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|
/*
* Copyright (c) 2021-2023 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 modules/hicn_light.c
* \brief Implementation of hicn-light module.
*/
#include <assert.h> // assert
#include <fcntl.h> // fcntl
#include <stdbool.h>
#include <stdio.h> // snprintf
#include <string.h> // memmove, strcasecmp
#include <sys/socket.h> // socket
#include <sys/types.h> // getpid
#include <unistd.h> // close, fcntl, getpid
#ifdef __linux__
#include <sys/syscall.h>
#define gettid() syscall(SYS_gettid)
#endif /* __linux__ */
#include <strings.h>
#include <hicn/ctrl/hicn-light.h>
#include <hicn/ctrl/socket.h>
#include "../api_private.h"
#include "../objects/connection.h" // hc_connection_has_local
#include "../objects/listener.h" // hc_listener_is_local
#include "../objects/route.h" // hc_route_has_face
#include "../objects/stats.h"
#include "../request.h"
#include "../socket_private.h"
#include "hicn_light.h"
#include "hicn_light/base.h"
#include "hicn_light/connection.h"
#include "hicn_light/face.h"
#include "hicn_light/listener.h"
#include "hicn_light/mapme.h"
#include "hicn_light/route.h"
#include "hicn_light/stats.h"
#include "hicn_light/strategy.h"
#include "hicn_light/subscription.h"
#pragma GCC diagnostic ignored "-Warray-bounds"
#define DEFAULT_SOCK_RECV_TIMEOUT_MS 100
#define PORT 9695
#define BOOLSTR(x) ((x) ? "true" : "false")
hc_sock_light_data_t *hc_sock_light_data_create(const char *url) {
hc_sock_light_data_t *s = malloc(sizeof(hc_sock_light_data_t));
if (!s) goto ERR_MALLOC;
s->roff = s->woff = 0;
s->remaining = 0;
s->got_header = false;
s->url = url ? strdup(url) : NULL;
s->fd = socket(AF_INET, SOCK_DGRAM, 0);
if (s->fd < 0) goto ERR_SOCKET;
#if 0
struct timeval tv = {.tv_sec = 0,
.tv_usec = DEFAULT_SOCK_RECV_TIMEOUT_MS * 1000};
if (setsockopt(s->fd, SOL_SOCKET, SO_RCVTIMEO, &tv, sizeof(tv)) < 0) {
perror("setsockopt");
goto ERR_TIMEOUT;
}
#endif
return s;
#if 0
ERR_TIMEOUT:
#endif
close(s->fd);
ERR_SOCKET:
if (s->url) free(s->url);
free(s);
ERR_MALLOC:
return NULL;
}
void hc_sock_light_data_free(hc_sock_light_data_t *data) {
if (data->url) free(data->url);
free(data);
}
static const struct in6_addr loopback_addr = IN6ADDR_LOOPBACK_INIT;
/******************************************************************************
* Control socket
******************************************************************************/
#define AVAILABLE(s) ((s)->woff - (s)->roff)
/**
* \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.
*/
static int hicnlight_parse_url(const char *url, struct sockaddr *sa) {
char ip[100];
char protocol[100];
int port = PORT;
if (url) {
int ret = sscanf(url, "%99[^:]://%99[^:]:%99d[^/]", protocol, ip, &port);
if (ret == EOF) return -1;
}
#ifdef __linux__
srand(time(NULL) ^ getpid() ^ gettid());
#else
srand((unsigned int)(time(NULL) ^ getpid()));
#endif /* __linux__ */
/*
* 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);
if (url) {
int ret = inet_pton(AF_INET, ip, &(sai->sin_addr.s_addr));
if (ret != 1) return -1;
} else {
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);
if (url) {
int ret = inet_pton(AF_INET6, ip, &(sai6->sin6_addr));
if (ret != 1) return -1;
} else {
sai6->sin6_addr = loopback_addr;
}
break;
}
default:
return -1;
}
return 0;
}
/*
* Return codes:
* < 0 : error; invalid buffer data -> flush
* otherwise, seq_num of the identified request
*/
static int hicnlight_process_header(hc_sock_t *sock) {
hc_sock_light_data_t *s = (hc_sock_light_data_t *)sock->data;
hc_object_type_t object_type = OBJECT_TYPE_UNDEFINED;
/* Check we have at least a header's worth of data, and consume it */
if (AVAILABLE(s) < sizeof(hc_msg_header_t)) return 0;
hc_msg_t *msg = (hc_msg_t *)(s->buf + s->roff);
// INFO("Processing header header %s", command_type_str(msg->hdr.command_id));
s->roff += sizeof(hc_msg_header_t);
s->got_header = true;
/* How many elements are we expecting in the reply ? */
s->remaining = msg->header.length;
/* Identify request being parsed */
int seq = msg->header.seq_num;
hc_request_t *request = NULL;
if (hc_sock_map_get(sock->map, seq, &request) < 0) {
ERROR("[hc_sock_light_process] Error searching for matching request");
return -1;
}
if (!request) {
ERROR("[hc_sock_light_process] No request matching sequence number");
/*
* Currently: Ignore packet (alternatively: return 0 to discard in case of
* error; move s->got_header later in this case)
*/
return -1;
}
sock->current_request = request;
hc_request_t *current_request = hc_request_get_current(request);
hc_data_t *data = hc_request_get_data(current_request);
_ASSERT(data);
switch (msg->header.message_type) {
case ACK_LIGHT:
_ASSERT(s->remaining == 0);
s->got_header = false;
if (!hc_request_is_subscription(request)) hc_data_set_complete(data);
break;
case NACK_LIGHT:
_ASSERT(s->remaining == 0);
s->got_header = false;
hc_data_set_error(data);
break;
case RESPONSE_LIGHT:
if (s->remaining == 0) {
/* Empty response (i.e. containing 0 elements) */
s->got_header = false;
hc_data_set_complete(data);
return 0;
}
/* Allocate buffer for response */
if (hc_data_allocate(data, s->remaining) < 0) {
ERROR("[hc_sock_light_process] Cannot allocate result buffer");
return -99;
}
break;
case NOTIFICATION_LIGHT: {
_ASSERT(s->remaining == 1);
/*
* Assumption: the whole notification data is returned in a single read
* and we immediately parse it.
*/
// XXX assert enough buffer for object type + validate returned object
object_type = (hc_object_type_t)msg->header.command_id;
hc_data_clear(data);
hc_data_set_object_type(data, object_type);
if (hc_data_allocate(data, s->remaining) < 0) {
ERROR("[hc_sock_light_process] Cannot allocate result buffer");
return -1;
}
hc_data_push(data, s->buf + s->roff);
s->roff += AVAILABLE(s);
hc_request_on_notification(request);
/*
* The buffer is cleared just before the next notification, which means
* it will have to be released upon exit. Otherwise we break the code
* dumping the notification synchronously (eg. hicnctrl -s).
*/
// hc_data_clear(data);
s->got_header = false;
break;
}
default:
ERROR("[hc_sock_light_process] Invalid response received");
return -99;
}
return 0;
}
size_t hc_light_object_size(hc_object_type_t object_type);
static int hicnlight_process_payload(hc_sock_t *sock) {
int err = 0;
int rc;
hc_sock_light_data_t *s = (hc_sock_light_data_t *)sock->data;
hc_request_t *request = hc_sock_get_request(sock);
hc_request_t *current_request = hc_request_get_current(request);
hc_data_t *data = hc_request_get_data(current_request);
hc_object_type_t object_type = hc_data_get_object_type(data);
size_t object_size = hc_light_object_size(object_type);
if (object_size == 0) return -1;
/* We only process full elements (size is stored in data) */
size_t num_chunks = AVAILABLE(s) / object_size;
/* Check whether we have enough data to process */
if (num_chunks == 0) return 0;
/* Safeguard: _ASSERT(num_chunks < s->remaining); */
if (num_chunks > s->remaining) {
WARN(
"[hicnlight_process_payload] Unexpected num_chunks > "
"s->remaining");
num_chunks = s->remaining;
}
for (size_t i = 0; i < num_chunks; i++) {
/*
* Get storage offset in hc_data_t, which we assume is correctly
* provisioned.
* XXX
*/
u8 *src = s->buf + s->roff;
hc_object_t *dst = (hc_object_t *)hc_data_get_free(data);
if (!dst) {
ERROR("[hc_sock_light_process] Error in hc_data_get_next");
err = -2;
break;
}
// XXX we might want to display even incomplete data when printing (eg.
// string truncation), and be very strict when processing.
rc = hc_sock_parse_object(sock, hc_data_get_object_type(data), src,
object_size, dst);
s->roff += object_size;
if (rc < 0) {
ERROR("Error parsing received object");
continue;
}
hc_data_inc_size(data);
}
/*
* If we are not expecting any more data, mark the reply as complete
*/
s->remaining -= num_chunks;
if (s->remaining == 0) {
s->got_header = false;
hc_data_set_complete(data);
}
return err;
}
/*----------------------------------------------------------------------------
* Socket operations
*----------------------------------------------------------------------------*/
static int hicnlight_get_fd(hc_sock_t *sock) {
hc_sock_light_data_t *s = (hc_sock_light_data_t *)sock->data;
return s->fd;
}
static int hicnlight_get_recv_buffer(hc_sock_t *sock, uint8_t **buffer,
size_t *size) {
hc_sock_light_data_t *s = (hc_sock_light_data_t *)sock->data;
*buffer = s->buf + s->woff;
*size = RECV_BUFLEN - s->woff;
return 0;
}
static int hicnlight_connect(hc_sock_t *sock) {
hc_sock_light_data_t *s = (hc_sock_light_data_t *)sock->data;
struct sockaddr_storage ss;
memset(&ss, 0, sizeof(struct sockaddr_storage));
if (hicnlight_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, (socklen_t)size) < 0) {
perror("connect error");
goto ERR_CONNECT;
}
return 0;
ERR_CONNECT:
ERR_PARSE:
return -1;
}
static int hicnlight_disconnect(hc_sock_t *sock) {
hc_sock_light_data_t *s = (hc_sock_light_data_t *)sock->data;
/* Remove the connection created to send the command.
*
* Note this is done as a best effort and we don't expect to receive any
* answer from the forwarder (hence the NULL pdata pointer in the request).
*/
hc_object_t object;
memset(&object, 0, sizeof(hc_object_t));
object.connection.id = 0;
int rc =
strcpy_s(object.connection.name, sizeof(object.connection.name), "SELF");
if (rc == EOK)
hc_execute_async(sock, ACTION_DELETE, OBJECT_TYPE_CONNECTION, &object, NULL,
NULL);
close(s->fd);
return 0;
}
static ssize_t hicnlight_prepare_generic(hc_sock_t *sock, hc_request_t *request,
uint8_t **buffer) {
/* Dispatch to subrequest if any */
hc_request_t *current_request = hc_request_get_current(request);
/* We discard any result from the child request */
hc_request_reset_data(current_request);
hc_action_t action = hc_request_get_action(current_request);
hc_object_type_t object_type = hc_request_get_object_type(current_request);
hc_object_t *object = hc_request_get_object(current_request);
hc_sock_light_data_t *s = (hc_sock_light_data_t *)sock->data;
_ASSERT(hc_request_get_data(current_request) == NULL);
hc_data_t *data = hc_data_create(object_type);
if (!data) {
ERROR("[hicnlight_prepare_generic] Could not create data storage");
return -1;
}
hc_request_set_data(current_request, data);
/* Serialize request into message */
DEBUG("Calling serialize on %s %s", action_str(action),
object_type_str(object_type));
ssize_t msg_len = hc_sock_serialize_object(sock, action, object_type, object,
(uint8_t *)&s->msg);
if (msg_len < 0) {
ERROR("[hicnlight_prepare_generic] Could not serialize command %s %s",
action_str(action), object_type_str(object_type));
return INPUT_ERROR;
}
s->msg.header.seq_num = hc_request_get_seq(current_request);
*buffer = (uint8_t *)&s->msg;
return msg_len;
}
static int hicnlight_send(hc_sock_t *sock, uint8_t *buffer, size_t size) {
hc_sock_light_data_t *s = (hc_sock_light_data_t *)sock->data;
int rc = (int)send(s->fd, buffer, size, 0);
if (rc < 0) {
perror("[hicnlight_send] Error sending message");
return -1;
}
// XXX regular behaviour for others
return 0;
}
// Example : face create udp
// 1) face to connection (immediate)
// connection to local listener (immediate) : why not both at the same
// time listener get
// listener create / nothing
// connection create
// connection get (if needed for populating face_id for instance, aka
// if we
// need to return data)
static ssize_t hicnlight_prepare(hc_sock_t *sock, hc_request_t *request,
uint8_t **buffer);
static ssize_t hicnlight_prepare_subrequest(
hc_sock_t *sock, hc_request_t *request, hc_action_t action,
hc_object_type_t object_type, hc_object_t *object, uint8_t **buffer) {
WITH_DEBUG({
if (object) {
char buf[MAXSZ_HC_OBJECT];
hc_object_snprintf(buf, sizeof(buf), object_type, object);
DEBUG("Creating subrequest %s/%s %s", action_str(action),
object_type_str(object_type), buf);
}
});
hc_request_make_subrequest(request, action, object_type, object);
return hicnlight_prepare(sock, request, buffer);
}
/*
* XXX shall we update the object in the request for faces ? it is not done
* for other objects, but for faces it is needed to further add a route !!!
*/
static ssize_t hicnlight_prepare_face_create(hc_sock_t *sock,
hc_request_t *request,
uint8_t **buffer) {
hc_request_t *current_request = hc_request_get_current(request);
hc_object_t *object = hc_request_get_object(current_request);
hc_data_t *data = hc_request_get_data(current_request);
hc_face_t *face = &object->face;
// XXX those objects are created on stack and expected to be valid across
// several calls. A quick fix is to make them static
static hc_object_t connection;
static hc_object_t listener;
hc_request_state_t state;
const hc_connection_t *conn;
NEXT:
state = hc_request_get_state(current_request);
DEBUG("hicnlight_prepare_face_create > %s", hc_request_state_str(state));
switch (state) {
case REQUEST_STATE_INIT:
_ASSERT(!data);
switch (face->type) {
case FACE_TYPE_HICN:
case FACE_TYPE_TCP:
case FACE_TYPE_UDP:
hc_request_set_state(current_request,
REQUEST_STATE_FACE_CREATE_CONNECTION_CREATE);
goto NEXT;
case FACE_TYPE_HICN_LISTENER:
case FACE_TYPE_TCP_LISTENER:
case FACE_TYPE_UDP_LISTENER:
hc_request_set_state(current_request,
REQUEST_STATE_FACE_CREATE_LISTENER_CREATE);
goto NEXT;
case FACE_TYPE_UNDEFINED:
case FACE_TYPE_N:
return -99; // Not implemented
}
case REQUEST_STATE_FACE_CREATE_CONNECTION_CREATE:
if (hc_face_to_connection(face, &connection.connection, true) < 0) {
ERROR("[hc_face_create] Could not convert face to connection.");
return -1;
}
hc_request_set_state(current_request,
REQUEST_STATE_FACE_CREATE_CONNECTION_CHECK);
return hicnlight_prepare_subrequest(sock, request, ACTION_CREATE,
OBJECT_TYPE_CONNECTION, &connection,
buffer);
case REQUEST_STATE_FACE_CREATE_CONNECTION_CHECK:
/*
* If the newly created face_id was not need, we would only
* need to return the same data result, which contains a ack/nack,
* simply updating the object type.
*
* With the current API, once the connection is created, our only
* solution is to list all connections and compare with the current one
* to find the created connection ID, and thus face ID.
*/
/* Has the connection been successfully created ? */
if (!data || !hc_data_get_result(data)) return -1;
hc_request_set_state(current_request,
REQUEST_STATE_FACE_CREATE_CONNECTION_GET);
goto NEXT;
case REQUEST_STATE_FACE_CREATE_CONNECTION_GET:
hc_request_set_state(current_request,
REQUEST_STATE_FACE_CREATE_CONNECTION_VERIFY);
return hicnlight_prepare_subrequest(sock, request, ACTION_GET,
OBJECT_TYPE_CONNECTION, &connection,
buffer);
case REQUEST_STATE_FACE_CREATE_CONNECTION_VERIFY:
if (!data || hc_data_get_size(data) != 1) return -1;
/* Newly created connection was found */
conn = (hc_connection_t *)hc_data_get_buffer(data);
DEBUG("created connection id=%d", conn->id);
object->face.id = conn->id;
break;
case REQUEST_STATE_FACE_CREATE_LISTENER_CREATE:
if (hc_face_to_listener(face, &listener.listener) < 0) {
ERROR("Could not convert face to listener.");
return -1;
}
hc_request_set_state(current_request,
REQUEST_STATE_FACE_CREATE_LISTENER_CHECK);
return hicnlight_prepare_subrequest(sock, request, ACTION_CREATE,
OBJECT_TYPE_LISTENER, &listener,
buffer);
break;
case REQUEST_STATE_FACE_CREATE_LISTENER_CHECK:
/*
* No need for face id here, simply return the hc_data_t structure
* with the ack/nack, and the proper object type
*/
if (!data) return -1;
hc_data_set_object_type(data, OBJECT_TYPE_FACE);
break;
#if 0
case REQUEST_STATE_COMPLETE:
hc_data_set_complete(data);
break;
#endif
default:
return -1;
}
return 0;
}
static ssize_t hicnlight_prepare_face_delete(hc_sock_t *sock,
hc_request_t *request,
uint8_t **buffer) {
hc_request_t *current_request = hc_request_get_current(request);
hc_object_t *object = hc_request_get_object(current_request);
hc_data_t *data = hc_request_get_data(current_request);
hc_face_t *face = &object->face;
// XXX those objects are created on stack and expected to be valid across
// several calls. A quick fix is to make them static
static hc_object_t connection;
hc_request_state_t state;
NEXT:
state = hc_request_get_state(current_request);
DEBUG("hicnlight_prepare_face_delete > %s", hc_request_state_str(state));
switch (state) {
case REQUEST_STATE_INIT:
_ASSERT(!data);
switch (face->type) {
case FACE_TYPE_HICN:
case FACE_TYPE_TCP:
case FACE_TYPE_UDP:
hc_request_set_state(current_request,
REQUEST_STATE_FACE_DELETE_CONNECTION_DELETE);
goto NEXT;
case FACE_TYPE_HICN_LISTENER:
case FACE_TYPE_TCP_LISTENER:
case FACE_TYPE_UDP_LISTENER:
case FACE_TYPE_UNDEFINED:
case FACE_TYPE_N:
return -99; // Not implemented
}
case REQUEST_STATE_FACE_DELETE_CONNECTION_DELETE:
if (hc_face_to_connection(face, &connection.connection, true) < 0) {
ERROR("[hc_face_create] Could not convert face to connection.");
return -1;
}
hc_request_set_state(current_request, REQUEST_STATE_COMPLETE);
return hicnlight_prepare_subrequest(sock, request, ACTION_DELETE,
OBJECT_TYPE_CONNECTION, &connection,
buffer);
case REQUEST_STATE_COMPLETE:
break;
default:
return -1;
}
return 0;
}
static ssize_t hicnlight_prepare_face_list(hc_sock_t *sock,
hc_request_t *request,
uint8_t **buffer) {
hc_request_t *current_request = hc_request_get_current(request);
hc_action_t action = hc_request_get_action(current_request);
hc_object_type_t object_type = hc_request_get_object_type(current_request);
hc_object_t *object = hc_request_get_object(current_request);
hc_data_t *data = hc_request_get_data(current_request);
hc_face_t face;
_ASSERT(action == ACTION_LIST);
_ASSERT(object_type == OBJECT_TYPE_FACE);
hc_request_state_t state = hc_request_get_state(current_request);
DEBUG("hicnlight_prepare_face_list > %s", hc_request_state_str(state));
switch (state) {
case REQUEST_STATE_INIT:
_ASSERT(!data);
hc_request_set_state(current_request,
REQUEST_STATE_FACE_LIST_CONNECTION_LIST);
return hicnlight_prepare_subrequest(
sock, request, ACTION_LIST, OBJECT_TYPE_CONNECTION, object, buffer);
case REQUEST_STATE_FACE_LIST_CONNECTION_LIST:
_ASSERT(data);
/*
* 'list connection' succeeded, we just need to allocate hc_data_t,
* create faces from connections, and return the data structure as if it
* was created by the query
*/
hc_data_t *face_data = hc_data_create(object_type);
hc_data_allocate(face_data, hc_data_get_size(data));
foreach_connection(c, data) {
if (hc_face_from_connection(c, &face) < 0) {
ERROR("[hc_face_list] Could not convert connection to face.");
return -1;
}
hc_data_push(face_data, &face);
}
hc_data_set_complete(face_data);
hc_request_reset_data(current_request);
hc_request_set_data(current_request, face_data);
/* FACE/LIST could be part of FACE/GET */
break;
default:
return -1;
}
return 0;
}
static ssize_t hicnlight_prepare_get(hc_sock_t *sock, hc_request_t *request,
uint8_t **buffer) {
hc_request_t *current_request = hc_request_get_current(request);
hc_object_type_t object_type = hc_request_get_object_type(current_request);
hc_object_t *object = hc_request_get_object(current_request);
hc_data_t *data = hc_request_get_data(current_request);
hc_object_t *found;
hc_request_state_t state = hc_request_get_state(current_request);
DEBUG("hicnlight_prepare_get > %s", hc_request_state_str(state));
switch (state) {
case REQUEST_STATE_INIT:
_ASSERT(!data);
hc_request_set_state(current_request, REQUEST_STATE_GET_LIST);
return hicnlight_prepare_subrequest(sock, request, ACTION_LIST,
object_type, NULL, buffer);
case REQUEST_STATE_GET_LIST:
_ASSERT(data);
found = hc_data_find(data, object);
hc_data_t *found_data = hc_data_create(object_type);
if (found) {
hc_data_allocate(found_data, 1);
hc_data_push(found_data, found);
}
hc_data_set_complete(found_data);
hc_request_reset_data(current_request);
hc_request_set_data(current_request, found_data);
return 0;
default:
return -1; /* Unexpected */
}
}
// XXX This should process the content of pdata (unless at init), and
// terminate by sending something
static ssize_t hicnlight_prepare_face(hc_sock_t *sock, hc_request_t *request,
uint8_t **buffer) {
hc_request_t *current_request = hc_request_get_current(request);
hc_action_t action = hc_request_get_action(current_request);
hc_object_type_t object_type = hc_request_get_object_type(current_request);
_ASSERT(object_type == OBJECT_TYPE_FACE);
switch (action) {
case ACTION_CREATE:
return hicnlight_prepare_face_create(sock, request, buffer);
case ACTION_DELETE:
return hicnlight_prepare_face_delete(sock, request, buffer);
case ACTION_LIST:
return hicnlight_prepare_face_list(sock, request, buffer);
default:
return -99; // Not implemented
}
return 0;
}
static ssize_t hicnlight_prepare_connection_create(hc_sock_t *sock,
hc_request_t *request,
uint8_t **buffer) {
hc_request_t *current_request = hc_request_get_current(request);
hc_action_t action = hc_request_get_action(current_request);
hc_object_type_t object_type = hc_request_get_object_type(current_request);
hc_object_t *object = hc_request_get_object(current_request);
_ASSERT(action == ACTION_CREATE);
_ASSERT(object_type == OBJECT_TYPE_CONNECTION);
hc_data_t *data = hc_request_get_data(current_request);
size_t size;
unsigned pos;
static hc_object_t listener;
const hc_object_t *obj_listener;
hc_data_t *listener_data = NULL;
hc_request_state_t state;
NEXT:
state = hc_request_get_state(current_request);
DEBUG("hicnlight_prepare_connection_create > %s",
hc_request_state_str(state));
switch (state) {
case REQUEST_STATE_INIT:
/* Two behaviours depending on the content of local_addr and local_port:
* - empty : create connection on all existing listeners, and raise an
* error if none
* - otherwise, check whether a corresponding listener exists, and
* create it if necessary
*
* We assume connection has been already validated.
*/
if (hc_connection_has_local(&object->connection)) {
hc_request_set_state(current_request,
REQUEST_STATE_CONNECTION_CREATE_LISTENER_GET);
} else {
/*
* At least part of the local socket specification is missing, match
* against existing listeners
*/
hc_request_set_state(current_request,
REQUEST_STATE_CONNECTION_CREATE_LISTENER_LIST);
}
goto NEXT;
case REQUEST_STATE_CONNECTION_CREATE_LISTENER_LIST:
hc_request_set_state(current_request,
REQUEST_STATE_CONNECTION_CREATE_LISTENER_ITERATE);
// XXX We are currently assuming an object is present for rewrite, fix
// this
return hicnlight_prepare_subrequest(sock, request, ACTION_LIST,
OBJECT_TYPE_LISTENER, NULL, buffer);
case REQUEST_STATE_CONNECTION_CREATE_LISTENER_ITERATE:
/*
* NOTE: we could create all connections in parallel to speed up
* processing
*/
size = hc_data_get_size(data);
if (size < 0) return -1;
if (size == 0)
/* We are done, we cannot create a connection, return a Nack */
; // XXX TODO
//
/* Save the list of listeners for later iteration */
listener_data = data;
hc_request_clear_data(current_request); // don't free data
data = NULL;
hc_request_set_state_count(current_request, 0);
hc_request_set_state(current_request, REQUEST_STATE_CONNECTION_CREATE_N);
goto NEXT; /* Start iteration */
case REQUEST_STATE_CONNECTION_CREATE_N:
/*
* IMPORTANT
*
* For now we only create a connection with the first non-local
* listener.
*
* Creating N connections in a single commands requires other
* changes to the code that we might done later:
* - ack/nack is not sufficient, all create function should return the
* list of created connections
* - this would allow us to avoid a GET at the end of face creation to
* retrieve the connection id.
* - face create should correspond to N connection create (should work
* out of the box provided we don't expect a single connection back).
* - route+face creation might then create N faces, and thus we would
* have to add N routes.
*/
assert(listener_data);
// We need to back it up as the subrequest will clear the results
pos = hc_request_get_state_count(current_request);
size = hc_data_get_size(listener_data);
/* We have data if pos > 0, and we did not skipped previous ones */
if (data && !hc_data_get_result(data)) {
INFO("Failed to create connection for listener %d / %d", pos - 1, size);
// XXX we might allow connections that already exist... how to manage
// the names
return -1;
}
/*
* Previous connection was successfully created, let's continue but
* first check whether we reached the last one, which would complete the
* request.
*/
if (pos >= size) {
hc_data_free(listener_data);
hc_request_set_state(request, REQUEST_STATE_COMPLETE);
goto NEXT;
}
/* Sending count'th connection creation */
obj_listener = hc_data_get_object(listener_data, pos);
// Filter which listener we use
// same protocol ? ip ? port ?
// avoid local ?
if (hc_listener_is_local(&obj_listener->listener)) {
/* Skip listener */
DEBUG("Skipped local listener");
hc_request_set_state_count(current_request, pos + 1);
goto NEXT;
}
DEBUG("Creating connection with listener # %d / %d", pos, size);
/* We complement missing information from listener */
// XXX is_family, etc.
object->connection.family = obj_listener->listener.family;
object->connection.local_addr = obj_listener->listener.local_addr;
object->connection.local_port = obj_listener->listener.local_port;
snprintf(object->connection.interface_name, INTERFACE_LEN, "%s",
obj_listener->listener.interface_name);
hc_request_set_state_count(current_request, pos + 1);
return hicnlight_prepare_subrequest(
sock, request, ACTION_CREATE, OBJECT_TYPE_CONNECTION, object, buffer);
/* Request listener to further check existence */
case REQUEST_STATE_CONNECTION_CREATE_LISTENER_GET:
/* Ensure we have a corresponding local listener */
if (hc_connection_to_local_listener(&object->connection,
&listener.listener) < 0) {
ERROR(
"[hicnlight_prepare_connection_create] Could not "
"convert connection to local listener.");
return -1;
}
hc_request_set_state(current_request,
REQUEST_STATE_CONNECTION_CREATE_LISTENER_VERIFY);
return hicnlight_prepare_subrequest(
sock, request, ACTION_GET, OBJECT_TYPE_LISTENER, &listener, buffer);
break;
/* Check whether listener exists in GET results */
case REQUEST_STATE_CONNECTION_CREATE_LISTENER_VERIFY:
if (!data) return -1;
switch (hc_data_get_size(data)) {
case 0:
hc_request_set_state(current_request,
REQUEST_STATE_CONNECTION_CREATE_LISTENER_CREATE);
break;
case 1:
hc_request_set_state(current_request,
REQUEST_STATE_CONNECTION_CREATE);
break;
default:
return -1;
}
goto NEXT;
/* Create associated listener */
case REQUEST_STATE_CONNECTION_CREATE_LISTENER_CREATE:
hc_request_set_state(current_request,
REQUEST_STATE_CONNECTION_CREATE_LISTENER_CHECK);
return hicnlight_prepare_subrequest(sock, request, ACTION_CREATE,
OBJECT_TYPE_LISTENER, &listener,
buffer);
/* Check whether listener creation succeeded */
case REQUEST_STATE_CONNECTION_CREATE_LISTENER_CHECK:
if (!data || !hc_data_get_result(data)) return -1;
hc_request_set_state(current_request, REQUEST_STATE_CONNECTION_CREATE);
goto NEXT;
/* Create connection */
case REQUEST_STATE_CONNECTION_CREATE:
/*
* Break recursion by directly calling hicnlight_prepare_generic on
* the initial request, that can now be executed since all
* prerequisites are validated.
*/
// return hicnlight_prepare_subrequest(
// sock, request, ACTION_CREATE, OBJECT_TYPE_CONNECTION, object,
// buffer);
hc_request_reset_data(current_request);
hc_request_set_state(current_request, REQUEST_STATE_COMPLETE);
return hicnlight_prepare_generic(sock, request, buffer);
case REQUEST_STATE_COMPLETE:
if (data) {
hc_data_set_complete(data);
} else {
/*
* No connection has been created, and we freed the data due to
* subrequest
*/
data = hc_data_create(OBJECT_TYPE_CONNECTION);
hc_data_set_error(data);
}
break;
default:
return -1;
}
return 0;
}
static ssize_t hicnlight_prepare_route_create(hc_sock_t *sock,
hc_request_t *request,
uint8_t **buffer) {
hc_request_t *current_request = hc_request_get_current(request);
hc_action_t action = hc_request_get_action(current_request);
hc_object_type_t object_type = hc_request_get_object_type(current_request);
hc_object_t *object = hc_request_get_object(current_request);
_ASSERT(action == ACTION_CREATE);
_ASSERT(object_type == OBJECT_TYPE_ROUTE);
hc_data_t *data = hc_request_get_data(current_request);
const hc_object_t *face_obj;
hc_request_state_t state;
NEXT:
state = hc_request_get_state(current_request);
DEBUG("hicnlight_prepare_route_create > %s", hc_request_state_str(state));
switch (state) {
case REQUEST_STATE_INIT:
if (hc_route_has_face(&object->route))
hc_request_set_state(current_request,
REQUEST_STATE_ROUTE_CREATE_FACE_CREATE);
else
hc_request_set_state(current_request, REQUEST_STATE_ROUTE_CREATE);
goto NEXT;
case REQUEST_STATE_ROUTE_CREATE_FACE_CREATE:
hc_request_set_state(current_request,
REQUEST_STATE_ROUTE_CREATE_FACE_CHECK);
return hicnlight_prepare_subrequest(
sock, request, ACTION_CREATE, OBJECT_TYPE_FACE,
(hc_object_t *)&object->route.face, buffer);
case REQUEST_STATE_ROUTE_CREATE_FACE_CHECK:
if (!data) return -1;
int rc = hc_data_get_result(data);
if (rc < 0) return -1;
if (hc_data_get_size(data) != 1) return -1;
face_obj = hc_data_get_object(data, 0);
DEBUG("Created face id=%d", face_obj->face.id);
object->route.face_id = face_obj->face.id;
hc_request_set_state(current_request, REQUEST_STATE_ROUTE_CREATE);
goto NEXT;
/* Create route */
case REQUEST_STATE_ROUTE_CREATE:
/*
* Break recursion by directly calling hicnlight_prepare_generic on the
* initial request, that can now be executed since all prerequisites are
* validated.
*/
hc_request_set_state(current_request, REQUEST_STATE_COMPLETE);
return hicnlight_prepare_generic(sock, request, buffer);
case REQUEST_STATE_COMPLETE:
hc_data_set_complete(data);
break;
default:
return -1;
}
return 0;
}
static ssize_t hicnlight_prepare_connection_delete(hc_sock_t *sock,
hc_request_t *request,
uint8_t **buffer) {
hc_request_t *current_request = hc_request_get_current(request);
hc_action_t action = hc_request_get_action(current_request);
hc_object_type_t object_type = hc_request_get_object_type(current_request);
hc_object_t *object = hc_request_get_object(current_request);
_ASSERT(action == ACTION_DELETE);
_ASSERT(object_type == OBJECT_TYPE_CONNECTION);
hc_data_t *data = hc_request_get_data(current_request);
hc_request_state_t state;
NEXT:
state = hc_request_get_state(current_request);
DEBUG("hicnlight_prepare_connection_delete > %s",
hc_request_state_str(state));
switch (state) {
case REQUEST_STATE_INIT:
/* Two behaviours depending on the content of the connection id:
* - Valid Id : delete connection with provided ID
* - Invalid Id: Retrieve ID and then delete connection
*
* We assume connection has been already validated.
*/
if (hc_connection_has_valid_id(&object->connection)) {
// Id is valid. Proceed with deleting the connection.
hc_request_set_state(current_request,
REQUEST_STATE_CONNECTION_DELETE_WITH_ID);
} else {
// Id is not valid. Try to retrieve it using the info in the connection.
hc_request_set_state(current_request, REQUEST_STATE_CONNECTION_GET);
}
goto NEXT;
case REQUEST_STATE_CONNECTION_DELETE_WITH_ID:
// We have a valid id. Let's delete the connection.
hc_request_reset_data(current_request);
hc_request_set_state(current_request, REQUEST_STATE_COMPLETE);
return hicnlight_prepare_generic(sock, request, buffer);
case REQUEST_STATE_CONNECTION_GET:
// Get the connection info from the forwarder.
hc_request_set_state(current_request,
REQUEST_STATE_CONNECTION_DELETE_AFTER_GET);
return hicnlight_prepare_subrequest(
sock, request, ACTION_GET, OBJECT_TYPE_CONNECTION, object, buffer);
case REQUEST_STATE_CONNECTION_DELETE_AFTER_GET:
// We got the response from the forwarder. If valid, let's take the ID and
// delete the connection by ID.
if (!data) return -1;
int rc = hc_data_get_result(data);
if (rc < 0) {
return -1;
}
if (hc_data_get_size(data) != 1) {
return -1;
}
_ASSERT(hc_data_get_object_type(data) == OBJECT_TYPE_CONNECTION);
object->connection.id = hc_data_get_object(data, 0)->connection.id;
hc_request_set_state(current_request,
REQUEST_STATE_CONNECTION_DELETE_WITH_ID);
goto NEXT;
case REQUEST_STATE_COMPLETE:
// Connection delete complete.
hc_data_set_complete(data);
break;
default:
return -1;
}
return 0;
}
static int hicnlight_recv(hc_sock_t *sock) {
hc_sock_light_data_t *s = (hc_sock_light_data_t *)sock->data;
int rc;
/*
* This condition should be ensured to guarantee correct processing of
* messages. With TCP, we need at least a header as we will receive part of
* the stream. With UDP, we need the be able to receive the full datagram,
* otherwise the rest will be lost.
*
* Let's be sure to always be able to receive at least 1 JUMBO_MTU, which
* should be fine for al situations.
*/
_ASSERT(RECV_BUFLEN - s->woff > JUMBO_MTU);
rc = (int)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) {
// XXX TODO ?if (hc_request_get_action(request) == ACTION_SUBSCRIBE)
// return 0;
return -1;
}
if (errno == EINTR) {
WARN("recv has been stopped by signal");
return -1;
}
perror("hc_sock_light_recv");
return -1;
}
DEBUG("Received rc=%ld bytes", rc);
s->woff += rc;
return rc;
}
/*
*
* @param [in] data - hc_data_t structure allocated for the request
*
* This function is the entry point for all requests, and from there we will
* decide whether
*
*/
static ssize_t hicnlight_prepare(hc_sock_t *sock, hc_request_t *request,
uint8_t **buffer) {
/* Dispatch to subrequest if any */
hc_request_t *current_request = hc_request_get_current(request);
// XXX when do we create data... once for every step
hc_action_t action = hc_request_get_action(current_request);
hc_object_type_t object_type = hc_request_get_object_type(current_request);
hc_object_t *object = hc_request_get_object(current_request);
static hc_object_t object_subscribe;
WITH_DEBUG({
char buf[MAXSZ_HC_OBJECT];
hc_request_state_t state = hc_request_get_state(current_request);
hc_object_snprintf(buf, sizeof(buf), object_type, object);
DEBUG("[hicnlight_prepare] %s %s [%s] %s", action_str(action),
object_type_str(object_type), hc_request_state_str(state), buf);
});
/*
* Here the request is in progress and we just need to iterate through the
* FSM, or complete it.
*/
/*
* Specific treatment for
* CREATE/ROUTE with face
* SUBSCRIBE/(*)
* GET/(*)
* (*)/FACE
*/
/*
* Special treatment for faces.
*
* This function will be called multiple times in order to process the
* complex request, involving several calls to the API. The process is
* responsible for going through the related state machine, and complete the
* request when appropriate.
*/
if (object_type == OBJECT_TYPE_FACE)
return hicnlight_prepare_face(sock, request, buffer);
switch (action) {
case ACTION_CREATE:
switch (object_type) {
case OBJECT_TYPE_ROUTE:
/* Route might require face creation */
return hicnlight_prepare_route_create(sock, request, buffer);
case OBJECT_TYPE_CONNECTION:
/* Connection could have no corresponging listener, or no local info
* provided */
return hicnlight_prepare_connection_create(sock, request, buffer);
default:
break;
}
break;
case ACTION_GET:
return hicnlight_prepare_get(sock, request, buffer);
case ACTION_SUBSCRIBE:
/* Transform subscription queries */
memset(&object_subscribe, 0, sizeof(hc_object_t));
object->subscription.topics = topic_from_object_type(object_type);
hc_request_set(request, ACTION_CREATE, OBJECT_TYPE_SUBSCRIPTION, object);
break;
case ACTION_DELETE:
switch (object_type) {
case OBJECT_TYPE_CONNECTION:
return hicnlight_prepare_connection_delete(sock, request, buffer);
break;
default:
break;
}
default:
break;
}
/*
* Generic requests should complete after a single call to hicnlight_send,
* with *pdata = NULL. If *pdata is not NULL, that means the request has
* completed and we can close it.
* It is the responsability of each state machine to complete the request
* otherwise.
*/
hc_data_t *data = hc_request_get_data(current_request);
if (data) {
hc_request_set_complete(current_request);
return 0;
}
return hicnlight_prepare_generic(sock, request, buffer);
}
/*
* This function processes incoming data in the ring buffer. Multiple requests
* might be interleaves, including regular requests and notifications.
* Responses might arrive fragment over several read events, but our
* assumption is that fragments arrive consecutively and are not interleaves
* with fragments from other requests... otherwise we would have to way to
* reconstruct a message.
*
* count != 0 when an external process has added data to the ring buffer
* without updating indices
*/
static int hicnlight_process(hc_sock_t *sock, size_t count) {
hc_sock_light_data_t *s = (hc_sock_light_data_t *)sock->data;
int rc = -99;
if (count > 0) s->woff += count;
/*
* We loop consuming messages until there is no more data in the ring
* buffer, or that we can find an entire message. Messages are received
* sequentially, and we keep track of incomplete requests in s->cur_request.
*/
while (AVAILABLE(s) > 0) {
if (!s->got_header) {
rc = hicnlight_process_header(sock);
} else {
rc = hicnlight_process_payload(sock);
}
if (rc < 0) break;
}
if ((rc == -99) || (s->roff == s->woff)) {
/* Flush buffer */
s->woff = 0;
} else {
/* Clean up read data from buffer */
memmove(s->buf, s->buf + s->roff, AVAILABLE(s));
s->woff -= s->roff;
}
s->roff = 0;
return rc;
}
hc_sock_ops_t hc_sock_light = (hc_sock_ops_t) {
.create_data = (void *(*)(const char *))hc_sock_light_data_create,
.free_data = (void (*)(void *))hc_sock_light_data_free,
.get_fd = hicnlight_get_fd, .get_recv_buffer = hicnlight_get_recv_buffer,
.connect = hicnlight_connect, .disconnect = hicnlight_disconnect,
.prepare = hicnlight_prepare, .send = hicnlight_send, .recv = hicnlight_recv,
.process = hicnlight_process,
#if 0
.object_vft = {
[OBJECT_TYPE_LISTENER] = HC_MODULE_OBJECT_OPS(hicnlight, listener),
[OBJECT_TYPE_CONNECTION] = HC_MODULE_OBJECT_OPS(hicnlight, connection),
[OBJECT_TYPE_FACE] = HC_MODULE_OBJECT_OPS_EMPTY,
[OBJECT_TYPE_PUNTING] = HC_MODULE_OBJECT_OPS_EMPTY,
[OBJECT_TYPE_CACHE] = HC_MODULE_OBJECT_OPS_EMPTY,
[OBJECT_TYPE_MAPME] = HC_MODULE_OBJECT_OPS_EMPTY,
[OBJECT_TYPE_WLDR] = HC_MODULE_OBJECT_OPS_EMPTY,
[OBJECT_TYPE_POLICY] = HC_MODULE_OBJECT_OPS_EMPTY,
[OBJECT_TYPE_ROUTE] = HC_MODULE_OBJECT_OPS(hicnlight, route),
[OBJECT_TYPE_STRATEGY] = HC_MODULE_OBJECT_OPS(hicnlight, strategy),
[OBJECT_TYPE_SUBSCRIPTION] = HC_MODULE_OBJECT_OPS(hicnlight, subscription),
}
#endif
};
size_t hc_light_object_size(hc_object_type_t object_type) {
hc_module_object_ops_t *vft = &hc_sock_light.object_vft[object_type];
if (!vft) return 0;
return vft->serialized_size;
}
ssize_t hc_light_command_serialize(hc_action_t action,
hc_object_type_t object_type,
hc_object_t *object, uint8_t *msg) {
hc_module_object_ops_t *vft = &hc_sock_light.object_vft[object_type];
if (!vft || !vft->serialize[action]) return 0;
return vft->serialize[action](object, msg);
}
// Public constructor
int hc_sock_initialize_module(hc_sock_t *s) {
//
/*
* We do this because initialization in the static struct fails with
* 'initializer element is not constant'
*/
hc_sock_light.object_vft[OBJECT_TYPE_LISTENER] =
hicnlight_listener_module_ops;
hc_sock_light.object_vft[OBJECT_TYPE_CONNECTION] =
hicnlight_connection_module_ops;
hc_sock_light.object_vft[OBJECT_TYPE_FACE] = HC_MODULE_OBJECT_OPS_EMPTY;
hc_sock_light.object_vft[OBJECT_TYPE_PUNTING] = HC_MODULE_OBJECT_OPS_EMPTY;
hc_sock_light.object_vft[OBJECT_TYPE_CACHE] = HC_MODULE_OBJECT_OPS_EMPTY;
hc_sock_light.object_vft[OBJECT_TYPE_MAPME] = hicnlight_mapme_module_ops;
hc_sock_light.object_vft[OBJECT_TYPE_WLDR] = HC_MODULE_OBJECT_OPS_EMPTY;
hc_sock_light.object_vft[OBJECT_TYPE_POLICY] = HC_MODULE_OBJECT_OPS_EMPTY;
hc_sock_light.object_vft[OBJECT_TYPE_ROUTE] = hicnlight_route_module_ops;
hc_sock_light.object_vft[OBJECT_TYPE_STATS] = hicnlight_stats_module_ops;
hc_sock_light.object_vft[OBJECT_TYPE_FACE_STATS] =
hicnlight_face_stats_module_ops;
hc_sock_light.object_vft[OBJECT_TYPE_STRATEGY] =
hicnlight_strategy_module_ops;
hc_sock_light.object_vft[OBJECT_TYPE_SUBSCRIPTION] =
hicnlight_subscription_module_ops;
if (s) s->ops = hc_sock_light;
return 0;
}
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