youtubeUnblock/youtubeUnblock.c

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#define _GNU_SOURCE
#ifndef __linux__
#error "The package is linux only!"
#endif
#ifdef KERNEL_SPACE
#error "The build aims to the kernel, not userspace"
#endif
#include <stdio.h>
#include <stdlib.h>
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/* Warning is ok, use this for Entware */
#include <libnetfilter_queue/linux_nfnetlink_queue.h>
#include <libmnl/libmnl.h>
#include <libnetfilter_queue/libnetfilter_queue.h>
#include <libnetfilter_queue/libnetfilter_queue_ipv4.h>
#include <libnetfilter_queue/libnetfilter_queue_tcp.h>
#include <libnetfilter_queue/libnetfilter_queue_udp.h>
#include <libnetfilter_queue/pktbuff.h>
#include <netinet/ip.h>
#include <netinet/tcp.h>
#include <netinet/udp.h>
#include <linux/if_ether.h>
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#include <linux/netfilter.h>
#include <pthread.h>
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#include <sys/socket.h>
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#include "config.h"
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#include "mangle.h"
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#include "args.h"
#include "utils.h"
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#include "logging.h"
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pthread_mutex_t rawsocket_lock;
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int rawsocket = -2;
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pthread_mutex_t raw6socket_lock;
int raw6socket = -2;
static int open_socket(struct mnl_socket **_nl) {
struct mnl_socket *nl = NULL;
nl = mnl_socket_open(NETLINK_NETFILTER);
if (nl == NULL) {
perror("mnl_socket_open");
return -1;
}
if (mnl_socket_bind(nl, 0, MNL_SOCKET_AUTOPID) < 0) {
perror("mnl_socket_bind");
mnl_socket_close(nl);
return -1;
}
*_nl = nl;
return 0;
}
static int close_socket(struct mnl_socket **_nl) {
struct mnl_socket *nl = *_nl;
if (nl == NULL) return 1;
if (mnl_socket_close(nl) < 0) {
perror("mnl_socket_close");
return -1;
}
*_nl = NULL;
return 0;
}
static int open_raw_socket(void) {
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if (rawsocket != -2) {
errno = EALREADY;
perror("Raw socket is already opened");
return -1;
}
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rawsocket = socket(AF_INET, SOCK_RAW, IPPROTO_RAW);
if (rawsocket == -1) {
perror("Unable to create raw socket");
return -1;
}
int mark = config.mark;
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if (setsockopt(rawsocket, SOL_SOCKET, SO_MARK, &mark, sizeof(mark)) < 0)
{
fprintf(stderr, "setsockopt(SO_MARK, %d) failed\n", mark);
return -1;
}
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int mst = pthread_mutex_init(&rawsocket_lock, NULL);
if (mst) {
fprintf(stderr, "Mutex err: %d\n", mst);
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close(rawsocket);
errno = mst;
return -1;
}
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return rawsocket;
}
static int close_raw_socket(void) {
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if (rawsocket < 0) {
errno = EALREADY;
perror("Raw socket is not set");
return -1;
}
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if (close(rawsocket)) {
perror("Unable to close raw socket");
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pthread_mutex_destroy(&rawsocket_lock);
return -1;
}
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pthread_mutex_destroy(&rawsocket_lock);
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rawsocket = -2;
return 0;
}
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static int open_raw6_socket(void) {
if (raw6socket != -2) {
errno = EALREADY;
perror("Raw socket is already opened");
return -1;
}
raw6socket = socket(AF_INET6, SOCK_RAW, IPPROTO_RAW);
if (rawsocket == -1) {
perror("Unable to create raw socket");
return -1;
}
int mark = config.mark;
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if (setsockopt(raw6socket, SOL_SOCKET, SO_MARK, &mark, sizeof(mark)) < 0)
{
fprintf(stderr, "setsockopt(SO_MARK, %d) failed\n", mark);
return -1;
}
int mst = pthread_mutex_init(&raw6socket_lock, NULL);
if (mst) {
fprintf(stderr, "Mutex err: %d\n", mst);
close(raw6socket);
errno = mst;
return -1;
}
return raw6socket;
}
static int close_raw6_socket(void) {
if (raw6socket < 0) {
errno = EALREADY;
perror("Raw socket is not set");
return -1;
}
if (close(raw6socket)) {
perror("Unable to close raw socket");
pthread_mutex_destroy(&rawsocket_lock);
return -1;
}
pthread_mutex_destroy(&raw6socket_lock);
raw6socket = -2;
return 0;
}
static int send_raw_ipv4(const uint8_t *pkt, uint32_t pktlen) {
int ret;
if (pktlen > AVAILABLE_MTU) return -ENOMEM;
struct iphdr *iph;
if ((ret = ip4_payload_split(
(uint8_t *)pkt, pktlen, &iph, NULL, NULL, NULL)) < 0) {
errno = -ret;
return ret;
}
struct sockaddr_in daddr = {
.sin_family = AF_INET,
/* Always 0 for raw socket */
.sin_port = 0,
.sin_addr = {
.s_addr = iph->daddr
}
};
if (config.threads != 1)
pthread_mutex_lock(&rawsocket_lock);
int sent = sendto(rawsocket,
pkt, pktlen, 0,
(struct sockaddr *)&daddr, sizeof(daddr));
if (config.threads != 1)
pthread_mutex_unlock(&rawsocket_lock);
/* The function will return -errno on error as well as errno value set itself */
if (sent < 0) sent = -errno;
return sent;
}
static int send_raw_ipv6(const uint8_t *pkt, uint32_t pktlen) {
int ret;
if (pktlen > AVAILABLE_MTU) return -ENOMEM;
struct ip6_hdr *iph;
if ((ret = ip6_payload_split(
(uint8_t *)pkt, pktlen, &iph, NULL, NULL, NULL)) < 0) {
errno = -ret;
return ret;
}
struct sockaddr_in6 daddr = {
.sin6_family = AF_INET6,
/* Always 0 for raw socket */
.sin6_port = 0,
.sin6_addr = iph->ip6_dst
};
tcp6_set_checksum((void *)(uint8_t *)pkt + sizeof(struct ip6_hdr), (void *)pkt);
if (config.threads != 1)
pthread_mutex_lock(&rawsocket_lock);
int sent = sendto(raw6socket,
pkt, pktlen, 0,
(struct sockaddr *)&daddr, sizeof(daddr));
lgtrace_addp("rawsocket sent %d", sent);
if (config.threads != 1)
pthread_mutex_unlock(&rawsocket_lock);
/* The function will return -errno on error as well as errno value set itself */
if (sent < 0) sent = -errno;
return sent;
}
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static int send_raw_socket(const uint8_t *pkt, uint32_t pktlen) {
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int ret;
if (pktlen > AVAILABLE_MTU) {
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if (config.verbose)
printf("Split packet!\n");
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uint8_t buff1[MNL_SOCKET_BUFFER_SIZE];
uint32_t buff1_size = MNL_SOCKET_BUFFER_SIZE;
uint8_t buff2[MNL_SOCKET_BUFFER_SIZE];
uint32_t buff2_size = MNL_SOCKET_BUFFER_SIZE;
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switch (config.fragmentation_strategy) {
case FRAG_STRAT_TCP:
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if ((ret = tcp_frag(pkt, pktlen, AVAILABLE_MTU-128,
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buff1, &buff1_size, buff2, &buff2_size)) < 0) {
errno = -ret;
return ret;
}
break;
case FRAG_STRAT_IP:
if ((ret = ip4_frag(pkt, pktlen, AVAILABLE_MTU-128,
buff1, &buff1_size, buff2, &buff2_size)) < 0) {
errno = -ret;
return ret;
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}
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break;
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default:
errno = EINVAL;
printf("send_raw_socket: Packet is too big but fragmentation is disabled!\n");
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return -EINVAL;
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}
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int sent = 0;
int status = send_raw_socket(buff1, buff1_size);
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if (status >= 0) sent += status;
else {
return status;
}
status = send_raw_socket(buff2, buff2_size);
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if (status >= 0) sent += status;
else {
return status;
}
return sent;
}
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int ipvx = netproto_version(pkt, pktlen);
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if (ipvx == IP4VERSION)
return send_raw_ipv4(pkt, pktlen);
else if (ipvx == IP6VERSION)
return send_raw_ipv6(pkt, pktlen);
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printf("proto version %d is unsupported\n", ipvx);
return -EINVAL;
}
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struct packet_data {
uint32_t id;
uint16_t hw_proto;
uint8_t hook;
void *payload;
uint16_t payload_len;
};
// Per-queue data. Passed to queue_cb.
struct queue_data {
struct mnl_socket **_nl;
int queue_num;
};
/**
* Used to accept unsupported packets (GSOs)
*/
static int fallback_accept_packet(uint32_t id, struct queue_data qdata) {
char buf[MNL_SOCKET_BUFFER_SIZE];
struct nlmsghdr *verdnlh;
verdnlh = nfq_nlmsg_put(buf, NFQNL_MSG_VERDICT, qdata.queue_num);
nfq_nlmsg_verdict_put(verdnlh, id, NF_ACCEPT);
if (mnl_socket_sendto(*qdata._nl, verdnlh, verdnlh->nlmsg_len) < 0) {
perror("mnl_socket_send");
return MNL_CB_ERROR;
}
return MNL_CB_OK;
}
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struct dps_t {
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uint8_t *pkt;
uint32_t pktlen;
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// Time for the packet in milliseconds
uint32_t timer;
};
// Note that the thread will automatically release dps_t and pkt_buff
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void *delay_packet_send_fn(void *data) {
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struct dps_t *dpdt = data;
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uint8_t *pkt = dpdt->pkt;
uint32_t pktlen = dpdt->pktlen;
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usleep(dpdt->timer * 1000);
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int ret = send_raw_socket(pkt, pktlen);
if (ret < 0) {
errno = -ret;
perror("send delayed raw packet");
}
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free(pkt);
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free(dpdt);
return NULL;
}
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void delay_packet_send(const unsigned char *data, unsigned int data_len, unsigned int delay_ms) {
struct dps_t *dpdt = malloc(sizeof(struct dps_t));
dpdt->pkt = malloc(data_len);
memcpy(dpdt->pkt, data, data_len);
dpdt->pktlen = data_len;
dpdt->timer = delay_ms;
pthread_t thr;
pthread_create(&thr, NULL, delay_packet_send_fn, dpdt);
pthread_detach(thr);
}
static int queue_cb(const struct nlmsghdr *nlh, void *data) {
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char buf[MNL_SOCKET_BUFFER_SIZE];
struct queue_data *qdata = data;
struct nfqnl_msg_packet_hdr *ph = NULL;
struct nlattr *attr[NFQA_MAX+1] = {0};
struct packet_data packet = {0};
if (nfq_nlmsg_parse(nlh, attr) < 0) {
perror("Attr parse");
return MNL_CB_ERROR;
}
if (attr[NFQA_PACKET_HDR] == NULL) {
errno = ENODATA;
perror("Metaheader not set");
return MNL_CB_ERROR;
}
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ph = mnl_attr_get_payload(attr[NFQA_PACKET_HDR]);
packet.id = ntohl(ph->packet_id);
packet.hw_proto = ntohs(ph->hw_protocol);
packet.hook = ph->hook;
packet.payload_len = mnl_attr_get_payload_len(attr[NFQA_PAYLOAD]);
packet.payload = mnl_attr_get_payload(attr[NFQA_PAYLOAD]);
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if (attr[NFQA_CAP_LEN] != NULL && ntohl(mnl_attr_get_u32(attr[NFQA_CAP_LEN])) != packet.payload_len) {
fprintf(stderr, "The packet was truncated! Skip!\n");
return fallback_accept_packet(packet.id, *qdata);
}
if (attr[NFQA_MARK] != NULL) {
// Skip packets sent by rawsocket to escape infinity loop.
if ((ntohl(mnl_attr_get_u32(attr[NFQA_MARK])) & config.mark) ==
config.mark) {
return fallback_accept_packet(packet.id, *qdata);
}
}
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struct nlmsghdr *verdnlh;
verdnlh = nfq_nlmsg_put(buf, NFQNL_MSG_VERDICT, qdata->queue_num);
int ret = process_packet(packet.payload, packet.payload_len);
switch (ret) {
case PKT_DROP:
nfq_nlmsg_verdict_put(verdnlh, packet.id, NF_DROP);
break;
default:
nfq_nlmsg_verdict_put(verdnlh, packet.id, NF_ACCEPT);
break;
}
if (mnl_socket_sendto(*qdata->_nl, verdnlh, verdnlh->nlmsg_len) < 0) {
perror("mnl_socket_send");
return MNL_CB_ERROR;
}
return MNL_CB_OK;
}
#define BUF_SIZE (0xffff + (MNL_SOCKET_BUFFER_SIZE / 2))
int init_queue(int queue_num) {
struct mnl_socket *nl;
if (open_socket(&nl)) {
perror("Unable to open socket");
return -1;
}
uint32_t portid = mnl_socket_get_portid(nl);
struct nlmsghdr *nlh;
char buf[BUF_SIZE];
nlh = nfq_nlmsg_put(buf, NFQNL_MSG_CONFIG, queue_num);
nfq_nlmsg_cfg_put_cmd(nlh, AF_INET, NFQNL_CFG_CMD_BIND);
if (mnl_socket_sendto(nl, nlh, nlh->nlmsg_len) < 0) {
perror("mnl_socket_send");
goto die;
}
nlh = nfq_nlmsg_put(buf, NFQNL_MSG_CONFIG, queue_num);
nfq_nlmsg_cfg_put_params(nlh, NFQNL_COPY_PACKET, 0xffff);
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if (config.use_gso) {
mnl_attr_put_u32(nlh, NFQA_CFG_FLAGS, htonl(NFQA_CFG_F_GSO));
mnl_attr_put_u32(nlh, NFQA_CFG_MASK, htonl(NFQA_CFG_F_GSO));
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}
if (mnl_socket_sendto(nl, nlh, nlh->nlmsg_len) < 0) {
perror("mnl_socket_send");
goto die;
}
/* ENOBUFS is signalled to userspace when packets were lost
* on kernel side. In most cases, userspace isn't interested
* in this information, so turn it off.
*/
int ret = 1;
mnl_socket_setsockopt(nl, NETLINK_NO_ENOBUFS, &ret, sizeof(int));
struct queue_data qdata = {
._nl = &nl,
.queue_num = queue_num
};
printf("Queue %d started\n", qdata.queue_num);
while (1) {
ret = mnl_socket_recvfrom(nl, buf, BUF_SIZE);
if (ret == -1) {
perror("mnl_socket_recvfrom");
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goto die;
}
ret = mnl_cb_run(buf, ret, 0, portid, queue_cb, &qdata);
if (ret < 0) {
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lgerror("mnl_cb_run", -EPERM);
if (errno == EPERM) {
printf("Probably another instance of youtubeUnblock with the same queue number is running\n");
} else {
printf("Make sure the nfnetlink_queue kernel module is loaded\n");
}
goto die;
}
}
close_socket(&nl);
return 0;
die:
close_socket(&nl);
return -1;
}
// Per-queue config. Used to initialize a queue. Passed to wrapper
struct queue_conf {
uint16_t i;
int queue_num;
};
struct queue_res {
int status;
};
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static struct queue_res defqres = {0};
static struct queue_res threads_reses[MAX_THREADS];
void *init_queue_wrapper(void *qdconf) {
struct queue_conf *qconf = qdconf;
struct queue_res *thres = threads_reses + qconf->i;
thres->status = init_queue(qconf->queue_num);
fprintf(stderr, "Thread %d exited with status %d\n", qconf->i, thres->status);
return thres;
}
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struct instance_config_t instance_config = {
.send_raw_packet = send_raw_socket,
.send_delayed_packet = delay_packet_send,
};
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int main(int argc, char *argv[]) {
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int ret;
if ((ret = parse_args(argc, argv)) != 0) {
if (ret < 0) {
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perror("Unable to parse args");
exit(EXIT_FAILURE);
}
exit(EXIT_SUCCESS);
}
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print_version();
print_welcome();
if (open_raw_socket() < 0) {
perror("Unable to open raw socket");
exit(EXIT_FAILURE);
}
if (config.use_ipv6) {
if (open_raw6_socket() < 0) {
perror("Unable to open raw socket for ipv6");
close_raw_socket();
exit(EXIT_FAILURE);
}
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}
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struct queue_res *qres = &defqres;
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if (config.threads == 1) {
struct queue_conf tconf = {
.i = 0,
.queue_num = config.queue_start_num
};
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qres = init_queue_wrapper(&tconf);
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} else {
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printf("%d threads wil be used\n", config.threads);
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struct queue_conf thread_confs[MAX_THREADS];
pthread_t threads[MAX_THREADS];
for (int i = 0; i < config.threads; i++) {
struct queue_conf *tconf = thread_confs + i;
pthread_t *thr = threads + i;
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tconf->queue_num = config.queue_start_num + i;
tconf->i = i;
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pthread_create(thr, NULL, init_queue_wrapper, tconf);
}
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void *res;
for (int i = 0; i < config.threads; i++) {
pthread_join(threads[i], &res);
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qres = res;
}
}
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close_raw_socket();
if (config.use_ipv6)
close_raw6_socket();
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return -qres->status;
}