//:: for name, vs_info in value_sets.items():
int value_set_${name}_delete(void *value) {
void *entry = tommy_list_remove_existing(&value_set_${name}, value);
if(!entry)
return 1;
free(entry);
return 0;
}
static switch_status_t switch_l3_remove_from_vrf_list(
switch_l3_hash_t *hash_entry) {
switch_vrf_route_list_t *vrf_route_list = NULL;
void *temp = NULL;
switch_ip_addr_t ip_addr;
switch_handle_t vrf_handle = 0;
switch_status_t status = SWITCH_STATUS_SUCCESS;
memset(&ip_addr, 0, sizeof(switch_ip_addr_t));
switch_l3_hash_key_decode(hash_entry, &vrf_handle, &ip_addr);
if (ip_addr.type == SWITCH_API_IP_ADDR_V4) {
JLG(temp, switch_vrf_v4_routes, vrf_handle);
} else {
JLG(temp, switch_vrf_v6_routes, vrf_handle);
}
if (!temp) {
return SWITCH_STATUS_ITEM_NOT_FOUND;
}
vrf_route_list = (switch_vrf_route_list_t *)(*(unsigned long *)temp);
tommy_list_remove_existing(&(vrf_route_list->routes),
&(hash_entry->vrf_route_node));
vrf_route_list->num_entries--;
if (vrf_route_list->num_entries == 0) {
if (ip_addr.type == SWITCH_API_IP_ADDR_V4) {
JLD(status, switch_vrf_v4_routes, vrf_handle);
} else {
JLD(status, switch_vrf_v6_routes, vrf_handle);
}
}
return status;
}
void* tommy_hashtable_remove_existing(tommy_hashtable* hashtable, tommy_hashtable_node* node)
{
unsigned pos = node->key & hashtable->bucket_mask;
tommy_list_remove_existing(&hashtable->bucket[pos], node);
--hashtable->count;
return node->data;
}
void* tommy_hashdyn_remove_existing(tommy_hashdyn* hashdyn, tommy_hashdyn_node* node)
{
unsigned pos = node->key & hashdyn->bucket_mask;
tommy_list_remove_existing(&hashdyn->bucket[pos], node);
--hashdyn->count;
hashdyn_shrink_step(hashdyn);
return node->data;
}
switchlink_db_status_t switchlink_db_oifl_delete(switchlink_handle_t oifl_h) {
switchlink_db_oifl_obj_t *obj;
obj = switchlink_db_handle_get_obj(oifl_h);
if (!obj) {
return SWITCHLINK_DB_STATUS_ITEM_NOT_FOUND;
}
assert(obj->ref_count == 0);
tommy_trie_inplace_remove_existing(&switchlink_db_handle_obj_map,
&obj->handle_node);
tommy_list_remove_existing(&switchlink_db_oifl_obj_list, &obj->list_node);
switchlink_free(obj);
return SWITCHLINK_DB_STATUS_SUCCESS;
}
switch_status_t
switch_api_stp_group_vlans_remove(switch_device_t device,
switch_handle_t stg_handle,
uint16_t vlan_count,
switch_handle_t *vlan_handle)
{
switch_stp_info_t *stp_info = NULL;
switch_bd_info_t *bd_info = NULL;
switch_stp_vlan_entry_t *vlan_entry = NULL;
tommy_node *node = NULL;
switch_handle_t bd_handle;
int count = 0;
if (!SWITCH_STP_HANDLE_VALID(stg_handle)) {
return SWITCH_STATUS_INVALID_HANDLE;
}
stp_info = switch_api_stp_get_internal(stg_handle);
if (!stp_info) {
return SWITCH_STATUS_INVALID_HANDLE;
}
for (count = 0; count < vlan_count; count++) {
bd_handle = vlan_handle[count];
bd_info = switch_bd_get(bd_handle);
if (!bd_info) {
return SWITCH_STATUS_INVALID_VLAN_ID;
}
node = tommy_list_head(&(stp_info->vlan_list));
while (node) {
vlan_entry = node->data;
if (vlan_entry->bd_handle == bd_handle) {
break;
}
node = node->next;
}
if (!node) {
return SWITCH_STATUS_ITEM_NOT_FOUND;
}
bd_info->stp_handle = 0;
switch_pd_bd_table_update_entry(device, handle_to_id(bd_handle),
bd_info);
vlan_entry = tommy_list_remove_existing(&(stp_info->vlan_list), node);
switch_free(vlan_entry);
}
return SWITCH_STATUS_SUCCESS;
}
switch_status_t switch_api_packet_net_filter_tx_delete(
switch_device_t device, switch_packet_tx_key_t *tx_key) {
switch_packet_tx_entry_t *tmp_tx_entry = NULL;
switch_packet_tx_info_t *tmp_tx_info = NULL;
switch_packet_tx_entry_t tx_entry;
tommy_node *node = NULL;
switch_hostif_info_t *hostif_info = NULL;
bool node_found = FALSE;
switch_status_t status = SWITCH_STATUS_SUCCESS;
if (!tx_key) {
SWITCH_API_ERROR("filter tx delete failed. invalid params");
return SWITCH_STATUS_INVALID_PARAMETER;
}
memset(&tx_entry, 0x0, sizeof(tx_entry));
if (tx_key->handle_valid) {
hostif_info = switch_hostif_get(tx_key->hostif_handle);
if (!hostif_info) {
SWITCH_API_ERROR("invalid hostif handle");
return SWITCH_STATUS_INVALID_HANDLE;
}
tx_entry.intf_fd = hostif_info->intf_fd;
}
if (tx_key->vlan_valid) {
tx_entry.vlan_id = tx_key->vlan_id;
}
node = tommy_list_head(&packet_tx_filter_list);
while (node) {
tmp_tx_info = (switch_packet_tx_info_t *)node->data;
tmp_tx_entry = &tmp_tx_info->tx_entry;
if (switch_packet_tx_filter_match(tmp_tx_entry, &tx_entry)) {
node_found = TRUE;
break;
}
node = node->next;
}
if (!node_found) {
SWITCH_API_ERROR("tx filter delete failed. node find failed");
return SWITCH_STATUS_ITEM_NOT_FOUND;
}
tommy_list_remove_existing(&packet_tx_filter_list, node);
switch_free(tmp_tx_info);
return status;
}
switchlink_db_status_t switchlink_db_mac_intf_delete(
switchlink_handle_t intf_h) {
tommy_node *node = tommy_list_head(&switchlink_db_mac_obj_list);
while (node) {
switchlink_db_mac_obj_t *obj = node->data;
node = node->next;
if (obj->intf_h == intf_h) {
tommy_hashlin_remove_existing(&switchlink_db_mac_obj_hash,
&obj->hash_node);
tommy_list_remove_existing(&switchlink_db_mac_obj_list, &obj->list_node);
switchlink_free(obj);
}
}
return SWITCHLINK_DB_STATUS_SUCCESS;
}
switch_status_t switch_sflow_match_entry_remove(switch_sflow_info_t *sflow_info,
switch_handle_t entry_hdl) {
tommy_node *node = tommy_list_head(&sflow_info->match_list);
while (node) {
switch_sflow_match_entry_t *obj = (switch_sflow_match_entry_t *)node->data;
if (obj->sflow_ace_hdl == entry_hdl) {
break;
}
node = node->next;
}
if (node) {
tommy_list_remove_existing(&sflow_info->match_list, node);
return SWITCH_STATUS_SUCCESS;
}
return SWITCH_STATUS_ITEM_NOT_FOUND;
}
switchlink_db_status_t
switchlink_db_route_delete(switchlink_db_route_info_t *route_info) {
tommy_node * node = tommy_list_head(&switchlink_db_route_obj_list);
while (node) {
switchlink_db_route_obj_t * obj = node->data;
node = node->next;
if ((obj->route_info.vrf_h == route_info->vrf_h) &&
(memcmp(&(obj->route_info.ip_addr), &(route_info->ip_addr),
sizeof(switchlink_ip_addr_t)) == 0)) {
tommy_list_remove_existing(&switchlink_db_route_obj_list,
&obj->list_node);
switchlink_free(obj);
return SWITCHLINK_DB_STATUS_SUCCESS;
}
}
return SWITCHLINK_DB_STATUS_ITEM_NOT_FOUND;
}
switchlink_db_status_t switchlink_db_mac_delete(switchlink_mac_addr_t mac_addr,
switchlink_handle_t bridge_h) {
switchlink_db_mac_obj_t *obj;
uint32_t hash;
uint8_t key[SWITCHLINK_MAC_KEY_LEN];
switchlink_db_mac_key_hash(mac_addr, bridge_h, key, &hash);
obj = tommy_hashlin_search(
&switchlink_db_mac_obj_hash, switchlink_db_mac_cmp, key, hash);
if (!obj) {
return SWITCHLINK_DB_STATUS_ITEM_NOT_FOUND;
}
tommy_hashlin_remove_existing(&switchlink_db_mac_obj_hash, &obj->hash_node);
tommy_list_remove_existing(&switchlink_db_mac_obj_list, &obj->list_node);
switchlink_free(obj);
return SWITCHLINK_DB_STATUS_SUCCESS;
}
/*
* @function: switch_api_router_mac_delete
* Add Router mac to rmac group
* @param device - Device to be programmed
* @param rmac_handle - ID of the RMAC group
* @param mac - Router mac address to be removed from the group
* @return: Returns success if mac is deleted successfully
*/
switch_status_t
switch_api_router_mac_delete(switch_device_t device, switch_handle_t rmac_handle, switch_mac_addr_t *mac)
{
switch_rmac_info_t *rmac_info = NULL;
switch_rmac_entry_t *rmac_entry = NULL;
tommy_node *node = NULL;
switch_status_t status = SWITCH_STATUS_SUCCESS;
if (!SWITCH_RMAC_HANDLE_VALID(rmac_handle)) {
return SWITCH_STATUS_INVALID_HANDLE;
}
rmac_info = switch_api_rmac_info_get_internal(rmac_handle);
if (!rmac_info) {
return SWITCH_STATUS_ITEM_NOT_FOUND;
}
node = tommy_list_head(&(rmac_info->rmac_list));
while (node) {
rmac_entry = node->data;
if (memcmp(&(rmac_entry->mac), mac, sizeof(switch_mac_addr_t)) == 0) {
break;
}
node = node->next;
}
if (!node) {
return SWITCH_STATUS_ITEM_NOT_FOUND;
}
switch_smac_rewrite_delete_entry(mac);
rmac_entry = tommy_list_remove_existing(&(rmac_info->rmac_list), node);
#ifdef SWITCH_PD
status = switch_pd_outer_rmac_table_delete_entry(device, rmac_entry->outer_rmac_entry);
if (status != SWITCH_STATUS_SUCCESS) {
return status;
}
status = switch_pd_inner_rmac_table_delete_entry(device, rmac_entry->inner_rmac_entry);
if (status != SWITCH_STATUS_SUCCESS) {
return status;
}
#endif
free(rmac_entry);
return status;
}
void* tommy_hashtable_remove(tommy_hashtable* hashtable, tommy_compare_func* cmp, const void* cmp_arg, tommy_hash_t hash)
{
unsigned pos = hash & hashtable->bucket_mask;
tommy_hashtable_node* i = hashtable->bucket[pos];
while (i) {
/* we first check if the hash matches, as in the same bucket we may have multiples hash values */
if (i->key == hash && cmp(cmp_arg, i->data) == 0) {
tommy_list_remove_existing(&hashtable->bucket[pos], i);
--hashtable->count;
return i->data;
}
/* we assume that i->next is still valid also after removing */
i = i->next;
}
return 0;
}
switch_status_t switch_api_sflow_session_delete(switch_device_t device,
switch_handle_t sflow_hdl,
bool all_cleanup) {
#ifdef P4_SFLOW_ENABLE
switch_sflow_info_t *sflow_info;
sflow_info = switch_sflow_info_get(sflow_hdl);
if (!sflow_info) {
return SWITCH_STATUS_INVALID_HANDLE;
}
if (!tommy_list_empty(&sflow_info->match_list) && !all_cleanup) {
return SWITCH_STATUS_RESOURCE_IN_USE;
}
if (all_cleanup) {
switch_sflow_match_entry_t *entry;
tommy_node *node = NULL;
while ((node = tommy_list_head(&sflow_info->match_list)) && node) {
entry = (switch_sflow_match_entry_t *)node->data;
// could be ingress or egress match entry
switch_pd_sflow_match_table_delete(device, entry);
tommy_list_remove_existing(&sflow_info->match_list, node);
switch_sflow_ace_handle_delete(entry->sflow_ace_hdl);
}
}
switch_pd_sflow_session_delete(device, sflow_info);
if (sflow_info->mirror_hdl != SWITCH_API_INVALID_HANDLE) {
switch_api_mirror_session_delete(device, sflow_info->mirror_hdl);
}
switch_sflow_handle_delete(sflow_hdl);
return SWITCH_STATUS_SUCCESS;
#else
(void)device;
(void)sflow_hdl;
(void)all_cleanup;
return SWITCH_STATUS_FAILURE;
#endif // P4_SFLOW_ENABLE
}
void* tommy_hashdyn_remove(tommy_hashdyn* hashdyn, tommy_compare_func* cmp, const void* cmp_arg, tommy_hash_t hash)
{
unsigned pos = hash % hashdyn->bucket_max;
tommy_hashdyn_node* i = hashdyn->bucket[pos];
while (i) {
/* we first check if the hash matches, as in the same bucket we may have multiples hash values */
if (i->key == hash && cmp(cmp_arg, i->data) == 0) {
tommy_list_remove_existing(&hashdyn->bucket[pos], i);
--hashdyn->count;
hashdyn_shrink_step(hashdyn);
return i->data;
}
i = i->next;
}
return 0;
}
switch_status_t switch_api_l3_interface_address_delete(
switch_device_t device,
switch_handle_t interface_handle,
switch_handle_t vrf_handle,
switch_ip_addr_t *ip_addr) {
switch_interface_info_t *info = NULL;
switch_ip_addr_info_t *ip_info = NULL;
tommy_node *node = NULL;
UNUSED(device);
UNUSED(vrf_handle);
info = switch_api_interface_get(interface_handle);
if (!info) {
return SWITCH_STATUS_INVALID_INTERFACE;
}
// delete from list and decrement member count
node = tommy_list_head(&(info->ip_addr));
while (node) {
ip_info = node->data;
if (SWITCH_L3_IP_TYPE(ip_info) == ip_addr->type &&
SWITCH_L3_IP_IPV4_ADDRESS(ip_info) == ip_addr->ip.v4addr) {
break;
}
node = node->next;
}
if (!node) {
return SWITCH_STATUS_ITEM_NOT_FOUND;
}
// remove from list
ip_info = tommy_list_remove_existing(&(info->ip_addr), node);
info->ip_addr_count--;
switch_free(ip_info);
return SWITCH_STATUS_SUCCESS;
}
switch_status_t
switch_api_ecmp_member_delete(switch_device_t device, switch_handle_t ecmp_handle,
uint16_t nhop_count, switch_handle_t *nhop_handle_list)
{
switch_nhop_info_t *nhop_info = NULL;
switch_nhop_info_t *e_nhop_info = NULL;
switch_spath_info_t *spath_info = NULL;
switch_interface_info_t *intf_info = NULL;
switch_ecmp_info_t *ecmp_info = NULL;
switch_ecmp_member_t *ecmp_member = NULL;
tommy_node *node = NULL;
switch_handle_t nhop_handle;
switch_status_t status = SWITCH_STATUS_SUCCESS;
int count = 0;
if (!SWITCH_NHOP_HANDLE_VALID(ecmp_handle)) {
return SWITCH_STATUS_INVALID_HANDLE;
}
e_nhop_info = switch_nhop_get(ecmp_handle);
if (!e_nhop_info) {
return SWITCH_STATUS_INVALID_NHOP;
}
for (count = 0; count < nhop_count; count++) {
nhop_handle = nhop_handle_list[count];
if (!SWITCH_NHOP_HANDLE_VALID(nhop_handle)) {
return SWITCH_STATUS_INVALID_HANDLE;
}
nhop_info = switch_nhop_get(nhop_handle);
if (!nhop_info) {
return SWITCH_STATUS_INVALID_NHOP;
}
spath_info = &(SWITCH_NHOP_SPATH_INFO(nhop_info));
ecmp_info = &(SWITCH_NHOP_ECMP_INFO(e_nhop_info));
node = tommy_list_head(&(ecmp_info->members));
while (node) {
ecmp_member = (switch_ecmp_member_t *) node->data;
if (ecmp_member->nhop_handle == nhop_handle) {
break;
}
node = node->next;
}
if (!node) {
return SWITCH_STATUS_ITEM_NOT_FOUND;
}
intf_info = switch_api_interface_get(spath_info->nhop_key.intf_handle);
if (!intf_info) {
return SWITCH_STATUS_INVALID_INTERFACE;
}
nhop_info->ref_count--;
#if SWITCH_PD
if (ecmp_info->count == 1) {
status = switch_pd_ecmp_group_table_delete_entry(device, ecmp_info->hw_entry);
if (status != SWITCH_STATUS_SUCCESS) {
return status;
}
}
status = switch_pd_ecmp_member_delete(device, ecmp_info->pd_group_hdl,
ecmp_member->mbr_hdl);
if (status != SWITCH_STATUS_SUCCESS) {
return status;
}
if (SWITCH_INTF_IS_PORT_L3(intf_info) && intf_info->bd_handle) {
status = switch_pd_urpf_bd_table_delete_entry(device, ecmp_member->urpf_hw_entry);
if (status != SWITCH_STATUS_SUCCESS) {
return status;
}
}
#endif
ecmp_info->count--;
ecmp_member = tommy_list_remove_existing(&(ecmp_info->members), node);
switch_free(ecmp_member);
}
return status;
}
void test_hashlin(void)
{
tommy_list list;
tommy_hashlin hashlin;
struct object_hash* HASH;
unsigned i, n;
tommy_node* p;
unsigned limit;
unsigned count;
HASH = malloc(MAX * sizeof(struct object_hash));
for(i=0;i<MAX;++i) {
HASH[i].value = i;
}
START("hashlin stack");
limit = 10 * sqrt(MAX);
for(n=0;n<limit;++n) {
tommy_list_init(&list);
tommy_hashlin_init(&hashlin);
/* insert */
for(i=0;i<n;++i) {
tommy_list_insert_head(&list, &HASH[i].node, &HASH[i]);
tommy_hashlin_insert(&hashlin, &HASH[i].hashnode, &HASH[i], HASH[i].value);
}
count = 0;
tommy_hashlin_foreach_arg(&hashlin, count_arg, &count);
if (count != n)
abort();
/* remove */
p = tommy_list_head(&list);
while (p) {
struct object_hash* obj = p->data;
p = p->next;
tommy_hashlin_remove_existing(&hashlin, &obj->hashnode);
}
tommy_hashlin_done(&hashlin);
}
STOP();
START("hashlin queue");
limit = sqrt(MAX) / 8;
for(n=0;n<limit;++n) {
tommy_list_init(&list);
tommy_hashlin_init(&hashlin);
/* insert first run */
for(i=0;i<n;++i) {
tommy_list_insert_head(&list, &HASH[i].node, &HASH[i]);
tommy_hashlin_insert(&hashlin, &HASH[i].hashnode, &HASH[i], HASH[i].value);
}
count = 0;
tommy_hashlin_foreach_arg(&hashlin, count_arg, &count);
if (count != n)
abort();
/* insert all the others */
for(;i<MAX;++i) {
struct object_hash* obj;
/* insert one */
tommy_list_insert_head(&list, &HASH[i].node, &HASH[i]);
tommy_hashlin_insert(&hashlin, &HASH[i].hashnode, &HASH[i], HASH[i].value);
/* remove one */
p = tommy_list_head(&list);
obj = p->data;
tommy_list_remove_existing(&list, p);
tommy_hashlin_remove_existing(&hashlin, &obj->hashnode);
}
/* remove remaining */
p = tommy_list_head(&list);
while (p) {
struct object_hash* obj = p->data;
p = p->next;
tommy_hashlin_remove_existing(&hashlin, &obj->hashnode);
}
tommy_hashlin_done(&hashlin);
}
STOP();
}
switch_status_t switch_api_packet_net_filter_rx_delete(
switch_device_t device, switch_packet_rx_key_t *rx_key) {
switch_lag_info_t *lag_info = NULL;
switch_port_info_t *port_info = NULL;
switch_packet_rx_entry_t *tmp_rx_entry = NULL;
switch_packet_rx_entry_t rx_entry;
switch_packet_rx_info_t *tmp_rx_info = NULL;
switch_handle_type_t handle_type = 0;
switch_interface_info_t *intf_info = NULL;
switch_handle_t bd_handle = 0;
switch_bd_info_t *bd_info = NULL;
tommy_node *node = NULL;
bool node_found = FALSE;
switch_status_t status = SWITCH_STATUS_SUCCESS;
if (!rx_key) {
SWITCH_API_ERROR("filter rx delete failed. invalid params");
return SWITCH_STATUS_INVALID_PARAMETER;
}
memset(&rx_entry, 0, sizeof(switch_packet_rx_entry_t));
if (rx_key->port_lag_valid && rx_key->port_lag_handle) {
handle_type = switch_handle_get_type(rx_key->port_lag_handle);
if (handle_type == SWITCH_HANDLE_TYPE_LAG) {
lag_info = switch_api_lag_get_internal(rx_key->port_lag_handle);
if (!lag_info) {
SWITCH_API_ERROR("invalid lag handle");
return SWITCH_STATUS_INVALID_HANDLE;
}
rx_entry.ifindex = lag_info->ifindex;
} else {
port_info = switch_api_port_get_internal(rx_key->port_lag_handle);
if (!port_info) {
SWITCH_API_ERROR("invalid port handle");
return SWITCH_STATUS_INVALID_HANDLE;
}
rx_entry.ifindex = port_info->ifindex;
}
}
if (rx_key->handle_valid) {
bd_handle = rx_key->handle;
handle_type = switch_handle_get_type(rx_key->handle);
if (handle_type == SWITCH_HANDLE_TYPE_INTERFACE) {
intf_info = switch_api_interface_get(rx_key->handle);
if (!intf_info) {
SWITCH_API_ERROR("intf_handle %lx is invalid", rx_key->handle);
return SWITCH_STATUS_INVALID_HANDLE;
}
if (!SWITCH_INTF_IS_PORT_L3(intf_info)) {
SWITCH_API_ERROR("intf_handle %lx is not l3", rx_key->handle);
return SWITCH_STATUS_INVALID_HANDLE;
}
bd_handle = intf_info->bd_handle;
}
bd_info = switch_bd_get(bd_handle);
if (!bd_info) {
SWITCH_API_ERROR("bd derivation failed %lx", rx_key->handle);
return SWITCH_STATUS_INVALID_HANDLE;
}
rx_entry.bd = handle_to_id(bd_handle);
}
if (rx_entry.port_valid) {
rx_entry.port = handle_to_id(rx_key->port_handle);
}
rx_entry.bd_valid = rx_key->handle_valid;
rx_entry.reason_code = rx_key->reason_code;
node = tommy_list_head(&packet_rx_filter_list);
while (node) {
tmp_rx_info = (switch_packet_rx_info_t *)node->data;
tmp_rx_entry = &tmp_rx_info->rx_entry;
if (switch_packet_rx_filter_match(tmp_rx_entry, &rx_entry)) {
node_found = TRUE;
break;
}
node = node->next;
}
if (!node_found) {
SWITCH_API_ERROR("tx filter delete failed. node find failed");
return SWITCH_STATUS_ITEM_NOT_FOUND;
}
tommy_list_remove_existing(&packet_rx_filter_list, node);
switch_free(tmp_rx_info);
return status;
}
void *remove_elem_list(void *ll, void *ll_node)
{
return tommy_list_remove_existing(ll, ll_node);
}
switch_status_t
switch_api_stp_port_state_clear(switch_device_t device, switch_handle_t stg_handle,
switch_handle_t handle)
{
switch_stp_info_t *stp_info = NULL;
switch_interface_info_t *intf_info = NULL;
switch_stp_port_entry_t *port_entry = NULL;
tommy_node *node = NULL;
switch_status_t status = SWITCH_STATUS_SUCCESS;
switch_handle_t intf_handle = 0;
switch_handle_type_t handle_type = 0;
if (!SWITCH_STP_HANDLE_VALID(stg_handle)) {
return SWITCH_STATUS_INVALID_HANDLE;
}
if ((!SWITCH_PORT_HANDLE_VALID(handle)) &&
(!SWITCH_LAG_HANDLE_VALID(handle)) &&
(!SWITCH_INTERFACE_HANDLE_VALID(handle))) {
return SWITCH_STATUS_INVALID_HANDLE;
}
stp_info = switch_api_stp_get_internal(stg_handle);
if (!stp_info) {
return SWITCH_STATUS_INVALID_HANDLE;
}
handle_type = switch_handle_get_type(handle);
intf_handle = handle;
if (handle_type == SWITCH_HANDLE_TYPE_PORT ||
handle_type == SWITCH_HANDLE_TYPE_LAG) {
status = switch_interface_handle_get(
handle,
0x0,
&intf_handle);
if (status != SWITCH_STATUS_SUCCESS) {
SWITCH_API_ERROR("stp port state clear failed");
return status;
}
}
intf_info = switch_api_interface_get(intf_handle);
if (!intf_info) {
return SWITCH_STATUS_INVALID_INTERFACE;
}
if (SWITCH_INTF_IS_PORT_L3(intf_info)) {
return SWITCH_STATUS_INVALID_INTERFACE;
}
node = tommy_list_head(&(stp_info->port_list));
while (node) {
port_entry = node->data;
if (port_entry->intf_handle == intf_handle) {
break;
}
node = node->next;
}
if (!node) {
return SWITCH_STATUS_ITEM_NOT_FOUND;
}
tommy_list_remove_existing(&(stp_info->port_list), &(port_entry->node));
switch_free(port_entry);
return status;
}
switch_status_t
switch_api_stp_port_state_set(switch_device_t device, switch_handle_t stg_handle,
switch_handle_t handle, switch_stp_state_t state)
{
switch_stp_info_t *stp_info = NULL;
switch_interface_info_t *intf_info = NULL;
switch_stp_port_entry_t *port_entry = NULL;
tommy_node *node = NULL;
switch_status_t status = SWITCH_STATUS_SUCCESS;
switch_handle_t intf_handle;
switch_handle_type_t handle_type = 0;
bool new_entry = FALSE;
if (!SWITCH_STP_HANDLE_VALID(stg_handle)) {
return SWITCH_STATUS_INVALID_HANDLE;
}
if ((!SWITCH_PORT_HANDLE_VALID(handle)) &&
(!SWITCH_LAG_HANDLE_VALID(handle)) &&
(!SWITCH_INTERFACE_HANDLE_VALID(handle))) {
return SWITCH_STATUS_INVALID_HANDLE;
}
stp_info = switch_api_stp_get_internal(stg_handle);
if (!stp_info) {
return SWITCH_STATUS_INVALID_HANDLE;
}
handle_type = switch_handle_get_type(handle);
intf_handle = handle;
if (handle_type == SWITCH_HANDLE_TYPE_PORT ||
handle_type == SWITCH_HANDLE_TYPE_LAG) {
status = switch_interface_handle_get(
handle,
0x0,
&intf_handle);
if (status != SWITCH_STATUS_SUCCESS) {
SWITCH_API_ERROR("stp port state set failed");
return status;
}
}
intf_info = switch_api_interface_get(intf_handle);
if (!intf_info) {
return SWITCH_STATUS_INVALID_INTERFACE;
}
if (SWITCH_INTF_IS_PORT_L3(intf_info)) {
return SWITCH_STATUS_INVALID_INTERFACE;
}
node = tommy_list_head(&stp_info->port_list);
while (node) {
port_entry = node->data;
if (port_entry->intf_handle == intf_handle) {
port_entry->intf_state = state;
break;
}
node = node->next;
}
if (state == SWITCH_PORT_STP_STATE_NONE) {
if (!node) {
return SWITCH_STATUS_ITEM_NOT_FOUND;
}
status = switch_stp_update_flood_list(device, stg_handle, intf_handle, state);
status = switch_pd_spanning_tree_table_delete_entry(device, port_entry->hw_entry);
tommy_list_remove_existing(&(stp_info->port_list), &(port_entry->node));
switch_free(port_entry);
} else {
if (!node) {
new_entry = TRUE;
port_entry = switch_malloc(sizeof(switch_stp_port_entry_t), 1);
if (!port_entry) {
return SWITCH_STATUS_NO_MEMORY;
}
memset(port_entry, 0, sizeof(switch_stp_port_entry_t));
port_entry->intf_handle = intf_handle;
port_entry->intf_state = state;
tommy_list_insert_head(&(stp_info->port_list),
&(port_entry->node), port_entry);
}
status = switch_stp_update_flood_list(device, stg_handle, intf_handle, state);
if (new_entry) {
status = switch_pd_spanning_tree_table_add_entry(device,
handle_to_id(stg_handle),
intf_info->ifindex,
port_entry->intf_state,
&port_entry->hw_entry);
} else {
status = switch_pd_spanning_tree_table_update_entry(device,
handle_to_id(stg_handle),
intf_info->ifindex,
port_entry->intf_state,
port_entry->hw_entry);
}
}
return status;
}