA cache "
"entry (for " MACSTR ") to make room for new one",
MAC2STR(pmksa->pmksa->spa));
pmksa_cache_free_entry(pmksa, pmksa->pmksa);
}
pmksa_cache_link_entry(pmksa, entry);
return 0;
}
struct rsn_pmksa_cache_entry *
pmksa_cache_add_okc(struct rsn_pmksa_cache *pmksa,
const struct rsn_pmksa_cache_entry *old_entry,
const u8 *aa, const u8 *pmkid)
{
struct rsn_pmksa_cache_entry *entry;
entry = os_zalloc(sizeof(*entry));
if (entry == NULL)
return NULL;
os_memcpy(entry->pmkid, pmkid, PMKID_LEN);
os_memcpy(entry->pmk, old_entry->pmk, old_entry->pmk_len);
entry->pmk_len = old_entry->pmk_len;
entry->expiration = old_entry->expiration;
entry->akmp = old_entry->akmp;
os_memcpy(entry->spa, old_entry->spa, ETH_ALEN);
entry->opportunistic = 1;
if (old_entry->identity) {
entry->identity = os_malloc(old_entry->identity_len);
if (entry->identity) {
entry->identity_len = old_entry->identity_len;
os_memcpy(entry->identity, old_entry->identity,
old_entry->identity_len);
}
}
if (old_entry->cui)
entry->cui = wpabuf_dup(old_entry->cui);
#ifndef CONFIG_NO_RADIUS
radius_copy_class(&entry->radius_class, &old_entry->radius_class);
#endif /* CONFIG_NO_RADIUS */
entry->eap_type_authsrv = old_entry->eap_type_authsrv;
if (old_entry->vlan_desc) {
entry->vlan_desc = os_zalloc(sizeof(struct vlan_description));
if (entry->vlan_desc)
*entry->vlan_desc = *old_entry->vlan_desc;
} else {
entry->vlan_desc = NULL;
}
entry->opportunistic = 1;
pmksa_cache_link_entry(pmksa, entry);
return entry;
}
/**
* pmksa_cache_auth_deinit - Free all entries in PMKSA cache
* @pmksa: Pointer to PMKSA cache data from pmksa_cache_auth_init()
*/
void pmksa_cache_auth_deinit(struct rsn_pmksa_cache *pmksa)
{
struct rsn_pmksa_cache_entry *entry, *prev;
int i;
if (pmksa == NULL)
return;
entry = pmksa->pmksa;
while (entry) {
prev = entry;
entry = entry->next;
_pmksa_cache_free_entry(prev);
}
eloop_cancel_timeout(pmksa_cache_expire, pmksa, NULL);
pmksa->pmksa_count = 0;
pmksa->pmksa = NULL;
for (i = 0; i < PMKID_HASH_SIZE; i++)
pmksa->pmkid[i] = NULL;
os_free(pmksa);
}
/**
* pmksa_cache_auth_get - Fetch a PMKSA cache entry
* @pmksa: Pointer to PMKSA cache data from pmksa_cache_auth_init()
* @spa: Supplicant address or %NULL to match any
* @pmkid: PMKID or %NULL to match any
* Returns: Pointer to PMKSA cache entry or %NULL if no match was found
*/
struct rsn_pmksa_cache_entry *
pmksa_cache_auth_get(struct rsn_pmksa_cache *pmksa,
const u8 *spa, const u8 *pmkid)
{
struct rsn_pmksa_cache_entry *entry;
if (pmkid) {
for (entry = pmksa->pmkid[PMKID_HASH(pmkid)]; entry;
entry = entry->hnext) {
if ((spa == NULL ||
os_memcmp(entry->spa, spa, ETH_ALEN) == 0) &&
os_memcmp(entry->pmkid, pmkid, PMKID_LEN) == 0)
return entry;
}
} else {
for (entry = pmksa->pmksa; entry; entry = entry->next) {
if (spa == NULL ||
os_memcmp(entry->spa, spa, ETH_ALEN) == 0)
return entry;
}
}
return NULL;
}
/**
* pmksa_cache_get_okc - Fetch a PMKSA cache entry using OKC
* @pmksa: Pointer to PMKSA cache data from pmksa_cache_auth_init()
* @aa: Authenticator address
* @spa: Supplicant address
* @pmkid: PMKID
* Returns: Pointer to PMKSA cache entry or %NULL if no match was found
*
* Use opportunistic key caching (OKC) to find a PMK for a supplicant.
*/
struct rsn_pmksa_cache_entry * pmksa_cache_get_okc(
struct rsn_pmksa_cache *pmksa, const u8 *aa, const u8 *spa,
const u8 *pmkid)
{
struct rsn_pmksa_cache_entry *entry;
u8 new_pmkid[PMKID_LEN];
for (entry = pmksa->pmksa; entry; entry = entry->next) {
if (os_memcmp(entry->spa, spa, ETH_ALEN) != 0)
continue;
rsn_pmkid(entry->pmk, entry->pmk_len, aa, spa, new_pmkid,
entry->akmp);
if (os_memcmp(new_pmkid, pmkid, PMKID_LEN) == 0)
return entry;
}
return NULL;
}
/**
* pmksa_cache_auth_init - Initialize PMKSA cache
* @free_cb: Callback function to be called when a PMKSA cache entry is freed
* @ctx: Context pointer for free_cb function
* Returns: Pointer to PMKSA cache data or %NULL on failure
*/
struct rsn_pmksa_cache *
pmksa_cache_auth_init(void (*free_cb)(struct rsn_pmksa_cache_entry *entry,
void *ctx), void *ctx)
{
struct rsn_pmksa_cache *pmksa;
pmksa = os_zalloc(sizeof(*pmksa));
if (pmksa) {
pmksa->free_cb = free_cb;
pmksa->ctx = ctx;
}
return pmksa;
}
static int das_attr_match(struct rsn_pmksa_cache_entry *entry,
struct radius_das_attrs *attr)
{
int match = 0;
if (attr->sta_addr) {
if (os_memcmp(attr->sta_addr, entry->spa, ETH_ALEN) != 0)
return 0;
match++;
}
if (attr->acct_multi_session_id) {
char buf[20];
if (attr->acct_multi_session_id_len != 16)
return 0;
os_snprintf(buf, sizeof(buf), "%016llX",
(unsigned long long) entry->acct_multi_session_id);
if (os_memcmp(attr->acct_multi_session_id, buf, 16) != 0)
return 0;
match++;
}
if (attr->cui) {
if (!entry->cui ||
attr->cui_len != wpabuf_len(entry->cui) ||
os_memcmp(attr->cui, wpabuf_head(entry->cui),
attr->cui_len) != 0)
return 0;
match++;
}
if (attr->user_name) {
if (!entry->identity ||
attr->user_name_len != entry->identity_len ||
os_memcmp(attr->user_name, entry->identity,
attr->user_name_len) != 0)
return 0;
match++;
}
return match;
}
int pmksa_cache_auth_radius_das_disconnect(struct rsn_pmksa_cache *pmksa,
struct radius_das_attrs *attr)
{
int found = 0;
struct rsn_pmksa_cache_entry *entry, *prev;
if (attr->acct_session_id)
return -1;
entry = pmksa->pmksa;
while (entry) {
if (das_attr_match(entry, attr)) {
found++;
prev = entry;
entry = entry->next;
pmksa_cache_free_entry(pmksa, prev);
continue;
}
entry = entry->next;
}
return found ? 0 : -1;
}
/**
* pmksa_cache_auth_list - Dump text list of entries in PMKSA cache
* @pmksa: Pointer to PMKSA cache data from pmksa_cache_auth_init()
* @buf: Buffer for the list
* @len: Length of the buffer
* Returns: Number of bytes written to buffer
*
* This function is used to generate a text format representation of the
* current PMKSA cache contents for the ctrl_iface PMKSA command.
*/
int pmksa_cache_auth_list(struct rsn_pmksa_cache *pmksa, char *buf, size_t len)
{
int i, ret;
char *pos = buf;
struct rsn_pmksa_cache_entry *entry;
struct os_reltime now;
os_get_reltime(&now);
ret = os_snprintf(pos, buf + len - pos,
"Index / SPA / PMKID / expiration (in seconds) / opportunistic\n");
if (os_snprintf_error(buf + len - pos, ret))
return pos - buf;
pos += ret;
i = 0;
entry = pmksa->pmksa;
while (entry) {
ret = os_snprintf(pos, buf + len - pos, "%d " MACSTR " ",
i, MAC2STR(entry->spa));
if (os_snprintf_error(buf + len - pos, ret))
return pos - buf;
pos += ret;
pos += wpa_snprintf_hex(pos, buf + len - pos, entry->pmkid,
PMKID_LEN);
ret = os_snprintf(pos, buf + len - pos, " %d %d\n",
(int) (entry->expiration - now.sec),
entry->opportunistic);
if (os_snprintf_error(buf + len - pos, ret))
return pos - buf;
pos += ret;
entry = entry->next;
}
return pos - buf;
}
#ifdef CONFIG_PMKSA_CACHE_EXTERNAL
#ifdef CONFIG_MESH
/**
* pmksa_cache_auth_list_mesh - Dump text list of entries in PMKSA cache
* @pmksa: Pointer to PMKSA cache data from pmksa_cache_auth_init()
* @addr: MAC address of the peer (NULL means any)
* @buf: Buffer for the list
* @len: Length of the buffer
* Returns: Number of bytes written to buffer
*
* This function is used to generate a text format representation of the
* current PMKSA cache contents for the ctrl_iface PMKSA_GET command to store
* in external storage.
*/
int pmksa_cache_auth_list_mesh(struct rsn_pmksa_cache *pmksa, const u8 *addr,
char *buf, size_t len)
{
int ret;
char *pos, *end;
struct rsn_pmksa_cache_entry *entry;
struct os_reltime now;
pos = buf;
end = buf + len;
os_get_reltime(&now);
/*
* Entry format:
* <BSSID> <PMKID> <PMK> <expiration in seconds>
*/
for (entry = pmksa->pmksa; entry; entry = entry->next) {
if (addr && os_memcmp(entry->spa, addr, ETH_ALEN) != 0)
continue;
ret = os_snprintf(pos, end - pos, MACSTR " ",
MAC2STR(entry->spa));
if (os_snprintf_error(end - pos, ret))
return 0;
pos += ret;
pos += wpa_snprintf_hex(pos, end - pos, entry->pmkid,
PMKID_LEN);
ret = os_snprintf(pos, end - pos, " ");
if (os_snprintf_error(end - pos, ret))
return 0;
pos += ret;
pos += wpa_snprintf_hex(pos, end - pos, entry->pmk,
entry->pmk_len);
ret = os_snprintf(pos, end - pos, " %d\n",
(int) (entry->expiration - now.sec));
if (os_snprintf_error(end - pos, ret))
return 0;
pos += ret;
}
return pos - buf;
}
#endif /* CONFIG_MESH */
#endif /* CONFIG_PMKSA_CACHE_EXTERNAL */
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