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|
/*
* Ouroboros - Copyright (C) 2016 - 2017
*
* IPC process main loop
*
* Dimitri Staessens <dimitri.staessens@ugent.be>
* Sander Vrijders <sander.vrijders@ugent.be>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., http://www.fsf.org/about/contact/.
*/
#define OUROBOROS_PREFIX "ipcpd/ipcp"
#include <ouroboros/config.h>
#include <ouroboros/hash.h>
#include <ouroboros/logs.h>
#include <ouroboros/time_utils.h>
#include <ouroboros/utils.h>
#include <ouroboros/sockets.h>
#include <ouroboros/errno.h>
#include <ouroboros/dev.h>
#include <ouroboros/bitmap.h>
#include <ouroboros/np1_flow.h>
#include <ouroboros/tpm.h>
#include "ipcp.h"
#include <string.h>
#include <sys/socket.h>
#include <stdlib.h>
void ipcp_sig_handler(int sig,
siginfo_t * info,
void * c)
{
(void) c;
switch(sig) {
case SIGINT:
case SIGTERM:
case SIGHUP:
case SIGQUIT:
if (info->si_pid == ipcpi.irmd_api) {
if (ipcp_get_state() == IPCP_INIT)
ipcp_set_state(IPCP_NULL);
if (ipcp_get_state() == IPCP_OPERATIONAL)
ipcp_set_state(IPCP_SHUTDOWN);
}
tpm_stop();
default:
return;
}
}
uint8_t * ipcp_hash_dup(const uint8_t * hash)
{
uint8_t * dup = malloc(hash_len(ipcpi.dir_hash_algo));
if (dup == NULL)
return NULL;
memcpy(dup, hash, ipcp_dir_hash_len());
return dup;
}
void ipcp_hash_str(char * buf,
const uint8_t * hash)
{
size_t i;
char * HEX = "0123456789abcdef";
for (i = 0; i < ipcp_dir_hash_len(); ++i) {
buf[i * 2] = HEX[(hash[i] & 0xF0) >> 4];
buf[i * 2 + 1] = HEX[hash[i] & 0x0F];
}
buf[2 * i] = '\0';
}
static void * mainloop(void * o)
{
int lsockfd;
uint8_t buf[IPCP_MSG_BUF_SIZE];
ssize_t count;
buffer_t buffer;
struct ipcp_config conf;
struct dif_info info;
ipcp_config_msg_t * conf_msg;
ipcp_msg_t * msg;
ipcp_msg_t ret_msg = IPCP_MSG__INIT;
dif_info_msg_t dif_info = DIF_INFO_MSG__INIT;
struct timeval ltv = {(SOCKET_TIMEOUT / 1000),
(SOCKET_TIMEOUT % 1000) * 1000};
(void) o;
while (true) {
#ifdef __FreeBSD__
fd_set fds;
struct timeval timeout = {(IPCP_ACCEPT_TIMEOUT / 1000),
(IPCP_ACCEPT_TIMEOUT % 1000) * 1000};
#endif
int fd = -1;
if (ipcp_get_state() == IPCP_SHUTDOWN ||
ipcp_get_state() == IPCP_NULL ||
tpm_check()) {
tpm_exit();
break;
}
ret_msg.code = IPCP_MSG_CODE__IPCP_REPLY;
#ifdef __FreeBSD__
FD_ZERO(&fds);
FD_SET(ipcpi.sockfd, &fds);
if (select(ipcpi.sockfd + 1, &fds, NULL, NULL, &timeout) <= 0)
continue;
#endif
lsockfd = accept(ipcpi.sockfd, 0, 0);
if (lsockfd < 0)
continue;
if (setsockopt(lsockfd, SOL_SOCKET, SO_RCVTIMEO,
(void *) <v, sizeof(ltv)))
log_warn("Failed to set timeout on socket.");
count = read(lsockfd, buf, IPCP_MSG_BUF_SIZE);
if (count <= 0) {
log_err("Failed to read from socket");
close(lsockfd);
continue;
}
msg = ipcp_msg__unpack(NULL, count, buf);
if (msg == NULL) {
close(lsockfd);
continue;
}
tpm_dec();
switch (msg->code) {
case IPCP_MSG_CODE__IPCP_BOOTSTRAP:
ret_msg.has_result = true;
if (ipcpi.ops->ipcp_bootstrap == NULL) {
log_err("Bootstrap unsupported.");
ret_msg.result = -ENOTSUP;
break;
}
if (ipcp_get_state() != IPCP_INIT) {
log_err("IPCP in wrong state.");
ret_msg.result = -EIPCPSTATE;
break;
}
conf_msg = msg->conf;
conf.type = conf_msg->ipcp_type;
strcpy(conf.dif_info.dif_name,
conf_msg->dif_info->dif_name);
if (conf_msg->ipcp_type == IPCP_NORMAL) {
conf.addr_size = conf_msg->addr_size;
conf.fd_size = conf_msg->fd_size;
conf.has_ttl = conf_msg->has_ttl;
conf.addr_auth_type = conf_msg->addr_auth_type;
conf.dt_gam_type = conf_msg->dt_gam_type;
conf.rm_gam_type = conf_msg->rm_gam_type;
conf.routing_type = conf_msg->routing_type;
switch(conf_msg->dif_info->dir_hash_algo) {
case DIR_HASH_SHA3_224:
conf.dif_info.dir_hash_algo
= HASH_SHA3_224;
break;
case DIR_HASH_SHA3_256:
conf.dif_info.dir_hash_algo
= HASH_SHA3_256;
break;
case DIR_HASH_SHA3_384:
conf.dif_info.dir_hash_algo
= HASH_SHA3_384;
break;
case DIR_HASH_SHA3_512:
conf.dif_info.dir_hash_algo
= HASH_SHA3_512;
break;
default:
assert(false);
}
dif_info.dir_hash_algo =
conf.dif_info.dir_hash_algo;
}
if (conf_msg->ipcp_type == IPCP_SHIM_UDP) {
conf.ip_addr = conf_msg->ip_addr;
conf.dns_addr = conf_msg->dns_addr;
dif_info.dir_hash_algo = HASH_MD5;
ipcpi.dir_hash_algo = HASH_MD5;
}
if (conf_msg->ipcp_type == IPCP_SHIM_ETH_LLC) {
conf.if_name = conf_msg->if_name;
dif_info.dir_hash_algo = HASH_SHA3_256;
ipcpi.dir_hash_algo = HASH_SHA3_256;
}
if (conf_msg->ipcp_type == IPCP_LOCAL) {
dif_info.dir_hash_algo = HASH_SHA3_256;
ipcpi.dir_hash_algo = HASH_SHA3_256;
}
ret_msg.result = ipcpi.ops->ipcp_bootstrap(&conf);
if (ret_msg.result == 0) {
ret_msg.dif_info = &dif_info;
dif_info.dif_name = conf.dif_info.dif_name;
}
break;
case IPCP_MSG_CODE__IPCP_ENROLL:
ret_msg.has_result = true;
if (ipcpi.ops->ipcp_enroll == NULL) {
log_err("Enroll unsupported.");
ret_msg.result = -ENOTSUP;
break;
}
if (ipcp_get_state() != IPCP_INIT) {
log_err("IPCP in wrong state.");
ret_msg.result = -EIPCPSTATE;
break;
}
ret_msg.result = ipcpi.ops->ipcp_enroll(msg->dst_name,
&info);
if (ret_msg.result == 0) {
ret_msg.dif_info = &dif_info;
dif_info.dir_hash_algo = info.dir_hash_algo;
dif_info.dif_name = info.dif_name;
}
break;
case IPCP_MSG_CODE__IPCP_REG:
ret_msg.has_result = true;
if (ipcpi.ops->ipcp_reg == NULL) {
log_err("Registration unsupported.");
ret_msg.result = -ENOTSUP;
break;
}
assert(msg->hash.len == ipcp_dir_hash_len());
ret_msg.result =
ipcpi.ops->ipcp_reg(msg->hash.data);
break;
case IPCP_MSG_CODE__IPCP_UNREG:
ret_msg.has_result = true;
if (ipcpi.ops->ipcp_unreg == NULL) {
log_err("Unregistration unsupported.");
ret_msg.result = -ENOTSUP;
break;
}
assert(msg->hash.len == ipcp_dir_hash_len());
ret_msg.result =
ipcpi.ops->ipcp_unreg(msg->hash.data);
break;
case IPCP_MSG_CODE__IPCP_QUERY:
ret_msg.has_result = true;
if (ipcpi.ops->ipcp_query == NULL) {
log_err("Directory query unsupported.");
ret_msg.result = -ENOTSUP;
break;
}
assert(msg->hash.len == ipcp_dir_hash_len());
if (ipcp_get_state() != IPCP_OPERATIONAL) {
log_err("IPCP in wrong state.");
ret_msg.result = -EIPCPSTATE;
break;
}
ret_msg.result =
ipcpi.ops->ipcp_query(msg->hash.data);
break;
case IPCP_MSG_CODE__IPCP_FLOW_ALLOC:
ret_msg.has_result = true;
if (ipcpi.ops->ipcp_flow_alloc == NULL) {
log_err("Flow allocation unsupported.");
ret_msg.result = -ENOTSUP;
break;
}
assert(msg->hash.len == ipcp_dir_hash_len());
if (ipcp_get_state() != IPCP_OPERATIONAL) {
log_err("IPCP in wrong state.");
ret_msg.result = -EIPCPSTATE;
break;
}
fd = np1_flow_alloc(msg->api,
msg->port_id,
msg->qoscube);
if (fd < 0) {
log_err("Failed allocating fd on port_id %d.",
msg->port_id);
ret_msg.result = -1;
break;
}
ret_msg.result =
ipcpi.ops->ipcp_flow_alloc(fd,
msg->hash.data,
msg->qoscube);
break;
case IPCP_MSG_CODE__IPCP_FLOW_ALLOC_RESP:
ret_msg.has_result = true;
if (ipcpi.ops->ipcp_flow_alloc_resp == NULL) {
log_err("Flow_alloc_resp unsupported.");
ret_msg.result = -ENOTSUP;
break;
}
if (ipcp_get_state() != IPCP_OPERATIONAL) {
log_err("IPCP in wrong state.");
ret_msg.result = -EIPCPSTATE;
break;
}
if (!msg->response) {
fd = np1_flow_resp(msg->port_id);
if (fd < 0) {
log_warn("Port_id %d is not known.",
msg->port_id);
ret_msg.result = -1;
break;
}
}
ret_msg.result =
ipcpi.ops->ipcp_flow_alloc_resp(fd,
msg->response);
break;
case IPCP_MSG_CODE__IPCP_FLOW_DEALLOC:
ret_msg.has_result = true;
if (ipcpi.ops->ipcp_flow_dealloc == NULL) {
log_err("Flow deallocation unsupported.");
ret_msg.result = -ENOTSUP;
break;
}
if (ipcp_get_state() != IPCP_OPERATIONAL) {
log_err("IPCP in wrong state.");
ret_msg.result = -EIPCPSTATE;
break;
}
fd = np1_flow_dealloc(msg->port_id);
if (fd < 0) {
log_warn("Could not deallocate port_id %d.",
msg->port_id);
ret_msg.result = -1;
break;
}
ret_msg.result =
ipcpi.ops->ipcp_flow_dealloc(fd);
break;
default:
log_err("Don't know that message code");
break;
}
ipcp_msg__free_unpacked(msg, NULL);
buffer.len = ipcp_msg__get_packed_size(&ret_msg);
if (buffer.len == 0) {
log_err("Failed to pack reply message");
close(lsockfd);
tpm_inc();
continue;
}
buffer.data = malloc(buffer.len);
if (buffer.data == NULL) {
log_err("Failed to create reply buffer.");
close(lsockfd);
tpm_inc();
continue;
}
ipcp_msg__pack(&ret_msg, buffer.data);
if (write(lsockfd, buffer.data, buffer.len) == -1) {
log_err("Failed to send reply message");
free(buffer.data);
close(lsockfd);
tpm_inc();
continue;
}
free(buffer.data);
close(lsockfd);
tpm_inc();
}
return (void *) 0;
}
static int parse_args(int argc,
char * argv[],
bool * log)
{
*log = false;
if (!(argc == 4 || argc == 3))
return -1;
/* argument 1: api of irmd */
if (atoi(argv[1]) == 0)
return -1;
ipcpi.irmd_api = atoi(argv[1]);
/* argument 2: IPCP name */
ipcpi.name = argv[2];
/* argument 3: syslog */
if (argv[3] != NULL)
*log = true;
return 0;
}
int ipcp_init(int argc,
char ** argv,
enum ipcp_type type,
struct ipcp_ops * ops)
{
bool log;
pthread_condattr_t cattr;
struct timeval tv = {(IPCP_ACCEPT_TIMEOUT / 1000),
(IPCP_ACCEPT_TIMEOUT % 1000) * 1000};
int ret = -1;
if (parse_args(argc, argv, &log))
return -1;
log_init(log);
if (type == IPCP_NORMAL) {
if (ouroboros_init(argv[0])) {
log_err("Failed to init normal IPCPI.");
return -1;
}
} else {
if (ouroboros_init(NULL)) {
log_err("Failed to init shim IPCPI.");
return -1;
}
}
ipcpi.irmd_fd = -1;
ipcpi.state = IPCP_NULL;
ipcpi.shim_data = NULL;
ipcpi.sock_path = ipcp_sock_path(getpid());
if (ipcpi.sock_path == NULL)
goto fail_sock_path;
ipcpi.sockfd = server_socket_open(ipcpi.sock_path);
if (ipcpi.sockfd < 0) {
log_err("Could not open server socket.");
goto fail_serv_sock;
}
if (setsockopt(ipcpi.sockfd, SOL_SOCKET, SO_RCVTIMEO,
(void *) &tv, sizeof(tv)))
log_warn("Failed to set timeout on socket.");
ipcpi.ops = ops;
if (pthread_mutex_init(&ipcpi.state_mtx, NULL)) {
log_err("Could not create mutex.");
goto fail_state_mtx;
}
if (pthread_condattr_init(&cattr)) {
log_err("Could not create condattr.");
goto fail_cond_attr;
}
#ifndef __APPLE__
pthread_condattr_setclock(&cattr, PTHREAD_COND_CLOCK);
#endif
if (pthread_cond_init(&ipcpi.state_cond, &cattr)) {
log_err("Could not init condvar.");
goto fail_state_cond;
}
if (pthread_mutex_init(&ipcpi.alloc_lock, NULL)) {
log_err("Failed to init mutex.");
goto fail_alloc_lock;
}
if (pthread_cond_init(&ipcpi.alloc_cond, NULL)) {
log_err("Failed to init convar.");
goto fail_alloc_cond;
}
ipcpi.alloc_id = -1;
if (type == IPCP_NORMAL) {
pthread_condattr_destroy(&cattr);
return 0;
}
ipcpi.shim_data = shim_data_create();
if (ipcpi.shim_data == NULL) {
ret = -ENOMEM;
goto fail_shim_data;
}
pthread_condattr_destroy(&cattr);
return 0;
fail_shim_data:
pthread_cond_destroy(&ipcpi.alloc_cond);
fail_alloc_cond:
pthread_mutex_destroy(&ipcpi.alloc_lock);
fail_alloc_lock:
pthread_cond_destroy(&ipcpi.state_cond);
fail_state_cond:
pthread_condattr_destroy(&cattr);
fail_cond_attr:
pthread_mutex_destroy(&ipcpi.state_mtx);
fail_state_mtx:
close(ipcpi.sockfd);
fail_serv_sock:
free(ipcpi.sock_path);
fail_sock_path:
ouroboros_fini();
return ret;
}
int ipcp_boot()
{
struct sigaction sig_act;
sigset_t sigset;
sigemptyset(&sigset);
sigaddset(&sigset, SIGINT);
sigaddset(&sigset, SIGQUIT);
sigaddset(&sigset, SIGHUP);
sigaddset(&sigset, SIGPIPE);
/* init sig_act */
memset(&sig_act, 0, sizeof(sig_act));
/* install signal traps */
sig_act.sa_sigaction = &ipcp_sig_handler;
sig_act.sa_flags = SA_SIGINFO;
sigaction(SIGINT, &sig_act, NULL);
sigaction(SIGTERM, &sig_act, NULL);
sigaction(SIGHUP, &sig_act, NULL);
sigaction(SIGPIPE, &sig_act, NULL);
pthread_sigmask(SIG_BLOCK, &sigset, NULL);
if (tpm_init(IPCP_MIN_THREADS, IPCP_ADD_THREADS, mainloop))
return -1;
if (tpm_start()) {
tpm_fini();
return -1;
}
ipcp_set_state(IPCP_INIT);
pthread_sigmask(SIG_UNBLOCK, &sigset, NULL);
return 0;
}
void ipcp_shutdown()
{
tpm_fini();
log_info("IPCP %d shutting down.", getpid());
}
void ipcp_fini()
{
close(ipcpi.sockfd);
if (unlink(ipcpi.sock_path))
log_warn("Could not unlink %s.", ipcpi.sock_path);
free(ipcpi.sock_path);
shim_data_destroy(ipcpi.shim_data);
pthread_cond_destroy(&ipcpi.state_cond);
pthread_mutex_destroy(&ipcpi.state_mtx);
pthread_cond_destroy(&ipcpi.alloc_cond);
pthread_mutex_destroy(&ipcpi.alloc_lock);
log_info("IPCP %d out.", getpid());
log_fini();
ouroboros_fini();
}
void ipcp_set_state(enum ipcp_state state)
{
pthread_mutex_lock(&ipcpi.state_mtx);
ipcpi.state = state;
pthread_cond_broadcast(&ipcpi.state_cond);
pthread_mutex_unlock(&ipcpi.state_mtx);
}
enum ipcp_state ipcp_get_state()
{
enum ipcp_state state;
pthread_mutex_lock(&ipcpi.state_mtx);
state = ipcpi.state;
pthread_mutex_unlock(&ipcpi.state_mtx);
return state;
}
int ipcp_wait_state(enum ipcp_state state,
const struct timespec * timeout)
{
struct timespec abstime;
int ret = 0;
clock_gettime(PTHREAD_COND_CLOCK, &abstime);
ts_add(&abstime, timeout, &abstime);
pthread_mutex_lock(&ipcpi.state_mtx);
while (ipcpi.state != state
&& ipcpi.state != IPCP_SHUTDOWN
&& ipcpi.state != IPCP_NULL
&& ret != -ETIMEDOUT) {
if (timeout == NULL)
ret = -pthread_cond_wait(&ipcpi.state_cond,
&ipcpi.state_mtx);
else
ret = -pthread_cond_timedwait(&ipcpi.state_cond,
&ipcpi.state_mtx,
&abstime);
}
pthread_mutex_unlock(&ipcpi.state_mtx);
return ret;
}
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