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|
/*
* Ouroboros - Copyright (C) 2016 - 2018
*
* IPC processes over Ethernet
*
* 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/.
*/
#if !defined(BUILD_ETH_DIX) && !defined(BUILD_ETH_LLC)
#error Define BUILD_ETH_DIX or BUILD_ETH_LLC to build an Ethernet IPCP
#endif
#if defined(__APPLE__)
#define _BSD_SOURCE
#define _DARWIN_C_SOURCE
#elif defined(__FreeBSD__)
#define __BSD_VISIBLE 1
#else
#define _POSIX_C_SOURCE 200112L
#endif
#include "config.h"
#include <ouroboros/hash.h>
#include <ouroboros/errno.h>
#include <ouroboros/list.h>
#include <ouroboros/utils.h>
#include <ouroboros/bitmap.h>
#include <ouroboros/dev.h>
#include <ouroboros/ipcp-dev.h>
#include <ouroboros/fqueue.h>
#include <ouroboros/logs.h>
#include <ouroboros/time_utils.h>
#include <ouroboros/fccntl.h>
#include "ipcp.h"
#include "shim-data.h"
#include <signal.h>
#include <stdlib.h>
#include <pthread.h>
#include <fcntl.h>
#include <unistd.h>
#include <string.h>
#include <sys/socket.h>
#include <sys/types.h>
#include <sys/ioctl.h>
#include <net/if.h>
#include <netinet/in.h>
#ifdef __linux__
#include <linux/if_packet.h>
#include <linux/if_ether.h>
#include <linux/netlink.h>
#include <linux/rtnetlink.h>
#endif
#ifdef __FreeBSD__
#include <net/if_dl.h>
#include <netinet/if_ether.h>
#include <ifaddrs.h>
#endif
#ifdef __APPLE__
#include <net/if_dl.h>
#include <ifaddrs.h>
#endif
#include <poll.h>
#include <sys/mman.h>
#if defined(HAVE_NETMAP)
#define NETMAP_WITH_LIBS
#include <net/netmap_user.h>
#elif defined(HAVE_BPF)
#define BPF_DEV_MAX 256
#define BPF_BLEN sysconf(_SC_PAGESIZE)
#include <net/bpf.h>
#endif
#define MAC_SIZE 6
#define ETH_MTU 1500
#define ETH_TYPE_LENGTH_SIZE sizeof(uint16_t)
#define ETH_HEADER_SIZE (2 * MAC_SIZE + ETH_TYPE_LENGTH_SIZE)
#if defined(BUILD_ETH_DIX)
#define THIS_TYPE IPCP_ETH_DIX
#define MGMT_EID 0
#define DIX_EID_SIZE sizeof(uint16_t)
#define DIX_LENGTH_SIZE sizeof(uint16_t)
#define DIX_HEADER_SIZE (DIX_EID_SIZE + DIX_LENGTH_SIZE)
#define ETH_HEADER_TOT_SIZE (ETH_HEADER_SIZE + DIX_HEADER_SIZE)
#define MAX_EIDS (1 << (8 * DIX_EID_SIZE))
#define ETH_MAX_SDU_SIZE (ETH_MTU - DIX_HEADER_SIZE)
#define ETH_FRAME_SIZE (ETH_HEADER_TOT_SIZE + ETH_MAX_SDU_SIZE)
#elif defined(BUILD_ETH_LLC)
#define THIS_TYPE IPCP_ETH_LLC
#define MGMT_SAP 0x01
#define LLC_HEADER_SIZE 3
#define ETH_HEADER_TOT_SIZE (ETH_HEADER_SIZE + LLC_HEADER_SIZE)
#define MAX_SAPS 64
#define ETH_MAX_SDU_SIZE (ETH_MTU - LLC_HEADER_SIZE)
#define ETH_FRAME_SIZE (ETH_HEADER_TOT_SIZE + ETH_MAX_SDU_SIZE)
#endif
#define ALLOC_TIMEO 10 /* ms */
#define NAME_QUERY_TIMEO 2000 /* ms */
#define MGMT_TIMEO 100 /* ms */
#define FLOW_REQ 0
#define FLOW_REPLY 1
#define NAME_QUERY_REQ 2
#define NAME_QUERY_REPLY 3
struct mgmt_msg {
uint8_t code;
#if defined(BUILD_ETH_DIX)
uint16_t seid;
uint16_t deid;
#elif defined(BUILD_ETH_LLC)
uint8_t ssap;
uint8_t dsap;
#endif
uint8_t qoscube;
int8_t response;
} __attribute__((packed));
struct eth_frame {
uint8_t dst_hwaddr[MAC_SIZE];
uint8_t src_hwaddr[MAC_SIZE];
#if defined(BUILD_ETH_DIX)
uint16_t ethertype;
uint16_t eid;
uint16_t length;
#elif defined(BUILD_ETH_LLC)
uint16_t length;
uint8_t dsap;
uint8_t ssap;
uint8_t cf;
#endif
uint8_t payload;
} __attribute__((packed));
struct ef {
#if defined(BUILD_ETH_DIX)
int32_t r_eid;
#elif defined(BUILD_ETH_LLC)
int8_t sap;
int8_t r_sap;
#endif
uint8_t r_addr[MAC_SIZE];
};
struct mgmt_frame {
struct list_head next;
uint8_t r_addr[MAC_SIZE];
uint8_t buf[ETH_FRAME_SIZE];
};
struct {
struct shim_data * shim_data;
#if defined(HAVE_NETMAP)
struct nm_desc * nmd;
uint8_t hw_addr[MAC_SIZE];
struct pollfd poll_in;
struct pollfd poll_out;
#elif defined(HAVE_BPF)
int bpf;
uint8_t hw_addr[MAC_SIZE];
#elif defined(HAVE_RAW_SOCKETS)
int s_fd;
struct sockaddr_ll device;
#endif /* HAVE_NETMAP */
#if defined (BUILD_ETH_DIX)
uint16_t ethertype;
#elif defined(BUILD_ETH_LLC)
struct bmp * saps;
int * ef_to_fd;
#endif
struct ef * fd_to_ef;
fset_t * np1_flows;
fqueue_t * fq;
pthread_rwlock_t flows_lock;
pthread_t sdu_writer;
pthread_t sdu_reader;
#ifdef __linux__
pthread_t if_monitor;
#endif
/* Handle mgmt frames in a different thread */
pthread_t mgmt_handler;
pthread_mutex_t mgmt_lock;
pthread_cond_t mgmt_cond;
struct list_head mgmt_frames;
} eth_data;
static int eth_data_init(void)
{
int i;
int ret = -ENOMEM;
pthread_condattr_t cattr;
eth_data.fd_to_ef =
malloc(sizeof(*eth_data.fd_to_ef) * SYS_MAX_FLOWS);
if (eth_data.fd_to_ef == NULL)
goto fail_fd_to_ef;
#ifdef BUILD_ETH_LLC
eth_data.ef_to_fd =
malloc(sizeof(*eth_data.ef_to_fd) * MAX_SAPS);
if (eth_data.ef_to_fd == NULL)
goto fail_ef_to_fd;
for (i = 0; i < MAX_SAPS; ++i)
eth_data.ef_to_fd[i] = -1;
eth_data.saps = bmp_create(MAX_SAPS, 2);
if (eth_data.saps == NULL)
goto fail_saps;
#endif
eth_data.np1_flows = fset_create();
if (eth_data.np1_flows == NULL)
goto fail_np1_flows;
eth_data.fq = fqueue_create();
if (eth_data.fq == NULL)
goto fail_fq;
for (i = 0; i < SYS_MAX_FLOWS; ++i) {
#if defined(BUILD_ETH_DIX)
eth_data.fd_to_ef[i].r_eid = -1;
#elif defined(BUILD_ETH_LLC)
eth_data.fd_to_ef[i].sap = -1;
eth_data.fd_to_ef[i].r_sap = -1;
#endif
memset(ð_data.fd_to_ef[i].r_addr, 0, MAC_SIZE);
}
eth_data.shim_data = shim_data_create();
if (eth_data.shim_data == NULL)
goto fail_shim_data;
ret = -1;
if (pthread_rwlock_init(ð_data.flows_lock, NULL))
goto fail_flows_lock;
if (pthread_mutex_init(ð_data.mgmt_lock, NULL))
goto fail_mgmt_lock;
if (pthread_condattr_init(&cattr))
goto fail_condattr;
#ifndef __APPLE__
pthread_condattr_setclock(&cattr, PTHREAD_COND_CLOCK);
#endif
if (pthread_cond_init(ð_data.mgmt_cond, &cattr))
goto fail_mgmt_cond;
pthread_condattr_destroy(&cattr);
list_head_init(ð_data.mgmt_frames);
return 0;
fail_mgmt_cond:
pthread_condattr_destroy(&cattr);
fail_condattr:
pthread_mutex_destroy(ð_data.mgmt_lock);
fail_mgmt_lock:
pthread_rwlock_destroy(ð_data.flows_lock);
fail_flows_lock:
shim_data_destroy(eth_data.shim_data);
fail_shim_data:
fqueue_destroy(eth_data.fq);
fail_fq:
fset_destroy(eth_data.np1_flows);
fail_np1_flows:
#ifdef BUILD_ETH_LLC
bmp_destroy(eth_data.saps);
fail_saps:
free(eth_data.ef_to_fd);
fail_ef_to_fd:
#endif
free(eth_data.fd_to_ef);
fail_fd_to_ef:
return ret;
}
static void eth_data_fini(void)
{
#if defined(HAVE_NETMAP)
nm_close(eth_data.nmd);
#elif defined(HAVE_BPF)
close(eth_data.bpf);
#elif defined(HAVE_RAW_SOCKETS)
close(eth_data.s_fd);
#endif
pthread_cond_destroy(ð_data.mgmt_cond);
pthread_mutex_destroy(ð_data.mgmt_lock);
pthread_rwlock_destroy(ð_data.flows_lock);
shim_data_destroy(eth_data.shim_data);
fqueue_destroy(eth_data.fq);
fset_destroy(eth_data.np1_flows);
#ifdef BUILD_ETH_LLC
bmp_destroy(eth_data.saps);
free(eth_data.ef_to_fd);
#endif
free(eth_data.fd_to_ef);
}
#ifdef BUILD_ETH_LLC
static uint8_t reverse_bits(uint8_t b)
{
b = (b & 0xF0) >> 4 | (b & 0x0F) << 4;
b = (b & 0xCC) >> 2 | (b & 0x33) << 2;
b = (b & 0xAA) >> 1 | (b & 0x55) << 1;
return b;
}
#endif
/* Pass a buffer that contains space for the header. */
static int eth_ipcp_send_frame(const uint8_t * dst_addr,
#if defined(BUILD_ETH_DIX)
uint16_t deid,
#elif defined(BUILD_ETH_LLC)
uint8_t dsap,
uint8_t ssap,
#endif
const uint8_t * frame,
size_t len)
{
uint32_t frame_len = 0;
#ifdef BUILD_ETH_LLC
uint8_t cf = 0x03;
#endif
struct eth_frame * e_frame;
assert(frame);
if (len > ETH_MAX_SDU_SIZE)
return -1;
e_frame = (struct eth_frame *) frame;
memcpy(e_frame->dst_hwaddr, dst_addr, MAC_SIZE);
memcpy(e_frame->src_hwaddr,
#if defined(HAVE_NETMAP) || defined(HAVE_BPF)
eth_data.hw_addr,
#elif defined(HAVE_RAW_SOCKETS)
eth_data.device.sll_addr,
#endif /* HAVE_NETMAP */
MAC_SIZE);
#if defined(BUILD_ETH_DIX)
e_frame->ethertype = eth_data.ethertype;
e_frame->eid = htons(deid);
e_frame->length = htons(len);
frame_len = ETH_HEADER_TOT_SIZE + len;
#elif defined(BUILD_ETH_LLC)
e_frame->length = htons(LLC_HEADER_SIZE + len);
e_frame->dsap = dsap;
e_frame->ssap = ssap;
e_frame->cf = cf;
frame_len = ETH_HEADER_TOT_SIZE + len;
#endif
#if defined(HAVE_NETMAP)
if (poll(ð_data.poll_out, 1, -1) < 0)
return -1;
if (nm_inject(eth_data.nmd, frame, frame_len) != (int) frame_len) {
log_dbg("Failed to send message.");
return -1;
}
#elif defined(HAVE_BPF)
if (write(eth_data.bpf, frame, frame_len) < 0) {
log_dbg("Failed to send message.");
return -1;
}
#elif defined(HAVE_RAW_SOCKETS)
if (sendto(eth_data.s_fd,
frame,
frame_len,
0,
(struct sockaddr *) ð_data.device,
sizeof(eth_data.device)) <= 0) {
log_dbg("Failed to send message.");
return -1;
}
#endif /* HAVE_NETMAP */
return 0;
}
static int eth_ipcp_alloc(const uint8_t * dst_addr,
#if defined(BUILD_ETH_DIX)
uint16_t eid,
#elif defined(BUILD_ETH_LLC)
uint8_t ssap,
#endif
const uint8_t * hash,
qoscube_t cube)
{
uint8_t * buf;
struct mgmt_msg * msg;
size_t len;
int ret;
len = sizeof(*msg) + ipcp_dir_hash_len();
buf = malloc(len + ETH_HEADER_TOT_SIZE);
if (buf == NULL)
return -1;
msg = (struct mgmt_msg *) (buf + ETH_HEADER_TOT_SIZE);
msg->code = FLOW_REQ;
#if defined(BUILD_ETH_DIX)
msg->seid = htons(eid);
#elif defined(BUILD_ETH_LLC)
msg->ssap = ssap;
#endif
msg->qoscube = cube;
memcpy(msg + 1, hash, ipcp_dir_hash_len());
ret = eth_ipcp_send_frame(dst_addr,
#if defined(BUILD_ETH_DIX)
MGMT_EID,
#elif defined(BUILD_ETH_LLC)
reverse_bits(MGMT_SAP),
reverse_bits(MGMT_SAP),
#endif
buf, len);
free(buf);
return ret;
}
static int eth_ipcp_alloc_resp(uint8_t * dst_addr,
#if defined(BUILD_ETH_DIX)
uint16_t seid,
uint16_t deid,
#elif defined(BUILD_ETH_LLC)
uint8_t ssap,
uint8_t dsap,
#endif
int response)
{
struct mgmt_msg * msg;
uint8_t * buf;
buf = malloc(sizeof(*msg) + ETH_HEADER_TOT_SIZE);
if (buf == NULL)
return -1;
msg = (struct mgmt_msg *) (buf + ETH_HEADER_TOT_SIZE);
msg->code = FLOW_REPLY;
#if defined(BUILD_ETH_DIX)
msg->seid = htons(seid);
msg->deid = htons(deid);
#elif defined(BUILD_ETH_LLC)
msg->ssap = ssap;
msg->dsap = dsap;
#endif
msg->response = response;
if (eth_ipcp_send_frame(dst_addr,
#if defined(BUILD_ETH_DIX)
MGMT_EID,
#elif defined(BUILD_ETH_LLC)
reverse_bits(MGMT_SAP),
reverse_bits(MGMT_SAP),
#endif
buf, sizeof(*msg))) {
free(buf);
return -1;
}
free(buf);
return 0;
}
static int eth_ipcp_req(uint8_t * r_addr,
#if defined(BUILD_ETH_DIX)
uint16_t r_eid,
#elif defined(BUILD_ETH_LLC)
uint8_t r_sap,
#endif
const uint8_t * dst,
qoscube_t cube)
{
struct timespec ts = {0, ALLOC_TIMEO * MILLION};
struct timespec abstime;
int fd;
clock_gettime(PTHREAD_COND_CLOCK, &abstime);
pthread_mutex_lock(&ipcpi.alloc_lock);
while (ipcpi.alloc_id != -1 && ipcp_get_state() == IPCP_OPERATIONAL) {
ts_add(&abstime, &ts, &abstime);
pthread_cond_timedwait(&ipcpi.alloc_cond,
&ipcpi.alloc_lock,
&abstime);
}
if (ipcp_get_state() != IPCP_OPERATIONAL) {
log_dbg("Won't allocate over non-operational IPCP.");
pthread_mutex_unlock(&ipcpi.alloc_lock);
return -1;
}
/* reply to IRM, called under lock to prevent race */
fd = ipcp_flow_req_arr(getpid(), dst, ipcp_dir_hash_len(), cube);
if (fd < 0) {
pthread_mutex_unlock(&ipcpi.alloc_lock);
log_err("Could not get new flow from IRMd.");
return -1;
}
pthread_rwlock_wrlock(ð_data.flows_lock);
#if defined(BUILD_ETH_DIX)
eth_data.fd_to_ef[fd].r_eid = r_eid;
#elif defined(BUILD_ETH_LLC)
eth_data.fd_to_ef[fd].r_sap = r_sap;
#endif
memcpy(eth_data.fd_to_ef[fd].r_addr, r_addr, MAC_SIZE);
pthread_rwlock_unlock(ð_data.flows_lock);
ipcpi.alloc_id = fd;
pthread_cond_broadcast(&ipcpi.alloc_cond);
pthread_mutex_unlock(&ipcpi.alloc_lock);
#if defined(BUILD_ETH_DIX)
log_dbg("New flow request, fd %d, remote endpoint %d.", fd, r_eid);
#elif defined(BUILD_ETH_LLC)
log_dbg("New flow request, fd %d, remote SAP %d.", fd, r_sap);
#endif
return 0;
}
static int eth_ipcp_alloc_reply(uint8_t * r_addr,
#if defined(BUILD_ETH_DIX)
uint16_t seid,
uint16_t deid,
#elif defined(BUILD_ETH_LLC)
uint8_t ssap,
int dsap,
#endif
int response)
{
int ret = 0;
int fd = -1;
pthread_rwlock_wrlock(ð_data.flows_lock);
#if defined(BUILD_ETH_DIX)
fd = deid;
#elif defined(BUILD_ETH_LLC)
fd = eth_data.ef_to_fd[dsap];
#endif
if (fd < 0) {
pthread_rwlock_unlock(& eth_data.flows_lock);
log_err("No flow found with that SAP.");
return -1; /* -EFLOWNOTFOUND */
}
if (response) {
#ifdef BUILD_ETH_LLC
bmp_release(eth_data.saps, eth_data.fd_to_ef[fd].sap);
#endif
} else {
#if defined(BUILD_ETH_DIX)
eth_data.fd_to_ef[fd].r_eid = seid;
#elif defined(BUILD_ETH_LLC)
eth_data.fd_to_ef[fd].r_sap = ssap;
#endif
memcpy(eth_data.fd_to_ef[fd].r_addr, r_addr, MAC_SIZE);
}
pthread_rwlock_unlock(ð_data.flows_lock);
#if defined(BUILD_ETH_DIX)
log_dbg("Flow reply, fd %d, src eid %d, dst eid %d.", fd, seid, deid);
#elif defined(BUILD_ETH_LLC)
log_dbg("Flow reply, fd %d, SSAP %d, DSAP %d.", fd, ssap, dsap);
#endif
if ((ret = ipcp_flow_alloc_reply(fd, response)) < 0)
return -1;
return ret;
}
static int eth_ipcp_name_query_req(const uint8_t * hash,
uint8_t * r_addr)
{
uint8_t * buf;
struct mgmt_msg * msg;
size_t len;
if (shim_data_reg_has(eth_data.shim_data, hash)) {
len = sizeof(*msg) + ipcp_dir_hash_len();
buf = malloc(len + ETH_HEADER_TOT_SIZE);
if (buf == NULL)
return -1;
msg = (struct mgmt_msg *) (buf + ETH_HEADER_TOT_SIZE);
msg->code = NAME_QUERY_REPLY;
memcpy(msg + 1, hash, ipcp_dir_hash_len());
if (eth_ipcp_send_frame(r_addr,
#if defined(BUILD_ETH_DIX)
MGMT_EID,
#elif defined(BUILD_ETH_LLC)
reverse_bits(MGMT_SAP),
reverse_bits(MGMT_SAP),
#endif
buf, len)) {
log_err("Failed to send management frame.");
free(buf);
return -1;
}
free(buf);
}
return 0;
}
static int eth_ipcp_name_query_reply(const uint8_t * hash,
uint8_t * r_addr)
{
uint64_t address = 0;
memcpy(&address, r_addr, MAC_SIZE);
shim_data_dir_add_entry(eth_data.shim_data, hash, address);
shim_data_dir_query_respond(eth_data.shim_data, hash);
return 0;
}
static int eth_ipcp_mgmt_frame(const uint8_t * buf,
uint8_t * r_addr)
{
struct mgmt_msg * msg;
msg = (struct mgmt_msg *) buf;
switch (msg->code) {
case FLOW_REQ:
if (shim_data_reg_has(eth_data.shim_data,
buf + sizeof(*msg))) {
eth_ipcp_req(r_addr,
#if defined(BUILD_ETH_DIX)
ntohs(msg->seid),
#elif defined(BUILD_ETH_LLC)
msg->ssap,
#endif
buf + sizeof(*msg),
msg->qoscube);
}
break;
case FLOW_REPLY:
eth_ipcp_alloc_reply(r_addr,
#if defined(BUILD_ETH_DIX)
ntohs(msg->seid),
ntohs(msg->deid),
#elif defined(BUILD_ETH_LLC)
msg->ssap,
msg->dsap,
#endif
msg->response);
break;
case NAME_QUERY_REQ:
eth_ipcp_name_query_req(buf + sizeof(*msg), r_addr);
break;
case NAME_QUERY_REPLY:
eth_ipcp_name_query_reply(buf + sizeof(*msg), r_addr);
break;
default:
log_err("Unknown message received %d.", msg->code);
return -1;
}
return 0;
}
static void * eth_ipcp_mgmt_handler(void * o)
{
int ret;
struct timespec timeout = {(MGMT_TIMEO / 1000),
(MGMT_TIMEO % 1000) * MILLION};
struct timespec abstime;
struct mgmt_frame * frame;
(void) o;
pthread_cleanup_push((void (*)(void *)) pthread_mutex_unlock,
(void *) ð_data.mgmt_lock);
while (true) {
ret = 0;
clock_gettime(PTHREAD_COND_CLOCK, &abstime);
ts_add(&abstime, &timeout, &abstime);
pthread_mutex_lock(ð_data.mgmt_lock);
while (list_is_empty(ð_data.mgmt_frames) &&
ret != -ETIMEDOUT)
ret = -pthread_cond_timedwait(ð_data.mgmt_cond,
ð_data.mgmt_lock,
&abstime);
if (ret == -ETIMEDOUT) {
pthread_mutex_unlock(ð_data.mgmt_lock);
continue;
}
frame = list_first_entry((ð_data.mgmt_frames),
struct mgmt_frame, next);
if (frame == NULL) {
pthread_mutex_unlock(ð_data.mgmt_lock);
continue;
}
list_del(&frame->next);
pthread_mutex_unlock(ð_data.mgmt_lock);
eth_ipcp_mgmt_frame(frame->buf, frame->r_addr);
free(frame);
}
pthread_cleanup_pop(false);
return (void *) 0;
}
static void * eth_ipcp_sdu_reader(void * o)
{
uint8_t br_addr[MAC_SIZE];
#if defined(BUILD_ETH_DIX)
uint16_t deid;
#elif defined(BUILD_ETH_LLC)
uint8_t dsap;
uint8_t ssap;
#endif
uint16_t length;
int fd;
uint8_t * buf;
#if defined(HAVE_NETMAP)
struct nm_pkthdr hdr;
#else
struct shm_du_buff * sdb;
fd_set fds;
int frame_len;
#endif
struct eth_frame * e_frame;
struct mgmt_frame * frame;
(void) o;
ipcp_lock_to_core();
memset(br_addr, 0xff, MAC_SIZE * sizeof(uint8_t));
while (true) {
#if defined(HAVE_NETMAP)
if (poll(ð_data.poll_in, 1, -1) < 0)
continue;
if (eth_data.poll_in.revents == 0) /* TIMED OUT */
continue;
buf = nm_nextpkt(eth_data.nmd, &hdr);
if (buf == NULL) {
log_err("Bad read from netmap device.");
continue;
}
#else
FD_ZERO(&fds);
#if defined(HAVE_BPF)
FD_SET(eth_data.bpf, &fds);
if (select(eth_data.bpf + 1, &fds, NULL, NULL, NULL))
continue;
assert(FD_ISSET(eth_data.bpf, &fds));
if (ipcp_sdb_reserve(&sdb, BPF_LEN))
continue;
buf = shm_du_buff_head(sdb);
frame_len = read(eth_data.bpf, buf, BPF_BLEN);
#elif defined(HAVE_RAW_SOCKETS)
FD_SET(eth_data.s_fd, &fds);
if (select(eth_data.s_fd + 1, &fds, NULL, NULL, NULL) < 0)
continue;
assert(FD_ISSET(eth_data.s_fd, &fds));
if (ipcp_sdb_reserve(&sdb, ETH_FRAME_SIZE))
continue;
buf = shm_du_buff_head(sdb);
frame_len = recv(eth_data.s_fd, buf, ETH_FRAME_SIZE, 0);
#endif
if (frame_len <= 0) {
ipcp_sdb_release(sdb);
continue;
}
#endif
#if defined(HAVE_BPF) && !defined(HAVE_NETMAP)
e_frame = (struct eth_frame *)
(buf + ((struct bpf_hdr *) buf)->bh_hdrlen);
#else
e_frame = (struct eth_frame *) buf;
#endif
assert(e_frame->dst_hwaddr);
#if !defined(HAVE_BPF)
#if defined(HAVE_NETMAP)
if (memcmp(eth_data.hw_addr,
#elif defined(HAVE_RAW_SOCKETS)
if (memcmp(eth_data.device.sll_addr,
#endif /* HAVE_NETMAP */
e_frame->dst_hwaddr,
MAC_SIZE) &&
memcmp(br_addr, e_frame->dst_hwaddr, MAC_SIZE)) {
}
#endif
length = ntohs(e_frame->length);
#if defined(BUILD_ETH_DIX)
if (e_frame->ethertype != eth_data.ethertype) {
#ifndef HAVE_NETMAP
ipcp_sdb_release(sdb);
#endif
continue;
}
deid = ntohs(e_frame->eid);
if (deid == MGMT_EID) {
#elif defined (BUILD_ETH_LLC)
if (length > 0x05FF) {/* DIX */
ipcp_sdb_release(sdb);
continue;
}
length -= LLC_HEADER_SIZE;
dsap = reverse_bits(e_frame->dsap);
ssap = reverse_bits(e_frame->ssap);
if (ssap == MGMT_SAP && dsap == MGMT_SAP) {
#endif
pthread_mutex_lock(ð_data.mgmt_lock);
frame = malloc(sizeof(*frame));
if (frame == NULL) {
pthread_mutex_unlock(ð_data.mgmt_lock);
#ifndef HAVE_NETMAP
ipcp_sdb_release(sdb);
#endif
continue;
}
memcpy(frame->buf, &e_frame->payload, length);
memcpy(frame->r_addr, e_frame->src_hwaddr, MAC_SIZE);
list_add(&frame->next, ð_data.mgmt_frames);
pthread_cond_signal(ð_data.mgmt_cond);
pthread_mutex_unlock(ð_data.mgmt_lock);
#ifndef HAVE_NETMAP
ipcp_sdb_release(sdb);
#endif
} else {
pthread_rwlock_rdlock(ð_data.flows_lock);
#if defined(BUILD_ETH_DIX)
fd = deid;
#elif defined(BUILD_ETH_LLC)
fd = eth_data.ef_to_fd[dsap];
#endif
if (fd < 0) {
pthread_rwlock_unlock(ð_data.flows_lock);
#ifndef HAVE_NETMAP
ipcp_sdb_release(sdb);
#endif
continue;
}
#ifdef BUILD_ETH_LLC
if (eth_data.fd_to_ef[fd].r_sap != ssap
|| memcmp(eth_data.fd_to_ef[fd].r_addr,
e_frame->src_hwaddr, MAC_SIZE)) {
pthread_rwlock_unlock(ð_data.flows_lock);
#ifndef HAVE_NETMAP
ipcp_sdb_release(sdb);
#endif
continue;
}
#endif
pthread_rwlock_unlock(ð_data.flows_lock);
#ifndef HAVE_NETMAP
shm_du_buff_head_release(sdb, ETH_HEADER_TOT_SIZE);
shm_du_buff_truncate(sdb, length);
ipcp_flow_write(fd, sdb);
#else
flow_write(fd, &e_frame->payload, length);
#endif
}
}
return (void *) 0;
}
static void * eth_ipcp_sdu_writer(void * o)
{
int fd;
struct shm_du_buff * sdb;
size_t len;
#if defined(BUILD_ETH_DIX)
uint16_t deid;
#elif defined(BUILD_ETH_LLC)
uint8_t dsap;
uint8_t ssap;
#endif
uint8_t r_addr[MAC_SIZE];
(void) o;
ipcp_lock_to_core();
while (true) {
fevent(eth_data.np1_flows, eth_data.fq, NULL);
pthread_rwlock_rdlock(ð_data.flows_lock);
while ((fd = fqueue_next(eth_data.fq)) >= 0) {
if (ipcp_flow_read(fd, &sdb)) {
log_err("Bad read from fd %d.", fd);
continue;
}
len = shm_du_buff_tail(sdb) - shm_du_buff_head(sdb);
if (shm_du_buff_head_alloc(sdb, ETH_HEADER_TOT_SIZE)
== NULL) {
log_err("Failed to allocate header.");
ipcp_sdb_release(sdb);
}
#if defined(BUILD_ETH_DIX)
deid = eth_data.fd_to_ef[fd].r_eid;
#elif defined(BUILD_ETH_LLC)
dsap = reverse_bits(eth_data.fd_to_ef[fd].r_sap);
ssap = reverse_bits(eth_data.fd_to_ef[fd].sap);
#endif
memcpy(r_addr,
eth_data.fd_to_ef[fd].r_addr,
MAC_SIZE);
eth_ipcp_send_frame(r_addr,
#if defined(BUILD_ETH_DIX)
deid,
#elif defined(BUILD_ETH_LLC)
dsap, ssap,
#endif
shm_du_buff_head(sdb),
len);
ipcp_sdb_release(sdb);
}
pthread_rwlock_unlock(ð_data.flows_lock);
}
return (void *) 1;
}
#ifdef __linux__
static int open_netlink_socket(void)
{
struct sockaddr_nl sa;
int fd;
memset(&sa, 0, sizeof(sa));
sa.nl_family = AF_NETLINK;
sa.nl_pid = getpid();
sa.nl_groups = RTMGRP_LINK;
fd = socket(AF_NETLINK, SOCK_RAW, NETLINK_ROUTE);
if (fd < 0)
return -1;
if (bind(fd, (struct sockaddr *) &sa, sizeof(sa))) {
close(fd);
return -1;
}
return fd;
}
static void change_flows_state(bool up)
{
int i;
uint32_t flags;
pthread_rwlock_rdlock(ð_data.flows_lock);
#if defined(BUILD_ETH_DIX)
for (i = 0; i < SYS_MAX_FLOWS; ++i)
if (eth_data.fd_to_ef[i].r_eid != -1) {
fccntl(i, FLOWGFLAGS, &flags);
if (up)
fccntl(i, FLOWSFLAGS, flags & ~FLOWFDOWN);
else
fccntl(i, FLOWSFLAGS, flags | FLOWFDOWN);
}
#elif defined(BUILD_ETH_LLC)
for (i = 0; i < MAX_SAPS; i++)
if (eth_data.ef_to_fd[i] != -1) {
fccntl(eth_data.ef_to_fd[i], FLOWGFLAGS, &flags);
if (up)
fccntl(eth_data.ef_to_fd[i],
FLOWSFLAGS, flags & ~FLOWFDOWN);
else
fccntl(eth_data.ef_to_fd[i],
FLOWSFLAGS, flags | FLOWFDOWN);
}
#endif
pthread_rwlock_unlock(ð_data.flows_lock);
}
static void close_ptr(void * o)
{
close(*((int *) o));
}
static void * eth_ipcp_if_monitor(void * o)
{
int fd;
int status;
char buf[4096];
struct iovec iov = {buf, sizeof(buf)};
struct sockaddr_nl snl;
struct msghdr msg = {(void *) &snl, sizeof(snl),
&iov, 1, NULL, 0, 0};
struct nlmsghdr * h;
struct ifinfomsg * ifi;
(void ) o;
fd = open_netlink_socket();
if (fd < 0) {
log_err("Failed to open socket.");
return (void *) -1;
}
pthread_cleanup_push(close_ptr, &fd);
while (true) {
status = recvmsg(fd, &msg, 0);
if (status < 0)
continue;
for (h = (struct nlmsghdr *) buf;
NLMSG_OK(h, (unsigned int) status);
h = NLMSG_NEXT(h, status)) {
/* Finish reading */
if (h->nlmsg_type == NLMSG_DONE)
break;
/* Message is some kind of error */
if (h->nlmsg_type == NLMSG_ERROR)
continue;
/* Only interested in link up/down */
if (h->nlmsg_type != RTM_NEWLINK)
continue;
ifi = NLMSG_DATA(h);
/* Not our interface */
if (ifi->ifi_index != eth_data.device.sll_ifindex)
continue;
if (ifi->ifi_flags & IFF_UP) {
change_flows_state(true);
log_dbg("Interface up.");
} else {
change_flows_state(false);
log_dbg("Interface down.");
}
}
}
pthread_cleanup_pop(true);
return (void *) 0;
}
#endif
#if defined (HAVE_BPF) && !defined(HAVE_NETMAP)
static int open_bpf_device(void)
{
char dev[32];
size_t i = 0;
for (i = 0; i < BPF_DEV_MAX; i++) {
int fd = -1;
snprintf(dev, sizeof(dev), "/dev/bpf%zu", i);
fd = open(dev, O_RDWR);
if (fd > -1)
return fd;
}
return -1;
}
#endif
static int eth_ipcp_bootstrap(const struct ipcp_config * conf)
{
int idx;
struct ifreq ifr;
#if defined(HAVE_NETMAP)
char ifn[IFNAMSIZ];
#elif defined(HAVE_BPF)
int enable = 1;
int disable = 0;
int blen;
#endif /* HAVE_NETMAP */
#if defined(__FreeBSD__) || defined(__APPLE__)
struct ifaddrs * ifaddr;
struct ifaddrs * ifa;
#elif defined(__linux__)
int skfd;
#endif
assert(conf);
assert(conf->type == THIS_TYPE);
if (conf->dev == NULL) {
log_err("Device name is NULL.");
return -1;
}
memset(&ifr, 0, sizeof(ifr));
memcpy(ifr.ifr_name, conf->dev, strlen(conf->dev));
#ifdef BUILD_ETH_DIX
if (conf->ethertype < 0x0600 || conf->ethertype == 0xFFFF) {
log_err("Invalid Ethertype.");
return -1;
}
eth_data.ethertype = htons(conf->ethertype);
#endif
#if defined(__FreeBSD__) || defined(__APPLE__)
if (getifaddrs(&ifaddr) < 0) {
log_err("Could not get interfaces.");
return -1;
}
for (ifa = ifaddr, idx = 0; ifa != NULL; ifa = ifa->ifa_next, ++idx) {
if (strcmp(ifa->ifa_name, conf->dev))
continue;
log_dbg("Interface %s found.", conf->dev);
#if defined(HAVE_NETMAP) || defined(HAVE_BPF)
memcpy(eth_data.hw_addr,
LLADDR((struct sockaddr_dl *) (ifa)->ifa_addr),
MAC_SIZE);
#elif defined (HAVE_RAW_SOCKETS)
memcpy(&ifr.ifr_addr, ifa->ifa_addr, sizeof(*ifa->ifa_addr));
#endif
break;
}
freeifaddrs(ifaddr);
if (ifa == NULL) {
log_err("Interface not found.");
return -1;
}
#elif defined(__linux__)
skfd = socket(AF_UNIX, SOCK_STREAM, 0);
if (skfd < 0) {
log_err("Failed to open socket.");
return -1;
}
if (ioctl(skfd, SIOCGIFHWADDR, &ifr)) {
log_err("Failed to ioctl.");
close(skfd);
return -1;
}
close(skfd);
idx = if_nametoindex(conf->dev);
if (idx == 0) {
log_err("Failed to retrieve interface index.");
close(skfd);
return -1;
}
#endif /* __FreeBSD__ */
#if defined(HAVE_NETMAP)
strcpy(ifn, "netmap:");
strcat(ifn, conf->dev);
eth_data.nmd = nm_open(ifn, NULL, 0, NULL);
if (eth_data.nmd == NULL) {
log_err("Failed to open netmap device.");
return -1;
}
memset(ð_data.poll_in, 0, sizeof(eth_data.poll_in));
memset(ð_data.poll_out, 0, sizeof(eth_data.poll_out));
eth_data.poll_in.fd = NETMAP_FD(eth_data.nmd);
eth_data.poll_in.events = POLLIN;
eth_data.poll_out.fd = NETMAP_FD(eth_data.nmd);
eth_data.poll_out.events = POLLOUT;
log_info("Using netmap device.");
#elif defined(HAVE_BPF) /* !HAVE_NETMAP */
eth_data.bpf = open_bpf_device();
if (eth_data.bpf < 0) {
log_err("Failed to open bpf device.");
return -1;
}
ioctl(eth_data.bpf, BIOCGBLEN, &blen);
if (BPF_BLEN < blen) {
log_err("BPF buffer too small (is: %ld must be: %d).",
BPF_BLEN, blen);
goto fail_device;
}
if (ioctl(eth_data.bpf, BIOCSETIF, &ifr) < 0) {
log_err("Failed to set interface.");
goto fail_device;
}
if (ioctl(eth_data.bpf, BIOCSHDRCMPLT, &enable) < 0) {
log_err("Failed to set BIOCSHDRCMPLT.");
goto fail_device;
}
if (ioctl(eth_data.bpf, BIOCSSEESENT, &disable) < 0) {
log_err("Failed to set BIOCSSEESENT.");
goto fail_device;
}
if (ioctl(eth_data.bpf, BIOCIMMEDIATE, &enable) < 0) {
log_err("Failed to set BIOCIMMEDIATE.");
goto fail_device;
}
log_info("Using Berkeley Packet Filter.");
#elif defined(HAVE_RAW_SOCKETS)
memset(&(eth_data.device), 0, sizeof(eth_data.device));
eth_data.device.sll_ifindex = idx;
eth_data.device.sll_family = AF_PACKET;
memcpy(eth_data.device.sll_addr, ifr.ifr_hwaddr.sa_data, MAC_SIZE);
eth_data.device.sll_halen = MAC_SIZE;
eth_data.device.sll_protocol = htons(ETH_P_ALL);
#if defined (BUILD_ETH_DIX)
eth_data.s_fd = socket(AF_PACKET, SOCK_RAW, eth_data.ethertype);
#elif defined (BUILD_ETH_LLC)
eth_data.s_fd = socket(AF_PACKET, SOCK_RAW, htons(ETH_P_802_2));
#endif
log_info("Using raw socket device.");
if (eth_data.s_fd < 0) {
log_err("Failed to create socket.");
return -1;
}
if (bind(eth_data.s_fd, (struct sockaddr *) ð_data.device,
sizeof(eth_data.device))) {
log_err("Failed to bind socket to interface");
goto fail_device;
}
#endif /* HAVE_NETMAP */
ipcp_set_state(IPCP_OPERATIONAL);
#ifdef __linux__
if (pthread_create(ð_data.if_monitor,
NULL,
eth_ipcp_if_monitor,
NULL)) {
ipcp_set_state(IPCP_INIT);
goto fail_device;
}
#endif
if (pthread_create(ð_data.mgmt_handler,
NULL,
eth_ipcp_mgmt_handler,
NULL)) {
ipcp_set_state(IPCP_INIT);
goto fail_mgmt_handler;
}
if (pthread_create(ð_data.sdu_reader,
NULL,
eth_ipcp_sdu_reader,
NULL)) {
ipcp_set_state(IPCP_INIT);
goto fail_sdu_reader;
}
if (pthread_create(ð_data.sdu_writer,
NULL,
eth_ipcp_sdu_writer,
NULL)) {
ipcp_set_state(IPCP_INIT);
goto fail_sdu_writer;
}
#if defined(BUILD_ETH_DIX)
log_dbg("Bootstrapped IPCP over DIX Ethernet with pid %d "
"and Ethertype 0x%X.", getpid(), conf->ethertype);
#elif defined(BUILD_ETH_LLC)
log_dbg("Bootstrapped IPCP over Ethernet with LLC with pid %d.",
getpid());
#endif
return 0;
fail_sdu_writer:
pthread_cancel(eth_data.sdu_reader);
pthread_join(eth_data.sdu_reader, NULL);
fail_sdu_reader:
pthread_cancel(eth_data.mgmt_handler);
pthread_join(eth_data.mgmt_handler, NULL);
fail_mgmt_handler:
#if defined(__linux__)
pthread_cancel(eth_data.if_monitor);
pthread_join(eth_data.if_monitor, NULL);
#endif
#if !defined(HAVE_NETMAP)
fail_device:
#endif
#if defined(HAVE_NETMAP)
nm_close(eth_data.nmd);
#elif defined(HAVE_BPF)
close(eth_data.bpf);
#elif defined(HAVE_RAW_SOCKETS)
close(eth_data.s_fd);
#endif
return -1;
}
static int eth_ipcp_reg(const uint8_t * hash)
{
if (shim_data_reg_add_entry(eth_data.shim_data, hash)) {
log_err("Failed to add " HASH_FMT " to local registry.",
HASH_VAL(hash));
return -1;
}
log_dbg("Registered " HASH_FMT ".", HASH_VAL(hash));
return 0;
}
static int eth_ipcp_unreg(const uint8_t * hash)
{
shim_data_reg_del_entry(eth_data.shim_data, hash);
return 0;
}
static int eth_ipcp_query(const uint8_t * hash)
{
uint8_t r_addr[MAC_SIZE];
struct timespec timeout = {(NAME_QUERY_TIMEO / 1000),
(NAME_QUERY_TIMEO % 1000) * MILLION};
struct dir_query * query;
int ret;
uint8_t * buf;
struct mgmt_msg * msg;
size_t len;
if (shim_data_dir_has(eth_data.shim_data, hash))
return 0;
len = sizeof(*msg) + ipcp_dir_hash_len();
buf = malloc(len + ETH_HEADER_TOT_SIZE);
if (buf == NULL)
return -1;
msg = (struct mgmt_msg *) (buf + ETH_HEADER_TOT_SIZE);
msg->code = NAME_QUERY_REQ;
memcpy(msg + 1, hash, ipcp_dir_hash_len());
memset(r_addr, 0xff, MAC_SIZE);
query = shim_data_dir_query_create(eth_data.shim_data, hash);
if (query == NULL) {
free(buf);
return -1;
}
if (eth_ipcp_send_frame(r_addr,
#if defined(BUILD_ETH_DIX)
MGMT_EID,
#elif defined(BUILD_ETH_LLC)
reverse_bits(MGMT_SAP),
reverse_bits(MGMT_SAP),
#endif
buf, len)) {
log_err("Failed to send management frame.");
shim_data_dir_query_destroy(eth_data.shim_data, query);
free(buf);
return -1;
}
free(buf);
ret = shim_data_dir_query_wait(query, &timeout);
shim_data_dir_query_destroy(eth_data.shim_data, query);
return ret;
}
static int eth_ipcp_flow_alloc(int fd,
const uint8_t * hash,
qoscube_t cube)
{
#ifdef BUILD_ETH_LLC
uint8_t ssap = 0;
#endif
uint8_t r_addr[MAC_SIZE];
uint64_t addr = 0;
log_dbg("Allocating flow to " HASH_FMT ".", HASH_VAL(hash));
assert(hash);
if (cube != QOS_CUBE_BE) {
log_dbg("Unsupported QoS requested.");
return -1;
}
if (!shim_data_dir_has(eth_data.shim_data, hash)) {
log_err("Destination unreachable.");
return -1;
}
addr = shim_data_dir_get_addr(eth_data.shim_data, hash);
pthread_rwlock_wrlock(ð_data.flows_lock);
#ifdef BUILD_ETH_LLC
ssap = bmp_allocate(eth_data.saps);
if (!bmp_is_id_valid(eth_data.saps, ssap)) {
pthread_rwlock_unlock(ð_data.flows_lock);
return -1;
}
eth_data.fd_to_ef[fd].sap = ssap;
eth_data.ef_to_fd[ssap] = fd;
#endif
pthread_rwlock_unlock(ð_data.flows_lock);
memcpy(r_addr, &addr, MAC_SIZE);
if (eth_ipcp_alloc(r_addr,
#if defined(BUILD_ETH_DIX)
fd,
#elif defined(BUILD_ETH_LLC)
ssap,
#endif
hash, cube) < 0) {
#ifdef BUILD_ETH_LLC
pthread_rwlock_wrlock(ð_data.flows_lock);
bmp_release(eth_data.saps, eth_data.fd_to_ef[fd].sap);
eth_data.fd_to_ef[fd].sap = -1;
eth_data.ef_to_fd[ssap] = -1;
pthread_rwlock_unlock(ð_data.flows_lock);
#endif
return -1;
}
fset_add(eth_data.np1_flows, fd);
#if defined(BUILD_ETH_DIX)
log_dbg("Pending flow with fd %d.", fd);
#elif defined(BUILD_ETH_LLC)
log_dbg("Pending flow with fd %d on SAP %d.", fd, ssap);
#endif
return 0;
}
static int eth_ipcp_flow_alloc_resp(int fd,
int response)
{
struct timespec ts = {0, ALLOC_TIMEO * MILLION};
struct timespec abstime;
#if defined(BUILD_ETH_DIX)
uint16_t r_eid;
#elif defined(BUILD_ETH_LLC)
uint8_t ssap;
uint8_t r_sap;
#endif
uint8_t r_addr[MAC_SIZE];
clock_gettime(PTHREAD_COND_CLOCK, &abstime);
pthread_mutex_lock(&ipcpi.alloc_lock);
while (ipcpi.alloc_id != fd && ipcp_get_state() == IPCP_OPERATIONAL) {
ts_add(&abstime, &ts, &abstime);
pthread_cond_timedwait(&ipcpi.alloc_cond,
&ipcpi.alloc_lock,
&abstime);
}
if (ipcp_get_state() != IPCP_OPERATIONAL) {
pthread_mutex_unlock(&ipcpi.alloc_lock);
return -1;
}
ipcpi.alloc_id = -1;
pthread_cond_broadcast(&ipcpi.alloc_cond);
pthread_mutex_unlock(&ipcpi.alloc_lock);
pthread_rwlock_wrlock(ð_data.flows_lock);
#if defined(BUILD_ETH_DIX)
r_eid = eth_data.fd_to_ef[fd].r_eid;
#elif defined(BUILD_ETH_LLC)
ssap = bmp_allocate(eth_data.saps);
if (!bmp_is_id_valid(eth_data.saps, ssap)) {
pthread_rwlock_unlock(ð_data.flows_lock);
return -1;
}
eth_data.fd_to_ef[fd].sap = ssap;
r_sap = eth_data.fd_to_ef[fd].r_sap;
eth_data.ef_to_fd[ssap] = fd;
#endif
memcpy(r_addr, eth_data.fd_to_ef[fd].r_addr, MAC_SIZE);
pthread_rwlock_unlock(ð_data.flows_lock);
if (eth_ipcp_alloc_resp(r_addr,
#if defined(BUILD_ETH_DIX)
fd, r_eid,
#elif defined(BUILD_ETH_LLC)
ssap, r_sap,
#endif
response) < 0) {
#ifdef BUILD_ETH_LLC
pthread_rwlock_wrlock(ð_data.flows_lock);
bmp_release(eth_data.saps, eth_data.fd_to_ef[fd].sap);
pthread_rwlock_unlock(ð_data.flows_lock);
#endif
return -1;
}
fset_add(eth_data.np1_flows, fd);
#if defined(BUILD_ETH_DIX)
log_dbg("Accepted flow, fd %d.", fd);
#elif defined(BUILD_ETH_LLC)
log_dbg("Accepted flow, fd %d, SAP %d.", fd, (uint8_t)ssap);
#endif
return 0;
}
static int eth_ipcp_flow_dealloc(int fd)
{
#ifdef BUILD_ETH_LLC
uint8_t sap;
#endif
ipcp_flow_fini(fd);
pthread_rwlock_wrlock(ð_data.flows_lock);
fset_del(eth_data.np1_flows, fd);
#if defined(BUILD_ETH_DIX)
eth_data.fd_to_ef[fd].r_eid = -1;
#elif defined BUILD_ETH_LLC
sap = eth_data.fd_to_ef[fd].sap;
bmp_release(eth_data.saps, sap);
eth_data.fd_to_ef[fd].sap = -1;
eth_data.fd_to_ef[fd].r_sap = -1;
eth_data.ef_to_fd[sap] = -1;
#endif
memset(ð_data.fd_to_ef[fd].r_addr, 0, MAC_SIZE);
pthread_rwlock_unlock(ð_data.flows_lock);
flow_dealloc(fd);
log_dbg("Flow with fd %d deallocated.", fd);
return 0;
}
static struct ipcp_ops eth_ops = {
.ipcp_bootstrap = eth_ipcp_bootstrap,
.ipcp_enroll = NULL,
.ipcp_connect = NULL,
.ipcp_disconnect = NULL,
.ipcp_reg = eth_ipcp_reg,
.ipcp_unreg = eth_ipcp_unreg,
.ipcp_query = eth_ipcp_query,
.ipcp_flow_alloc = eth_ipcp_flow_alloc,
.ipcp_flow_alloc_resp = eth_ipcp_flow_alloc_resp,
.ipcp_flow_dealloc = eth_ipcp_flow_dealloc
};
int main(int argc,
char * argv[])
{
if (ipcp_init(argc, argv, ð_ops) < 0)
goto fail_init;
if (eth_data_init() < 0) {
#if defined(BUILD_ETH_DIX)
log_err("Failed to init eth-llc data.");
#elif defined(BUILD_ETH_LLC)
log_err("Failed to init eth-dix data.");
#endif
goto fail_data_init;
}
if (ipcp_boot() < 0) {
log_err("Failed to boot IPCP.");
goto fail_boot;
}
if (ipcp_create_r(getpid(), 0)) {
log_err("Failed to notify IRMd we are initialized.");
ipcp_set_state(IPCP_NULL);
goto fail_create_r;
}
ipcp_shutdown();
if (ipcp_get_state() == IPCP_SHUTDOWN) {
pthread_cancel(eth_data.sdu_writer);
pthread_cancel(eth_data.sdu_reader);
pthread_cancel(eth_data.mgmt_handler);
#ifdef __linux__
pthread_cancel(eth_data.if_monitor);
#endif
pthread_join(eth_data.sdu_writer, NULL);
pthread_join(eth_data.sdu_reader, NULL);
pthread_join(eth_data.mgmt_handler, NULL);
#ifdef __linux__
pthread_join(eth_data.if_monitor, NULL);
#endif
}
eth_data_fini();
ipcp_fini();
exit(EXIT_SUCCESS);
fail_create_r:
ipcp_shutdown();
fail_boot:
eth_data_fini();
fail_data_init:
ipcp_fini();
fail_init:
ipcp_create_r(getpid(), -1);
exit(EXIT_FAILURE);
}
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