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/*
* Copyright (c) 2022 Cisco and/or its affiliates.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <assert.h>
#include <stdint.h>
#include <hicn/util/log.h>
#include "base.h"
#include "connection.h"
#include "../../object_private.h"
int hc_connection_to_local_listener(const hc_connection_t *connection,
hc_listener_t *listener) {
int rc;
face_type_t listener_type;
switch (connection->type) {
case FACE_TYPE_UDP:
listener_type = FACE_TYPE_UDP_LISTENER;
break;
case FACE_TYPE_TCP:
listener_type = FACE_TYPE_TCP_LISTENER;
break;
default:
return -1;
}
*listener = (hc_listener_t){
.id = ~0,
.type = listener_type,
.family = connection->family,
.local_addr = connection->local_addr,
.local_port = connection->local_port,
};
rc = snprintf(listener->name, SYMBOLIC_NAME_LEN, "lst%u",
RANDBYTE()); // generate name
if (rc >= SYMBOLIC_NAME_LEN)
WARN(
"[hc_connection_to_local_listener] Unexpected truncation of "
"symbolic name string");
rc = snprintf(listener->interface_name, INTERFACE_LEN, "%s",
connection->interface_name);
if (rc >= INTERFACE_LEN)
WARN(
"[hc_connection_to_local_listener] Unexpected truncation of "
"interface name string");
return 0;
}
/* CONNECTION PARSE */
static int hicnlight_connection_parse(const uint8_t *buffer, size_t size,
hc_connection_t *connection) {
int rc;
if (size != sizeof(cmd_connection_list_item_t)) return -1;
cmd_connection_list_item_t *item = (cmd_connection_list_item_t *)buffer;
if (!IS_VALID_ID(item->id)) {
ERROR("[hc_connection_parse] Invalid id received");
return -1;
}
if (!IS_VALID_NAME(item->name)) {
ERROR("[hc_connection_parse] Invalid name received");
return -1;
}
if (!IS_VALID_INTERFACE_NAME(item->interface_name)) {
ERROR("[hc_connection_parse] Invalid interface_name received");
return -1;
}
if (!IS_VALID_TYPE(item->type)) {
ERROR("[hc_connection_parse] Invalid type received");
return -1;
}
if (!IS_VALID_FAMILY(item->family)) {
ERROR("[hc_connection_parse] Invalid family received");
return -1;
}
if (!IS_VALID_ADDRESS(item->local_address)) {
ERROR("[hc_connection_parse] Invalid local address received");
return -1;
}
if (!IS_VALID_PORT(ntohs(item->local_port))) {
ERROR("[hc_connection_parse] Invalid local port received");
return -1;
}
if (!IS_VALID_ADDRESS(item->remote_address)) {
ERROR("[hc_connection_parse] Invalid remote address received");
return -1;
}
if (!IS_VALID_PORT(ntohs(item->remote_port))) {
ERROR("[hc_connection_parse] Invalid remote port received");
return -1;
}
if (!IS_VALID_FACE_STATE(item->admin_state)) {
ERROR("[hc_connection_parse] Invalid admin_state received");
return -1;
}
// PRIORITY
// TAGS
if (!IS_VALID_FACE_STATE(item->state)) {
ERROR("[hc_connection_parse] Invalid state received");
return -1;
}
*connection = (hc_connection_t){
.id = item->id,
.type = (face_type_t)item->type,
.family = (int)item->family,
.local_addr = item->local_addr,
.local_port = ntohs(item->local_port),
.remote_addr = item->remote_addr,
.remote_port = ntohs(item->remote_port),
.admin_state = (face_state_t)item->admin_state,
.priority = item->priority,
.tags = item->tags,
.state = (face_state_t)item->state,
};
rc = snprintf(connection->name, SYMBOLIC_NAME_LEN, "%s", item->name);
if ((rc < 0) || (rc >= SYMBOLIC_NAME_LEN)) return -1;
rc = snprintf(connection->interface_name, INTERFACE_LEN, "%s",
item->interface_name);
if ((rc < 0) || (rc >= INTERFACE_LEN)) return -1;
if (hc_connection_validate(connection, false) < 0) return -1;
return 0;
}
int _hicnlight_connection_parse(const uint8_t *buffer, size_t size,
hc_object_t *object) {
return hicnlight_connection_parse(buffer, size, &object->connection);
}
/* CONNECTION CREATE */
int hicnlight_connection_serialize_create(const hc_object_t *object,
uint8_t *packet) {
int rc;
const hc_connection_t *connection = &object->connection;
msg_connection_add_t *msg = (msg_connection_add_t *)packet;
*msg = (msg_connection_add_t){
.header =
{
.message_type = REQUEST_LIGHT,
.command_id = COMMAND_TYPE_CONNECTION_ADD,
.length = 1,
.seq_num = 0,
},
.payload = {
.remote_ip = connection->remote_addr,
.local_ip = connection->local_addr,
.remote_port = htons(connection->remote_port),
.local_port = htons(connection->local_port),
.family = (uint8_t)connection->family,
.type = (uint8_t)connection->type,
.admin_state = (uint8_t)connection->admin_state,
.__pad = 0,
.priority = connection->priority,
.tags = connection->tags,
}};
rc = snprintf(msg->payload.symbolic, SYMBOLIC_NAME_LEN, "%s",
connection->name);
if ((rc < 0) || (rc >= SYMBOLIC_NAME_LEN)) return -1;
return sizeof(msg_connection_add_t);
}
/* CONNECTION DELETE */
int hicnlight_connection_serialize_delete(const hc_object_t *object,
uint8_t *packet) {
int rc;
const hc_connection_t *connection = &object->connection;
msg_connection_remove_t *msg = (msg_connection_remove_t *)packet;
*msg = (msg_connection_remove_t){
.header =
{
.message_type = REQUEST_LIGHT,
.command_id = COMMAND_TYPE_CONNECTION_REMOVE,
.length = 1,
.seq_num = 0,
},
};
if (connection->id) {
rc = snprintf(msg->payload.symbolic_or_connid, SYMBOLIC_NAME_LEN, "%d",
connection->id);
// XXX
if (rc >= SYMBOLIC_NAME_LEN)
WARN(
"[_hc_connection_delete] Unexpected truncation of symbolic name "
"string");
} else if (*connection->name) {
rc = snprintf(msg->payload.symbolic_or_connid, SYMBOLIC_NAME_LEN, "%s",
connection->name);
// XXX
if (rc >= SYMBOLIC_NAME_LEN)
WARN(
"[_hc_connection_delete] Unexpected truncation of symbolic name "
"string");
#if 0
} else {
hc_connection_t *connection_found;
if (hc_connection_get(socket, connection, &connection_found) < 0)
return res;
if (!connection_found) return res;
rc = snprintf(payload->symbolic_or_connid, SYMBOLIC_NAME_LEN, "%d",
connection_found->id);
// XXX
if (rc >= SYMBOLIC_NAME_LEN)
WARN(
"[_hc_connection_delete] Unexpected truncation of symbolic name "
"string");
free(connection_found);
#endif
}
return sizeof(msg_connection_remove_t);
}
// XXX How to update a connection XXX
// Key attributes are mandatory
// Enum can be undefined
// family UNSPEC
// ip address NULL
// port NULL
// priority = int ????????? specific negative value == unspec
// tags = bitmap ????????? 0xFFFFFF special value == unspec
// u32 id; /* Kr. */
// char name[SYMBOLIC_NAME_LEN]; /* K.w */
// char interface_name[INTERFACE_LEN]; /* Kr. */
//
// netdevice_type_t netdevice_type; undefined
// face_type_t type;
// int family;
// ip_address_t local_addr;
// u16 local_port;
// ip_address_t remote_addr;
// u16 remote_port;
// face_state_t admin_state;
// uint32_t priority; /* .rw */
// policy_tags_t tags; /* .rw */
// face_state_t state; /* .r. */
int hicnlight_connection_serialize_update(const hc_object_t *object,
uint8_t *packet) {
int rc;
const hc_connection_t *connection = &object->connection;
msg_connection_update_t *msg = (msg_connection_update_t *)packet;
*msg = (msg_connection_update_t){
.header =
{
.message_type = REQUEST_LIGHT,
.command_id = COMMAND_TYPE_CONNECTION_UPDATE,
.length = 1,
.seq_num = 0,
},
.payload = {
//.remote_ip = connection->remote_updater,
//.local_ip = connection->local_updater,
//.remote_port = htons(connection->remote_port),
//.local_port = htons(connection->local_port),
//.family = connection->family,
//.type = connection->type,
.admin_state = connection->admin_state,
.priority = connection->priority,
.tags = connection->tags,
}};
rc = snprintf(msg->payload.symbolic_or_connid, SYMBOLIC_NAME_LEN, "%s",
connection->name);
if ((rc < 0) || (rc >= SYMBOLIC_NAME_LEN)) return -1;
// snprintf(msg.payload.interface_name, INTERFACE_NAME_LEN, "%s",
// connection->interface_name);
return sizeof(msg_connection_update_t);
}
#if 0
/* CONNECTION SET ADMIN STATE */
static int _hicnlight_connection_set_admin_state_internal(
hc_sock_t *socket, const char *conn_id_or_name, face_state_t state,
bool async) {
int rc;
DEBUG(
"[hc_connection_set_admin_state] connection_id/name=%s admin_state=%s "
"async=%s",
conn_id_or_name, face_state_str(state), BOOLSTR(async));
struct {
cmd_header_t hdr;
cmd_connection_set_admin_state_t payload;
} msg = {
.hdr =
{
.message_type = REQUEST_LIGHT,
.command_id = COMMAND_TYPE_CONNECTION_SET_ADMIN_STATE,
.length = 1,
.seq_num = 0,
},
.payload =
{
.admin_state = state,
},
};
rc = snprintf(msg.payload.symbolic_or_connid, SYMBOLIC_NAME_LEN, "%s",
conn_id_or_name);
if (rc >= SYMBOLIC_NAME_LEN)
WARN(
"[_hc_connection_set_admin_state] Unexpected truncation of symbolic "
"name string");
hc_command_params_t params = {
.cmd = ACTION_SET,
.cmd_id = COMMAND_TYPE_CONNECTION_SET_ADMIN_STATE,
.size_in = sizeof(cmd_connection_set_admin_state_t),
.size_out = 0,
.parse = NULL,
};
return _hicnlight_execute_command(socket, (hc_msg_t *)&msg, sizeof(msg), ¶ms,
NULL, async);
}
static int _hicnlight_connection_set_admin_state(hc_sock_t *s,
const char *conn_id_or_name,
face_state_t state) {
return _hicnlight_connection_set_admin_state_internal(s, conn_id_or_name, state,
false);
}
static int _hicnlight_connection_set_admin_state_async(hc_sock_t *s,
const char *conn_id_or_name,
face_state_t state) {
return _hicnlight_connection_set_admin_state_internal(s, conn_id_or_name, state,
true);
}
static int _hicnlight_connection_set_priority_internal(hc_sock_t *socket,
const char *conn_id_or_name,
uint32_t priority,
bool async) {
int rc;
DEBUG(
"[hc_connection_set_priority] connection_id/name=%s priority=%d "
"async=%s",
conn_id_or_name, priority, BOOLSTR(async));
struct {
cmd_header_t hdr;
cmd_connection_set_priority_t payload;
} msg = {
.hdr =
{
.message_type = REQUEST_LIGHT,
.command_id = COMMAND_TYPE_CONNECTION_SET_PRIORITY,
.length = 1,
.seq_num = 0,
},
.payload =
{
.priority = priority,
},
};
rc = snprintf(msg.payload.symbolic_or_connid, SYMBOLIC_NAME_LEN, "%s",
conn_id_or_name);
if (rc >= SYMBOLIC_NAME_LEN)
WARN(
"[_hc_connection_set_priority] Unexpected truncation of symbolic "
"name "
"string");
hc_command_params_t params = {
.cmd = ACTION_SET,
.cmd_id = COMMAND_TYPE_CONNECTION_SET_PRIORITY,
.size_in = sizeof(cmd_connection_set_priority_t),
.size_out = 0,
.parse = NULL,
};
return _hicnlight_execute_command(socket, (hc_msg_t *)&msg, sizeof(msg), ¶ms,
NULL, async);
}
static int _hicnlight_connection_set_priority(hc_sock_t *s,
const char *conn_id_or_name,
uint32_t priority) {
return _hicnlight_connection_set_priority_internal(s, conn_id_or_name, priority,
false);
}
static int _hicnlight_connection_set_priority_async(hc_sock_t *s,
const char *conn_id_or_name,
uint32_t priority) {
return _hicnlight_connection_set_priority_internal(s, conn_id_or_name, priority,
true);
}
static int _hicnlight_connection_set_tags_internal(hc_sock_t *s,
const char *conn_id_or_name,
policy_tags_t tags, bool async) {
int rc;
DEBUG("[hc_connection_set_tags] connection_id/name=%s tags=%d async=%s",
conn_id_or_name, tags, BOOLSTR(async));
struct {
cmd_header_t hdr;
cmd_connection_set_tags_t payload;
} msg = {
.hdr =
{
.message_type = REQUEST_LIGHT,
.command_id = COMMAND_TYPE_CONNECTION_SET_TAGS,
.length = 1,
.seq_num = 0,
},
.payload =
{
.tags = tags,
},
};
rc = snprintf(msg.payload.symbolic_or_connid, SYMBOLIC_NAME_LEN, "%s",
conn_id_or_name);
if (rc >= SYMBOLIC_NAME_LEN)
WARN(
"[_hc_connection_set_tags] Unexpected truncation of symbolic name "
"string");
hc_command_params_t params = {
.cmd = ACTION_SET,
.cmd_id = COMMAND_TYPE_CONNECTION_SET_TAGS,
.size_in = sizeof(cmd_connection_set_tags_t),
.size_out = 0,
.parse = NULL,
};
return _hicnlight_execute_command(s, (hc_msg_t *)&msg, sizeof(msg), ¶ms, NULL,
async);
}
static int _hicnlight_connection_set_tags(hc_sock_t *s, const char *conn_id_or_name,
policy_tags_t tags) {
return _hicnlight_connection_set_tags_internal(s, conn_id_or_name, tags, false);
}
static int _hicnlight_connection_set_tags_async(hc_sock_t *s,
const char *conn_id_or_name,
policy_tags_t tags) {
return _hicnlight_connection_set_tags_internal(s, conn_id_or_name, tags, true);
}
#endif
/* CONNECTION LIST */
int hicnlight_connection_serialize_list(const hc_object_t *object,
uint8_t *packet) {
msg_connection_list_t *msg = (msg_connection_list_t *)packet;
*msg = (msg_connection_list_t){.header = {
.message_type = REQUEST_LIGHT,
.command_id = COMMAND_TYPE_CONNECTION_LIST,
.length = 0,
.seq_num = 0,
}};
return sizeof(msg_header_t); // Do not use msg_connection_list_t
}
int hicnlight_connection_serialize_set(const hc_object_t *object,
uint8_t *packet) {
return -1;
}
DECLARE_MODULE_OBJECT_OPS(hicnlight, connection);
|