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|
/*
* Copyright (c) 2017-2019 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.
*/
/**
* \file api.c
* \brief Implementation of hICN control library API
*/
#include <assert.h> // assert
#include <fcntl.h> // fcntl
#include <math.h> // log2
#include <stdbool.h>
#include <stdio.h> // snprintf
#include <string.h> // memmove, strcasecmp
#include <sys/socket.h> // socket
#include <unistd.h> // close, fcntl
#include <vapi/vapi_safe.h>
#include <hicn/ctrl/api.h>
#include <hicn/ctrl/commands.h>
#include <hicn/util/token.h>
#include <strings.h>
#include <vapi/hicn.api.vapi.h>
#include <vapi/ip.api.vapi.h>
#include <vapi/interface.api.vapi.h>
#include <hicn/util/log.h>
#include <hicn/util/map.h>
#include <hicn/error.h>
#include <vnet/ip/ip6_packet.h>
#include <vnet/ip/ip46_address.h>
#define APP_NAME "hicn_plugin"
#define MAX_OUTSTANDING_REQUESTS 4
#define RESPONSE_QUEUE_SIZE 2
DEFINE_VAPI_MSG_IDS_HICN_API_JSON
DEFINE_VAPI_MSG_IDS_INTERFACE_API_JSON
DEFINE_VAPI_MSG_IDS_IP_API_JSON
typedef struct {
vapi_ctx_t g_vapi_ctx_instance;
bool async;
} vapi_skc_ctx_t;
vapi_skc_ctx_t vapi_skc = {
.g_vapi_ctx_instance = NULL,
.async = false,
};
/**
* Messages to the forwarder might be multiplexed thanks to the seqNum fields in
* the header_control_message structure. The forwarder simply answers back the
* original sequence number. We maintain a map of such sequence number to
* outgoing queries so that replied can be demultiplexed and treated
* appropriately.
*/
/* TYPEDEF_MAP_H(hc_sock_map, int, hc_sock_request_t *); */
/* TYPEDEF_MAP(hc_sock_map, int, hc_sock_request_t *, int_cmp, int_snprintf, */
/* generic_snprintf); */
struct hc_sock_s {
vapi_ctx_t g_vapi_ctx_instance;
char *url;
int fd;
size_t roff; /**< Read offset */
size_t woff; /**< Write offset */
u32 buffer[RECV_BUFLEN];
/* Next sequence number to be used for requests */
int seq;
bool async;
};
/******************************************************************************
* Message helper types and aliases
******************************************************************************/
#define foreach_hc_command \
_(hicn_api_node_params_set) \
_(hicn_api_node_params_set_reply) \
_(hicn_api_node_params_get_reply) \
_(hicn_api_node_stats_get_reply) \
_(hicn_api_face_add) \
_(hicn_api_face_add_reply) \
_(hicn_api_face_del) \
_(hicn_api_face_del_reply) \
_(hicn_api_face_get) \
_(hicn_api_faces_details) \
_(hicn_api_face_stats_details) \
_(hicn_api_face_get_reply) \
_(hicn_api_route_nhops_add) \
_(hicn_api_route_nhops_add_reply) \
_(hicn_api_route_del) \
_(hicn_api_route_del_reply) \
_(hicn_api_route_nhop_del) \
_(hicn_api_route_nhop_del_reply) \
_(hicn_api_route_get) \
_(hicn_api_route_get_reply) \
_(hicn_api_routes_details) \
_(hicn_api_strategies_get_reply) \
_(hicn_api_strategy_get) \
_(hicn_api_strategy_get_reply)
typedef vapi_type_msg_header2_t hc_msg_header_t;
typedef union {
#define _(a) vapi_payload_ ## a a;
foreach_hc_command
#undef _
} hc_msg_payload_t;
typedef struct __attribute__ ((__packed__)) {
hc_msg_header_t hdr;
hc_msg_payload_t payload;
} hc_hicnp_t;
typedef void (* NTOH)(void *msg);
typedef struct __attribute__((__packed__)) {
hc_data_t *data;
uint32_t curr_msg;
} callback_ctx_t;
typedef struct __attribute__((__packed__)) {
hc_hicnp_t * hicnp_msg;
vapi_cb_t callback;
callback_ctx_t *callback_ctx;
NTOH ntoh;
} hc_msg_s;
/******************************************************************************
* Control Data
******************************************************************************/
hc_data_t *hc_data_create(size_t in_element_size, size_t out_element_size, data_callback_t complete_cb) {
hc_data_t *data = malloc(sizeof(hc_data_t));
if (!data) goto ERR_MALLOC;
/* FIXME Could be NULL thanks to realloc provided size is 0 */
data->in_element_size = in_element_size;
data->out_element_size = out_element_size;
data->size = 0;
data->current = 0;
data->complete = false;
data->command_id = 0; // TODO this could also be a busy mark in the socket
/* No callback needed in blocking code for instance */
data->complete_cb = complete_cb;
return data;
ERR_MALLOC:
return NULL;
}
void hc_data_free(hc_data_t *data) {
if (data != NULL) {
if (data->buffer) free(data->buffer);
free(data);
}
}
/******************************************************************************
* Control socket
******************************************************************************/
/**
* \brief Parse a connection URL into a sockaddr
* \param [in] url - URL
* \param [out] sa - Resulting struct sockaddr, expected zero'ed.
* \return 0 if parsing succeeded, a negative error value otherwise.
*/
int hc_sock_parse_url(const char *url, struct sockaddr *sa) {
// NOT IMPLEMENTED
return -1;
}
hc_sock_t *hc_sock_create_url(const char *url) {
// NOT IMPLEMENTED
return NULL;
}
hc_sock_t *hc_sock_create(void) {
hc_sock_t *s = malloc(sizeof(hc_sock_t));
if (!s) goto ERR_SOCK;
memset(s, 0, sizeof(hc_sock_t));
//By default the socket is blocking -- not async
s->async = 0;
return s;
ERR_SOCK:
return NULL;
}
void hc_sock_free(hc_sock_t *s) {
if (s->url) free(s->url);
close(s->fd);
free(s);
vapi_disconnect_safe();
vapi_skc.g_vapi_ctx_instance = NULL;
}
int hc_sock_get_next_seq(hc_sock_t *s) {
return vapi_gen_req_context(s->g_vapi_ctx_instance);
}
int hc_sock_set_nonblocking(hc_sock_t *s) {
s->async = 1;
return 0;
}
int hc_sock_get_fd(hc_sock_t *s) { return 1; }
int hc_sock_connect(hc_sock_t *s) {
vapi_error_e rv = vapi_connect_safe(&s->g_vapi_ctx_instance, s->async);
if (rv != VAPI_OK)
goto ERR_CONNECT;
return 0;
ERR_CONNECT:
ERROR("[hc_sock_connect] connection failed");
return -1;
}
int hc_sock_send(hc_sock_t *s, hc_msg_t *msg, size_t msglen, int seq) {
return -1;
}
int hc_sock_get_available(hc_sock_t *s, u8 **buffer, size_t *size) {
// NOT IMPLEMENTED
return -1;
}
int hc_sock_recv(hc_sock_t *s) {
// NOT IMPLEMENTED
return -1;
}
int hc_sock_process(hc_sock_t *s, hc_data_t **pdata) {
//NOT IMPLEMENTED
return -1;
}
/******************************************************************************
* Command-specific structures and functions
******************************************************************************/
/*----------------------------------------------------------------------------*
* Listeners
*----------------------------------------------------------------------------*/
/* LISTENER CREATE */
int _hc_listener_create(hc_sock_t *s, hc_listener_t *listener, bool async) {
// NOT IMPLEMENTED
return -1;
}
int hc_listener_create(hc_sock_t *s, hc_listener_t *listener) {
// NOT IMPLEMENTED
return -1;
}
int hc_listener_create_async(hc_sock_t *s, hc_listener_t *listener) {
// NOT IMPLEMENTED
return -1;
}
/* LISTENER GET */
int hc_listener_get(hc_sock_t *s, hc_listener_t *listener,
hc_listener_t **listener_found) {
// NOT IMPLEMENTED
return -1;
}
/* LISTENER DELETE */
int hc_listener_delete(hc_sock_t *s, hc_listener_t *listener) {
// NOT IMPLEMENTED
return -1;
}
int hc_listener_delete_async(hc_sock_t *s, hc_listener_t *listener) {
// NOT IMPLEMENTED
return -1;
}
vapi_error_e process_ip_info(struct vapi_ctx_s *ctx,
void *callback_ctx,
vapi_error_e rv,
bool is_last,
vapi_payload_ip_address_details *reply) {
if (is_last)
return 0;
hc_data_t *data = (hc_data_t *)callback_ctx;
if (data->size == data->current) {
data->buffer = realloc(data->buffer, sizeof(hc_listener_t) * data->size * 2);
if (!data->buffer)
return VAPI_ENOMEM;
data->size *=2;
}
hc_listener_t * listener = (hc_listener_t *)(data->buffer + data->current * sizeof(hc_listener_t));
if(reply->prefix.address.af == ADDRESS_IP4) {
memcpy(listener->local_addr.v4.as_u8, reply->prefix.address.un.ip4, IPV4_ADDR_LEN);
listener->family = AF_INET;
}
else {
memcpy(listener->local_addr.v6.as_u8, reply->prefix.address.un.ip6, IPV6_ADDR_LEN);
listener->family = AF_INET6;
}
listener->id = reply->sw_if_index;
data->current++;
return rv;
}
typedef struct {
u32 swif;
char interface_name[INTERFACE_LEN];
} hc_vapi_interface_t;
vapi_error_e listener_list_complete_cb (struct vapi_ctx_s *ctx,
void *callback_ctx,
vapi_error_e rv,
bool is_last,
vapi_payload_sw_interface_details *reply) {
if (reply == NULL || rv != VAPI_OK)
return rv;
if (is_last)
return 0;
hc_data_t *data = (hc_data_t *)callback_ctx;
if (data->size == data->current) {
data->buffer = realloc(data->buffer, sizeof(hc_vapi_interface_t) * data->size * 2);
if (!data->buffer)
return VAPI_ENOMEM;
data->size *=2;
}
hc_vapi_interface_t *swif = &((hc_vapi_interface_t*)data->buffer)[data->current];
swif[0].swif = reply->sw_if_index;
memcpy(swif[0].interface_name, reply->interface_name, INTERFACE_LEN);
data->current++;
return rv;
}
/* LISTENER LIST */
int hc_listener_list(hc_sock_t *s, hc_data_t **pdata) {
int retval = VAPI_OK;
vapi_lock();
vapi_msg_sw_interface_dump *hicnp_msg;
hicnp_msg = vapi_alloc_sw_interface_dump(s->g_vapi_ctx_instance);
if (!hicnp_msg) {
retval = VAPI_ENOMEM;
goto END;
}
hicnp_msg->payload.sw_if_index = ~0;
hicnp_msg->payload.name_filter_valid = 0;
hc_data_t *data = hc_data_create(0, sizeof(hc_vapi_interface_t),NULL);
if (!data) {
retval = -1;
goto END;
}
hc_data_t *data2 = hc_data_create(0, 1,NULL);
if (!data2) {
retval = -1;
goto END;
}
data->buffer = malloc(sizeof(hc_vapi_interface_t));
data->size = 1;
if (!data->buffer) {
free (data);
retval = -1;
goto FREE_DATA;
}
int ret = vapi_sw_interface_dump(s->g_vapi_ctx_instance, hicnp_msg, listener_list_complete_cb, data);
if (ret != VAPI_OK) {
free(data->buffer);
free(data);
retval = -1;
goto FREE_DATA_BUFFER;
}
data2->buffer = malloc(sizeof(hc_listener_t));
data2->size = 1;
data2->out_element_size = 1;
if (!data2->buffer) {
free (data2->buffer);
retval =1 -1;
goto CLEAN;
}
/* Query the forwarder for each interface */
for(int i = 0; i < data->current; i++) {
int index = data2->current;
vapi_msg_ip_address_dump* msg = vapi_alloc_ip_address_dump(s->g_vapi_ctx_instance);
msg->payload.sw_if_index = ((hc_vapi_interface_t *)data->buffer)[i].swif;
msg->payload.is_ipv6 = 0;
retval = vapi_ip_address_dump(s->g_vapi_ctx_instance, msg, process_ip_info, data2);
vapi_msg_ip_address_dump* msg2 = vapi_alloc_ip_address_dump(s->g_vapi_ctx_instance);
if (retval) goto CLEAN;
msg2->payload.sw_if_index = ((hc_vapi_interface_t *)data->buffer)[i].swif;
msg2->payload.is_ipv6 = 1;
retval = vapi_ip_address_dump(s->g_vapi_ctx_instance, msg2, process_ip_info, data2);
for (size_t j = index; j < data2->current; j++) {
memcpy(((hc_listener_t *)(data2->buffer))[j].interface_name, ((hc_vapi_interface_t*)(data->buffer))[i].interface_name, INTERFACE_LEN);
}
if (retval) goto CLEAN;
}
CLEAN:
FREE_DATA_BUFFER:
free(data->buffer);
FREE_DATA:
free(data);
data2->size = data2->current;
data2->out_element_size = sizeof(hc_listener_t);
*pdata = data2;
END:
vapi_unlock();
return retval;
}
int hc_listener_list_async(hc_sock_t *s, hc_data_t **pdata) {
// NOT IMPLEMENTED
return -1;
}
/* LISTENER VALIDATE */
int hc_listener_validate(const hc_listener_t *listener) {
// NOT IMPLEMENTED
return -1;
}
/* LISTENER CMP */
int hc_listener_cmp(const hc_listener_t *l1, const hc_listener_t *l2) {
// NOT IMPLEMENTED
return -1;
}
/* LISTENER PARSE */
int hc_listener_parse(void *in, hc_listener_t *listener) {
// NOT IMPLEMENTED
return -1;
}
GENERATE_FIND(listener)
/* LISTENER SNPRINTF */
/* /!\ Please update constants in header file upon changes */
int
hc_listener_snprintf(char * s, size_t size, hc_listener_t * listener)
{
char local[MAXSZ_URL];
int rc;
rc = url_snprintf(local, MAXSZ_URL,
listener->family, &listener->local_addr, listener->local_port);
if (rc >= MAXSZ_URL)
WARN("[hc_listener_snprintf] Unexpected truncation of URL string");
if (rc < 0)
return rc;
return snprintf(s, size, "%s %s", listener->interface_name, local);
}
/*----------------------------------------------------------------------------*
* CONNECTION
*----------------------------------------------------------------------------*/
/* CONNECTION CREATE */
int hc_connection_create(hc_sock_t *s, hc_connection_t *connection) {
// NOT IMPLEMENTED
return -1;
}
int hc_connection_create_async(hc_sock_t *s, hc_connection_t *connection) {
// NOT IMPLEMENTED
return -1;
}
/* CONNECTION GET */
int hc_connection_get(hc_sock_t *s, hc_connection_t *connection,
hc_connection_t **connection_found) {
// NOT IMPLEMENTED
return -1;
}
/* CONNECTION DELETE */
int hc_connection_delete(hc_sock_t *s, hc_connection_t *connection) {
// NOT IMPLEMENTED
return -1;
}
int hc_connection_delete_async(hc_sock_t *s, hc_connection_t *connection) {
// NOT IMPLEMENTED
return -1;
}
/* CONNECTION LIST */
int hc_connection_list(hc_sock_t *s, hc_data_t **pdata) {
// NOT IMPLEMENTED
return -1;
}
int hc_connection_list_async(hc_sock_t *s, hc_data_t **pdata) {
// NOT IMPLEMENTED
return -1;
}
/* CONNECTION VALIDATE */
int hc_connection_validate(const hc_connection_t *connection) {
// NOT IMPLEMENTED
return -1;
}
/* CONNECTION CMP */
/*
* hICN light uses ports even for hICN connections, but their value is ignored.
* As connections are specific to hicn-light, we can safely use IP and ports for
* comparison independently of the face type.
*/
int hc_connection_cmp(const hc_connection_t *c1, const hc_connection_t *c2) {
// NOT IMPLEMENTED
return -1;
}
/* CONNECTION PARSE */
int hc_connection_parse(void *in, hc_connection_t *connection) {
// NOT IMPLEMENTED
return -1;
}
GENERATE_FIND(connection)
/* CONNECTION SNPRINTF */
/* /!\ Please update constants in header file upon changes */
int hc_connection_snprintf(char *s, size_t size,
const hc_connection_t *connection) {
// NOT IMPLEMENTED
return -1;
}
/* CONNECTION SET ADMIN STATE */
int hc_connection_set_admin_state(hc_sock_t *s, const char *conn_id_or_name,
face_state_t state) {
// NOT IMPLEMENTED
return -1;
}
int hc_connection_set_admin_state_async(hc_sock_t *s,
const char *conn_id_or_name,
face_state_t state) {
// NOT IMPLEMENTED
return -1;
}
/*----------------------------------------------------------------------------*
* Routes
*----------------------------------------------------------------------------*/
/* ROUTE CREATE */
vapi_error_e parse_route_create( vapi_ctx_t ctx,
void *callback_ctx,
vapi_error_e rv,
bool is_last,
vapi_payload_hicn_api_route_nhops_add_reply *reply) {
if (reply == NULL || rv != VAPI_OK)
return rv;
if (reply->retval != VAPI_OK)
return reply->retval;
return reply->retval;
}
int _hc_route_create(hc_sock_t *s, hc_route_t *route, bool async) {
if (!IS_VALID_FAMILY(route->family)) return -1;
vapi_lock();
vapi_msg_hicn_api_route_nhops_add *hicnp_msg;
hicnp_msg = vapi_alloc_hicn_api_route_nhops_add(s->g_vapi_ctx_instance);
if (!hicnp_msg) return VAPI_ENOMEM;
if (route->family == AF_INET) {
memcpy(&hicnp_msg->payload.prefix.address.un.ip4[0], &route->remote_addr.v4, 4);
}
else {
memcpy(&hicnp_msg->payload.prefix.address.un.ip6[0], &route->remote_addr.v6, 16);
}
hicnp_msg->payload.prefix.address.af =
route->family == AF_INET ? ADDRESS_IP4 : ADDRESS_IP6;
hicnp_msg->payload.prefix.len = route->len;
hicnp_msg->payload.face_ids[0] = route->face_id;
hicnp_msg->payload.n_faces = 1;
vapi_error_e ret = vapi_hicn_api_route_nhops_add(s->g_vapi_ctx_instance, hicnp_msg, parse_route_create, NULL);
vapi_unlock();
return ret;
}
int hc_route_create(hc_sock_t *s, hc_route_t *route) {
return _hc_route_create(s, route, false);
}
int hc_route_create_async(hc_sock_t *s, hc_route_t *route) {
return _hc_route_create(s, route, true);
}
/* ROUTE DELETE */
vapi_error_e parse_route_delete( vapi_ctx_t ctx,
void *callback_ctx,
vapi_error_e rv,
bool is_last,
vapi_payload_hicn_api_route_nhop_del_reply *reply) {
if (reply == NULL || rv != VAPI_OK)
return rv;
if (reply->retval != VAPI_OK)
return reply->retval;
return reply->retval;
}
int _hc_route_delete(hc_sock_t *s, hc_route_t *route, bool async) {
if (!IS_VALID_FAMILY(route->family)) return -1;
vapi_lock();
vapi_msg_hicn_api_route_nhop_del *hicnp_msg;
hicnp_msg = vapi_alloc_hicn_api_route_nhop_del(s->g_vapi_ctx_instance);
if (!hicnp_msg) return VAPI_ENOMEM;
memcpy(&hicnp_msg->payload.prefix.address.un.ip6[0], &route->remote_addr, 16);
hicnp_msg->payload.prefix.address.af =
route->family == AF_INET ? ADDRESS_IP4 : ADDRESS_IP6;
hicnp_msg->payload.prefix.len = route->len;
hicnp_msg->payload.faceid = route->face_id;
int retval = vapi_hicn_api_route_nhop_del(s->g_vapi_ctx_instance, hicnp_msg, parse_route_delete, NULL);
vapi_unlock();
return retval;
}
int hc_route_delete(hc_sock_t *s, hc_route_t *route) {
return _hc_route_delete(s, route, false);
}
int hc_route_delete_async(hc_sock_t *s, hc_route_t *route) {
return _hc_route_delete(s, route, true);
}
/* ROUTE LIST */
vapi_error_e parse_route_list( vapi_ctx_t ctx,
void *callback_ctx,
vapi_error_e rv,
bool is_last,
vapi_payload_hicn_api_routes_details *reply) {
if (reply == NULL || rv != VAPI_OK)
return rv;
if (reply->retval != VAPI_OK)
return reply->retval;
hc_data_t *data = (hc_data_t *)callback_ctx;
int empty_spots = data->size - data->current;
if (empty_spots < reply->nfaces) {
int new_size = data->size + (reply->nfaces - empty_spots);
data->buffer = realloc(data->buffer, sizeof(hc_route_t) * (new_size));
if (!data->buffer)
return VAPI_ENOMEM;
data->size =new_size;
}
for (int i = 0; i < reply->nfaces; i++) {
hc_route_t * route = &((hc_route_t*)(data->buffer))[data->current];
route->face_id = reply->faceids[i];
route->cost = 1;
route->len = reply->prefix.len;
if (reply->prefix.address.af == ADDRESS_IP6)
{
memcpy(route->remote_addr.v6.as_u8, reply->prefix.address.un.ip6, 16);
}
else
{
memcpy(route->remote_addr.v4.as_u8, reply->prefix.address.un.ip4, 4);
}
route->family = reply->prefix.address.af == ADDRESS_IP6? AF_INET6 : AF_INET;
data->current++;
}
return reply->retval;
}
int _hc_route_list(hc_sock_t *s, hc_data_t **pdata, bool async) {
vapi_lock();
vapi_msg_hicn_api_routes_dump *hicnp_msg;
hicnp_msg = vapi_alloc_hicn_api_routes_dump(s->g_vapi_ctx_instance);
hc_data_t *data = hc_data_create(0, sizeof(hc_route_t),NULL);
int ret = VAPI_OK;
if (!data){
ret = -1;
goto err;
}
data->buffer = malloc(sizeof(hc_route_t));
data->size = 1;
if (!data->buffer) {
ret = -1;
goto err_free;
}
ret = vapi_hicn_api_routes_dump(s->g_vapi_ctx_instance, hicnp_msg, parse_route_list, data);
if (ret != VAPI_OK)
goto err_free;
*pdata = data;
vapi_unlock();
return ret;
err_free:
free(data);
err:
vapi_unlock();
return ret;
}
int hc_route_list(hc_sock_t *s, hc_data_t **pdata) {
return _hc_route_list(s, pdata, false);
}
int hc_route_list_async(hc_sock_t *s) {
return _hc_route_list(s, NULL, true);
}
/* ROUTE SNPRINTF */
/* /!\ Please update constants in header file upon changes */
int hc_route_snprintf(char *s, size_t size, hc_route_t *route) {
/* interface cost prefix length */
char prefix[MAXSZ_IP_ADDRESS];
int rc;
rc = ip_address_snprintf(prefix, MAXSZ_IP_ADDRESS, &route->remote_addr,
route->family);
if (rc < 0) return rc;
return snprintf(s, size, "%*d %*d %s %*d", MAXSZ_FACE_ID, route->face_id,
MAXSZ_COST, route->cost, prefix, MAXSZ_LEN, route->len);
}
/*----------------------------------------------------------------------------*
* Face
*
* Face support is not directly available in hicn-light, but we can offer such
* an interface through a combination of listeners and connections. The code
* starts with some conversion functions between faces/listeners/connections.
*
* We also need to make sure that there always exist a (single) listener when a
* connection is created, and in the hICN face case, that there is a single
* connection attached to this listener.
*
*----------------------------------------------------------------------------*/
/* FACE -> LISTENER */
int hc_face_to_listener(const hc_face_t *face, hc_listener_t *listener) {
const face_t *f = &face->face;
switch (f->type) {
case FACE_TYPE_HICN_LISTENER:
break;
case FACE_TYPE_TCP_LISTENER:
break;
case FACE_TYPE_UDP_LISTENER:
break;
default:
return -1;
}
return -1; /* XXX Not implemented */
}
/* LISTENER -> FACE */
int hc_listener_to_face(const hc_listener_t *listener, hc_face_t *face) {
return -1; /* XXX Not implemented */
}
/* FACE -> CONNECTION */
int hc_face_to_connection(const hc_face_t *face, hc_connection_t *connection,
bool generate_name) {
return 0;
}
/* CONNECTION -> FACE */
int hc_connection_to_face(const hc_connection_t *connection, hc_face_t *face) {
return 0;
}
/* CONNECTION -> LISTENER */
int hc_connection_to_local_listener(const hc_connection_t *connection,
hc_listener_t *listener) {
return 0;
}
/* FACE CREATE */
vapi_error_e parse_face_create( vapi_ctx_t ctx,
void *callback_ctx,
vapi_error_e rv,
bool is_last,
vapi_payload_hicn_api_face_add_reply *reply) {
if (reply == NULL || rv != VAPI_OK)
return rv;
if (reply->retval != VAPI_OK)
return reply->retval;
hc_data_t *data = (hc_data_t *)callback_ctx;
hc_face_t *output = (hc_face_t *)data->buffer;
output->id = reply->faceid;
return reply->retval;
}
int hc_face_create(hc_sock_t *s, hc_face_t *face) {
vapi_lock();
vapi_msg_hicn_api_face_add *hicnp_msg;
hicnp_msg = vapi_alloc_hicn_api_face_add(s->g_vapi_ctx_instance);
int retval = VAPI_OK;
if (!hicnp_msg) {
retval = VAPI_ENOMEM;
goto END;
}
switch(face->face.type) {
case FACE_TYPE_HICN:
{
u8 check = ip46_address_is_ip4((ip46_address_t *)&(face->face.local_addr)) == ip46_address_is_ip4((ip46_address_t *)&(face->face.remote_addr));
if (!check) {
retval = -1;
goto END;
}
hicnp_msg->payload.type = IP_FACE;
if (ip46_address_is_ip4((ip46_address_t *)&(face->face.local_addr)))
{
memcpy(hicnp_msg->payload.face.ip.local_addr.un.ip4, face->face.local_addr.v4.as_u8, 4);
memcpy(hicnp_msg->payload.face.ip.remote_addr.un.ip4, face->face.remote_addr.v4.as_u8, 4);
hicnp_msg->payload.face.ip.local_addr.af = ADDRESS_IP4;
hicnp_msg->payload.face.ip.remote_addr.af = ADDRESS_IP4;
}
else
{
memcpy(hicnp_msg->payload.face.ip.local_addr.un.ip6, face->face.local_addr.v6.as_u8, 16);
memcpy(hicnp_msg->payload.face.ip.remote_addr.un.ip6, face->face.remote_addr.v6.as_u8, 16);
hicnp_msg->payload.face.ip.local_addr.af = ADDRESS_IP6;
hicnp_msg->payload.face.ip.remote_addr.af = ADDRESS_IP6;
}
hicnp_msg->payload.face.ip.swif = face->face.netdevice.index;
memcpy(hicnp_msg->payload.face.ip.if_name, face->face.netdevice.name, IFNAMSIZ);
break;
}
case FACE_TYPE_UDP:
{
u8 check = ip46_address_is_ip4((ip46_address_t *)&(face->face.local_addr)) == ip46_address_is_ip4((ip46_address_t *)&(face->face.remote_addr));
if (!check) {
retval = -1;
goto END;
}
hicnp_msg->payload.type = UDP_FACE;
if (ip46_address_is_ip4((ip46_address_t *)&(face->face.local_addr)))
{
memcpy(hicnp_msg->payload.face.udp.local_addr.un.ip4, face->face.local_addr.v4.as_u8, 4);
memcpy(hicnp_msg->payload.face.udp.remote_addr.un.ip4, face->face.remote_addr.v4.as_u8, 4);
hicnp_msg->payload.face.udp.local_addr.af = ADDRESS_IP4;
hicnp_msg->payload.face.udp.remote_addr.af = ADDRESS_IP4;
}
else
{
memcpy(hicnp_msg->payload.face.udp.local_addr.un.ip6, face->face.local_addr.v6.as_u8, 16);
memcpy(hicnp_msg->payload.face.udp.remote_addr.un.ip6, face->face.remote_addr.v6.as_u8, 16);
hicnp_msg->payload.face.udp.local_addr.af = ADDRESS_IP6;
hicnp_msg->payload.face.udp.remote_addr.af = ADDRESS_IP6;
}
hicnp_msg->payload.face.udp.lport = face->face.local_port;
hicnp_msg->payload.face.udp.rport = face->face.remote_port;
hicnp_msg->payload.face.udp.swif = face->face.netdevice.index;
memcpy(hicnp_msg->payload.face.udp.if_name, face->face.netdevice.name, IFNAMSIZ);
break;
}
default:
{
retval = -1;
goto END;
}
}
hc_data_t *data = hc_data_create(0, sizeof(hc_face_t),NULL);
if (!data) {
retval = -1;
goto END;
}
data->buffer = malloc(sizeof(hc_face_t));
data->out_element_size = sizeof(hc_face_t);
if (!data->buffer) {
free (data);
retval = -1;
goto END;
}
retval = vapi_hicn_api_face_add(s->g_vapi_ctx_instance, hicnp_msg, parse_face_create, data);
if (retval != VAPI_OK)
goto END;
face->id = ((hc_face_t *)data->buffer)->id;
END:
vapi_unlock();
return retval;
}
vapi_error_e parse_face_delete( vapi_ctx_t ctx,
void *callback_ctx,
vapi_error_e rv,
bool is_last,
vapi_payload_hicn_api_face_del_reply *reply) {
if (reply == NULL || rv != VAPI_OK)
return rv;
return reply->retval;
}
int hc_face_delete(hc_sock_t *s, hc_face_t *face) {
vapi_msg_hicn_api_face_del *hicnp_msg;
vapi_lock();
hicnp_msg = vapi_alloc_hicn_api_face_del(s->g_vapi_ctx_instance);
if (!hicnp_msg) return VAPI_ENOMEM;
hicnp_msg->payload.faceid = face->id;
int retval = vapi_hicn_api_face_del(s->g_vapi_ctx_instance, hicnp_msg, parse_face_delete, NULL);
vapi_unlock();
return retval;
}
/* FACE LIST */
vapi_error_e parse_face_list( vapi_ctx_t ctx,
void *callback_ctx,
vapi_error_e rv,
bool is_last,
vapi_payload_hicn_api_faces_details *reply) {
if (reply == NULL || rv != VAPI_OK)
return rv;
if (reply->retval != VAPI_OK)
return reply->retval;
hc_data_t *data = (hc_data_t *)callback_ctx;
if (data->size == data->current) {
int new_size = data->size *2;
data->buffer = realloc(data->buffer, sizeof(hc_face_t) * (new_size));
if (!data->buffer)
return VAPI_ENOMEM;
data->size =new_size;
}
int retval = VAPI_OK;
hc_face_t * face = &((hc_face_t *)(data->buffer))[data->current];
switch(reply->type)
{
case IP_FACE:
{
if (reply->face.ip.local_addr.af == ADDRESS_IP4)
{
memcpy(face->face.local_addr.v4.as_u8, reply->face.ip.local_addr.un.ip4, IPV4_ADDR_LEN);
memcpy(face->face.remote_addr.v4.as_u8, reply->face.ip.remote_addr.un.ip4, IPV4_ADDR_LEN);
}
else
{
memcpy(face->face.local_addr.v6.as_u8, reply->face.ip.local_addr.un.ip6, IPV6_ADDR_LEN);
memcpy(face->face.remote_addr.v6.as_u8, reply->face.ip.remote_addr.un.ip6, IPV6_ADDR_LEN);
}
face->face.type = FACE_TYPE_HICN;
face->id = reply->faceid;
face->face.netdevice.index = reply->face.ip.swif;
memcpy(face->face.netdevice.name, reply->face.ip.if_name, IFNAMSIZ);
break;
}
case UDP_FACE:
{
if (reply->face.ip.local_addr.af == ADDRESS_IP4)
{
memcpy(face->face.local_addr.v4.as_u8, reply->face.udp.local_addr.un.ip4, IPV4_ADDR_LEN);
memcpy(face->face.remote_addr.v4.as_u8, reply->face.udp.remote_addr.un.ip4, IPV4_ADDR_LEN);
}
else
{
memcpy(face->face.local_addr.v6.as_u8, reply->face.udp.local_addr.un.ip6, IPV6_ADDR_LEN);
memcpy(face->face.remote_addr.v6.as_u8, reply->face.udp.remote_addr.un.ip6, IPV6_ADDR_LEN);
}
face->face.local_port = reply->face.udp.lport;
face->face.remote_port = reply->face.udp.rport;
face->face.type = FACE_TYPE_UDP;
face->id = reply->faceid;
face->face.netdevice.index = reply->face.udp.swif;
memcpy(face->face.netdevice.name, reply->face.udp.if_name, IFNAMSIZ);
break;
}
default:
retval = -1;
}
if (!retval)
data->current++;
return reply->retval;
}
int hc_face_list(hc_sock_t *s, hc_data_t **pdata) {
vapi_lock();
vapi_msg_hicn_api_faces_dump *hicnp_msg;
hicnp_msg = vapi_alloc_hicn_api_faces_dump(s->g_vapi_ctx_instance);
int retval = 0;
if (!hicnp_msg) {
retval = VAPI_ENOMEM;
goto END;
}
hc_data_t *data = hc_data_create(0, sizeof(hc_face_t),NULL);
if (!data) {
retval = -1;
goto END;
}
data->buffer = malloc(sizeof(hc_face_t));
data->size = 1;
if (!data->buffer) {
free (data);
retval = -1;
goto err;
}
retval = vapi_hicn_api_faces_dump(s->g_vapi_ctx_instance, hicnp_msg, parse_face_list, data);
*pdata = data;
if (retval != VAPI_OK)
goto err;
data->size = data->current;
vapi_unlock();
return retval;
err:
free(data);
END:
vapi_unlock();
return retval;
}
int hc_connection_parse_to_face(void *in, hc_face_t *face) { return 0; }
int hc_face_list_async(hc_sock_t *s)
{
return 0;
}
/* /!\ Please update constants in header file upon changes */
int hc_face_snprintf(char *s, size_t size, hc_face_t *face) { return 0; }
int hc_face_set_admin_state(
hc_sock_t *s, const char *conn_id_or_name, // XXX wrong identifier
face_state_t admin_state) {
return 0;
}
/*----------------------------------------------------------------------------*
* Punting
*----------------------------------------------------------------------------*/
int _hc_punting_create(hc_sock_t *s, hc_punting_t *punting, bool async) {
return 0;
}
int hc_punting_create(hc_sock_t *s, hc_punting_t *punting) {
return _hc_punting_create(s, punting, false);
}
int hc_punting_create_async(hc_sock_t *s, hc_punting_t *punting) {
return _hc_punting_create(s, punting, true);
}
int hc_punting_get(hc_sock_t *s, hc_punting_t *punting,
hc_punting_t **punting_found) {
ERROR("hc_punting_get not (yet) implemented.");
return -1;
}
int hc_punting_delete(hc_sock_t *s, hc_punting_t *punting) {
ERROR("hc_punting_delete not (yet) implemented.");
return -1;
}
int hc_punting_list(hc_sock_t *s, hc_data_t **pdata) {
ERROR("hc_punting_list not (yet) implemented.");
return -1;
}
int hc_punting_validate(const hc_punting_t *punting) {
if (!IS_VALID_FAMILY(punting->family)) return -1;
/*
* We might use the zero value to add punting on all faces but this is not
* (yet) implemented
*/
if (punting->face_id == 0) {
ERROR("Punting on all faces is not (yet) implemented.");
return -1;
}
return 0;
}
int hc_punting_cmp(const hc_punting_t *p1, const hc_punting_t *p2) {
return ((p1->face_id == p2->face_id) && (p1->family == p2->family) &&
(ip_address_cmp(&p1->prefix, &p2->prefix, p1->family) == 0) &&
(p1->prefix_len == p2->prefix_len))
? 0
: -1;
}
int hc_punting_parse(void *in, hc_punting_t *punting) {
ERROR("hc_punting_parse not (yet) implemented.");
return -1;
}
int hc_punting_snprintf(char *s, size_t size, hc_punting_t *punting) {
ERROR("hc_punting_snprintf not (yet) implemented.");
return -1;
}
/*----------------------------------------------------------------------------*
* Cache
*----------------------------------------------------------------------------*/
int _hc_cache_set_store(hc_sock_t *s, int enabled, bool async) {
return 0;
}
int hc_cache_set_store(hc_sock_t *s, int enabled) {
return _hc_cache_set_store(s, enabled, false);
}
int hc_cache_set_store_async(hc_sock_t *s, int enabled) {
return _hc_cache_set_store(s, enabled, true);
}
int _hc_cache_set_serve(hc_sock_t *s, int enabled, bool async) {
return 0;
}
int hc_cache_set_serve(hc_sock_t *s, int enabled) {
return _hc_cache_set_serve(s, enabled, false);
}
int hc_cache_set_serve_async(hc_sock_t *s, int enabled) {
return _hc_cache_set_serve(s, enabled, true);
}
/*----------------------------------------------------------------------------*
* Strategy
*----------------------------------------------------------------------------*/
// per prefix
int hc_strategy_set(hc_sock_t *s /* XXX */) { return 0; }
#define ARRAY_SIZE(array) (sizeof(array) / sizeof(*array))
int hc_strategy_list(hc_sock_t *s, hc_data_t **data) {
return 0;
}
/* /!\ Please update constants in header file upon changes */
int hc_strategy_snprintf(char *s, size_t size, hc_strategy_t *strategy) {
return snprintf(s, size, "%s", strategy->name);
}
/*----------------------------------------------------------------------------*
* WLDR
*----------------------------------------------------------------------------*/
// per connection
int hc_wldr_set(hc_sock_t *s /* XXX */) { return 0; }
/*----------------------------------------------------------------------------*
* MAP-Me
*----------------------------------------------------------------------------*/
int hc_mapme_set(hc_sock_t *s, int enabled) { return 0; }
int hc_mapme_set_discovery(hc_sock_t *s, int enabled) { return 0; }
int hc_mapme_set_timescale(hc_sock_t *s, double timescale) { return 0; }
int hc_mapme_set_retx(hc_sock_t *s, double timescale) { return 0; }
/* Useless function defined to prevent undefined reference */
hc_connection_type_t
connection_type_from_str(const char * str)
{
if (strcasecmp(str, "TCP") == 0)
return CONNECTION_TYPE_TCP;
else if (strcasecmp(str, "UDP") == 0)
return CONNECTION_TYPE_UDP;
else if (strcasecmp(str, "HICN") == 0)
return CONNECTION_TYPE_HICN;
else
return CONNECTION_TYPE_UNDEFINED;
}
/*********************** Missing Symbol in vpp libraries *************************/
u8 *
format_vl_api_address_union (u8 * s, va_list * args)
{
return NULL;
}
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