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|
/*
* Ouroboros - Copyright (C) 2016 - 2024
*
* Protobuf syntax conversion
*
* Dimitri Staessens <dimitri@ouroboros.rocks>
* Sander Vrijders <sander@ouroboros.rocks>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public License
* version 2.1 as published by the Free Software Foundation.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., http://www.fsf.org/about/contact/.
*/
#define _DEFAULT_SOURCE
#include <ouroboros/protobuf.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
timespec_msg_t * timespec_s_to_msg(const struct timespec * s)
{
timespec_msg_t * msg;
assert(s != NULL);
msg = malloc(sizeof(*msg));
if (msg == NULL)
goto fail_malloc;
timespec_msg__init(msg);
msg->tv_sec = s->tv_sec;
msg->tv_nsec = s->tv_nsec;
return msg;
fail_malloc:
return NULL;
}
struct timespec timespec_msg_to_s(timespec_msg_t * msg)
{
struct timespec s;
assert(msg != NULL);
s.tv_sec = msg->tv_sec;
s.tv_nsec = msg->tv_nsec;
return s;
}
flow_info_msg_t * flow_info_s_to_msg(const struct flow_info * s)
{
flow_info_msg_t * msg;
assert(s != NULL);
msg = malloc(sizeof(*msg));
if (msg == NULL)
goto fail_malloc;
flow_info_msg__init(msg);
msg->id = s->id;
msg->n_pid = s->n_pid;
msg->n_1_pid = s->n_1_pid;
msg->mpl = s->mpl;
msg->state = s->state;
msg->qos = qos_spec_s_to_msg(&s->qs);
if (msg->qos == NULL)
goto fail_msg;
return msg;
fail_msg:
flow_info_msg__free_unpacked(msg, NULL);
fail_malloc:
return NULL;
}
struct flow_info flow_info_msg_to_s(const flow_info_msg_t * msg)
{
struct flow_info s;
assert(msg != NULL);
s.id = msg->id;
s.n_pid = msg->n_pid;
s.n_1_pid = msg->n_1_pid;
s.mpl = msg->mpl;
s.state = msg->state;
s.qs = qos_spec_msg_to_s(msg->qos);
return s;
}
layer_info_msg_t * layer_info_s_to_msg(const struct layer_info * s)
{
layer_info_msg_t * msg;
assert(s != NULL);
msg = malloc(sizeof(*msg));
if (msg == NULL)
goto fail_malloc;
layer_info_msg__init(msg);
msg->name = strdup(s->name);
if (msg->name == NULL)
goto fail_msg;
msg->dir_hash_algo = s->dir_hash_algo;
return msg;
fail_msg:
layer_info_msg__free_unpacked(msg, NULL);
fail_malloc:
return NULL;
}
struct layer_info layer_info_msg_to_s(const layer_info_msg_t * msg)
{
struct layer_info s;
assert(msg != NULL);
assert(strlen(msg->name) <= LAYER_NAME_SIZE);
s.dir_hash_algo = msg->dir_hash_algo;
strcpy(s.name, msg->name);
return s;
}
ipcp_info_msg_t * ipcp_info_s_to_msg(const struct ipcp_info * s)
{
ipcp_info_msg_t * msg;
assert(s != NULL);
msg = malloc(sizeof(*msg));
if (msg == NULL)
goto fail_malloc;
ipcp_info_msg__init(msg);
msg->name = strdup(s->name);
if (msg->name == NULL)
goto fail_msg;
msg->type = s->type;
msg->pid = s->pid;
msg->state = s->state;
return msg;
fail_msg:
ipcp_info_msg__free_unpacked(msg, NULL);
fail_malloc:
return NULL;
}
struct ipcp_info ipcp_info_msg_to_s(const ipcp_info_msg_t * msg)
{
struct ipcp_info s;
assert(msg != NULL);
assert(msg->name != NULL);
assert(strlen(msg->name) <= NAME_SIZE);
strcpy(s.name, msg->name);
s.type = msg->type;
s.pid = msg->pid;
s.state = msg->state;
return s;
}
dt_config_msg_t * dt_config_s_to_msg(const struct dt_config * s)
{
dt_config_msg_t * msg;
assert(s != NULL);
msg = malloc(sizeof(*msg));
if (msg == NULL)
return NULL;
dt_config_msg__init(msg);
msg->addr_size = s->addr_size;
msg->eid_size = s->eid_size;
msg->max_ttl = s->max_ttl;
msg->routing_type = s->routing_type;
return msg;
}
struct dt_config dt_config_msg_to_s(const dt_config_msg_t * msg)
{
struct dt_config s;
assert(msg != NULL);
s.addr_size = msg->addr_size;
s.eid_size = msg->eid_size;
s.max_ttl = msg->max_ttl;
s.routing_type = msg->routing_type;
return s;
}
uni_config_msg_t * uni_config_s_to_msg(const struct uni_config * s)
{
uni_config_msg_t * msg;
assert(s != NULL);
msg = malloc(sizeof(*msg));
if (msg == NULL)
goto fail_malloc;
uni_config_msg__init(msg);
msg->dt = dt_config_s_to_msg(&s->dt);
if (msg->dt == NULL)
goto fail_msg;
msg->addr_auth_type = s->addr_auth_type;
msg->cong_avoid = s->cong_avoid;
return msg;
fail_msg:
uni_config_msg__free_unpacked(msg, NULL);
fail_malloc:
return NULL;
}
struct uni_config uni_config_msg_to_s(const uni_config_msg_t * msg)
{
struct uni_config s;
s.dt = dt_config_msg_to_s(msg->dt);
s.addr_auth_type = msg->addr_auth_type;
s.cong_avoid = msg->cong_avoid;
return s;
}
udp_config_msg_t * udp_config_s_to_msg(const struct udp_config * s)
{
udp_config_msg_t * msg;
assert(s != NULL);
msg = malloc(sizeof(*msg));
if (msg == NULL)
return NULL;
udp_config_msg__init(msg);
msg->ip_addr = s->ip_addr;
msg->dns_addr = s->dns_addr;
msg->port = s->port;
return msg;
}
struct udp_config udp_config_msg_to_s(const udp_config_msg_t * msg)
{
struct udp_config s;
assert(msg != NULL);
s.ip_addr = msg->ip_addr;
s.dns_addr = msg->dns_addr;
s.port = msg->port;
return s;
}
eth_config_msg_t * eth_config_s_to_msg(const struct eth_config * s)
{
eth_config_msg_t * msg;
assert(s != NULL);
msg = malloc(sizeof(*msg));
if (msg == NULL)
goto fail_malloc;
eth_config_msg__init(msg);
msg->dev = strdup(s->dev);
if (msg->dev == NULL)
goto fail_msg;
msg->ethertype = s->ethertype;
return msg;
fail_msg:
eth_config_msg__free_unpacked(msg, NULL);
fail_malloc:
return NULL;
}
struct eth_config eth_config_msg_to_s(const eth_config_msg_t * msg)
{
struct eth_config s;
assert(msg != NULL);
assert(strlen(msg->dev) <= DEV_NAME_SIZE);
strcpy(s.dev, msg->dev);
s.ethertype = msg->ethertype;
return s;
}
ipcp_config_msg_t * ipcp_config_s_to_msg(const struct ipcp_config * s)
{
ipcp_config_msg_t * msg;
assert(s != NULL);
msg = malloc(sizeof(*msg));
if (msg == NULL)
goto fail_malloc;
ipcp_config_msg__init(msg);
switch (s->type) {
case IPCP_LOCAL:
break;
case IPCP_UNICAST:
msg->unicast = uni_config_s_to_msg(&s->unicast);
if (msg->unicast == NULL)
goto fail_msg;
break;
case IPCP_BROADCAST:
break;
case IPCP_ETH_LLC:
/* FALLTHRU */
case IPCP_ETH_DIX:
msg->eth = eth_config_s_to_msg(&s->eth);
if (msg->eth == NULL)
goto fail_msg;
break;
case IPCP_UDP:
msg->udp = udp_config_s_to_msg(&s->udp);
if (msg->udp == NULL)
goto fail_msg;
break;
default:
/* No checks here */
break;
}
msg->ipcp_type = s->type;
msg->layer_info = layer_info_s_to_msg(&s->layer_info);
if (msg->layer_info == NULL)
goto fail_msg;
return msg;
fail_msg:
ipcp_config_msg__free_unpacked(msg, NULL);
fail_malloc:
return NULL;
}
struct ipcp_config ipcp_config_msg_to_s(const ipcp_config_msg_t * msg)
{
struct ipcp_config s;
assert(msg != NULL);
s.type = msg->ipcp_type;
s.layer_info = layer_info_msg_to_s(msg->layer_info);
switch(msg->ipcp_type) {
case IPCP_LOCAL:
break;
case IPCP_UNICAST:
s.unicast = uni_config_msg_to_s(msg->unicast);
break;
case IPCP_ETH_LLC:
/* FALLTHRU */
case IPCP_ETH_DIX:
s.eth = eth_config_msg_to_s(msg->eth);
break;
case IPCP_UDP:
s.udp = udp_config_msg_to_s(msg->udp);
break;
case IPCP_BROADCAST:
break;
default:
/* No checks here */
break;
}
return s;
}
qosspec_msg_t * qos_spec_s_to_msg(const struct qos_spec * s)
{
qosspec_msg_t * msg;
assert(s != NULL);
msg = malloc(sizeof(*msg));
if (msg == NULL)
return NULL;
qosspec_msg__init(msg);
msg->delay = s->delay;
msg->bandwidth = s->bandwidth;
msg->availability = s->availability;
msg->loss = s->loss;
msg->ber = s->ber;
msg->in_order = s->in_order;
msg->max_gap = s->max_gap;
msg->cypher_s = s->cypher_s;
msg->timeout = s->timeout;
return msg;
}
struct qos_spec qos_spec_msg_to_s(const qosspec_msg_t * msg)
{
struct qos_spec s;
assert(msg != NULL);
s.delay = msg->delay;
s.bandwidth = msg->bandwidth;
s.availability = msg->availability;
s.loss = msg->loss;
s.ber = msg->ber;
s.in_order = msg->in_order;
s.max_gap = msg->max_gap;
s.cypher_s = msg->cypher_s;
s.timeout = msg->timeout;
return s;
}
enroll_req_msg_t * enroll_req_s_to_msg(const struct enroll_req * s)
{
enroll_req_msg_t * msg;
uint8_t * id;
msg = malloc(sizeof(*msg));
if (msg == NULL)
goto fail_msg;
id = malloc(ENROLL_ID_LEN);
if (id == NULL)
goto fail_id;
memcpy(id, s->id, ENROLL_ID_LEN);
enroll_req_msg__init(msg);
msg->id.len = ENROLL_ID_LEN;
msg->id.data = id;
return msg;
fail_id:
free(msg);
fail_msg:
return NULL;
}
struct enroll_req enroll_req_msg_to_s(const enroll_req_msg_t * msg)
{
struct enroll_req s;
assert(msg != NULL);
memcpy(s.id, msg->id.data, ENROLL_ID_LEN);
return s;
}
enroll_resp_msg_t * enroll_resp_s_to_msg(const struct enroll_resp * s)
{
enroll_resp_msg_t * msg;
uint8_t * id;
assert(s != NULL);
msg = malloc(sizeof(*msg));
if (msg == NULL)
goto fail_msg;
id = malloc(ENROLL_ID_LEN);
if (id == NULL)
goto fail_id;
memcpy(id, s->id, ENROLL_ID_LEN);
enroll_resp_msg__init(msg);
msg->id.len = ENROLL_ID_LEN;
msg->id.data = id;
msg->t_sec = s->t.tv_sec;
msg->t_nsec = s->t.tv_nsec;
msg->response = s->response;
if (msg->response < 0)
return msg;
msg->conf = ipcp_config_s_to_msg(&s->conf);
if (msg->conf == NULL)
goto fail_id;
return msg;
fail_id:
enroll_resp_msg__free_unpacked(msg, NULL);
fail_msg:
return NULL;
}
struct enroll_resp enroll_resp_msg_to_s(const enroll_resp_msg_t * msg)
{
struct enroll_resp s;
assert (msg != NULL);
s.response = msg->response;
if (s.response >= 0)
s.conf = ipcp_config_msg_to_s(msg->conf);
s.t.tv_sec = msg->t_sec;
s.t.tv_nsec = msg->t_nsec;
memcpy(s.id, msg->id.data, ENROLL_ID_LEN);
return s;
}
enroll_ack_msg_t * enroll_ack_s_to_msg(const struct enroll_ack * s)
{
enroll_ack_msg_t * msg;
uint8_t * id;
msg = malloc(sizeof(*msg));
if (msg == NULL)
goto fail_msg;
id = malloc(ENROLL_ID_LEN);
if (id == NULL)
goto fail_id;
memcpy(id, s->id, ENROLL_ID_LEN);
enroll_ack_msg__init(msg);
msg->id.len = ENROLL_ID_LEN;
msg->id.data = id;
msg->result = s->result;
return msg;
fail_id:
enroll_ack_msg__free_unpacked(msg, NULL);
fail_msg:
return NULL;
}
struct enroll_ack enroll_ack_msg_to_s(const enroll_ack_msg_t * msg)
{
struct enroll_ack s;
assert(msg != NULL);
memcpy(s.id, msg->id.data, ENROLL_ID_LEN);
s.result = msg->result;
return s;
}
|
