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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 <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 <fcntl.h> // fcntl
#include <hicn/ctrl/api.h>
#include <hicn/ctrl/commands.h>
#include <hicn/util/token.h>
#include "util/log.h"
#include "util/map.h"
#include <strings.h>
#define PORT 9695
/*
* Internal state associated to a pending request
*/
typedef struct {
int seq;
hc_data_t * data;
/* Information used to process results */
int size_in;
int (*parse)(const u8 * src, u8 * dst);
} hc_sock_request_t;
/**
* 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 {
char * url;
int fd;
/* Partial receive buffer */
u8 buf[RECV_BUFLEN];
size_t roff; /**< Read offset */
size_t woff; /**< Write offset */
/*
* Because received messages are potentially unbounded in size, we might not
* guarantee that we can store a full packet before processing it. We must
* implement a very simple state machine remembering the current parsing
* status in order to partially process the packet.
*/
size_t remaining;
u32 send_id;
/* Next sequence number to be used for requests */
int seq;
/* Request being parsed (NULL if none) */
hc_sock_request_t * cur_request;
bool async;
hc_sock_map_t * map;
};
hc_sock_request_t *
hc_sock_request_create(int seq, hc_data_t * data, HC_PARSE parse)
{
assert(seq >= 0);
assert(data);
hc_sock_request_t * request = malloc(sizeof(hc_sock_request_t));
if (!request)
return NULL;
request->seq = seq;
request->data = data;
request->parse = parse;
return request;
}
void
hc_sock_request_free(hc_sock_request_t * request)
{
free(request);
}
#if 0
#ifdef __APPLE__
#define RANDBYTE() (u8)(arc4random() & 0xFF)
#else
#define RANDBYTE() (u8)(random() & 0xFF)
#endif
#endif
#define RANDBYTE() (u8)(rand() & 0xFF)
/*
* list was working with all seq set to 0, but it seems hicnLightControl uses
* 1, and replies with the same seqno
*/
#define HICN_CTRL_SEND_SEQ_INIT 1
#define HICN_CTRL_RECV_SEQ_INIT 1
#define MAX(x, y) ((x > y) ? x : y)
/**
* \brief Defines the default size for the allocated data arrays holding the
* results of API calls.
*
* This size should not be too small to avoid wasting memoyy, but also not too
* big to avoid unnecessary realloc's. Later on this size is doubled at each
* reallocation.
*/
#define DEFAULT_SIZE_LOG 3
/**
* In practise, we want to preserve enough room to store a full packet of
* average expected size (say a header + N payload elements).
*/
#define AVG_ELEMENTS (1 << DEFAULT_SIZE_LOG)
#define AVG_BUFLEN sizeof(hc_msg_header_t) + AVG_ELEMENTS * sizeof(hc_msg_payload_t)
/*
* We should at least have buffer space allowing to store one processable unit
* of data, either the header of the maximum possible payload
*/
#define MIN_BUFLEN MAX(sizeof(hc_msg_header_t), sizeof(hc_msg_payload_t))
static const struct in6_addr loopback_addr = IN6ADDR_LOOPBACK_INIT;
/* /!\ Please update constants in header file upon changes */
const char * connection_type_str[] = {
#define _(x) [CONNECTION_TYPE_ ## x] = STRINGIZE(x),
foreach_connection_type
#undef _
};
#define IS_VALID_CONNECTION_TYPE(x) IS_VALID_ENUM_TYPE(CONNECTION_TYPE, x)
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;
}
/* Conversions to shield lib user from heterogeneity */
#define IS_VALID_LIST_CONNECTIONS_TYPE(x) ((x >= CONN_GRE) && (x <= CONN_HICN))
static const hc_connection_type_t map_from_list_connections_type[] = {
[CONN_GRE] = CONNECTION_TYPE_UNDEFINED,
[CONN_TCP] = CONNECTION_TYPE_TCP,
[CONN_UDP] = CONNECTION_TYPE_UDP,
[CONN_MULTICAST] = CONNECTION_TYPE_UNDEFINED,
[CONN_L2] = CONNECTION_TYPE_UNDEFINED,
[CONN_HICN] = CONNECTION_TYPE_HICN,
};
typedef enum {
ENCAP_TCP,
ENCAP_UDP,
ENCAP_ETHER,
ENCAP_LOCAL,
ENCAP_HICN
} EncapType;
#define IS_VALID_LIST_LISTENERS_TYPE(x) ((x >= ENCAP_TCP) && (x <= ENCAP_HICN))
static const hc_connection_type_t map_from_encap_type[] = {
[ENCAP_TCP] = CONNECTION_TYPE_TCP,
[ENCAP_UDP] = CONNECTION_TYPE_UDP,
[ENCAP_ETHER] = CONNECTION_TYPE_UNDEFINED,
[ENCAP_LOCAL] = CONNECTION_TYPE_UNDEFINED,
[ENCAP_HICN] = CONNECTION_TYPE_HICN,
};
static const connection_type map_to_connection_type[] = {
[CONNECTION_TYPE_TCP] = TCP_CONN,
[CONNECTION_TYPE_UDP] = UDP_CONN,
[CONNECTION_TYPE_HICN] = HICN_CONN,
};
static const listener_mode map_to_listener_mode[] = {
[CONNECTION_TYPE_TCP] = IP_MODE,
[CONNECTION_TYPE_UDP] = IP_MODE,
[CONNECTION_TYPE_HICN] = HICN_MODE,
};
#define IS_VALID_LIST_CONNECTIONS_STATE(x) ((x >= IFACE_UP) && (x <= IFACE_UNKNOWN))
/* /!\ Please update constants in header file upon changes */
const char * connection_state_str[] = {
#define _(x) [HC_CONNECTION_STATE_ ## x] = STRINGIZE(x),
foreach_connection_state
#undef _
};
/*
#define IS_VALID_CONNECTION_STATE(x) IS_VALID_ENUM_TYPE(CONNECTION_STATE, x)
static const connection_state map_to_connection_state[] = {
[HC_CONNECTION_STATE_UP] = IFACE_UP,
[HC_CONNECTION_STATE_DOWN] = IFACE_DOWN,
};
*/
static const hc_connection_state_t map_from_list_connections_state[] = {
[IFACE_UP] = HC_CONNECTION_STATE_UP,
[IFACE_DOWN] = HC_CONNECTION_STATE_DOWN,
[IFACE_UNKNOWN] = HC_CONNECTION_STATE_UNDEFINED,
};
#define connection_state_to_face_state(x) ((face_state_t)(x))
#define face_state_to_connection_state(x) ((hc_connection_state_t)(x))
#define IS_VALID_ADDR_TYPE(x) ((x >= ADDR_INET) && (x <= ADDR_UNIX))
static const int map_from_addr_type[] = {
[ADDR_INET] = AF_INET,
[ADDR_INET6] = AF_INET6,
[ADDR_LINK] = AF_UNSPEC,
[ADDR_IFACE] = AF_UNSPEC,
[ADDR_UNIX] = AF_UNSPEC,
};
static const address_type map_to_addr_type[] = {
[AF_INET] = ADDR_INET,
[AF_INET6] = ADDR_INET6,
};
/******************************************************************************
* Message helper types and aliases
******************************************************************************/
#define foreach_hc_command \
_(add_connection) \
_(remove_connection) \
_(list_connections) \
_(add_listener) \
_(remove_listener) \
_(list_listeners) \
_(add_route) \
_(remove_route) \
_(list_routes) \
_(cache_store) \
_(cache_serve) \
/*_(cache_clear) */ \
_(set_strategy) \
_(set_wldr) \
_(add_punting) \
_(mapme_activator) \
_(mapme_timing)
typedef header_control_message hc_msg_header_t;
typedef union {
#define _(x) x ## _command x;
foreach_hc_command
#undef _
} hc_msg_payload_t;
typedef struct hc_msg_s {
hc_msg_header_t hdr;
hc_msg_payload_t payload;
} hc_msg_t;
/******************************************************************************
* Control Data
******************************************************************************/
hc_data_t *
hc_data_create(size_t in_element_size, size_t out_element_size)
{
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->max_size_log = DEFAULT_SIZE_LOG;
data->in_element_size = in_element_size;
data->out_element_size = out_element_size;
data->size = 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 = NULL;
data->buffer = malloc((1 << data->max_size_log) * data->out_element_size);
if (!data->buffer)
goto ERR_BUFFER;
return data;
ERR_BUFFER:
free(data);
ERR_MALLOC:
return NULL;
}
void
hc_data_free(hc_data_t * data)
{
if (data->buffer)
free(data->buffer);
free(data);
}
int
hc_data_ensure_available(hc_data_t * data, size_t count)
{
size_t new_size_log = (data->size + count - 1 > 0)
? log2(data->size + count - 1) + 1
: 0;
if (new_size_log > data->max_size_log) {
data->max_size_log = new_size_log;
data->buffer = realloc(data->buffer, (1 << new_size_log) * data->out_element_size);
if (!data->buffer)
return -1;
}
return 0;
}
int
hc_data_push_many(hc_data_t * data, const void * elements, size_t count)
{
if (hc_data_ensure_available(data, count) < 0)
return -1;
memcpy(data->buffer + data->size * data->out_element_size, elements,
count * data->out_element_size);
data->size += count;
return 0;
}
int
hc_data_push(hc_data_t * data, const void * element)
{
return hc_data_push_many(data, element, 1);
}
/**
*
* NOTE: This function make sure there is enough room available in the data
* structure.
*/
u8 *
hc_data_get_next(hc_data_t * data)
{
if (hc_data_ensure_available(data, 1) < 0)
return NULL;
return data->buffer + data->size * data->out_element_size;
}
int
hc_data_set_callback(hc_data_t * data, data_callback_t cb, void * cb_data)
{
data->complete_cb = cb;
data->complete_cb_data = cb_data;
return 0;
}
int
hc_data_set_complete(hc_data_t * data)
{
data->complete = true;
if (data->complete_cb)
return data->complete_cb(data, data->complete_cb_data);
return 0;
}
int
hc_data_reset(hc_data_t * data)
{
data->size = 0;
return 0;
}
/******************************************************************************
* 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)
{
/* FIXME URL parsing is currently not implemented */
assert(!url);
srand(time(NULL));
/*
* A temporary solution is to inspect the sa_family fields of the passed in
* sockaddr, which defaults to AF_UNSPEC (0) and thus creates an IPv4/TCP
* connection to localhost.
*/
switch (sa->sa_family) {
case AF_UNSPEC:
case AF_INET:
{
struct sockaddr_in * sai = (struct sockaddr_in *)sa;
sai->sin_family = AF_INET;
sai->sin_port = htons(PORT);
sai->sin_addr.s_addr = htonl(INADDR_LOOPBACK);
break;
}
case AF_INET6:
{
struct sockaddr_in6 * sai6 = (struct sockaddr_in6 *)sa;
sai6->sin6_family = AF_INET6;
sai6->sin6_port = htons(PORT);
sai6->sin6_addr = loopback_addr;
break;
}
default:
return -1;
}
return 0;
}
hc_sock_t *
hc_sock_create_url(const char * url)
{
hc_sock_t * s = malloc(sizeof(hc_sock_t));
if (!s)
goto ERR_MALLOC;
s->url = url ? strdup(url) : NULL;
s->fd = socket(AF_INET, SOCK_STREAM, 0);
if (s->fd < 0)
goto ERR_SOCKET;
if (hc_sock_reset(s) < 0)
goto ERR_RESET;
s->seq = 0;
s->cur_request = NULL;
s->map = hc_sock_map_create();
if (!s->map)
goto ERR_MAP;
return s;
//hc_sock_map_free(s->map);
ERR_MAP:
ERR_RESET:
if (s->url)
free(s->url);
close(s->fd);
ERR_SOCKET:
free(s);
ERR_MALLOC:
return NULL;
}
hc_sock_t *
hc_sock_create(void)
{
return hc_sock_create_url(NULL);
}
void
hc_sock_free(hc_sock_t * s)
{
hc_sock_request_t ** request_array = NULL;
int n = hc_sock_map_get_value_array(s->map, &request_array);
if (n < 0) {
ERROR("Could not retrieve pending request array for freeing up resources");
} else {
for (unsigned i = 0; i < n; i++) {
hc_sock_request_t * request = request_array[i];
hc_sock_request_free(request);
}
free(request_array);
}
hc_sock_map_free(s->map);
if (s->url)
free(s->url);
close(s->fd);
free(s);
}
int
hc_sock_get_next_seq(hc_sock_t * s)
{
return s->seq++;
}
int
hc_sock_set_nonblocking(hc_sock_t * s)
{
return (fcntl(s->fd, F_SETFL, fcntl(s->fd, F_GETFL) | O_NONBLOCK) < 0);
}
int
hc_sock_get_fd(hc_sock_t * s)
{
return s->fd;
}
int
hc_sock_connect(hc_sock_t * s)
{
struct sockaddr_storage ss = { 0 };
if (hc_sock_parse_url(s->url, (struct sockaddr *)&ss) < 0)
goto ERR_PARSE;
size_t size = ss.ss_family == AF_INET
? sizeof(struct sockaddr_in)
: sizeof(struct sockaddr_in6);
if (connect(s->fd, (struct sockaddr *)&ss, size) < 0) //sizeof(struct sockaddr)) < 0)
goto ERR_CONNECT;
return 0;
ERR_CONNECT:
ERR_PARSE:
return -1;
}
int
hc_sock_send(hc_sock_t * s, hc_msg_t * msg, size_t msglen, int seq)
{
int rc;
msg->hdr.seqNum = seq;
rc = send(s->fd, msg, msglen, 0);
if (rc < 0) {
perror("hc_sock_send");
return -1;
}
return 0;
}
int
hc_sock_get_available(hc_sock_t * s, u8 ** buffer, size_t * size)
{
*buffer = s->buf + s->woff;
*size = RECV_BUFLEN - s->woff;
return 0;
}
int
hc_sock_recv(hc_sock_t * s)
{
int rc;
/*
* This condition should be ensured to guarantee correct processing of
* messages
*/
assert(RECV_BUFLEN - s->woff > MIN_BUFLEN);
rc = recv(s->fd, s->buf + s->woff, RECV_BUFLEN - s->woff, 0);
if (rc == 0) {
/* Connection has been closed */
return 0;
}
if (rc < 0) {
/*
* Let's not return 0 which currently means the socket has been closed
*/
if (errno == EWOULDBLOCK)
return -1;
perror("hc_sock_recv");
return -1;
}
s->woff += rc;
return rc;
}
int
hc_sock_process(hc_sock_t * s, hc_data_t ** data)
{
int err = 0;
/* We must have received at least one byte */
size_t available = s->woff - s->roff;
while(available > 0) {
if (!s->cur_request) { // No message being parsed, alternatively (remaining == 0)
hc_msg_t * msg = (hc_msg_t*)(s->buf + s->roff);
/* We expect a message header */
if (available < sizeof(hc_msg_header_t))
break;
/* Sanity checks (might instead raise warnings) */
assert((msg->hdr.messageType == RESPONSE_LIGHT) ||
(msg->hdr.messageType == ACK_LIGHT) ||
(msg->hdr.messageType == NACK_LIGHT));
hc_sock_request_t * request = NULL;
if (hc_sock_map_get(s->map, msg->hdr.seqNum, &request) < 0) {
ERROR("[hc_sock_process] Error searching for matching request");
return -1;
}
if (!request) {
ERROR("[hc_sock_process] No request matching received sequence number");
return -1;
}
s->remaining = msg->hdr.length;
if (s->remaining == 0) {
if (data) {
*data = request->data;
// } else {
// free(request->data);
}
hc_data_set_complete(request->data);
hc_sock_request_free(request);
} else {
/* We only remember it if there is still data to parse */
s->cur_request = request;
}
available -= sizeof(hc_msg_header_t);
s->roff += sizeof(hc_msg_header_t);
} else {
/* We expect the complete payload, or at least a chunk of it */
size_t num_chunks = available / s->cur_request->data->in_element_size;
if (num_chunks == 0)
break;
if (num_chunks > s->remaining)
num_chunks = s->remaining;
if (!s->cur_request->parse) {
/* If we don't need to parse results, then we can directly push
* all of them into the result data structure */
hc_data_push_many(s->cur_request->data, s->buf + s->roff, num_chunks);
} else {
int rc;
rc = hc_data_ensure_available(s->cur_request->data, num_chunks);
if (rc < 0)
return -1;
for (int i = 0; i < num_chunks; i++) {
u8 * dst = hc_data_get_next(s->cur_request->data);
if (!dst)
return -1;
rc = s->cur_request->parse(s->buf + s->roff + i * s->cur_request->data->in_element_size, dst);
if (rc < 0)
err = -1; /* FIXME we let the loop complete (?) */
s->cur_request->data->size++;
}
}
s->remaining -= num_chunks;
available -= num_chunks * s->cur_request->data->in_element_size;
s->roff += num_chunks * s->cur_request->data->in_element_size;
if (s->remaining == 0) {
if (hc_sock_map_remove(s->map, s->cur_request->seq, NULL) < 0) {
ERROR("[hc_sock_process] Error removing request from map");
return -1;
}
if (data) {
*data = s->cur_request->data;
// } else {
// free(s->cur_request->data);
}
hc_data_set_complete(s->cur_request->data);
hc_sock_request_free(s->cur_request);
s->cur_request = NULL;
}
}
}
/* Make sure there is enough remaining space in the buffer */
if (RECV_BUFLEN - s->woff < AVG_BUFLEN) {
/*
* There should be no overlap provided a sufficiently large BUFLEN, but
* who knows.
*/
memmove(s->buf, s->buf + s->roff, s->woff - s->roff);
s->woff -= s->roff;
s->roff = 0;
}
return err;
}
int
hc_sock_callback(hc_sock_t * s, hc_data_t ** data)
{
*data = NULL;
for (;;) {
int n = hc_sock_recv(s);
if (n == 0) {
DEBUG("EOF");
goto ERR_EOF;
}
if (n < 0) {
switch(errno) {
case ECONNRESET:
case ENODEV:
/* Forwarder restarted */
WARN("Forwarder likely restarted: not (yet) implemented");
goto ERR_EOF;
case EWOULDBLOCK:
//DEBUG("Would block... stop reading from socket");
goto END;
default:
perror("hc_sock_recv");
goto ERR_EOF;
}
}
if (hc_sock_process(s, data) < 0) {
return -1;
}
}
END:
return 0;
ERR_EOF:
return -1;
}
int
hc_sock_reset(hc_sock_t * s)
{
s->roff = s->woff = 0;
s->remaining = 0;
return 0;
}
/******************************************************************************
* Command-specific structures and functions
******************************************************************************/
typedef int (*HC_PARSE)(const u8 *, u8 *);
typedef struct {
hc_action_t cmd;
command_id cmd_id;
size_t size_in;
size_t size_out;
HC_PARSE parse;
} hc_command_params_t;
int
hc_execute_command(hc_sock_t * s, hc_msg_t * msg, size_t msg_len,
hc_command_params_t * params, hc_data_t ** pdata, bool async)
{
if (async)
assert(!pdata);
/* Sanity check */
switch(params->cmd) {
case ACTION_CREATE:
assert(params->size_in != 0); /* payload repeated */
assert(params->size_out == 0);
assert(params->parse == NULL);
break;
case ACTION_DELETE:
assert(params->size_in != 0); /* payload repeated */
assert(params->size_out == 0);
assert(params->parse == NULL);
break;
case ACTION_LIST:
assert(params->size_in != 0);
assert(params->size_out != 0);
assert(params->parse != NULL);
break;
case ACTION_SET:
assert(params->size_in != 0);
assert(params->size_out == 0);
assert(params->parse == NULL);
break;
default:
return -1;
}
//hc_sock_reset(s);
/* XXX data will at least store the result (complete) */
hc_data_t * data = hc_data_create(params->size_in, params->size_out);
if (!data) {
ERROR("[hc_execute_command] Could not create data storage");
goto ERR_DATA;
}
int seq = hc_sock_get_next_seq(s);
if (seq < 0) {
ERROR("[hc_execute_command] Could not get next sequence number");
goto ERR_SEQ;
}
/* Create state used to process the request */
hc_sock_request_t * request = NULL;
request = hc_sock_request_create(seq, data, params->parse);
if (!request) {
ERROR("[hc_execute_command] Could not create request state");
goto ERR_REQUEST;
}
/* Add state to map */
if (hc_sock_map_add(s->map, seq, request) < 0) {
ERROR("[hc_execute_command] Error adding request state to map");
goto ERR_MAP;
}
if (hc_sock_send(s, msg, msg_len, seq) < 0) {
ERROR("[hc_execute_command] Error sending message");
goto ERR_PROCESS;
}
if (async)
return 0;
while(!data->complete) {
/*
* As the socket is non blocking it might happen that we need to read
* several times before success... shall we alternate between blocking
* and non-blocking mode ?
*/
if (hc_sock_recv(s) < 0)
continue; //break;
if (hc_sock_process(s, pdata) < 0) {
ERROR("[hc_execute_command] Error processing socket results");
goto ERR_PROCESS;
}
}
return 0;
ERR_PROCESS:
ERR_MAP:
hc_sock_request_free(request);
ERR_REQUEST:
ERR_SEQ:
free(data);
ERR_DATA:
return -1;
}
/*----------------------------------------------------------------------------*
* Listeners
*----------------------------------------------------------------------------*/
/* LISTENER CREATE */
int
_hc_listener_create(hc_sock_t * s, hc_listener_t * listener, bool async)
{
if (!IS_VALID_FAMILY(listener->family))
return -1;
if (!IS_VALID_CONNECTION_TYPE(listener->type))
return -1;
struct {
header_control_message hdr;
add_listener_command payload;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = ADD_LISTENER,
.length = 1,
.seqNum = 0,
},
.payload = {
.address = {
.ipv6 = listener->local_addr.v6.as_in6addr,
},
.port = htons(listener->local_port),
.addressType = (u8)map_to_addr_type[listener->family],
.listenerMode = (u8)map_to_listener_mode[listener->type],
.connectionType = (u8)map_to_connection_type[listener->type],
}
};
snprintf(msg.payload.symbolic, SYMBOLIC_NAME_LEN, "%s", listener->name);
snprintf(msg.payload.interfaceName, INTERFACE_LEN, "%s", listener->interface_name);
hc_command_params_t params = {
.cmd = ACTION_CREATE,
.cmd_id = ADD_LISTENER,
.size_in = sizeof(add_listener_command),
.size_out = 0,
.parse = NULL,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, NULL, async);
}
int
hc_listener_create(hc_sock_t * s, hc_listener_t * listener)
{
return _hc_listener_create(s, listener, false);
}
int
hc_listener_create_async(hc_sock_t * s, hc_listener_t * listener)
{
return _hc_listener_create(s, listener, true);
}
/* LISTENER GET */
int
hc_listener_get(hc_sock_t * s, hc_listener_t * listener,
hc_listener_t ** listener_found)
{
hc_data_t * listeners;
hc_listener_t * found;
if (hc_listener_list(s, &listeners) < 0)
return -1;
/* Test */
if (hc_listener_find(listeners, listener, &found) < 0) {
hc_data_free(listeners);
return -1;
}
if (found) {
*listener_found = malloc(sizeof(hc_listener_t));
if (!*listener_found)
return -1;
**listener_found = *found;
} else {
*listener_found = NULL;
}
hc_data_free(listeners);
return 0;
}
/* LISTENER DELETE */
int
_hc_listener_delete(hc_sock_t * s, hc_listener_t * listener, bool async)
{
struct {
header_control_message hdr;
remove_listener_command payload;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = REMOVE_LISTENER,
.length = 1,
.seqNum = 0,
},
};
if (listener->id) {
snprintf(msg.payload.symbolicOrListenerid, SYMBOLIC_NAME_LEN, "%d", listener->id);
} else if (*listener->name) {
snprintf(msg.payload.symbolicOrListenerid, SYMBOLIC_NAME_LEN, "%s", listener->name);
} else {
hc_listener_t * listener_found;
if (hc_listener_get(s, listener, &listener_found) < 0)
return -1;
if (!listener_found)
return -1;
snprintf(msg.payload.symbolicOrListenerid, SYMBOLIC_NAME_LEN, "%d", listener_found->id);
free(listener_found);
}
hc_command_params_t params = {
.cmd = ACTION_DELETE,
.cmd_id = REMOVE_LISTENER,
.size_in = sizeof(remove_listener_command),
.size_out = 0,
.parse = NULL,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, NULL, async);
}
int
hc_listener_delete(hc_sock_t * s, hc_listener_t * listener)
{
return _hc_listener_delete(s, listener, false);
}
int
hc_listener_delete_async(hc_sock_t * s, hc_listener_t * listener)
{
return _hc_listener_delete(s, listener, true);
}
/* LISTENER LIST */
int
_hc_listener_list(hc_sock_t * s, hc_data_t ** pdata, bool async)
{
struct {
header_control_message hdr;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = LIST_LISTENERS,
.length = 0,
.seqNum = 0,
},
};
hc_command_params_t params = {
.cmd = ACTION_LIST,
.cmd_id = LIST_LISTENERS,
.size_in = sizeof(list_listeners_command),
.size_out = sizeof(hc_listener_t),
.parse = (HC_PARSE)hc_listener_parse,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, pdata, async);
}
int
hc_listener_list(hc_sock_t * s, hc_data_t ** pdata)
{
return _hc_listener_list(s, pdata, false);
}
int
hc_listener_list_async(hc_sock_t * s, hc_data_t ** pdata)
{
return _hc_listener_list(s, pdata, true);
}
/* LISTENER VALIDATE */
int
hc_listener_validate(const hc_listener_t * listener)
{
if (!IS_VALID_FAMILY(listener->family))
return -1;
if (!IS_VALID_CONNECTION_TYPE(listener->type))
return -1;
return 0;
}
/* LISTENER CMP */
int
hc_listener_cmp(const hc_listener_t * l1, const hc_listener_t * l2)
{
return ((l1->type == l2->type) &&
(l1->family == l2->family) &&
(strncmp(l1->interface_name, l2->interface_name, INTERFACE_LEN) == 0) &&
(ip_address_cmp(&l1->local_addr, &l2->local_addr, l1->family) == 0) &&
(l1->local_port == l2->local_port))
? 0
: -1;
}
/* LISTENER PARSE */
int
hc_listener_parse(void * in, hc_listener_t * listener)
{
list_listeners_command * cmd = (list_listeners_command *)in;
if (!IS_VALID_LIST_LISTENERS_TYPE(cmd->encapType))
return -1;
hc_connection_type_t type = map_from_encap_type[cmd->encapType];
if (type == CONNECTION_TYPE_UNDEFINED)
return -1;
if (!IS_VALID_ADDR_TYPE(cmd->addressType))
return -1;
int family = map_from_addr_type[cmd->addressType];
if (!IS_VALID_FAMILY(family))
return -1;
*listener = (hc_listener_t) {
.id = cmd->connid,
.type = type,
.family = family,
.local_addr = UNION_CAST(cmd->address, ip_address_t),
.local_port = ntohs(cmd->port),
};
snprintf(listener->name, SYMBOLIC_NAME_LEN, "%s", cmd->listenerName);
snprintf(listener->interface_name, INTERFACE_LEN, "%s", cmd->interfaceName);
return 0;
}
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 < 0)
return rc;
return snprintf(s, size+17, "%s %s %s",
listener->interface_name,
local,
connection_type_str[listener->type]);
}
/*----------------------------------------------------------------------------*
* CONNECTION
*----------------------------------------------------------------------------*/
/* CONNECTION CREATE */
int
_hc_connection_create(hc_sock_t * s, hc_connection_t * connection, bool async)
{
if (hc_connection_validate(connection) < 0)
return -1;
struct {
header_control_message hdr;
add_connection_command payload;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = ADD_CONNECTION,
.length = 1,
.seqNum = 0,
},
.payload = {
/* we use IPv6 which is the longest address */
.remoteIp.ipv6 = connection->remote_addr.v6.as_in6addr,
.localIp.ipv6 = connection->local_addr.v6.as_in6addr,
.remotePort = htons(connection->remote_port),
.localPort = htons(connection->local_port),
.ipType = (u8)map_to_addr_type[connection->family],
.admin_state = connection->admin_state,
#ifdef WITH_POLICY
.tags = connection->tags,
#endif /* WITH_POLICY */
.connectionType = (u8)map_to_connection_type[connection->type],
}
};
snprintf(msg.payload.symbolic, SYMBOLIC_NAME_LEN, "%s", connection->name);
hc_command_params_t params = {
.cmd = ACTION_CREATE,
.cmd_id = ADD_CONNECTION,
.size_in = sizeof(add_connection_command),
.size_out = 0,
.parse = NULL,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, NULL, async);
}
int
hc_connection_create(hc_sock_t * s, hc_connection_t * connection)
{
return _hc_connection_create(s, connection, false);
}
int
hc_connection_create_async(hc_sock_t * s, hc_connection_t * connection)
{
return _hc_connection_create(s, connection, true);
}
/* CONNECTION GET */
int
hc_connection_get(hc_sock_t * s, hc_connection_t * connection,
hc_connection_t ** connection_found)
{
hc_data_t * connections;
hc_connection_t * found;
if (hc_connection_list(s, &connections) < 0)
return -1;
/* Test */
if (hc_connection_find(connections, connection, &found) < 0) {
hc_data_free(connections);
return -1;
}
if (found) {
*connection_found = malloc(sizeof(hc_connection_t));
if (!*connection_found)
return -1;
**connection_found = *found;
} else {
*connection_found = NULL;
}
hc_data_free(connections);
return 0;
}
/* CONNECTION DELETE */
int
_hc_connection_delete(hc_sock_t * s, hc_connection_t * connection, bool async)
{
struct {
header_control_message hdr;
remove_connection_command payload;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = REMOVE_CONNECTION,
.length = 1,
.seqNum = 0,
},
};
if (connection->id) {
snprintf(msg.payload.symbolicOrConnid, SYMBOLIC_NAME_LEN, "%d", connection->id);
} else if (*connection->name) {
snprintf(msg.payload.symbolicOrConnid, SYMBOLIC_NAME_LEN, "%s", connection->name);
} else {
hc_connection_t * connection_found;
if (hc_connection_get(s, connection, &connection_found) < 0)
return -1;
if (!connection_found)
return -1;
snprintf(msg.payload.symbolicOrConnid, SYMBOLIC_NAME_LEN, "%d", connection_found->id);
free(connection_found);
}
hc_command_params_t params = {
.cmd = ACTION_DELETE,
.cmd_id = REMOVE_CONNECTION,
.size_in = sizeof(remove_connection_command),
.size_out = 0,
.parse = NULL,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, NULL, async);
}
int
hc_connection_delete(hc_sock_t * s, hc_connection_t * connection)
{
return _hc_connection_delete(s, connection, false);
}
int
hc_connection_delete_async(hc_sock_t * s, hc_connection_t * connection)
{
return _hc_connection_delete(s, connection, true);
}
/* CONNECTION LIST */
int
_hc_connection_list(hc_sock_t * s, hc_data_t ** pdata, bool async)
{
struct {
header_control_message hdr;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = LIST_CONNECTIONS,
.length = 0,
.seqNum = 0,
},
};
hc_command_params_t params = {
.cmd = ACTION_LIST,
.cmd_id = LIST_CONNECTIONS,
.size_in = sizeof(list_connections_command),
.size_out = sizeof(hc_connection_t),
.parse = (HC_PARSE)hc_connection_parse,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, pdata, async);
}
int
hc_connection_list(hc_sock_t * s, hc_data_t ** pdata)
{
return _hc_connection_list(s, pdata, false);
}
int
hc_connection_list_async(hc_sock_t * s, hc_data_t ** pdata)
{
return _hc_connection_list(s, pdata, true);
}
/* CONNECTION VALIDATE */
int
hc_connection_validate(const hc_connection_t * connection)
{
if (!IS_VALID_FAMILY(connection->family))
return -1;
if (!IS_VALID_CONNECTION_TYPE(connection->type))
return -1;
/* TODO assert both local and remote have the right family */
return 0;
}
/* 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)
{
return ((c1->type == c2->type) &&
(c1->family == c2->family) &&
(ip_address_cmp(&c1->local_addr, &c2->local_addr, c1->family) == 0) &&
(c1->local_port == c2->local_port) &&
(ip_address_cmp(&c1->remote_addr, &c2->remote_addr, c1->family) == 0) &&
(c1->remote_port == c2->remote_port))
? 0
: -1;
}
/* CONNECTION PARSE */
int
hc_connection_parse(void * in, hc_connection_t * connection)
{
list_connections_command * cmd = (list_connections_command *)in;
if (!IS_VALID_LIST_CONNECTIONS_TYPE(cmd->connectionData.connectionType))
return -1;
hc_connection_type_t type = map_from_list_connections_type[cmd->connectionData.connectionType];
if (type == CONNECTION_TYPE_UNDEFINED)
return -1;
if (!IS_VALID_LIST_CONNECTIONS_STATE(cmd->state))
return -1;
hc_connection_state_t state = map_from_list_connections_state[cmd->state];
if (state == HC_CONNECTION_STATE_UNDEFINED)
return -1;
if (!IS_VALID_ADDR_TYPE(cmd->connectionData.ipType))
return -1;
int family = map_from_addr_type[cmd->connectionData.ipType];
if (!IS_VALID_FAMILY(family))
return -1;
*connection = (hc_connection_t) {
.id = cmd->connid,
.type = type,
.family = family,
.local_addr = UNION_CAST(cmd->connectionData.localIp, ip_address_t),
.local_port = ntohs(cmd->connectionData.localPort),
.remote_addr = UNION_CAST(cmd->connectionData.remoteIp, ip_address_t),
.remote_port = ntohs(cmd->connectionData.remotePort),
.admin_state = cmd->connectionData.admin_state,
#ifdef WITH_POLICY
.tags = cmd->connectionData.tags,
#endif /* WITH_POLICY */
.state = state,
};
snprintf(connection->name, SYMBOLIC_NAME_LEN, "%s", cmd->connectionData.symbolic);
snprintf(connection->interface_name, INTERFACE_LEN, "%s", cmd->interfaceName);
return 0;
}
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)
{
char local[MAXSZ_URL];
char remote[MAXSZ_URL];
int rc;
// assert(connection->connection_state)
rc = url_snprintf(local, MAXSZ_URL, connection->family,
&connection->local_addr, connection->local_port);
if (rc < 0)
return rc;
rc = url_snprintf(remote, MAXSZ_URL, connection->family,
&connection->remote_addr, connection->remote_port);
if (rc < 0)
return rc;
return snprintf(s, size, "%s %s %s %s %s",
connection_state_str[connection->state],
connection->interface_name,
local,
remote,
connection_type_str[connection->type]);
}
/* CONNECTION SET ADMIN STATE */
int
_hc_connection_set_admin_state(hc_sock_t * s, const char * conn_id_or_name,
face_state_t state, bool async)
{
struct {
header_control_message hdr;
connection_set_admin_state_command payload;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = CONNECTION_SET_ADMIN_STATE,
.length = 1,
.seqNum = 0,
},
.payload = {
.admin_state = state,
},
};
snprintf(msg.payload.symbolicOrConnid, SYMBOLIC_NAME_LEN, "%s", conn_id_or_name);
hc_command_params_t params = {
.cmd = ACTION_SET,
.cmd_id = CONNECTION_SET_ADMIN_STATE,
.size_in = sizeof(connection_set_admin_state_command),
.size_out = 0,
.parse = NULL,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, NULL, async);
}
int
hc_connection_set_admin_state(hc_sock_t * s, const char * conn_id_or_name,
face_state_t state)
{
return _hc_connection_set_admin_state(s, conn_id_or_name, state, false);
}
int
hc_connection_set_admin_state_async(hc_sock_t * s, const char * conn_id_or_name,
face_state_t state)
{
return _hc_connection_set_admin_state(s, conn_id_or_name, state, true);
}
/*----------------------------------------------------------------------------*
* Routes
*----------------------------------------------------------------------------*/
/* ROUTE CREATE */
int
_hc_route_create(hc_sock_t * s, hc_route_t * route, bool async)
{
if (!IS_VALID_FAMILY(route->family))
return -1;
struct {
header_control_message hdr;
add_route_command payload;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = ADD_ROUTE,
.length = 1,
.seqNum = 0,
},
.payload = {
/* we use IPv6 which is the longest address */
.address.ipv6 = route->remote_addr.v6.as_in6addr,
.cost = route->cost,
.addressType = (u8)map_to_addr_type[route->family],
.len = route->len,
}
};
/*
* The route commands expects the ID (or name that we don't use) as part of
* the symbolicOrConnid attribute.
*/
snprintf(msg.payload.symbolicOrConnid, SYMBOLIC_NAME_LEN, "%d", route->face_id);
hc_command_params_t params = {
.cmd = ACTION_CREATE,
.cmd_id = ADD_ROUTE,
.size_in = sizeof(add_route_command),
.size_out = 0,
.parse = NULL,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, NULL, async);
}
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 */
int
_hc_route_delete(hc_sock_t * s, hc_route_t * route, bool async)
{
if (!IS_VALID_FAMILY(route->family))
return -1;
struct {
header_control_message hdr;
remove_route_command payload;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = REMOVE_ROUTE,
.length = 1,
.seqNum = 0,
},
.payload = {
/* we use IPv6 which is the longest address */
.address.ipv6 = route->remote_addr.v6.as_in6addr,
.addressType = (u8)map_to_addr_type[route->family],
.len = route->len,
}
};
hc_command_params_t params = {
.cmd = ACTION_DELETE,
.cmd_id = REMOVE_ROUTE,
.size_in = sizeof(remove_route_command),
.size_out = 0,
.parse = NULL,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, NULL, async);
}
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 */
int
_hc_route_list(hc_sock_t * s, hc_data_t ** pdata, bool async)
{
struct {
header_control_message hdr;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = LIST_ROUTES,
.length = 0,
.seqNum = 0,
},
};
hc_command_params_t params = {
.cmd = ACTION_LIST,
.cmd_id = LIST_ROUTES,
.size_in = sizeof(list_routes_command),
.size_out = sizeof(hc_route_t),
.parse = (HC_PARSE)hc_route_parse,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, pdata, async);
}
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, hc_data_t ** pdata)
{
return _hc_route_list(s, pdata, true);
}
/* ROUTE PARSE */
int
hc_route_parse(void * in, hc_route_t * route)
{
list_routes_command * cmd = (list_routes_command *) in;
if (!IS_VALID_ADDR_TYPE(cmd->addressType))
return -1;
int family = map_from_addr_type[cmd->addressType];
if (!IS_VALID_FAMILY(family))
return -1;
*route = (hc_route_t) {
.face_id = cmd->connid,
.family = family,
.remote_addr = UNION_CAST(cmd->address, ip_address_t),
.len = cmd->len,
.cost = cmd->cost,
};
return 0;
}
/* 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)
{
const face_t * f = &face->face;
switch(f->type) {
case FACE_TYPE_HICN:
*connection = (hc_connection_t) {
.type = CONNECTION_TYPE_HICN,
.family = f->family,
.local_addr = f->local_addr,
.local_port = 0,
.remote_addr = f->remote_addr,
.remote_port = 0,
.admin_state = face_state_to_connection_state(f->admin_state),
.state = face_state_to_connection_state(f->state),
#ifdef WITH_POLICY
.tags = f->tags,
#endif /* WITH_POLICY */
};
snprintf(connection->name, SYMBOLIC_NAME_LEN, "%s",
f->netdevice.name);
snprintf(connection->interface_name, INTERFACE_LEN, "%s",
f->netdevice.name);
break;
case FACE_TYPE_TCP:
*connection = (hc_connection_t) {
.type = CONNECTION_TYPE_TCP,
.family = f->family,
.local_addr = f->local_addr,
.local_port = f->local_port,
.remote_addr = f->remote_addr,
.remote_port = f->remote_port,
.admin_state = face_state_to_connection_state(f->admin_state),
.state = face_state_to_connection_state(f->state),
#ifdef WITH_POLICY
.tags = f->tags,
#endif /* WITH_POLICY */
};
if (generate_name) {
snprintf(connection->name, SYMBOLIC_NAME_LEN, "tcp%u", RANDBYTE());
} else {
memset(connection->name, 0, SYMBOLIC_NAME_LEN);
}
snprintf(connection->interface_name, INTERFACE_LEN, "%s",
f->netdevice.name);
break;
case FACE_TYPE_UDP:
*connection = (hc_connection_t) {
.type = CONNECTION_TYPE_UDP,
.family = AF_INET,
.local_addr = f->local_addr,
.local_port = f->local_port,
.remote_addr = f->remote_addr,
.remote_port = f->remote_port,
.admin_state = face_state_to_connection_state(f->admin_state),
.state = face_state_to_connection_state(f->state),
#ifdef WITH_POLICY
.tags = f->tags,
#endif /* WITH_POLICY */
};
if (generate_name) {
snprintf(connection->name, SYMBOLIC_NAME_LEN, "udp%u", RANDBYTE());
} else {
memset(connection->name, 0, SYMBOLIC_NAME_LEN);
}
snprintf(connection->interface_name, INTERFACE_LEN, "%s",
f->netdevice.name);
break;
default:
return -1;
}
snprintf(connection->interface_name, INTERFACE_LEN, "%s",
f->netdevice.name);
return 0;
}
/* CONNECTION -> FACE */
int
hc_connection_to_face(const hc_connection_t * connection, hc_face_t * face)
{
switch (connection->type) {
case CONNECTION_TYPE_TCP:
*face = (hc_face_t) {
.id = connection->id,
.face = {
.type = FACE_TYPE_TCP,
.family = connection->family,
.local_addr = connection->local_addr,
.local_port = connection->local_port,
.remote_addr = connection->remote_addr,
.remote_port = connection->remote_port,
.admin_state = connection_state_to_face_state(connection->admin_state),
.state = connection_state_to_face_state(connection->state),
#ifdef WITH_POLICY
.tags = connection->tags,
#endif /* WITH_POLICY */
},
};
break;
case CONNECTION_TYPE_UDP:
*face = (hc_face_t) {
.id = connection->id,
.face = {
.type = FACE_TYPE_UDP,
.family = connection->family,
.local_addr = connection->local_addr,
.local_port = connection->local_port,
.remote_addr = connection->remote_addr,
.remote_port = connection->remote_port,
.admin_state = connection_state_to_face_state(connection->admin_state),
.state = connection_state_to_face_state(connection->state),
#ifdef WITH_POLICY
.tags = connection->tags,
#endif /* WITH_POLICY */
},
};
break;
case CONNECTION_TYPE_HICN:
*face = (hc_face_t) {
.id = connection->id,
.face = {
.type = FACE_TYPE_HICN,
.family = connection->family,
.netdevice.index = NETDEVICE_UNDEFINED_INDEX, // XXX
.local_addr = connection->local_addr,
.remote_addr = connection->remote_addr,
.admin_state = connection_state_to_face_state(connection->admin_state),
.state = connection_state_to_face_state(connection->state),
#ifdef WITH_POLICY
.tags = connection->tags,
#endif /* WITH_POLICY */
},
};
break;
default:
return -1;
}
face->face.netdevice.name[0] = '\0';
face->face.netdevice.index = 0;
snprintf(face->name, SYMBOLIC_NAME_LEN, "%s", connection->name);
snprintf(face->face.netdevice.name, INTERFACE_LEN, "%s", connection->interface_name);
netdevice_update_index(&face->face.netdevice);
return 0;
}
/* CONNECTION -> LISTENER */
int
hc_connection_to_local_listener(const hc_connection_t * connection, hc_listener_t * listener)
{
*listener = (hc_listener_t) {
.id = ~0,
.type = connection->type,
.family = connection->family,
.local_addr = connection->local_addr,
.local_port = connection->local_port,
};
snprintf(listener->name, SYMBOLIC_NAME_LEN, "lst%u", RANDBYTE()); // generate name
snprintf(listener->interface_name, INTERFACE_LEN, "%s", connection->interface_name);
return 0;
}
/* FACE CREATE */
int
hc_face_create(hc_sock_t * s, hc_face_t * face)
{
hc_listener_t listener;
hc_listener_t * listener_found;
hc_connection_t connection;
hc_connection_t * connection_found;
switch(face->face.type)
{
case FACE_TYPE_HICN:
case FACE_TYPE_TCP:
case FACE_TYPE_UDP:
if (hc_face_to_connection(face, &connection, true) < 0) {
ERROR("[hc_face_create] Could not convert face to connection.");
return -1;
}
/* Ensure we have a corresponding local listener */
if (hc_connection_to_local_listener(&connection, &listener) < 0) {
ERROR("[hc_face_create] Could not convert face to local listener.");
return -1;
}
if (hc_listener_get(s, &listener, &listener_found) < 0) {
ERROR("[hc_face_create] Could not retrieve listener");
return -1;
}
if (!listener_found) {
/* We need to create the listener if it does not exist */
if (hc_listener_create(s, &listener) < 0) {
ERROR("[hc_face_create] Could not create listener.");
free(listener_found);
return -1;
}
} else {
free(listener_found);
}
/* Create corresponding connection */
if (hc_connection_create(s, &connection) < 0) {
ERROR("[hc_face_create] Could not create connection.");
return -1;
}
/*
* Once the connection is created, we need to list all connections
* and compare with the current one to find the created face ID.
*/
if (hc_connection_get(s, &connection, &connection_found) < 0) {
ERROR("[hc_face_create] Could not retrieve connection");
return -1;
}
if (!connection_found) {
ERROR("[hc_face_create] Could not find newly created connection.");
return -1;
}
face->id = connection_found->id;
free(connection_found);
break;
case FACE_TYPE_HICN_LISTENER:
case FACE_TYPE_TCP_LISTENER:
case FACE_TYPE_UDP_LISTENER:
if (hc_face_to_listener(face, &listener) < 0) {
ERROR("Could not convert face to listener.");
return -1;
}
if (hc_listener_create(s, &listener) < 0) {
ERROR("[hc_face_create] Could not create listener.");
return -1;
}
return -1;
break;
default:
ERROR("[hc_face_create] Unknwon face type.");
return -1;
};
return 0;
}
int
hc_face_get(hc_sock_t * s, hc_face_t * face, hc_face_t ** face_found)
{
hc_listener_t listener;
hc_listener_t * listener_found;
hc_connection_t connection;
hc_connection_t * connection_found;
switch(face->face.type)
{
case FACE_TYPE_HICN:
case FACE_TYPE_TCP:
case FACE_TYPE_UDP:
if (hc_face_to_connection(face, &connection, false) < 0)
return -1;
if (hc_connection_get(s, &connection, &connection_found) < 0)
return -1;
if (!connection_found) {
*face_found = NULL;
return 0;
}
*face_found = malloc(sizeof(face_t));
hc_connection_to_face(connection_found, *face_found);
free(connection_found);
break;
case FACE_TYPE_HICN_LISTENER:
case FACE_TYPE_TCP_LISTENER:
case FACE_TYPE_UDP_LISTENER:
if (hc_face_to_listener(face, &listener) < 0)
return -1;
if (hc_listener_get(s, &listener, &listener_found) < 0)
return -1;
if (!listener_found) {
*face_found = NULL;
return 0;
}
*face_found = malloc(sizeof(face_t));
hc_listener_to_face(listener_found, *face_found);
free(listener_found);
break;
default:
return -1;
}
return 0;
}
/* FACE DELETE */
int
hc_face_delete(hc_sock_t * s, hc_face_t * face)
{
hc_connection_t connection;
if (hc_face_to_connection(face, &connection, false) < 0) {
ERROR("[hc_face_delete] Could not convert face to connection.");
return -1;
}
if (hc_connection_delete(s, &connection) < 0) {
ERROR("[hc_face_delete] Error removing connection");
return -1;
}
/* If this is the last connection attached to the listener, remove it */
hc_data_t * connections;
hc_listener_t listener = {0};
/*
* Ensure we have a corresponding local listener
* NOTE: hc_face_to_listener is not appropriate
*/
if (hc_connection_to_local_listener(&connection, &listener) < 0) {
ERROR("[hc_face_create] Could not convert face to local listener.");
return -1;
}
#if 1
/*
* The name is generated to prepare listener creation, we need it to be
* empty for deletion. The id should not need to be reset though.
*/
listener.id = 0;
memset(listener.name, 0, sizeof(listener.name));
#endif
if (hc_connection_list(s, &connections) < 0) {
ERROR("[hc_face_delete] Error getting the list of listeners");
return -1;
}
bool delete = true;
foreach_connection(c, connections) {
if ((ip_address_cmp(&c->local_addr, &listener.local_addr, c->family) == 0) &&
(c->local_port == listener.local_port) &&
(strcmp(c->interface_name, listener.interface_name) == 0)) {
delete = false;
}
}
if (delete) {
if (hc_listener_delete(s, &listener) < 0) {
ERROR("[hc_face_delete] Error removing listener");
return -1;
}
}
hc_data_free(connections);
return 0;
}
/* FACE LIST */
int
hc_face_list(hc_sock_t * s, hc_data_t ** pdata)
{
hc_data_t * connection_data;
hc_face_t face;
if (hc_connection_list(s, &connection_data) < 0) {
ERROR("[hc_face_list] Could not list connections.");
return -1;
}
hc_data_t * face_data = hc_data_create(sizeof(hc_connection_t), sizeof(hc_face_t));
foreach_connection(c, connection_data) {
if (hc_connection_to_face(c, &face) < 0) {
ERROR("[hc_face_list] Could not convert connection to face.");
goto ERR;
}
hc_data_push(face_data, &face);
}
*pdata = face_data;
hc_data_free(connection_data);
return 0;
ERR:
hc_data_free(connection_data);
return -1;
}
int
hc_connection_parse_to_face(void * in, hc_face_t * face)
{
hc_connection_t connection;
if (hc_connection_parse(in, &connection) < 0) {
ERROR("[hc_connection_parse_to_face] Could not parse connection");
return -1;
}
if (hc_connection_to_face(&connection, face) < 0) {
ERROR("[hc_connection_parse_to_face] Could not convert connection to face.");
return -1;
}
return 0;
}
int
hc_face_list_async(hc_sock_t * s) //, hc_data_t ** pdata)
{
struct {
header_control_message hdr;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = LIST_CONNECTIONS,
.length = 0,
.seqNum = 0,
},
};
hc_command_params_t params = {
.cmd = ACTION_LIST,
.cmd_id = LIST_CONNECTIONS,
.size_in = sizeof(list_connections_command),
.size_out = sizeof(hc_face_t),
.parse = (HC_PARSE)hc_connection_parse_to_face,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, NULL, true);
}
/* /!\ Please update constants in header file upon changes */
int
hc_face_snprintf(char * s, size_t size, hc_face_t * face)
{
/* URLs are also big enough to contain IP addresses in the hICN case */
char local[MAXSZ_URL];
char remote[MAXSZ_URL];
#ifdef WITH_POLICY
char tags[MAXSZ_POLICY_TAGS];
#endif /* WITH_POLICY */
int rc;
switch(face->face.type) {
case FACE_TYPE_HICN:
case FACE_TYPE_HICN_LISTENER:
rc = ip_address_snprintf(local, MAXSZ_URL,
&face->face.local_addr,
face->face.family);
if (rc < 0)
return rc;
rc = ip_address_snprintf(remote, MAXSZ_URL,
&face->face.remote_addr,
face->face.family);
if (rc < 0)
return rc;
break;
case FACE_TYPE_TCP:
case FACE_TYPE_UDP:
case FACE_TYPE_TCP_LISTENER:
case FACE_TYPE_UDP_LISTENER:
rc = url_snprintf(local, MAXSZ_URL, face->face.family,
&face->face.local_addr,
face->face.local_port); if (rc < 0)
return rc;
rc = url_snprintf(remote, MAXSZ_URL, face->face.family,
&face->face.remote_addr,
face->face.remote_port); if (rc < 0)
if (rc < 0)
return rc;
break;
default:
return -1;
}
// [#ID NAME] TYPE LOCAL_URL REMOTE_URL STATE/ADMIN_STATE (TAGS)
#ifdef WITH_POLICY
rc = policy_tags_snprintf(tags, MAXSZ_POLICY_TAGS, face->face.tags);
if (rc < 0)
return rc;
return snprintf(s, size, "[#%d %s] %s %s %s %s/%s (%s)",
face->id,
face->name,
face_type_str[face->face.type],
local,
remote,
face_state_str[face->face.state],
face_state_str[face->face.admin_state],
tags);
#else
return snprintf(s, size, "[#%d %s] %s %s %s %s/%s",
face->id,
face->name,
face_type_str[face->face.type],
local,
remote,
face_state_str[face->face.state],
face_state_str[face->face.admin_state]);
#endif /* WITH_POLICY */
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 hc_connection_set_admin_state(s, conn_id_or_name, admin_state);
}
/*----------------------------------------------------------------------------*
* Punting
*----------------------------------------------------------------------------*/
int
_hc_punting_create(hc_sock_t * s, hc_punting_t * punting, bool async)
{
if (hc_punting_validate(punting) < 0)
return -1;
struct {
header_control_message hdr;
add_punting_command payload;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = ADD_PUNTING,
.length = 1,
.seqNum = 0,
},
.payload = {
/* we use IPv6 which is the longest address */
.address.ipv6 = punting->prefix.v6.as_in6addr,
.addressType = (u8)map_to_addr_type[punting->family],
.len = punting->prefix_len,
}
};
snprintf(msg.payload.symbolicOrConnid, SYMBOLIC_NAME_LEN, "%d", punting->face_id);
hc_command_params_t params = {
.cmd = ACTION_CREATE,
.cmd_id = ADD_PUNTING,
.size_in = sizeof(add_punting_command),
.size_out = 0,
.parse = NULL,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, NULL, async);
}
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)
{
struct {
header_control_message hdr;
cache_store_command payload;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = CACHE_STORE,
.length = 1,
.seqNum = 0,
},
.payload = {
.activate = enabled,
}
};
hc_command_params_t params = {
.cmd = ACTION_SET,
.cmd_id = CACHE_STORE,
.size_in = sizeof(cache_store_command),
.size_out = 0,
.parse = NULL,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, NULL, async);
}
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)
{
struct {
header_control_message hdr;
cache_serve_command payload;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = CACHE_SERVE,
.length = 1,
.seqNum = 0,
},
.payload = {
.activate = enabled,
}
};
hc_command_params_t params = {
.cmd = ACTION_SET,
.cmd_id = CACHE_SERVE,
.size_in = sizeof(cache_serve_command),
.size_out = 0,
.parse = NULL,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, NULL, async);
}
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;
}
/* How to retrieve that from the forwarder ? */
static const char * strategies[] = {
"random",
"load_balancer",
};
#define ARRAY_SIZE(array) (sizeof(array) / sizeof(*array))
int
hc_strategy_list(hc_sock_t * s, hc_data_t ** data)
{
*data = hc_data_create(0, sizeof(hc_strategy_t));
for (unsigned i = 0; i < ARRAY_SIZE(strategies); i++) {
hc_strategy_t * strategy = (hc_strategy_t*)hc_data_get_next(*data);
if (!strategy)
return -1;
snprintf(strategy->name, MAXSZ_HC_STRATEGY, "%s", strategies[i]);
(*data)->size++;
}
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;
}
/*----------------------------------------------------------------------------*
* Policy
*----------------------------------------------------------------------------*/
#ifdef WITH_POLICY
/* POLICY CREATE */
int
_hc_policy_create(hc_sock_t * s, hc_policy_t * policy, bool async)
{
if (!IS_VALID_FAMILY(policy->family))
return -1;
struct {
header_control_message hdr;
add_policy_command payload;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = ADD_POLICY,
.length = 1,
.seqNum = 0,
},
.payload = {
/* we use IPv6 which is the longest address */
.address.ipv6 = policy->remote_addr.v6.as_in6addr,
.addressType = (u8)map_to_addr_type[policy->family],
.len = policy->len,
.policy = policy->policy,
}
};
hc_command_params_t params = {
.cmd = ACTION_CREATE,
.cmd_id = ADD_POLICY,
.size_in = sizeof(add_policy_command),
.size_out = 0,
.parse = NULL,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, NULL, async);
}
int
hc_policy_create(hc_sock_t * s, hc_policy_t * policy)
{
return _hc_policy_create(s, policy, false);
}
int
hc_policy_create_async(hc_sock_t * s, hc_policy_t * policy)
{
return _hc_policy_create(s, policy, true);
}
/* POLICY DELETE */
int
_hc_policy_delete(hc_sock_t * s, hc_policy_t * policy, bool async)
{
if (!IS_VALID_FAMILY(policy->family))
return -1;
struct {
header_control_message hdr;
remove_policy_command payload;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = REMOVE_POLICY,
.length = 1,
.seqNum = 0,
},
.payload = {
/* we use IPv6 which is the longest address */
.address.ipv6 = policy->remote_addr.v6.as_in6addr,
.addressType = (u8)map_to_addr_type[policy->family],
.len = policy->len,
}
};
hc_command_params_t params = {
.cmd = ACTION_DELETE,
.cmd_id = REMOVE_POLICY,
.size_in = sizeof(remove_policy_command),
.size_out = 0,
.parse = NULL,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, NULL, async);
}
int
hc_policy_delete(hc_sock_t * s, hc_policy_t * policy)
{
return _hc_policy_delete(s, policy, false);
}
int
hc_policy_delete_async(hc_sock_t * s, hc_policy_t * policy)
{
return _hc_policy_delete(s, policy, true);
}
/* POLICY LIST */
int
_hc_policy_list(hc_sock_t * s, hc_data_t ** pdata, bool async)
{
struct {
header_control_message hdr;
} msg = {
.hdr = {
.messageType = REQUEST_LIGHT,
.commandID = LIST_POLICIES,
.length = 0,
.seqNum = 0,
},
};
hc_command_params_t params = {
.cmd = ACTION_LIST,
.cmd_id = LIST_POLICIES,
.size_in = sizeof(list_policies_command),
.size_out = sizeof(hc_policy_t),
.parse = (HC_PARSE)hc_policy_parse,
};
return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), ¶ms, pdata, async);
}
int
hc_policy_list(hc_sock_t * s, hc_data_t ** pdata)
{
return _hc_policy_list(s, pdata, false);
}
int
hc_policy_list_async(hc_sock_t * s, hc_data_t ** pdata)
{
return _hc_policy_list(s, pdata, true);
}
/* POLICY PARSE */
int
hc_policy_parse(void * in, hc_policy_t * policy)
{
list_policies_command * cmd = (list_policies_command *) in;
if (!IS_VALID_ADDR_TYPE(cmd->addressType))
return -1;
int family = map_from_addr_type[cmd->addressType];
if (!IS_VALID_FAMILY(family))
return -1;
*policy = (hc_policy_t) {
.family = family,
.remote_addr = UNION_CAST(cmd->address, ip_address_t),
.len = cmd->len,
.policy = cmd->policy,
};
return 0;
}
/* POLICY SNPRINTF */
/* /!\ Please update constants in header file upon changes */
int
hc_policy_snprintf(char * s, size_t size, hc_policy_t * policy)
{
return 0;
}
#endif /* WITH_POLICY */
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