/* SPDX-License-Identifier: LGPL-2.1-or-later */
#include "src/core/nm-default-daemon.h"
#include "nm-l3-ipv4ll.h"
#include <net/if.h>
#include <linux/if_ether.h>
#include "n-acd/src/n-acd.h"
#include "nm-core-utils.h"
#define ADDR_IPV4LL_PREFIX_LEN 16
#define TIMED_OUT_TIME_FACTOR 5u
/*****************************************************************************/
typedef enum {
TIMED_OUT_STATE_IS_NOT_TIMED_OUT,
TIMED_OUT_STATE_IS_TIMED_OUT,
TIMED_OUT_STATE_HAVE_TIMER_RUNNING,
} TimedOutState;
struct _NML3IPv4LLRegistration {
NML3IPv4LL *self;
CList reg_lst;
guint timeout_msec;
};
G_STATIC_ASSERT(G_STRUCT_OFFSET(NML3IPv4LLRegistration, self) == 0);
struct _NML3IPv4LL {
NML3Cfg * l3cfg;
int ref_count;
in_addr_t addr;
guint reg_timeout_msec;
CList reg_lst_head;
NML3CfgCommitTypeHandle *l3cfg_commit_handle;
GSource * state_change_on_idle_source;
GSource * timed_out_source;
const NML3ConfigData * l3cd;
const NMPObject * plobj;
struct {
nm_le64_t value;
nm_le64_t generation;
} seed;
gint64 timed_out_expiry_msec;
gulong l3cfg_signal_notify_id;
NML3IPv4LLState state;
NMEtherAddr seed_mac;
NMEtherAddr mac;
bool seed_set : 1;
bool mac_set : 1;
bool notify_on_idle : 1;
bool reg_changed : 1;
bool l3cd_timeout_msec_changed : 1;
/* not yet used. */
bool seed_reset_generation : 1;
};
G_STATIC_ASSERT(G_STRUCT_OFFSET(NML3IPv4LL, ref_count) == sizeof(gpointer));
#define L3CD_TAG(self) (&(((const char *) self)[1]))
/*****************************************************************************/
#define _NMLOG_DOMAIN LOGD_IP4
#define _NMLOG_PREFIX_NAME "ipv4ll"
#define _NMLOG(level, ...) \
G_STMT_START \
{ \
nm_log((level), \
(_NMLOG_DOMAIN), \
NULL, \
NULL, \
_NMLOG_PREFIX_NAME "[" NM_HASH_OBFUSCATE_PTR_FMT \
",ifindex=%d]: " _NM_UTILS_MACRO_FIRST(__VA_ARGS__), \
NM_HASH_OBFUSCATE_PTR(self), \
nm_l3cfg_get_ifindex((self)->l3cfg) _NM_UTILS_MACRO_REST(__VA_ARGS__)); \
} \
G_STMT_END
/*****************************************************************************/
static void _ipv4ll_state_change_on_idle(NML3IPv4LL *self);
static void _ipv4ll_state_change(NML3IPv4LL *self, gboolean is_on_idle_handler);
static void _ipv4ll_set_timed_out_update(NML3IPv4LL *self, TimedOutState new_state);
/*****************************************************************************/
NM_UTILS_ENUM2STR_DEFINE(nm_l3_ipv4ll_state_to_string,
NML3IPv4LLState,
NM_UTILS_ENUM2STR(NM_L3_IPV4LL_STATE_UNKNOWN, "unknown"),
NM_UTILS_ENUM2STR(NM_L3_IPV4LL_STATE_DISABLED, "disabled"),
NM_UTILS_ENUM2STR(NM_L3_IPV4LL_STATE_WAIT_FOR_LINK, "wait-for-link"),
NM_UTILS_ENUM2STR(NM_L3_IPV4LL_STATE_EXTERNAL, "external"),
NM_UTILS_ENUM2STR(NM_L3_IPV4LL_STATE_PROBING, "probing"),
NM_UTILS_ENUM2STR(NM_L3_IPV4LL_STATE_DEFENDING, "defending"),
NM_UTILS_ENUM2STR(NM_L3_IPV4LL_STATE_READY, "ready"), );
/*****************************************************************************/
#define _ASSERT(self) \
G_STMT_START \
{ \
NML3IPv4LL *const _self = (self); \
\
nm_assert(NM_IS_L3_IPV4LL(_self)); \
if (NM_MORE_ASSERTS > 5) { \
nm_assert(_self->addr == 0u || nm_utils_ip4_address_is_link_local(_self->addr)); \
nm_assert(!_self->l3cd || NM_IS_L3_CONFIG_DATA(_self->l3cd)); \
} \
} \
G_STMT_END
/*****************************************************************************/
NML3Cfg *
nm_l3_ipv4ll_get_l3cfg(NML3IPv4LL *self)
{
nm_assert(NM_IS_L3_IPV4LL(self));
return self->l3cfg;
}
int
nm_l3_ipv4ll_get_ifindex(NML3IPv4LL *self)
{
nm_assert(NM_IS_L3_IPV4LL(self));
return nm_l3cfg_get_ifindex(self->l3cfg);
}
NMPlatform *
nm_l3_ipv4ll_get_platform(NML3IPv4LL *self)
{
nm_assert(NM_IS_L3_IPV4LL(self));
return nm_l3cfg_get_platform(self->l3cfg);
}
/*****************************************************************************/
NML3IPv4LLState
nm_l3_ipv4ll_get_state(NML3IPv4LL *self)
{
nm_assert(NM_IS_L3_IPV4LL(self));
return self->state;
}
static gboolean
_ipv4ll_is_timed_out(NML3IPv4LL *self)
{
_ASSERT(self);
return self->timed_out_expiry_msec != 0 && !self->timed_out_source;
}
gboolean
nm_l3_ipv4ll_is_timed_out(NML3IPv4LL *self)
{
nm_assert(NM_IS_L3_IPV4LL(self));
return _ipv4ll_is_timed_out(self);
}
in_addr_t
nm_l3_ipv4ll_get_addr(NML3IPv4LL *self)
{
nm_assert(NM_IS_L3_IPV4LL(self));
return self->addr;
}
const NML3ConfigData *
nm_l3_ipv4ll_get_l3cd(NML3IPv4LL *self)
{
nm_assert(NM_IS_L3_IPV4LL(self));
return self->l3cd;
}
static void
_ipv4ll_emit_signal_notify(NML3IPv4LL *self)
{
NML3ConfigNotifyData notify_data;
self->notify_on_idle = FALSE;
notify_data.notify_type = NM_L3_CONFIG_NOTIFY_TYPE_IPV4LL_EVENT;
notify_data.ipv4ll_event = (typeof(notify_data.ipv4ll_event)){
.ipv4ll = self,
};
_nm_l3cfg_emit_signal_notify(self->l3cfg, ¬ify_data);
}
/*****************************************************************************/
static NML3IPv4LLRegistration *
_registration_update(NML3IPv4LL * self,
NML3IPv4LLRegistration *reg,
gboolean add,
guint timeout_msec)
{
nm_auto_unref_l3ipv4ll NML3IPv4LL *self_unref_on_exit = NULL;
gboolean changed = FALSE;
if (reg) {
nm_assert(!self);
_ASSERT(reg->self);
self = reg->self;
nm_assert(c_list_contains(&self->reg_lst_head, ®->reg_lst));
nm_assert(self == nm_l3_ipv4ll_register_get_instance(reg));
} else {
nm_assert(add);
_ASSERT(self);
}
if (!add) {
_LOGT("registration[" NM_HASH_OBFUSCATE_PTR_FMT "]: remove", NM_HASH_OBFUSCATE_PTR(reg));
c_list_unlink_stale(®->reg_lst);
if (c_list_is_empty(&self->reg_lst_head))
self_unref_on_exit = self;
nm_g_slice_free(reg);
reg = NULL;
goto out;
}
if (!reg) {
reg = g_slice_new(NML3IPv4LLRegistration);
*reg = (NML3IPv4LLRegistration){
.self = self,
.timeout_msec = timeout_msec,
};
if (c_list_is_empty(&self->reg_lst_head))
nm_l3_ipv4ll_ref(self);
c_list_link_tail(&self->reg_lst_head, ®->reg_lst);
changed = TRUE;
_LOGT("registration[" NM_HASH_OBFUSCATE_PTR_FMT "]: add (timeout_msec=%u)",
NM_HASH_OBFUSCATE_PTR(reg),
timeout_msec);
} else {
if (reg->timeout_msec != timeout_msec) {
reg->timeout_msec = timeout_msec;
changed = TRUE;
}
if (changed) {
_LOGT("registration[" NM_HASH_OBFUSCATE_PTR_FMT "]: update (timeout_msec=%u)",
NM_HASH_OBFUSCATE_PTR(reg),
timeout_msec);
}
}
out:
if (changed) {
self->reg_changed = TRUE;
_ipv4ll_state_change(self, FALSE);
}
return reg;
}
NML3IPv4LLRegistration *
nm_l3_ipv4ll_register_new(NML3IPv4LL *self, guint timeout_msec)
{
return _registration_update(self, NULL, TRUE, timeout_msec);
}
NML3IPv4LLRegistration *
nm_l3_ipv4ll_register_update(NML3IPv4LLRegistration *reg, guint timeout_msec)
{
return _registration_update(NULL, reg, TRUE, timeout_msec);
}
NML3IPv4LLRegistration *
nm_l3_ipv4ll_register_remove(NML3IPv4LLRegistration *reg)
{
return _registration_update(NULL, reg, FALSE, 0);
}
/*****************************************************************************/
static gboolean
_ip4_address_is_link_local(const NMPlatformIP4Address *a)
{
nm_assert(a);
return nm_utils_ip4_address_is_link_local(a->address) && a->plen == ADDR_IPV4LL_PREFIX_LEN
&& a->address == a->peer_address;
}
static gboolean
_acd_info_is_good(const NML3AcdAddrInfo *acd_info)
{
if (!acd_info)
return TRUE;
switch (acd_info->state) {
case NM_L3_ACD_ADDR_STATE_INIT:
case NM_L3_ACD_ADDR_STATE_PROBING:
case NM_L3_ACD_ADDR_STATE_READY:
case NM_L3_ACD_ADDR_STATE_DEFENDING:
case NM_L3_ACD_ADDR_STATE_EXTERNAL_REMOVED:
return TRUE;
case NM_L3_ACD_ADDR_STATE_USED:
case NM_L3_ACD_ADDR_STATE_CONFLICT:
return FALSE;
}
nm_assert_not_reached();
return FALSE;
}
/*****************************************************************************/
static NMPlatformIP4Address *
_l3cd_config_plat_init_addr(NMPlatformIP4Address *a, int ifindex, in_addr_t addr)
{
nm_assert(nm_utils_ip4_address_is_link_local(addr));
*a = (NMPlatformIP4Address){
.ifindex = ifindex,
.address = addr,
.peer_address = addr,
.plen = ADDR_IPV4LL_PREFIX_LEN,
.addr_source = NM_IP_CONFIG_SOURCE_IP4LL,
};
return a;
}
static NMPlatformIP4Route *
_l3cd_config_plat_init_route(NMPlatformIP4Route *r, int ifindex)
{
*r = (NMPlatformIP4Route){
.ifindex = ifindex,
.network = htonl(0xE0000000u),
.plen = 4,
.rt_source = NM_IP_CONFIG_SOURCE_IP4LL,
.table_any = TRUE,
.metric_any = TRUE,
};
return r;
}
static const NML3ConfigData *
_l3cd_config_create(int ifindex, in_addr_t addr, NMDedupMultiIndex *multi_idx)
{
nm_auto_unref_l3cd_init NML3ConfigData *l3cd = NULL;
NMPlatformIP4Address a;
NMPlatformIP4Route r;
nm_assert(nm_utils_ip4_address_is_link_local(addr));
nm_assert(ifindex > 0);
nm_assert(multi_idx);
l3cd = nm_l3_config_data_new(multi_idx, ifindex);
nm_l3_config_data_set_source(l3cd, NM_IP_CONFIG_SOURCE_IP4LL);
nm_l3_config_data_add_address_4(l3cd, _l3cd_config_plat_init_addr(&a, ifindex, addr));
nm_l3_config_data_add_route_4(l3cd, _l3cd_config_plat_init_route(&r, ifindex));
return nm_l3_config_data_seal(g_steal_pointer(&l3cd));
}
static in_addr_t
_l3cd_config_get_addr(const NML3ConfigData *l3cd)
{
NMDedupMultiIter iter;
const NMPlatformIP4Address *pladdr;
if (!l3cd)
return 0u;
nm_l3_config_data_iter_ip4_address_for_each (&iter, l3cd, &pladdr) {
const in_addr_t addr = pladdr->address;
nm_assert(_ip4_address_is_link_local(pladdr));
#if NM_MORE_ASSERTS > 10
{
nm_auto_unref_l3cd const NML3ConfigData *l3cd2 = NULL;
l3cd2 = _l3cd_config_create(nm_l3_config_data_get_ifindex(l3cd),
addr,
nm_l3_config_data_get_multi_idx(l3cd));
nm_assert(nm_l3_config_data_equal(l3cd2, l3cd));
}
#endif
return addr;
}
return nm_assert_unreachable_val(0u);
}
/*****************************************************************************/
static void
_ipv4ll_addrgen(NML3IPv4LL *self, gboolean generate_new_addr)
{
CSipHash state;
char sbuf_addr[NM_UTILS_INET_ADDRSTRLEN];
gboolean seed_changed = FALSE;
in_addr_t addr_new;
guint64 h;
_ASSERT(self);
/* MAC_HASH_KEY is the same as used by systemd. */
#define MAC_HASH_KEY \
((const guint8[16]){0xdf, \
0x04, \
0x22, \
0x98, \
0x3f, \
0xad, \
0x14, \
0x52, \
0xf9, \
0x87, \
0x2e, \
0xd1, \
0x9c, \
0x70, \
0xe2, \
0xf2})
if (self->mac_set && (!self->seed_set || !nm_ether_addr_equal(&self->mac, &self->seed_mac))) {
/* systemd's ipv4ll library by default only hashes the MAC address (as we do here).
* This is also what previous versions of NetworkManager did (whenn using sd_ipv4ll).
*
* On the other hand, systemd-networkd uses net_get_name_persistent() of the device
* mixed with /etc/machine-id.
*
* See also: https://tools.ietf.org/html/rfc3927#section-2.1
*
* FIXME(l3cfg): At this point, maybe we should also mix it with nm_utils_host_id_get().
* This would get the behavior closer to what systemd-networkd does.
* Don't do that for now, because it would be a change in behavior compared
* to earlier versions of NetworkManager. */
c_siphash_init(&state, MAC_HASH_KEY);
c_siphash_append(&state, self->mac.ether_addr_octet, ETH_ALEN);
h = c_siphash_finalize(&state);
_LOGT("addr-gen: %sset seed (for " NM_ETHER_ADDR_FORMAT_STR ")",
self->seed_set ? "re" : "",
NM_ETHER_ADDR_FORMAT_VAL(&self->mac));
self->seed_set = TRUE;
self->seed_mac = self->mac;
self->seed.generation = htole64(0);
self->seed.value = htole64(h);
self->seed_reset_generation = FALSE;
self->addr = 0u;
seed_changed = TRUE;
}
if (!self->seed_set) {
/* we have no seed set (and consequently no MAC address set either).
* We cannot generate an address. */
nm_assert(self->addr == 0u);
return;
}
nm_assert(seed_changed || self->seed.generation != htole64(0u));
if (self->seed_reset_generation) {
_LOGT("addr-gen: reset seed (generation only)");
self->seed.generation = htole64(0);
self->addr = 0u;
seed_changed = TRUE;
}
if (!seed_changed && !generate_new_addr) {
/* neither did the caller request a new address, nor was the seed changed. The current
* address is still to be used. */
nm_assert(nm_utils_ip4_address_is_link_local(self->addr));
return;
}
gen_addr:
#define PICK_HASH_KEY \
((const guint8[16]){0x15, \
0xac, \
0x82, \
0xa6, \
0xd6, \
0x3f, \
0x49, \
0x78, \
0x98, \
0x77, \
0x5d, \
0x0c, \
0x69, \
0x02, \
0x94, \
0x0b})
h = c_siphash_hash(PICK_HASH_KEY, (const guint8 *) &self->seed, sizeof(self->seed));
self->seed.generation = htole64(le64toh(self->seed.generation) + 1u);
addr_new = htonl(h & UINT32_C(0x0000FFFF)) | NM_IPV4LL_NETWORK;
if (self->addr == addr_new || NM_IN_SET(ntohl(addr_new) & 0x0000FF00u, 0x0000u, 0xFF00u))
goto gen_addr;
nm_assert(nm_utils_ip4_address_is_link_local(addr_new));
_LOGT("addr-gen: set address %s", _nm_utils_inet4_ntop(addr_new, sbuf_addr));
self->addr = addr_new;
}
/*****************************************************************************/
static void
_ipv4ll_update_link(NML3IPv4LL *self, const NMPObject *plobj)
{
char sbuf[ETH_ALEN * 3];
nm_auto_nmpobj const NMPObject *pllink_old = NULL;
const NMEtherAddr * mac_new;
gboolean changed;
if (self->plobj == plobj)
return;
pllink_old = g_steal_pointer(&self->plobj);
self->plobj = nmp_object_ref(plobj);
mac_new = NULL;
if (plobj) {
const NMPlatformLink *pllink = NMP_OBJECT_CAST_LINK(plobj);
if (pllink->l_address.len == ETH_ALEN)
mac_new = &pllink->l_address.ether_addr;
}
changed = FALSE;
if (!mac_new) {
if (self->mac_set) {
changed = TRUE;
self->mac_set = FALSE;
}
} else {
if (!self->mac_set || !nm_ether_addr_equal(mac_new, &self->mac)) {
changed = TRUE;
self->mac_set = TRUE;
self->mac = *mac_new;
}
}
if (changed) {
_LOGT("mac changed: %s",
self->mac_set ? _nm_utils_hwaddr_ntoa(&self->mac, ETH_ALEN, TRUE, sbuf, sizeof(sbuf))
: "unset");
}
}
/*****************************************************************************/
static void
_l3cd_config_add(NML3IPv4LL *self)
{
nm_auto_unref_l3cd const NML3ConfigData *l3cd = NULL;
char sbuf_addr[NM_UTILS_INET_ADDRSTRLEN];
gboolean changed;
_ASSERT(self);
nm_assert(self->addr != 0u);
nm_assert(self->reg_timeout_msec > 0u);
if (_l3cd_config_get_addr(self->l3cd) != self->addr) {
l3cd = _l3cd_config_create(nm_l3_ipv4ll_get_ifindex(self),
self->addr,
nm_l3cfg_get_multi_idx(self->l3cfg));
nm_assert(!nm_l3_config_data_equal(l3cd, self->l3cd));
changed = TRUE;
} else
changed = FALSE;
if (!changed && !self->l3cd_timeout_msec_changed)
return;
self->l3cd_timeout_msec_changed = FALSE;
_LOGT("add l3cd config with %s (acd-timeout %u msec%s)",
_nm_utils_inet4_ntop(self->addr, sbuf_addr),
self->reg_timeout_msec,
changed ? "" : " changed");
if (changed) {
NM_SWAP(&l3cd, &self->l3cd);
self->notify_on_idle = TRUE;
}
if (!nm_l3cfg_add_config(self->l3cfg,
L3CD_TAG(self),
TRUE,
self->l3cd,
NM_L3CFG_CONFIG_PRIORITY_IPV4LL,
0,
0,
NM_PLATFORM_ROUTE_METRIC_DEFAULT_IP4,
NM_PLATFORM_ROUTE_METRIC_DEFAULT_IP6,
0,
0,
NM_L3_ACD_DEFEND_TYPE_ONCE,
self->reg_timeout_msec,
NM_L3_CONFIG_MERGE_FLAGS_ONLY_FOR_ACD))
nm_assert_not_reached();
self->l3cfg_commit_handle = nm_l3cfg_commit_type_register(self->l3cfg,
NM_L3_CFG_COMMIT_TYPE_ASSUME,
self->l3cfg_commit_handle);
nm_l3cfg_commit_on_idle_schedule(self->l3cfg);
}
static gboolean
_l3cd_config_remove(NML3IPv4LL *self)
{
nm_auto_unref_l3cd const NML3ConfigData *l3cd = NULL;
nm_assert(NM_IS_L3_IPV4LL(self));
if (!self->l3cd)
return FALSE;
_LOGT("remove l3cd config");
self->notify_on_idle = TRUE;
l3cd = g_steal_pointer(&self->l3cd);
if (!nm_l3cfg_remove_config(self->l3cfg, L3CD_TAG(self), l3cd))
nm_assert_not_reached();
nm_l3cfg_commit_type_unregister(self->l3cfg, g_steal_pointer(&self->l3cfg_commit_handle));
nm_l3cfg_commit_on_idle_schedule(self->l3cfg);
return TRUE;
}
/*****************************************************************************/
static const NMPlatformIP4Address *
_ipv4ll_platform_ip4_address_lookup(NML3IPv4LL *self, in_addr_t addr)
{
const NMPlatformIP4Address *pladdr;
if (addr == 0u)
return NULL;
nm_assert(nm_utils_ip4_address_is_link_local(addr));
pladdr = nm_platform_ip4_address_get(nm_l3_ipv4ll_get_platform(self),
nm_l3_ipv4ll_get_ifindex(self),
addr,
ADDR_IPV4LL_PREFIX_LEN,
addr);
nm_assert(!pladdr || pladdr->address == addr);
nm_assert(!pladdr || _ip4_address_is_link_local(pladdr));
return pladdr;
}
static const NML3AcdAddrInfo *
_ipv4ll_l3cfg_get_acd_addr_info(NML3IPv4LL *self, in_addr_t addr)
{
if (addr == 0u)
return NULL;
nm_assert(nm_utils_ip4_address_is_link_local(addr));
return nm_l3cfg_get_acd_addr_info(self->l3cfg, addr);
}
static const NMPlatformIP4Address *
_ipv4ll_platform_find_addr(NML3IPv4LL *self, const NML3AcdAddrInfo **out_acd_info)
{
const NMPlatformIP4Address *addr_without_acd_info = NULL;
NMDedupMultiIter iter;
NMPLookup lookup;
const NMPObject * obj;
const NML3AcdAddrInfo * acd_info;
const NMPlatformIP4Address *addr;
nmp_lookup_init_object(&lookup, NMP_OBJECT_TYPE_IP4_ADDRESS, nm_l3_ipv4ll_get_ifindex(self));
nm_platform_iter_obj_for_each (&iter, nm_l3_ipv4ll_get_platform(self), &lookup, &obj) {
addr = NMP_OBJECT_CAST_IP4_ADDRESS(obj);
if (!_ip4_address_is_link_local(addr))
continue;
acd_info = _ipv4ll_l3cfg_get_acd_addr_info(self, addr->address);
if (!_acd_info_is_good(acd_info))
continue;
if (acd_info) {
/* We have a good acd_info. We won't find a better one. Return it. */
NM_SET_OUT(out_acd_info, acd_info);
return addr;
}
if (!addr_without_acd_info) {
/* remember a potential candidate address that has no acd_info. */
addr_without_acd_info = addr;
}
}
if (addr_without_acd_info) {
NM_SET_OUT(out_acd_info, NULL);
return addr_without_acd_info;
}
return NULL;
}
/*****************************************************************************/
static gboolean
_ipv4ll_set_timed_out_timeout_cb(gpointer user_data)
{
NML3IPv4LL *self = user_data;
_ipv4ll_set_timed_out_update(self, TIMED_OUT_STATE_IS_TIMED_OUT);
if (self->notify_on_idle)
_ipv4ll_emit_signal_notify(self);
return G_SOURCE_REMOVE;
}
static void
_ipv4ll_set_timed_out_update(NML3IPv4LL *self, TimedOutState new_state)
{
gboolean before;
before = _ipv4ll_is_timed_out(self);
switch (new_state) {
case TIMED_OUT_STATE_IS_TIMED_OUT:
if (self->timed_out_expiry_msec == 0) {
nm_assert(!self->timed_out_source);
self->timed_out_expiry_msec = 1;
}
nm_clear_g_source_inst(&self->timed_out_source);
break;
case TIMED_OUT_STATE_IS_NOT_TIMED_OUT:
self->timed_out_expiry_msec = 0;
nm_clear_g_source_inst(&self->timed_out_source);
break;
case TIMED_OUT_STATE_HAVE_TIMER_RUNNING:
{
gint64 now_msec = nm_utils_get_monotonic_timestamp_msec();
guint timeout_msec;
gint64 expiry_msec;
nm_assert(self->reg_timeout_msec > 0u);
timeout_msec = nm_mult_clamped_u(TIMED_OUT_TIME_FACTOR, self->reg_timeout_msec);
expiry_msec = now_msec + timeout_msec;
if (self->timed_out_expiry_msec == 0 || self->timed_out_expiry_msec < expiry_msec) {
self->timed_out_expiry_msec = expiry_msec;
nm_clear_g_source_inst(&self->timed_out_source);
self->timed_out_source = nm_g_timeout_source_new(timeout_msec,
G_PRIORITY_DEFAULT,
_ipv4ll_set_timed_out_timeout_cb,
self,
NULL);
g_source_attach(self->timed_out_source, NULL);
}
break;
}
}
if (before != _ipv4ll_is_timed_out(self)) {
self->notify_on_idle = TRUE;
_LOGT("state: set timed-out-is-bad=%d", (!before));
}
}
static gboolean
_ipv4ll_set_state(NML3IPv4LL *self, NML3IPv4LLState state)
{
char sbuf_addr[NM_UTILS_INET_ADDRSTRLEN];
char sbuf100[100];
if (self->state == state)
return FALSE;
self->state = state;
self->notify_on_idle = TRUE;
_LOGT("state: set state %s (addr=%s)",
nm_l3_ipv4ll_state_to_string(state, sbuf100, sizeof(sbuf100)),
_nm_utils_inet4_ntop(self->addr, sbuf_addr));
return TRUE;
}
static void
_ipv4ll_state_change(NML3IPv4LL *self, gboolean is_on_idle_handler)
{
nm_auto_unref_l3ipv4ll NML3IPv4LL *self_keep_alive = NULL;
const NMPlatformIP4Address * pladdr;
const NML3AcdAddrInfo * acd_info;
gboolean generate_new_addr;
NML3IPv4LLState new_state;
in_addr_t addr0;
NML3IPv4LLRegistration * reg;
_ASSERT(self);
self_keep_alive = nm_l3_ipv4ll_ref(self);
nm_clear_g_source_inst(&self->state_change_on_idle_source);
addr0 = self->addr;
if (self->reg_changed) {
guint timeout_msec = self->reg_timeout_msec;
self->reg_changed = FALSE;
if (c_list_is_empty(&self->reg_lst_head))
timeout_msec = 0;
else {
timeout_msec = G_MAXUINT;
c_list_for_each_entry (reg, &self->reg_lst_head, reg_lst) {
if (reg->timeout_msec < timeout_msec)
timeout_msec = reg->timeout_msec;
if (reg->timeout_msec == 0)
break;
}
}
if (self->reg_timeout_msec != timeout_msec) {
self->reg_timeout_msec = timeout_msec;
self->l3cd_timeout_msec_changed = TRUE;
}
}
if (self->reg_timeout_msec == 0) {
_ipv4ll_set_timed_out_update(self, TIMED_OUT_STATE_IS_NOT_TIMED_OUT);
if (_ipv4ll_set_state(self, NM_L3_IPV4LL_STATE_DISABLED))
_l3cd_config_remove(self);
goto out_notify;
}
if (!self->mac_set) {
_ipv4ll_set_timed_out_update(self, TIMED_OUT_STATE_HAVE_TIMER_RUNNING);
if (_ipv4ll_set_state(self, NM_L3_IPV4LL_STATE_WAIT_FOR_LINK))
_l3cd_config_remove(self);
else
nm_assert(!self->l3cd);
goto out_notify;
}
if (self->state <= NM_L3_IPV4LL_STATE_EXTERNAL) {
pladdr = _ipv4ll_platform_ip4_address_lookup(self, self->addr);
if (pladdr) {
if (!_acd_info_is_good(_ipv4ll_l3cfg_get_acd_addr_info(self, self->addr)))
pladdr = NULL;
}
if (!pladdr)
pladdr = _ipv4ll_platform_find_addr(self, NULL);
if (pladdr) {
/* we have an externally configured address. Check whether we can use it. */
self->addr = pladdr->address;
self->notify_on_idle = TRUE;
_ipv4ll_set_state(self, NM_L3_IPV4LL_STATE_EXTERNAL);
_l3cd_config_add(self);
_ipv4ll_set_timed_out_update(self, TIMED_OUT_STATE_IS_NOT_TIMED_OUT);
goto out_notify;
}
}
generate_new_addr = FALSE;
while (TRUE) {
_ipv4ll_addrgen(self, generate_new_addr);
acd_info = _ipv4ll_l3cfg_get_acd_addr_info(self, self->addr);
if (_acd_info_is_good(acd_info))
break;
generate_new_addr = TRUE;
}
nm_assert(_acd_info_is_good(acd_info));
switch (acd_info ? acd_info->state : NM_L3_ACD_ADDR_STATE_INIT) {
case NM_L3_ACD_ADDR_STATE_INIT:
case NM_L3_ACD_ADDR_STATE_PROBING:
new_state = NM_L3_IPV4LL_STATE_PROBING;
_ipv4ll_set_timed_out_update(self, TIMED_OUT_STATE_HAVE_TIMER_RUNNING);
goto out_is_good_1;
case NM_L3_ACD_ADDR_STATE_READY:
new_state = NM_L3_IPV4LL_STATE_READY;
_ipv4ll_set_timed_out_update(self, TIMED_OUT_STATE_HAVE_TIMER_RUNNING);
goto out_is_good_1;
case NM_L3_ACD_ADDR_STATE_DEFENDING:
new_state = NM_L3_IPV4LL_STATE_DEFENDING;
_ipv4ll_set_timed_out_update(self, TIMED_OUT_STATE_IS_NOT_TIMED_OUT);
goto out_is_good_1;
case NM_L3_ACD_ADDR_STATE_EXTERNAL_REMOVED:
case NM_L3_ACD_ADDR_STATE_USED:
case NM_L3_ACD_ADDR_STATE_CONFLICT:
nm_assert_not_reached();
goto out_notify;
}
nm_assert_not_reached();
goto out_notify;
out_is_good_1:
_ipv4ll_set_state(self, new_state);
_l3cd_config_add(self);
if (self->addr != addr0)
self->notify_on_idle = TRUE;
goto out_notify;
out_notify:
if (self->notify_on_idle) {
if (is_on_idle_handler)
_ipv4ll_emit_signal_notify(self);
else
_ipv4ll_state_change_on_idle(self);
}
}
static gboolean
_ipv4ll_state_change_on_idle_cb(gpointer user_data)
{
NML3IPv4LL *self = user_data;
_ipv4ll_state_change(self, TRUE);
return G_SOURCE_REMOVE;
}
static void
_ipv4ll_state_change_on_idle(NML3IPv4LL *self)
{
nm_assert(NM_IS_L3_IPV4LL(self));
if (!self->state_change_on_idle_source) {
self->state_change_on_idle_source =
nm_g_idle_source_new(G_PRIORITY_DEFAULT, _ipv4ll_state_change_on_idle_cb, self, NULL);
g_source_attach(self->state_change_on_idle_source, NULL);
}
}
/*****************************************************************************/
static void
_l3cfg_notify_cb(NML3Cfg *l3cfg, const NML3ConfigNotifyData *notify_data, NML3IPv4LL *self)
{
if (notify_data->notify_type == NM_L3_CONFIG_NOTIFY_TYPE_PLATFORM_CHANGE_ON_IDLE) {
/* NMl3Cfg only reloads the platform link during the idle handler. Pick it up now. */
_ipv4ll_update_link(self, nm_l3cfg_get_plobj(l3cfg, FALSE));
/* theoretically, this even is already on an idle handler. However, we share
* the call with other signal handlers, so at this point we don't want to
* emit additional signals. Thus pass %FALSE to _ipv4ll_state_change(). */
_ipv4ll_state_change(self, FALSE);
return;
}
if (notify_data->notify_type == NM_L3_CONFIG_NOTIFY_TYPE_ACD_EVENT) {
if (self->l3cd
&& nm_l3_acd_addr_info_find_track_info(¬ify_data->acd_event.info,
L3CD_TAG(self),
self->l3cd,
NULL)) {
_ipv4ll_state_change(self, FALSE);
}
return;
}
}
/*****************************************************************************/
NML3IPv4LL *
nm_l3_ipv4ll_new(NML3Cfg *l3cfg)
{
NML3IPv4LL *self;
g_return_val_if_fail(NM_IS_L3CFG(l3cfg), NULL);
self = g_slice_new(NML3IPv4LL);
*self = (NML3IPv4LL){
.l3cfg = g_object_ref(l3cfg),
.ref_count = 1,
.reg_lst_head = C_LIST_INIT(self->reg_lst_head),
.l3cfg_commit_handle = NULL,
.state_change_on_idle_source = NULL,
.l3cd = NULL,
.plobj = NULL,
.addr = 0u,
.state = NM_L3_IPV4LL_STATE_DISABLED,
.reg_timeout_msec = 0,
.notify_on_idle = TRUE,
.l3cfg_signal_notify_id =
g_signal_connect(l3cfg, NM_L3CFG_SIGNAL_NOTIFY, G_CALLBACK(_l3cfg_notify_cb), self),
.seed_set = FALSE,
.seed_reset_generation = FALSE,
};
_LOGT("created: l3cfg=" NM_HASH_OBFUSCATE_PTR_FMT, NM_HASH_OBFUSCATE_PTR(l3cfg));
_ipv4ll_update_link(self, nm_l3cfg_get_plobj(l3cfg, FALSE));
_ipv4ll_state_change(self, FALSE);
return self;
}
NML3IPv4LL *
nm_l3_ipv4ll_ref(NML3IPv4LL *self)
{
if (!self)
return NULL;
_ASSERT(self);
nm_assert(self->ref_count < G_MAXINT);
self->ref_count++;
return self;
}
void
nm_l3_ipv4ll_unref(NML3IPv4LL *self)
{
if (!self)
return;
_ASSERT(self);
if (--self->ref_count > 0)
return;
if (nm_l3cfg_get_ipv4ll(self->l3cfg) == self)
_nm_l3cfg_unregister_ipv4ll(self->l3cfg);
_LOGT("finalize");
nm_assert(c_list_is_empty(&self->reg_lst_head));
if (self->l3cd) {
nm_auto_unref_l3cd const NML3ConfigData *l3cd = NULL;
l3cd = g_steal_pointer(&self->l3cd);
if (!nm_l3cfg_remove_config(self->l3cfg, L3CD_TAG(self), l3cd))
nm_assert_not_reached();
nm_l3cfg_commit_type_unregister(self->l3cfg, g_steal_pointer(&self->l3cfg_commit_handle));
nm_l3cfg_commit_on_idle_schedule(self->l3cfg);
} else
nm_assert(!self->l3cfg_commit_handle);
nm_clear_g_source_inst(&self->state_change_on_idle_source);
nm_clear_g_source_inst(&self->timed_out_source);
nm_clear_g_signal_handler(self->l3cfg, &self->l3cfg_signal_notify_id);
g_clear_object(&self->l3cfg);
nmp_object_unref(self->plobj);
nm_g_slice_free(self);
}