github/wangyu-udp2raw
1
0
Fork 0
mirror of https://github.com/wangyu-/udp2raw.git synced 2025-04-23 20:39:33 +08:00
Code Issues Packages Projects Releases Wiki Activity

Merge pull request #1 from wangyu-/master

Browse Source 
merge
This commit is contained in:
HSXX 2018-02-10 10:35:39 +08:00 committed by GitHub
commit dcaf888996
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
43 changed files with 4869 additions and 2281 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

13
Dockerfile Normal file
View File

@ -0,0 +1,13 @@
FROM alpine:3.6 as builder
WORKDIR /
RUN apk add --no-cache git build-base linux-headers && \
git clone https://github.com/wangyu-/udp2raw-tunnel.git && \
cd udp2raw-tunnel && \
make dynamic
FROM alpine:3.6
RUN apk add --no-cache libstdc++ iptables
COPY --from=builder /udp2raw-tunnel/udp2raw_dynamic /bin/
ENTRYPOINT [ "/bin/udp2raw_dynamic" ]

6
ISSUE_TEMPLATE.md Normal file
View File

@ -0,0 +1,6 @@
For English speaking user
https://github.com/wangyu-/UDPspeeder/wiki/Issue-Guide
中文用户请看:
https://github.com/wangyu-/UDPspeeder/wiki/发Issue前请看
(否则Issue可能被忽略或被直接关掉)

59
README.md
View File

@ -1,30 +1,21 @@
# Udp2raw-tunnel
![image0](images/image0.PNG)
A Tunnel which turns UDP Traffic into Encrypted FakeTCP/UDP/ICMP Traffic by using Raw Socket, helps you Bypass UDP FireWalls(or Unstable UDP Environment). It can defend Replay-Attack and supports Multiplexing. It also acts as a Connection Stabilizer.
It can tunnel any traffic when used together with a UDP-based VPN(such as OpenVPN).Check [this link](https://github.com/wangyu-/udp2raw-tunnel#tunneling-any-traffic-via-raw-traffic-by-using-udp2raw-openvpn) for more info.
![image0](images/image0.PNG)
[简体中文](/doc/README.zh-cn.md)
# Frequently Asked Questions
### Q: What is the advantage of using udp2raw FakeTCP mode,why not use a TCP-based VPN(such as OpenVPN TCP mode)?
Answer: **TCP doesnt allow real-time/out-of-order delivery**. **If you use OpenVPN TCP mode to turn UDP traffic into TCP,there will be latency issue**:the loss of a single packet blocks all following packet until re-transmission is done. This will cause unacceptable delay for gaming and voice chatting.
When used alone,udp2raw tunnels only UDP traffic. Nevertheless,if you used udp2raw + any UDP-based VPN together,you can tunnel any traffic(include TCP/UDP/ICMP),currently OpenVPN/L2TP/ShadowVPN and [tinyFecVPN](https://github.com/wangyu-/tinyFecVPN) are confirmed to be supported.
**TCP also has re-transmission and congestion control which cant be disabled.** UDP programs usualy want to control packet sending rate by themselves. If you use OpenVPN TCP mode this cant be done because of the congestion control of underlying TCP protocol. Further more,with the re-transmission of underlying TCP,**if you send too many udp packets via an OpenVPN TCP connection,the connection will become completely unusable for a while**(It will eventually recover as most of the re-transmission is done,but it wont be very soon).
![image_vpn](images/udp2rawopenvpn.PNG)
Those issues exist for almost all TCP-based VPNs.
For udp2raw there is no underlying TCP protocol,udp2raw just add TCP headers to UDP packets directly by using raw socket. It supports real-time/out-of-order delivery,there is no re-transmission and congestion control. **Udp2raw doesnt have all above issues**.
### Q: Is udp2raw designed for replacing VPN?
Answer: No. Udp2raw is designed for bypassing UDP restrictions. It doesnt have all of the features a VPN has(such as transparently redirect all traffic).
Instead of replacing VPN,udp2raw can be used with any UDP-based VPN together to grant UDP-based VPN the ablity of bypassing UDP restrictions,while not having the performance issue involved by a TCP-based VPN. Check [this link](https://github.com/wangyu-/udp2raw-tunnel#tunneling-any-traffic-via-raw-traffic-by-using-udp2raw-openvpn) for more info.
[简体中文](/doc/README.zh-cn.md)(内容更丰富)
# Support Platforms
Linux host (including desktop Linux,Android phone/tablet,OpenWRT router,or Raspberry PI) with root access.
For Winodws/MacOS,the 4.4mb virtual image with udp2raw pre-installed has been released,you can load it with Vmware/VirtualBox.The virtual image has been set to auto obtain ip,udp2raw can be run imidiately after boot finished(make sure network mode of virtual machine has been set to bridged)(only udp2raw has to be run under virtual machine,all other programs runs under Windows/MacOS as usual).
For Windows and MacOS You can run udp2raw inside [this](https://github.com/wangyu-/udp2raw-tunnel/releases/download/20171108.0/lede-17.01.2-x86_virtual_machine_image.zip) 7.5mb virtual machine image(make sure network adapter runs at bridged mode).
# Features
@ -60,6 +51,22 @@ For example, if you use udp2raw + OpenVPN, OpenVPN won't lose connection after a
### Keywords
`Bypass UDP QoS` `Bypass UDP Blocking` `Bypass OpenVPN TCP over TCP problem` `OpenVPN over ICMP` `UDP to ICMP tunnel` `UDP to TCP tunnel` `UDP over ICMP` `UDP over TCP`
# Frequently Asked Questions
### Q: What is the advantage of using udp2raw FakeTCP mode,why not use a TCP-based VPN(such as OpenVPN TCP mode)?
Answer: **TCP doesnt allow real-time/out-of-order delivery**. **If you use OpenVPN TCP mode to turn UDP traffic into TCP,there will be latency issue**:the loss of a single packet blocks all following packet until re-transmission is done. This will cause unacceptable delay for gaming and voice chatting.
**TCP also has re-transmission and congestion control which cant be disabled.** UDP programs usualy want to control packet sending rate by themselves. If you use OpenVPN TCP mode this cant be done because of the congestion control of underlying TCP protocol. Further more,with the re-transmission of underlying TCP,**if you send too many udp packets via an OpenVPN TCP connection,the connection will become completely unusable for a while**(It will eventually recover as most of the re-transmission is done,but it wont be very soon).
Those issues exist for almost all TCP-based VPNs.
For udp2raw there is no underlying TCP protocol,udp2raw just add TCP headers to UDP packets directly by using raw socket. It supports real-time/out-of-order delivery,there is no re-transmission and congestion control. **Udp2raw doesnt have all above issues**.
### Q: Is udp2raw designed for replacing VPN?
Answer: No. Udp2raw is designed for bypassing UDP restrictions. It doesnt have all of the features a VPN has(such as transparently redirect all traffic).
Instead of replacing VPN,udp2raw can be used with any UDP-based VPN together to grant UDP-based VPN the ablity of bypassing UDP restrictions,while not having the performance issue involved by a TCP-based VPN. Check [this link](https://github.com/wangyu-/udp2raw-tunnel#tunneling-any-traffic-via-raw-traffic-by-using-udp2raw-openvpn) for more info.
# Getting Started
### Installing
Download binary release from https://github.com/wangyu-/udp2raw-tunnel/releases
@ -74,6 +81,8 @@ Assume your UDP is blocked or being QOS-ed or just poorly supported. Assume your
# Run at client side
./udp2raw_amd64 -c -l0.0.0.0:3333 -r44.55.66.77:4096 -a -k "passwd" --raw-mode faketcp
```
(The above commands need to be run as root. For better security, with some extra steps, you can run udp2raw as non-root. Check [this link](https://github.com/wangyu-/udp2raw-tunnel/wiki/run-udp2raw-as-non-root) for more info )
###### Server Output:
![](images/output_server.PNG)
###### Client Output:
@ -84,15 +93,15 @@ Now,an encrypted raw tunnel has been established between client and server throu
### Note
To run on Android, check [Android_Guide](/doc/android_guide.md)
If you have connection problems.Take a look at `--seq-mode` option.
If you have connection problems. Take a look at `--seq-mode` option.
You can run udp2raw with a non-root account(for better security).Take a look at [#26](https://github.com/wangyu-/udp2raw-tunnel/issues/26) for more info.
# Advanced Topic
### Usage
```
udp2raw-tunnel
git version:adbe7d110f build date:Sep 6 2017 05:37:45
git version:6e1df4b39f build date:Oct 24 2017 09:21:15
repository: https://github.com/wangyu-/udp2raw-tunnel
usage:
@ -115,7 +124,9 @@ client options:
other options:
--conf-file <string> read options from a configuration file instead of command line.
check example.conf in repo for format
--log-level <number> 0:never 1:fatal 2:error 3:warn
--fifo <string> use a fifo(named pipe) for sending commands to the running program,
check readme.md in repository for supported commands.
--log-level <number> 0:never 1:fatal 2:error 3:warn
4:info (default) 5:debug 6:trace
--log-position enable file name,function name,line number in log
--disable-color disable log color
@ -129,7 +140,7 @@ other options:
2:increase seq randomly, about every 3 packets,simply ack last seq
3:simulate an almost real seq/ack procedure(default)
4:similiar to 3,but do not consider TCP Option Window_Scale,
maybe useful when firewall doesnt support TCP Option
maybe useful when firewall doesnt support TCP Option
--lower-level <string> send packets at OSI level 2, format:'if_name#dest_mac_adress'
ie:'eth0#00:23:45:67:89:b9'.or try '--lower-level auto' to obtain
the parameter automatically,specify it manually if 'auto' failed
@ -187,6 +198,10 @@ Then start the server with
./udp2raw_amd64 --conf-file server.conf
```
### `--fifo`
Use a fifo(named pipe) for sending commands to the running program. For example `--fifo fifo.file`.
At client side,you can use `echo reconnect >fifo.file` to force client to reconnect.Currently no command has been implemented for server.
# Peformance Test
#### Test method:
@ -218,7 +233,7 @@ raw_mode: faketcp cipher_mode: aes128cbc  auth_mode: md5
# Application
## Tunneling any traffic via raw traffic by using udp2raw +openvpn
![image_vpn](images/openvpn.PNG)
![image_vpn](images/udp2rawopenvpn.PNG)
1. Bypasses UDP block/UDP QOS
2. No TCP over TCP problem (TCP over TCP problem http://sites.inka.de/bigred/devel/tcp-tcp.html ,https://community.openvpn.net/openvpn/ticket/2 )

287
common.cpp
View File

@ -7,32 +7,16 @@
#include "common.h"
#include "log.h"
#include "misc.h"
int about_to_exit=0;
raw_mode_t raw_mode=mode_faketcp;
unordered_map<int, const char*> raw_mode_tostring = {{mode_faketcp, "faketcp"}, {mode_udp, "udp"}, {mode_icmp, "icmp"}};
int socket_buf_size=1024*1024;
int force_socket_buf=0;
static int random_number_fd=-1;
string iptables_pattern="";
int iptables_rule_added=0;
int iptables_rule_keeped=0;
int iptables_rule_keep_index=0;
//int iptables_rule_no_clear=0;
program_mode_t program_mode=unset_mode;//0 unset; 1client 2server
u64_t get_current_time()
{
timespec tmp_time;
clock_gettime(CLOCK_MONOTONIC, &tmp_time);
return tmp_time.tv_sec*1000+tmp_time.tv_nsec/(1000*1000l);
return ((u64_t)tmp_time.tv_sec)*1000llu+((u64_t)tmp_time.tv_nsec)/(1000*1000llu);
}
u64_t pack_u64(u32_t a,u32_t b)
@ -58,167 +42,6 @@ char * my_ntoa(u32_t ip)
return inet_ntoa(a);
}
/*
int add_iptables_rule(const char * s)
{
iptables_pattern=s;
string rule="iptables -I INPUT ";
rule+=iptables_pattern;
rule+=" -j DROP";
char *output;
if(run_command(rule.c_str(),output)==0)
{
mylog(log_warn,"auto added iptables rule by: %s\n",rule.c_str());
}
else
{
mylog(log_fatal,"auto added iptables failed by: %s\n",rule.c_str());
//mylog(log_fatal,"reason : %s\n",strerror(errno));
myexit(-1);
}
iptables_rule_added=1;
return 0;
}*/
string chain[2];
string rule_keep[2];
string rule_keep_add[2];
string rule_keep_del[2];
u64_t keep_rule_last_time=0;
pthread_t keep_thread;
int keep_thread_running=0;
int iptables_gen_add(const char * s,u32_t const_id)
{
string dummy="";
iptables_pattern=s;
chain[0] =dummy+ "udp2rawDwrW_C";
rule_keep[0]=dummy+ iptables_pattern+" -j " +chain[0];
rule_keep_add[0]=dummy+"iptables -I INPUT "+rule_keep[0];
char *output;
run_command(dummy+"iptables -N "+chain[0],output,show_none);
run_command(dummy+"iptables -F "+chain[0],output);
run_command(dummy+"iptables -I "+chain[0] + " -j DROP",output);
rule_keep_del[0]=dummy+"iptables -D INPUT "+rule_keep[0];
run_command(rule_keep_del[0],output,show_none);
run_command(rule_keep_del[0],output,show_none);
if(run_command(rule_keep_add[0],output)!=0)
{
mylog(log_fatal,"auto added iptables failed by: %s\n",rule_keep_add[0].c_str());
myexit(-1);
}
return 0;
}
int iptables_rule_init(const char * s,u32_t const_id,int keep)
{
iptables_pattern=s;
iptables_rule_added=1;
iptables_rule_keeped=keep;
string dummy="";
char const_id_str[100];
sprintf(const_id_str, "%x", const_id);
chain[0] =dummy+ "udp2rawDwrW_"+const_id_str+"_C0";
chain[1] =dummy+ "udp2rawDwrW_"+const_id_str+"_C1";
rule_keep[0]=dummy+ iptables_pattern+" -j " +chain[0];
rule_keep[1]=dummy+ iptables_pattern+" -j " +chain[1];
rule_keep_add[0]=dummy+"iptables -I INPUT "+rule_keep[0];
rule_keep_add[1]=dummy+"iptables -I INPUT "+rule_keep[1];
rule_keep_del[0]=dummy+"iptables -D INPUT "+rule_keep[0];
rule_keep_del[1]=dummy+"iptables -D INPUT "+rule_keep[1];
keep_rule_last_time=get_current_time();
char *output;
for(int i=0;i<=iptables_rule_keeped;i++)
{
run_command(dummy+"iptables -N "+chain[i],output);
run_command(dummy+"iptables -F "+chain[i],output);
run_command(dummy+"iptables -I "+chain[i] + " -j DROP",output);
if(run_command(rule_keep_add[i],output)!=0)
{
mylog(log_fatal,"auto added iptables failed by: %s\n",rule_keep_add[i].c_str());
myexit(-1);
}
}
mylog(log_warn,"auto added iptables rules\n");
return 0;
}
int keep_iptables_rule() //magic to work on a machine without grep/iptables --check/-m commment
{
/*
if(iptables_rule_keeped==0) return 0;
uint64_t tmp_current_time=get_current_time();
if(tmp_current_time-keep_rule_last_time<=iptables_rule_keep_interval)
{
return 0;
}
else
{
keep_rule_last_time=tmp_current_time;
}*/
mylog(log_debug,"keep_iptables_rule begin %llu\n",get_current_time());
iptables_rule_keep_index+=1;
iptables_rule_keep_index%=2;
string dummy="";
char *output;
int i=iptables_rule_keep_index;
run_command(dummy + "iptables -N " + chain[i], output,show_none);
if (run_command(dummy + "iptables -F " + chain[i], output,show_none) != 0)
mylog(log_warn, "iptables -F failed %d\n",i);
if (run_command(dummy + "iptables -I " + chain[i] + " -j DROP",output,show_none) != 0)
mylog(log_warn, "iptables -I failed %d\n",i);
if (run_command(rule_keep_del[i], output,show_none) != 0)
mylog(log_warn, "rule_keep_del failed %d\n",i);
run_command(rule_keep_del[i], output,show_none); //do it twice,incase it fails for unknown random reason
if(run_command(rule_keep_add[i], output,show_log)!=0)
mylog(log_warn, "rule_keep_del failed %d\n",i);
mylog(log_debug,"keep_iptables_rule end %llu\n",get_current_time());
return 0;
}
int clear_iptables_rule()
{
char *output;
string dummy="";
if(!iptables_rule_added) return 0;
for(int i=0;i<=iptables_rule_keeped;i++ )
{
run_command(rule_keep_del[i],output);
run_command(dummy+"iptables -F "+chain[i],output);
run_command(dummy+"iptables -X "+chain[i],output);
}
return 0;
}
void init_random_number_fd()
{
@ -326,8 +149,7 @@ unsigned short csum(const unsigned short *ptr,int nbytes) {//works both for big
return(answer);
}
int set_buf_size(int fd)
int set_buf_size(int fd,int socket_buf_size,int force_socket_buf)
{
if(force_socket_buf)
{
@ -358,30 +180,6 @@ int set_buf_size(int fd)
return 0;
}
void myexit(int a)
{
if(enable_log_color)
printf("%s\n",RESET);
if(keep_thread_running)
{
if(pthread_cancel(keep_thread))
{
mylog(log_warn,"pthread_cancel failed\n");
}
else
{
mylog(log_info,"pthread_cancel success\n");
}
}
clear_iptables_rule();
exit(a);
}
void signal_handler(int sig)
{
about_to_exit=1;
// myexit(0);
}
int numbers_to_char(id_t id1,id_t id2,id_t id3,char * &data,int &len)
{
static char buf[buf_len];
@ -399,7 +197,6 @@ int numbers_to_char(id_t id1,id_t id2,id_t id3,char * &data,int &len)
return 0;
}
int char_to_numbers(const char * data,int len,id_t &id1,id_t &id2,id_t &id3)
{
if(len<int(sizeof(id_t)*3)) return -1;
@ -502,6 +299,26 @@ bool larger_than_u16(uint16_t a,uint16_t b)
}
}
}
void myexit(int a)
{
if(enable_log_color)
printf("%s\n",RESET);
if(keep_thread_running)
{
if(pthread_cancel(keep_thread))
{
mylog(log_warn,"pthread_cancel failed\n");
}
else
{
mylog(log_info,"pthread_cancel success\n");
}
}
clear_iptables_rule();
exit(a);
}
vector<string> string_to_vec(const char * s,const char * sp) {
vector<string> res;
string str=s;
@ -739,12 +556,58 @@ vector<string> parse_conf_line(const string& s0)
}
int create_fifo(char * file)
{
if(mkfifo (file, 0666)!=0)
{
if(errno==EEXIST)
{
mylog(log_warn,"warning fifo file %s exist\n",file);
}
else
{
mylog(log_fatal,"create fifo file %s failed\n",file);
myexit(-1);
}
}
int fifo_fd=open (file, O_RDWR);
if(fifo_fd<0)
{
mylog(log_fatal,"create fifo file %s failed\n",file);
myexit(-1);
}
struct stat st;
if (fstat(fifo_fd, &st)!=0)
{
mylog(log_fatal,"fstat failed for fifo file %s\n",file);
myexit(-1);
}
if(!S_ISFIFO(st.st_mode))
{
mylog(log_fatal,"%s is not a fifo\n",file);
myexit(-1);
}
setnonblocking(fifo_fd);
return fifo_fd;
}
void ip_port_t::from_u64(u64_t u64)
{
ip=get_u64_h(u64);
port=get_u64_l(u64);
}
u64_t ip_port_t::to_u64()
{
return pack_u64(ip,port);
}
char * ip_port_t::to_s()
{
static char res[40];
sprintf(res,"%s:%d",my_ntoa(ip),port);
return res;
}

98
common.h
View File

@ -21,6 +21,7 @@
#include <sys/wait.h>
#include <sys/socket.h> //for socket ofcourse
#include <sys/types.h>
#include <sys/stat.h>
#include <stdlib.h> //for exit(0);
#include <errno.h> //For errno - the error number
#include <netinet/tcp.h> //Provides declarations for tcp header
@ -47,8 +48,11 @@
#include <pthread.h>
#include<unordered_map>
#include<vector>
#include<string>
#include <fstream>
#include <string>
#include <vector>
#include <map>
#include <set>
using namespace std;
@ -58,57 +62,6 @@ typedef long long i64_t;
typedef unsigned int u32_t;
typedef int i32_t;
const int max_data_len=1600;
const int buf_len=max_data_len+400;
const u32_t max_handshake_conn_num=10000;
const u32_t max_ready_conn_num=1000;
const u32_t anti_replay_window_size=4000;
const int max_conv_num=10000;
const u32_t client_handshake_timeout=5000;//unit ms
const u32_t client_retry_interval=1000;//ms
const u32_t server_handshake_timeout=client_handshake_timeout+5000;// this should be longer than clients. client retry initially ,server retry passtively
const int conv_clear_ratio=10; //conv grabage collecter check 1/10 of all conv one time
const int conn_clear_ratio=30;
const int conv_clear_min=1;
const int conn_clear_min=1;
const u32_t conv_clear_interval=3000;//ms
const u32_t conn_clear_interval=3000;//ms
const i32_t max_fail_time=0;//disable
const u32_t heartbeat_interval=1000;//ms
const u32_t timer_interval=400;//ms. this should be smaller than heartbeat_interval and retry interval;
const uint32_t conv_timeout=120000; //ms. 120 second
//const u32_t conv_timeout=30000; //for test
const u32_t client_conn_timeout=15000;//ms.
const u32_t client_conn_uplink_timeout=client_conn_timeout+2000;//ms
const uint32_t server_conn_timeout=conv_timeout+60000;//ms. this should be 60s+ longer than conv_timeout,so that conv_manager can destruct convs gradually,to avoid latency glicth
//const u32_t server_conn_timeout=conv_timeout+10000;//for test
const u32_t iptables_rule_keep_interval=15;//unit: second;
extern int about_to_exit;
extern pthread_t keep_thread;
extern int keep_thread_running;
enum raw_mode_t{mode_faketcp=0,mode_udp,mode_icmp,mode_end};
extern raw_mode_t raw_mode;
enum program_mode_t {unset_mode=0,client_mode,server_mode};
extern program_mode_t program_mode;
extern unordered_map<int, const char*> raw_mode_tostring ;
extern int socket_buf_size;
extern int force_socket_buf;
typedef u32_t id_t;
typedef u64_t iv_t;
@ -117,6 +70,24 @@ typedef u64_t padding_t;
typedef u64_t anti_replay_seq_t;
struct ip_port_t
{
u32_t ip;
int port;
void from_u64(u64_t u64);
u64_t to_u64();
char * to_s();
};
typedef u64_t fd64_t;
const int max_data_len=1600;
const int buf_len=max_data_len+400;
u64_t get_current_time();
u64_t pack_u64(u32_t a,u32_t b);
@ -126,7 +97,6 @@ u32_t get_u64_l(u64_t a);
char * my_ntoa(u32_t ip);
void myexit(int a);
void init_random_number_fd();
u64_t get_true_random_number_64();
u32_t get_true_random_number();
@ -136,28 +106,20 @@ u64_t hton64(u64_t a);
bool larger_than_u16(uint16_t a,uint16_t b);
bool larger_than_u32(u32_t a,u32_t b);
void setnonblocking(int sock);
int set_buf_size(int fd);
unsigned short csum(const unsigned short *ptr,int nbytes);
void signal_handler(int sig);
int numbers_to_char(id_t id1,id_t id2,id_t id3,char * &data,int &len);
int char_to_numbers(const char * data,int len,id_t &id1,id_t &id2,id_t &id3);
int set_buf_size(int fd,int socket_buf_size,int force_socket_buf);
void myexit(int a);
int add_iptables_rule(const char *);
unsigned short csum(const unsigned short *ptr,int nbytes);
int clear_iptables_rule();
int iptables_gen_add(const char * s,u32_t const_id);
int iptables_rule_init(const char * s,u32_t const_id,int keep);
int keep_iptables_rule();
int numbers_to_char(id_t id1,id_t id2,id_t id3,char * &data,int &len);
int char_to_numbers(const char * data,int len,id_t &id1,id_t &id2,id_t &id3);
const int show_none=0;
const int show_command=0x1;
const int show_log=0x2;
const int show_all=show_command|show_log;
int run_command(string command,char * &output,int flag=show_all);
//int run_command_no_log(string command,char * &output);
int read_file(const char * file,string &output);
@ -175,4 +137,6 @@ int hex_to_u32_with_endian(const string & a,u32_t &output);
int hex_to_u32(const string & a,u32_t &output);
//extern string iptables_pattern;
int create_fifo(char * file);
#endif /* COMMON_H_ */

777
connection.cpp Normal file
View File

@ -0,0 +1,777 @@
/*
* connection.cpp
*
* Created on: Sep 23, 2017
* Author: root
*/
#include "connection.h"
#include "encrypt.h"
#include "fd_manager.h"
int disable_anti_replay=0;//if anti_replay windows is diabled
const int disable_conv_clear=0;//a udp connection in the multiplexer is called conversation in this program,conv for short.
const int disable_conn_clear=0;//a raw connection is called conn.
conn_manager_t conn_manager;
anti_replay_seq_t anti_replay_t::get_new_seq_for_send()
{
return anti_replay_seq++;
}
anti_replay_t::anti_replay_t()
{
max_packet_received=0;
anti_replay_seq=get_true_random_number_64()/10;//random first seq
//memset(window,0,sizeof(window)); //not necessary
}
void anti_replay_t::re_init()
{
max_packet_received=0;
//memset(window,0,sizeof(window));
}
int anti_replay_t::is_vaild(u64_t seq)
{
if(disable_anti_replay) return 1;
//if(disabled) return 0;
if(seq==max_packet_received) return 0;
else if(seq>max_packet_received)
{
if(seq-max_packet_received>=anti_replay_window_size)
{
memset(window,0,sizeof(window));
window[seq%anti_replay_window_size]=1;
}
else
{
for (u64_t i=max_packet_received+1;i<seq;i++)
window[i%anti_replay_window_size]=0;
window[seq%anti_replay_window_size]=1;
}
max_packet_received=seq;
return 1;
}
else if(seq<max_packet_received)
{
if(max_packet_received-seq>=anti_replay_window_size) return 0;
else
{
if (window[seq%anti_replay_window_size]==1) return 0;
else
{
window[seq%anti_replay_window_size]=1;
return 1;
}
}
}
return 0; //for complier check
}
void server_clear_function(u64_t u64);
conv_manager_t::conv_manager_t()
{
clear_it=conv_last_active_time.begin();
long long last_clear_time=0;
//clear_function=0;
}
conv_manager_t::~conv_manager_t()
{
clear();
}
int conv_manager_t::get_size()
{
return conv_to_u64.size();
}
void conv_manager_t::reserve()
{
u64_to_conv.reserve(10007);
conv_to_u64.reserve(10007);
conv_last_active_time.reserve(10007);
}
void conv_manager_t::clear()
{
if(disable_conv_clear) return ;
if(program_mode==server_mode)
{
for(it=conv_to_u64.begin();it!=conv_to_u64.end();it++)
{
//int fd=int((it->second<<32u)>>32u);
server_clear_function( it->second);
}
}
u64_to_conv.clear();
conv_to_u64.clear();
conv_last_active_time.clear();
clear_it=conv_last_active_time.begin();
}
u32_t conv_manager_t::get_new_conv()
{
u32_t conv=get_true_random_number_nz();
while(conv_to_u64.find(conv)!=conv_to_u64.end())
{
conv=get_true_random_number_nz();
}
return conv;
}
int conv_manager_t::is_conv_used(u32_t conv)
{
return conv_to_u64.find(conv)!=conv_to_u64.end();
}
int conv_manager_t::is_u64_used(u64_t u64)
{
return u64_to_conv.find(u64)!=u64_to_conv.end();
}
u32_t conv_manager_t::find_conv_by_u64(u64_t u64)
{
return u64_to_conv[u64];
}
u64_t conv_manager_t::find_u64_by_conv(u32_t conv)
{
return conv_to_u64[conv];
}
int conv_manager_t::update_active_time(u32_t conv)
{
return conv_last_active_time[conv]=get_current_time();
}
int conv_manager_t::insert_conv(u32_t conv,u64_t u64)
{
u64_to_conv[u64]=conv;
conv_to_u64[conv]=u64;
conv_last_active_time[conv]=get_current_time();
return 0;
}
int conv_manager_t::erase_conv(u32_t conv)
{
if(disable_conv_clear) return 0;
u64_t u64=conv_to_u64[conv];
if(program_mode==server_mode)
{
server_clear_function(u64);
}
conv_to_u64.erase(conv);
u64_to_conv.erase(u64);
conv_last_active_time.erase(conv);
return 0;
}
int conv_manager_t::clear_inactive(char * ip_port)
{
if(get_current_time()-last_clear_time>conv_clear_interval)
{
last_clear_time=get_current_time();
return clear_inactive0(ip_port);
}
return 0;
}
int conv_manager_t::clear_inactive0(char * ip_port)
{
if(disable_conv_clear) return 0;
//map<uint32_t,uint64_t>::iterator it;
int cnt=0;
it=clear_it;
int size=conv_last_active_time.size();
int num_to_clean=size/conv_clear_ratio+conv_clear_min; //clear 1/10 each time,to avoid latency glitch
num_to_clean=min(num_to_clean,size);
u64_t current_time=get_current_time();
for(;;)
{
if(cnt>=num_to_clean) break;
if(conv_last_active_time.begin()==conv_last_active_time.end()) break;
if(it==conv_last_active_time.end())
{
it=conv_last_active_time.begin();
}
if( current_time -it->second >conv_timeout )
{
//mylog(log_info,"inactive conv %u cleared \n",it->first);
old_it=it;
it++;
u32_t conv= old_it->first;
erase_conv(old_it->first);
if(ip_port==0)
{
mylog(log_info,"conv %x cleared\n",conv);
}
else
{
mylog(log_info,"[%s]conv %x cleared\n",ip_port,conv);
}
}
else
{
it++;
}
cnt++;
}
clear_it=it;
return 0;
}
void conn_info_t::recover(const conn_info_t &conn_info)
{
raw_info=conn_info.raw_info;
last_state_time=conn_info.last_state_time;
last_hb_recv_time=conn_info.last_hb_recv_time;
last_hb_sent_time=conn_info.last_hb_sent_time;
my_id=conn_info.my_id;
oppsite_id=conn_info.oppsite_id;
blob->anti_replay.re_init();
my_roller=0;//no need to set,but for easier debug,set it to zero
oppsite_roller=0;//same as above
last_oppsite_roller_time=0;
}
void conn_info_t::re_init()
{
//send_packet_info.protocol=g_packet_info_send.protocol;
if(program_mode==server_mode)
state.server_current_state=server_idle;
else
state.client_current_state=client_idle;
last_state_time=0;
oppsite_const_id=0;
timer_fd64=0;
my_roller=0;
oppsite_roller=0;
last_oppsite_roller_time=0;
}
conn_info_t::conn_info_t()
{
blob=0;
re_init();
}
void conn_info_t::prepare()
{
blob=new blob_t;
}
conn_info_t::conn_info_t(const conn_info_t&b)
{
//mylog(log_error,"called!!!!!!!!!!!!!\n");
*this=b;
if(blob!=0)
{
blob=new blob_t(*b.blob);
}
}
conn_info_t& conn_info_t::operator=(const conn_info_t& b)
{
mylog(log_fatal,"not allowed\n");
myexit(-1);
return *this;
}
conn_info_t::~conn_info_t()
{
if(program_mode==server_mode)
{
if(state.server_current_state==server_ready)
{
assert(blob!=0);
assert(oppsite_const_id!=0);
//assert(conn_manager.const_id_mp.find(oppsite_const_id)!=conn_manager.const_id_mp.end()); // conn_manager 's deconstuction function erases it
}
else
{
assert(blob==0);
assert(oppsite_const_id==0);
}
}
assert(timer_fd64==0);
//if(oppsite_const_id!=0) //do this at conn_manager 's deconstuction function
//conn_manager.const_id_mp.erase(oppsite_const_id);
if(blob!=0)
delete blob;
//send_packet_info.protocol=g_packet_info_send.protocol;
}
conn_manager_t::conn_manager_t()
{
ready_num=0;
mp.reserve(10007);
clear_it=mp.begin();
// timer_fd_mp.reserve(10007);
const_id_mp.reserve(10007);
// udp_fd_mp.reserve(100007);
last_clear_time=0;
//current_ready_ip=0;
// current_ready_port=0;
}
int conn_manager_t::exist(u32_t ip,uint16_t port)
{
u64_t u64=0;
u64=ip;
u64<<=32u;
u64|=port;
if(mp.find(u64)!=mp.end())
{
return 1;
}
return 0;
}
/*
int insert(uint32_t ip,uint16_t port)
{
uint64_t u64=0;
u64=ip;
u64<<=32u;
u64|=port;
mp[u64];
return 0;
}*/
conn_info_t *& conn_manager_t::find_insert_p(u32_t ip,uint16_t port) //be aware,the adress may change after rehash
{
u64_t u64=0;
u64=ip;
u64<<=32u;
u64|=port;
unordered_map<u64_t,conn_info_t*>::iterator it=mp.find(u64);
if(it==mp.end())
{
mp[u64]=new conn_info_t;
}
return mp[u64];
}
conn_info_t & conn_manager_t::find_insert(u32_t ip,uint16_t port) //be aware,the adress may change after rehash
{
u64_t u64=0;
u64=ip;
u64<<=32u;
u64|=port;
unordered_map<u64_t,conn_info_t*>::iterator it=mp.find(u64);
if(it==mp.end())
{
mp[u64]=new conn_info_t;
}
return *mp[u64];
}
int conn_manager_t::erase(unordered_map<u64_t,conn_info_t*>::iterator erase_it)
{
if(erase_it->second->state.server_current_state==server_ready)
{
ready_num--;
assert(i32_t(ready_num)!=-1);
assert(erase_it->second!=0);
assert(erase_it->second->timer_fd64 !=0);
assert(fd_manager.exist(erase_it->second->timer_fd64));
assert(erase_it->second->oppsite_const_id!=0);
assert(const_id_mp.find(erase_it->second->oppsite_const_id)!=const_id_mp.end());
//assert(timer_fd_mp.find(erase_it->second->timer_fd)!=timer_fd_mp.end());
const_id_mp.erase(erase_it->second->oppsite_const_id);
fd_manager.fd64_close(erase_it->second->timer_fd64);
erase_it->second->timer_fd64=0;
//timer_fd_mp.erase(erase_it->second->timer_fd);
//close(erase_it->second->timer_fd);// close will auto delte it from epoll
delete(erase_it->second);
mp.erase(erase_it->first);
}
else
{
assert(erase_it->second->blob==0);
assert(erase_it->second->timer_fd64 ==0);
assert(erase_it->second->oppsite_const_id==0);
delete(erase_it->second);
mp.erase(erase_it->first);
}
return 0;
}
int conn_manager_t::clear_inactive()
{
if(get_current_time()-last_clear_time>conn_clear_interval)
{
last_clear_time=get_current_time();
return clear_inactive0();
}
return 0;
}
int conn_manager_t::clear_inactive0()
{
unordered_map<u64_t,conn_info_t*>::iterator it;
unordered_map<u64_t,conn_info_t*>::iterator old_it;
if(disable_conn_clear) return 0;
//map<uint32_t,uint64_t>::iterator it;
int cnt=0;
it=clear_it;
int size=mp.size();
int num_to_clean=size/conn_clear_ratio+conn_clear_min; //clear 1/10 each time,to avoid latency glitch
mylog(log_trace,"mp.size() %d\n", size);
num_to_clean=min(num_to_clean,(int)mp.size());
u64_t current_time=get_current_time();
for(;;)
{
if(cnt>=num_to_clean) break;
if(mp.begin()==mp.end()) break;
if(it==mp.end())
{
it=mp.begin();
}
if(it->second->state.server_current_state==server_ready &&current_time - it->second->last_hb_recv_time <=server_conn_timeout)
{
it++;
}
else if(it->second->state.server_current_state!=server_ready&& current_time - it->second->last_state_time <=server_handshake_timeout )
{
it++;
}
else if(it->second->blob!=0&&it->second->blob->conv_manager.get_size() >0)
{
assert(it->second->state.server_current_state==server_ready);
it++;
}
else
{
mylog(log_info,"[%s:%d]inactive conn cleared \n",my_ntoa(it->second->raw_info.recv_info.src_ip),it->second->raw_info.recv_info.src_port);
old_it=it;
it++;
erase(old_it);
}
cnt++;
}
clear_it=it;
return 0;
}
int send_bare(raw_info_t &raw_info,const char* data,int len)//send function with encryption but no anti replay,this is used when client and server verifys each other
//you have to design the protocol carefully, so that you wont be affect by relay attack
{
if(len<0)
{
mylog(log_debug,"input_len <0\n");
return -1;
}
packet_info_t &send_info=raw_info.send_info;
packet_info_t &recv_info=raw_info.recv_info;
char send_data_buf[buf_len]; //buf for send data and send hb
char send_data_buf2[buf_len];
//static send_bare[buf_len];
iv_t iv=get_true_random_number_64();
padding_t padding=get_true_random_number_64();
memcpy(send_data_buf,&iv,sizeof(iv));
memcpy(send_data_buf+sizeof(iv),&padding,sizeof(padding));
send_data_buf[sizeof(iv)+sizeof(padding)]='b';
memcpy(send_data_buf+sizeof(iv)+sizeof(padding)+1,data,len);
int new_len=len+sizeof(iv)+sizeof(padding)+1;
if(my_encrypt(send_data_buf,send_data_buf2,new_len,key)!=0)
{
return -1;
}
send_raw0(raw_info,send_data_buf2,new_len);
return 0;
}
int reserved_parse_bare(const char *input,int input_len,char* & data,int & len) // a sub function used in recv_bare
{
static char recv_data_buf[buf_len];
if(input_len<0)
{
mylog(log_debug,"input_len <0\n");
return -1;
}
if(my_decrypt(input,recv_data_buf,input_len,key)!=0)
{
mylog(log_debug,"decrypt_fail in recv bare\n");
return -1;
}
if(recv_data_buf[sizeof(iv_t)+sizeof(padding_t)]!='b')
{
mylog(log_debug,"not a bare packet\n");
return -1;
}
len=input_len;
data=recv_data_buf+sizeof(iv_t)+sizeof(padding_t)+1;
len-=sizeof(iv_t)+sizeof(padding_t)+1;
if(len<0)
{
mylog(log_debug,"len <0\n");
return -1;
}
return 0;
}
int recv_bare(raw_info_t &raw_info,char* & data,int & len)//recv function with encryption but no anti replay,this is used when client and server verifys each other
//you have to design the protocol carefully, so that you wont be affect by relay attack
{
packet_info_t &send_info=raw_info.send_info;
packet_info_t &recv_info=raw_info.recv_info;
if(recv_raw0(raw_info,data,len)<0)
{
//printf("recv_raw_fail in recv bare\n");
return -1;
}
if ((raw_mode == mode_faketcp && (recv_info.syn == 1 || recv_info.ack != 1)))
{
mylog(log_debug,"unexpect packet type recv_info.syn=%d recv_info.ack=%d \n",recv_info.syn,recv_info.ack);
return -1;
}
return reserved_parse_bare(data,len,data,len);
}
int send_handshake(raw_info_t &raw_info,id_t id1,id_t id2,id_t id3)// a warp for send_bare for sending handshake(this is not tcp handshake) easily
{
packet_info_t &send_info=raw_info.send_info;
packet_info_t &recv_info=raw_info.recv_info;
char * data;int len;
//len=sizeof(id_t)*3;
if(numbers_to_char(id1,id2,id3,data,len)!=0) return -1;
if(send_bare(raw_info,data,len)!=0) {mylog(log_warn,"send bare fail\n");return -1;}
return 0;
}
/*
int recv_handshake(packet_info_t &info,id_t &id1,id_t &id2,id_t &id3)
{
char * data;int len;
if(recv_bare(info,data,len)!=0) return -1;
if(char_to_numbers(data,len,id1,id2,id3)!=0) return -1;
return 0;
}*/
int send_safer(conn_info_t &conn_info,char type,const char* data,int len) //safer transfer function with anti-replay,when mutually verification is done.
{
packet_info_t &send_info=conn_info.raw_info.send_info;
packet_info_t &recv_info=conn_info.raw_info.recv_info;
if(type!='h'&&type!='d')
{
mylog(log_warn,"first byte is not h or d ,%x\n",type);
return -1;
}
char send_data_buf[buf_len]; //buf for send data and send hb
char send_data_buf2[buf_len];
id_t n_tmp_id=htonl(conn_info.my_id);
memcpy(send_data_buf,&n_tmp_id,sizeof(n_tmp_id));
n_tmp_id=htonl(conn_info.oppsite_id);
memcpy(send_data_buf+sizeof(n_tmp_id),&n_tmp_id,sizeof(n_tmp_id));
anti_replay_seq_t n_seq=hton64(conn_info.blob->anti_replay.get_new_seq_for_send());
memcpy(send_data_buf+sizeof(n_tmp_id)*2,&n_seq,sizeof(n_seq));
send_data_buf[sizeof(n_tmp_id)*2+sizeof(n_seq)]=type;
send_data_buf[sizeof(n_tmp_id)*2+sizeof(n_seq)+1]=conn_info.my_roller;
memcpy(send_data_buf+2+sizeof(n_tmp_id)*2+sizeof(n_seq),data,len);//data;
int new_len=len+sizeof(n_seq)+sizeof(n_tmp_id)*2+2;
if(my_encrypt(send_data_buf,send_data_buf2,new_len,key)!=0)
{
return -1;
}
if(send_raw0(conn_info.raw_info,send_data_buf2,new_len)!=0) return -1;
if(after_send_raw0(conn_info.raw_info)!=0) return -1;
return 0;
}
int send_data_safer(conn_info_t &conn_info,const char* data,int len,u32_t conv_num)//a wrap for send_safer for transfer data.
{
packet_info_t &send_info=conn_info.raw_info.send_info;
packet_info_t &recv_info=conn_info.raw_info.recv_info;
char send_data_buf[buf_len];
//send_data_buf[0]='d';
u32_t n_conv_num=htonl(conv_num);
memcpy(send_data_buf,&n_conv_num,sizeof(n_conv_num));
memcpy(send_data_buf+sizeof(n_conv_num),data,len);
int new_len=len+sizeof(n_conv_num);
send_safer(conn_info,'d',send_data_buf,new_len);
return 0;
}
int parse_safer(conn_info_t &conn_info,const char * input,int input_len,char &type,char* &data,int &len)//subfunction for recv_safer,allow overlap
{
static char recv_data_buf[buf_len];
// char *recv_data_buf=recv_data_buf0; //fix strict alias warning
if(my_decrypt(input,recv_data_buf,input_len,key)!=0)
{
//printf("decrypt fail\n");
return -1;
}
//char *a=recv_data_buf;
//id_t h_oppiste_id= ntohl ( *((id_t * )(recv_data_buf)) );
id_t h_oppsite_id;
memcpy(&h_oppsite_id,recv_data_buf,sizeof(h_oppsite_id));
h_oppsite_id=ntohl(h_oppsite_id);
//id_t h_my_id= ntohl ( *((id_t * )(recv_data_buf+sizeof(id_t))) );
id_t h_my_id;
memcpy(&h_my_id,recv_data_buf+sizeof(id_t),sizeof(h_my_id));
h_my_id=ntohl(h_my_id);
//anti_replay_seq_t h_seq= ntoh64 ( *((anti_replay_seq_t * )(recv_data_buf +sizeof(id_t) *2 )) );
anti_replay_seq_t h_seq;
memcpy(&h_seq,recv_data_buf +sizeof(id_t) *2 ,sizeof(h_seq));
h_seq=ntoh64(h_seq);
if(h_oppsite_id!=conn_info.oppsite_id||h_my_id!=conn_info.my_id)
{
mylog(log_debug,"id and oppsite_id verification failed %x %x %x %x \n",h_oppsite_id,conn_info.oppsite_id,h_my_id,conn_info.my_id);
return -1;
}
if (conn_info.blob->anti_replay.is_vaild(h_seq) != 1) {
mylog(log_debug,"dropped replay packet\n");
return -1;
}
//printf("recv _len %d\n ",recv_len);
data=recv_data_buf+sizeof(anti_replay_seq_t)+sizeof(id_t)*2;
len=input_len-(sizeof(anti_replay_seq_t)+sizeof(id_t)*2 );
if(data[0]!='h'&&data[0]!='d')
{
mylog(log_debug,"first byte is not h or d ,%x\n",data[0]);
return -1;
}
uint8_t roller=data[1];
type=data[0];
data+=2;
len-=2;
if(len<0)
{
mylog(log_debug,"len <0 ,%d\n",len);
return -1;
}
if(roller!=conn_info.oppsite_roller)
{
conn_info.oppsite_roller=roller;
conn_info.last_oppsite_roller_time=get_current_time();
}
if(hb_mode==0)
conn_info.my_roller++;//increase on a successful recv
else if(hb_mode==1)
{
if(type=='h')
conn_info.my_roller++;
}
else
{
assert(0==1);
}
if(after_recv_raw0(conn_info.raw_info)!=0) return -1;
return 0;
}
int recv_safer(conn_info_t &conn_info,char &type,char* &data,int &len)///safer transfer function with anti-replay,when mutually verification is done.
{
packet_info_t &send_info=conn_info.raw_info.send_info;
packet_info_t &recv_info=conn_info.raw_info.recv_info;
char * recv_data;int recv_len;
static char recv_data_buf[buf_len];
if(recv_raw0(conn_info.raw_info,recv_data,recv_len)!=0) return -1;
return parse_safer(conn_info,recv_data,recv_len,type,data,len);
}
void server_clear_function(u64_t u64)//used in conv_manager in server mode.for server we have to use one udp fd for one conv(udp connection),
//so we have to close the fd when conv expires
{
//int fd=int(u64);
// int ret;
//assert(fd!=0);
/*
epoll_event ev;
ev.events = EPOLLIN;
ev.data.u64 = u64;
ret = epoll_ctl(epollfd, EPOLL_CTL_DEL, fd, &ev);
if (ret!=0)
{
mylog(log_fatal,"fd:%d epoll delete failed!!!!\n",fd);
myexit(-1); //this shouldnt happen
}*/ //no need
/*ret= close(fd); //closed fd should be auto removed from epoll
if (ret!=0)
{
mylog(log_fatal,"close fd %d failed !!!!\n",fd);
myexit(-1); //this shouldnt happen
}*/
//mylog(log_fatal,"size:%d !!!!\n",conn_manager.udp_fd_mp.size());
fd64_t fd64=u64;
assert(fd_manager.exist(fd64));
fd_manager.fd64_close(fd64);
//assert(conn_manager.udp_fd_mp.find(fd)!=conn_manager.udp_fd_mp.end());
//conn_manager.udp_fd_mp.erase(fd);
}

165
connection.h Normal file
View File

@ -0,0 +1,165 @@
/*
* connection.h
*
* Created on: Sep 23, 2017
* Author: root
*/
#ifndef CONNECTION_H_
#define CONNECTION_H_
extern int disable_anti_replay;
#include "connection.h"
#include "common.h"
#include "log.h"
#include "network.h"
#include "misc.h"
struct anti_replay_t //its for anti replay attack,similar to openvpn/ipsec 's anti replay window
{
u64_t max_packet_received;
char window[anti_replay_window_size];
anti_replay_seq_t anti_replay_seq;
anti_replay_seq_t get_new_seq_for_send();
anti_replay_t();
void re_init();
int is_vaild(u64_t seq);
};//anti_replay;
struct conv_manager_t // manage the udp connections
{
//typedef hash_map map;
unordered_map<u64_t,u32_t> u64_to_conv; //conv and u64 are both supposed to be uniq
unordered_map<u32_t,u64_t> conv_to_u64;
unordered_map<u32_t,u64_t> conv_last_active_time;
unordered_map<u32_t,u64_t>::iterator clear_it;
unordered_map<u32_t,u64_t>::iterator it;
unordered_map<u32_t,u64_t>::iterator old_it;
//void (*clear_function)(uint64_t u64) ;
long long last_clear_time;
conv_manager_t();
~conv_manager_t();
int get_size();
void reserve();
void clear();
u32_t get_new_conv();
int is_conv_used(u32_t conv);
int is_u64_used(u64_t u64);
u32_t find_conv_by_u64(u64_t u64);
u64_t find_u64_by_conv(u32_t conv);
int update_active_time(u32_t conv);
int insert_conv(u32_t conv,u64_t u64);
int erase_conv(u32_t conv);
int clear_inactive(char * ip_port=0);
int clear_inactive0(char * ip_port);
};//g_conv_manager;
struct blob_t //used in conn_info_t. conv_manager_t and anti_replay_t are costly data structures ,we dont allocate them until its necessary
{
conv_manager_t conv_manager;
anti_replay_t anti_replay;
};
struct conn_info_t //stores info for a raw connection.for client ,there is only one connection,for server there can be thousand of connection since server can
//handle multiple clients
{
current_state_t state;
raw_info_t raw_info;
u64_t last_state_time;
u64_t last_hb_sent_time; //client re-use this for retry
u64_t last_hb_recv_time;
//long long last_resent_time;
id_t my_id;
id_t oppsite_id;
fd64_t timer_fd64;
id_t oppsite_const_id;
blob_t *blob;
uint8_t my_roller;
uint8_t oppsite_roller;
u64_t last_oppsite_roller_time;
// ip_port_t ip_port;
/*
const uint32_t &ip=raw_info.recv_info.src_ip;
const uint16_t &port=raw_info.recv_info.src_port;
*/
void recover(const conn_info_t &conn_info);
void re_init();
conn_info_t();
void prepare();
conn_info_t(const conn_info_t&b);
conn_info_t& operator=(const conn_info_t& b);
~conn_info_t();
};//g_conn_info;
struct conn_manager_t //manager for connections. for client,we dont need conn_manager since there is only one connection.for server we use one conn_manager for all connections
{
u32_t ready_num;
//unordered_map<int,conn_info_t *> udp_fd_mp; //a bit dirty to used pointer,but can void unordered_map search
//unordered_map<int,conn_info_t *> timer_fd_mp;//we can use pointer here since unordered_map.rehash() uses shallow copy
unordered_map<id_t,conn_info_t *> const_id_mp;
unordered_map<u64_t,conn_info_t*> mp; //put it at end so that it de-consturcts first
unordered_map<u64_t,conn_info_t*>::iterator clear_it;
long long last_clear_time;
conn_manager_t();
int exist(u32_t ip,uint16_t port);
/*
int insert(uint32_t ip,uint16_t port)
{
uint64_t u64=0;
u64=ip;
u64<<=32u;
u64|=port;
mp[u64];
return 0;
}*/
conn_info_t *& find_insert_p(u32_t ip,uint16_t port); //be aware,the adress may change after rehash
conn_info_t & find_insert(u32_t ip,uint16_t port) ; //be aware,the adress may change after rehash
int erase(unordered_map<u64_t,conn_info_t*>::iterator erase_it);
int clear_inactive();
int clear_inactive0();
};
extern conn_manager_t conn_manager;
void server_clear_function(u64_t u64);
int send_bare(raw_info_t &raw_info,const char* data,int len);//send function with encryption but no anti replay,this is used when client and server verifys each other
//you have to design the protocol carefully, so that you wont be affect by relay attack
int reserved_parse_bare(const char *input,int input_len,char* & data,int & len); // a sub function used in recv_bare
int recv_bare(raw_info_t &raw_info,char* & data,int & len);//recv function with encryption but no anti replay,this is used when client and server verifys each other
//you have to design the protocol carefully, so that you wont be affect by relay attack
int send_handshake(raw_info_t &raw_info,id_t id1,id_t id2,id_t id3);// a warp for send_bare for sending handshake(this is not tcp handshake) easily
int send_safer(conn_info_t &conn_info,char type,const char* data,int len); //safer transfer function with anti-replay,when mutually verification is done.
int send_data_safer(conn_info_t &conn_info,const char* data,int len,u32_t conv_num);//a wrap for send_safer for transfer data.
int parse_safer(conn_info_t &conn_info,const char * input,int input_len,char &type,char* &data,int &len);//subfunction for recv_safer,allow overlap
int recv_safer(conn_info_t &conn_info,char &type,char* &data,int &len);///safer transfer function with anti-replay,when mutually verification is done.
#endif /* CONNECTION_H_ */

57
doc/README.zh-cn.md
View File

@ -1,25 +1,36 @@
Udp2raw-tunnel
![image2](/images/image2.PNG)
# Udp2raw-tunnel
![image2](/images/image0.PNG)
udp2raw tunnel通过raw socket给UDP包加上TCP或ICMP header进而绕过UDP屏蔽或QoS或在UDP不稳定的环境下提升稳定性。可以有效防止在使用kcptun或者finalspeed的情况下udp端口被运营商限速。
支持心跳保活、自动重连,重连后会恢复上次连接,在底层掉线的情况下可以保持上层不掉线。同时有加密、防重放攻击、信道复用的功能。
**欢迎任何形式的转载**
[English](/README.md)
[udp2raw+kcptun step_by_step教程](kcptun_step_by_step.md)
[udp2raw+finalspeed step_by_step教程](finalspeed_step_by_step.md)
如果你需要加速跨国网游、网页浏览解决方案在另一个repo
**提示:**
udp2raw不是加速器只是一个帮助你绕过UDP限制的工具。如果你需要UDP加速器请看UDPspeeder。
UDPspeeder的repo:
https://github.com/wangyu-/UDPspeeder
# 支持的平台
Linux主机有root权限。可以是PC、android手机/平板、openwrt路由器、树莓派。主机上最好安装了iptables命令(apt/yum很容易安装)。
在windows和mac上预装了udp2raw的虚拟机镜像已发布可以用Vmware或VirtualBox加载容量4.4mb已经配置好了自动获取网卡ip开机即用稳定性能很好。
udp2raw跑在虚拟机里其他应用照常跑在windows上确保虚拟机网卡工作在桥接模式Vmware player 75mb,VirtualBox 118mb,很容易安装)。
Release中提供了`amd64``x86``arm``mips_be``mips_le`的预编译binary.
##### 对于windows和mac用户
在虚拟机中可以稳定使用udp2raw跑在Linux里其他应用照常跑在window里确保虚拟机网卡工作在桥接模式。可以使用[这个](https://github.com/wangyu-/udp2raw-tunnel/releases/download/20171108.0/lede-17.01.2-x86_virtual_machine_image.zip)虚拟机镜像大小只有7.5mb免去在虚拟机里装系统的麻烦虚拟机自带ssh server可以scp拷贝文件可以ssh进去可以复制粘贴root密码123456。
如果你的网络不允许桥接也是有办法用的具体方法请看wiki。
##### 对于ios和游戏主机用户
可以把udp2raw运行在局域网的其他机器上。最好的办法是买个能刷OpenWrt/LEDE/梅林的路由器把udp2raw运行在路由器上。
# 功能特性
### 把udp流量伪装成tcp /icmp
@ -49,9 +60,9 @@ NAT 穿透 tcp icmp udp模式都支持nat穿透。
支持Openvz配合finalspeed使用可以在openvz上用tcp模式的finalspeed
支持Openwrt没有编译依赖容易编译到任何平台上。release中提供了ar71xx版本的binary
支持Openwrt没有编译依赖容易编译到任何平台上。
epoll纯异步高并发除了回收过期连接外所有操作的时间复杂度都跟连接数无关。回收过期连接的操做也是柔和进行的不会因为消耗太多cpu时间造成延迟抖动。
epoll实现高并发除了回收过期连接外所有操作的时间复杂度都跟连接数无关。回收过期连接的操做也是柔和进行的不会因为消耗太多cpu时间造成延迟抖动。
### 关键词
突破udp qos,突破udp屏蔽openvpn tcp over tcp problem,openvpn over icmp,udp to icmp tunnel,udp to tcp tunnel,udp via icmp,udp via tcp
@ -68,11 +79,13 @@ https://github.com/wangyu-/udp2raw-tunnel/releases
```
在server端运行:
./udp2raw_amd64 -s -l0.0.0.0:4096 -r 127.0.0.1:7777 -a -k "passwd" --raw-mode faketcp
./udp2raw_amd64 -s -l0.0.0.0:4096 -r127.0.0.1:7777 -a -k "passwd" --raw-mode faketcp --cipher-mode xor
在client端运行:
./udp2raw_amd64 -c -l0.0.0.0:3333 -r44.55.66.77:4096 -a -k "passwd" --raw-mode faketcp
./udp2raw_amd64 -c -l0.0.0.0:3333 -r44.55.66.77:4096 -a -k "passwd" --raw-mode faketcp --cipher-mode xor
```
(以上例子需要用root账号运行。 用非root运行udp2raw需要一些额外的步骤具体方法请看 [这个](https://github.com/wangyu-/udp2raw-tunnel/wiki/run-udp2raw-as-non-root) 链接。用非root运行更安全)
###### Server端输出:
![](/images/output_server.PNG)
###### Client端输出:
@ -80,20 +93,25 @@ https://github.com/wangyu-/udp2raw-tunnel/releases
现在client和server之间建立起了tunnel。想要在本地连接44.55.66.77:7777只需要连接 127.0.0.1:3333。来回的所有的udp流量会被经过tunneling发送。在外界看起来是tcp流量不会有udp流量暴露到公网。
### MTU设置(重要)
不论你用udp2raw来加速kcptun还是vpn,为了稳定使用,都需要设置合理的MTU在kcptun/vpn里设置而不是在udp2raw里建议把MTU设置成1200。client和server端都要设置。
### 提醒
`--cipher-mode xor`表示仅使用简单的XOR加密这样可以节省CPU占用以免CPU成为速度瓶颈。如果你需要更强的加密可以去掉此选项使用默认的AES加密。加密相关的选项见后文的`--cipher-mode``--auth-mode`
如果要在anroid上运行请看[Android简明教程](/doc/android_guide.md)
如果要在梅林固件的路由器上使用,添加`--lower-level auto` `--keep-rule`
如果client和server无法连接或者连接经常断开请看一下`--seq-mode`的用法尝试不同的seq-mode。
udp2raw可以用非root账号运行这样更安全。具体方法见[#26](https://github.com/wangyu-/udp2raw-tunnel/issues/26)
# 进阶操作说明
### 命令选项
```
udp2raw-tunnel
git version:adbe7d110f build date:Sep 6 2017 05:37:45
git version:6e1df4b39f build date:Oct 24 2017 09:21:15
repository: https://github.com/wangyu-/udp2raw-tunnel
usage:
@ -116,7 +134,9 @@ client options:
other options:
--conf-file <string> read options from a configuration file instead of command line.
check example.conf in repo for format
--log-level <number> 0:never 1:fatal 2:error 3:warn
--fifo <string> use a fifo(named pipe) for sending commands to the running program,
check readme.md in repository for supported commands.
--log-level <number> 0:never 1:fatal 2:error 3:warn
4:info (default) 5:debug 6:trace
--log-position enable file name,function name,line number in log
--disable-color disable log color
@ -130,7 +150,7 @@ other options:
2:increase seq randomly, about every 3 packets,simply ack last seq
3:simulate an almost real seq/ack procedure(default)
4:similiar to 3,but do not consider TCP Option Window_Scale,
maybe useful when firewall doesnt support TCP Option
maybe useful when firewall doesnt support TCP Option
--lower-level <string> send packets at OSI level 2, format:'if_name#dest_mac_adress'
ie:'eth0#00:23:45:67:89:b9'.or try '--lower-level auto' to obtain
the parameter automatically,specify it manually if 'auto' failed
@ -146,7 +166,7 @@ other options:
用raw收发udp包也类似只是内核回复的是icmp unreachable。而用raw 收发icmp内核会自动回复icmp echo。都需要相应的iptables规则。
### `--cipher-mode``--auth-mode`
如果要最大的安全性建议用aes128cbc+md5。如果要运行再路由器上建议xor+simple。但是注意xor+simple只能骗过防火墙的包检测不能防止真正的攻击者。
如果要最大的安全性建议用aes128cbc+md5。如果要运行在路由器上建议用xor+simple可以节省CPU。但是注意xor+simple只能骗过防火墙的包检测不能防止真正的攻击者。
### `--seq-mode`
facktcp模式并没有模拟tcp的全部。所以理论上有办法把faketcp和真正的tcp流量区分开来虽然大部分ISP不太可能做这种程度的包检测。seq-mode可以改变一些seq ack的行为。如果遇到了连接问题可以尝试更改。在我这边的移动线路用3种模式都没问题。
@ -154,6 +174,11 @@ facktcp模式并没有模拟tcp的全部。所以理论上有办法把faketcp和
### `--keep-rule`
定期主动检查iptables如果udp2raw添加的iptables规则丢了就重新添加。在一些iptables可能会被其他程序清空的情况下(比如梅林固件和openwrt的路由器)格外有用。
### `--fifo`
指定一个fifo(named pipe)来向运行中的程序发送命令,例如`--fifo fifo.file`
在client端,可以用`echo reconnect >fifo.file`来强制client换端口重连上层不断线.对Server目前没有效果。
### `--lower-level`
大部分udp2raw不能连通的情况都是设置了不兼容的iptables造成的。--lower-level选项允许绕过本地iptables。在一些iptables不好改动的情况下尤其有效比如你用的是梅林固件iptables全是固件自己生成的

22
doc/build_guide.md
View File

@ -1,8 +1,10 @@
# udp2raw build guide
the guide on how to build udp2raw to you own platform
the guide on how to build udp2raw
## linux platform which supports local compile
## Build udp2raw for a specific platform
### linux platform which supports local compile
such as PC,raspberry pi
##### install git
@ -36,7 +38,7 @@ sudo yum groupinstall 'Development Tools'
run 'make'compilation done. the udp2raw file is the just compiled binary
## platform which needs cross-compile
### platform which needs cross-compile
such as openwrt router,run following instructions on your PC
##### install git
@ -74,3 +76,17 @@ cc_cross=/home/wangyu/Desktop/OpenWrt-SDK-15.05-ar71xx-generic_gcc-4.8-linaro_uC
run `make cross`the just generated `udp2raw_cross` is the binary,compile done. copy it to your router to run.
`make cross` generates non-static binary. If you have any problem on running it,try to compile a static binary by using `make cross2` or `make cross3`.If your toolchain supports static compiling, usually one of them will succeed. The generated file is still named `udp2raw_cross`.
## Build a full release (include all binaries supported in the makefile)
1. make sure your linux is amd64 version
2. clone the repo
3. make sure you have g++ , make sure your g++ support the `-m32` option; make your your have installed libraries for `-m32` option
4. download https://github.com/wangyu-/files/releases/download/files/toolchains.tar.gz , and extract it to the right position (according to the makefile)
5. run `make release` inside udp2raw's directory

2
doc/finalspeed_step_by_step.md
View File

@ -8,7 +8,7 @@
##### 摘要
udp2raw是一个把udp流量通过raw socket包装成tcp流量的工具。通过用udp2raw配合udp模式的 finalspeed一样可以达到在底层发tcp包绕过QOS的效果。支持openvz,稳定性也好很多。原理上相当于在finalspeed外面再包了一层tunnel。
本教程会一步一步演示用udp2raw+finalspeed加速http流量的过程。加速任何其他tcp流量也一样包括ss。本文避免讨论科学上网所以只演示加速http流量。
本教程会一步一步演示用udp2raw+finalspeed加速http流量的过程。加速任何其他tcp流量也一样包括$\*\*\*。本文避免讨论科学上网所以只演示加速http流量。
udp2raw也支持把udp流量包装成Icmp发送本教程不做演示。

2
doc/kcptun_step_by_step.md
View File

@ -1,7 +1,7 @@
# udp2raw+kcptun 加速tcp流量 Step by Step 教程
![image](kcptun_step_by_step/Capture00.PNG)
本教程会一步一步演示用udp2raw+kcptun加速SSH流量的过程。加速任何其他tcp流量也一样包括ss本文避免涉及科学上网所以演示ssh。
本教程会一步一步演示用udp2raw+kcptun加速SSH流量的过程。加速任何其他tcp流量也一样包括$\*\*\*本文避免涉及科学上网所以演示ssh。
### 环境要求
两边的主机都是linux有root权限。 可以是openwrt路由器或树莓派也可以是root了的android。

2
doc/openvpn_guide.md
View File

@ -11,7 +11,7 @@
#### run at client side
assume server ip is 45.66.77.88
```
./udp2raw_amd64 -s -l0.0.0.0:3333 -r 45.66.77.88:8855 -k "passwd" --raw-mode faketcp -a
./udp2raw_amd64 -c -l0.0.0.0:3333 -r 45.66.77.88:8855 -k "passwd" --raw-mode faketcp -a
```
#### hint

16
encrypt.cpp
View File

@ -16,7 +16,7 @@ static int8_t zero_iv[]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0};//this prog
* https://crypto.stackexchange.com/questions/5421/using-cbc-with-a-fixed-iv-and-a-random-first-plaintext-block
****/
char key[16];//generated from key_string by md5.
/*
TODO
@ -208,6 +208,13 @@ int de_padding(const char *data ,int &data_len,int padding_num)
}
int cipher_aes128cbc_encrypt(const char *data,char *output,int &len,char * key)
{
static int first_time=1;
if(aes_key_optimize)
{
if(first_time==0) key=0;
else first_time=0;
}
char buf[buf_len];
memcpy(buf,data,len);//TODO inefficient code
@ -253,7 +260,12 @@ int cipher_none_encrypt(const char *data,char *output,int &len,char * key)
}
int cipher_aes128cbc_decrypt(const char *data,char *output,int &len,char * key)
{
static int first_time=1;
if(aes_key_optimize)
{
if(first_time==0) key=0;
else first_time=0;
}
if(len%16 !=0) {mylog(log_debug,"len%%16!=0\n");return -1;}
//if(len<0) {mylog(log_debug,"len <0\n");return -1;}
AES_CBC_decrypt_buffer((unsigned char *)output,(unsigned char *)data,len,(unsigned char *)key,(unsigned char *)zero_iv);

10
encrypt.h
View File

@ -10,6 +10,10 @@
//using namespace std;
const int aes_key_optimize=1; //if enabled,once you used a key for aes,you cant change it anymore
extern char key[16];
int my_encrypt(const char *data,char *output,int &len,char * key);
int my_decrypt(const char *data,char *output,int &len,char * key);
@ -32,4 +36,10 @@ extern cipher_mode_t cipher_mode;
extern unordered_map<int, const char *> auth_mode_tostring;
extern unordered_map<int, const char *> cipher_mode_tostring;
int cipher_decrypt(const char *data,char *output,int &len,char * key);//internal interface ,exposed for test only
int cipher_encrypt(const char *data,char *output,int &len,char * key);//internal interface ,exposed for test only
#endif

63
fd_manager.cpp Normal file
View File

@ -0,0 +1,63 @@
/*
* fd_manager.cpp
*
* Created on: Sep 25, 2017
* Author: root
*/
#include "fd_manager.h"
int fd_manager_t::fd_exist(int fd)
{
return fd_to_fd64_mp.find(fd)!=fd_to_fd64_mp.end();
}
int fd_manager_t::exist(fd64_t fd64)
{
return fd64_to_fd_mp.find(fd64)!=fd64_to_fd_mp.end();
}
int fd_manager_t::to_fd(fd64_t fd64)
{
assert(exist(fd64));
return fd64_to_fd_mp[fd64];
}
void fd_manager_t::fd64_close(fd64_t fd64)
{
assert(exist(fd64));
int fd=fd64_to_fd_mp[fd64];
fd64_to_fd_mp.erase(fd64);
fd_to_fd64_mp.erase(fd);
if(exist_info(fd64))
{
fd_info_mp.erase(fd64);
}
assert(close(fd)==0);
}
void fd_manager_t::reserve(int n)
{
fd_to_fd64_mp.reserve(n);
fd64_to_fd_mp.reserve(n);
fd_info_mp.reserve(n);
}
u64_t fd_manager_t::create(int fd)
{
assert(!fd_exist(fd));
fd64_t fd64=counter++;
fd_to_fd64_mp[fd]=fd64;
fd64_to_fd_mp[fd64]=fd;
return fd64;
}
fd_manager_t::fd_manager_t()
{
counter=u32_t(-1);
counter+=100;
reserve(10007);
}
fd_info_t & fd_manager_t::get_info(fd64_t fd64)
{
assert(exist(fd64));
return fd_info_mp[fd64];
}
int fd_manager_t::exist_info(fd64_t fd64)
{
return fd_info_mp.find(fd64)!=fd_info_mp.end();
}

43
fd_manager.h Normal file
View File

@ -0,0 +1,43 @@
/*
* fd_manager.h
*
* Created on: Sep 25, 2017
* Author: root
*/
#ifndef FD_MANAGER_H_
#define FD_MANAGER_H_
#include "common.h"
//#include "packet.h"
#include "connection.h"
struct fd_info_t
{
//ip_port_t ip_port;
conn_info_t *p_conn_info;
};
struct fd_manager_t //conver fd to a uniq 64bit number,avoid fd value conflict caused by close and re-create
//this class is not strictly necessary,it just makes epoll fd handling easier
{
fd_info_t & get_info(fd64_t fd64);
int exist_info(fd64_t);
int exist(fd64_t fd64);
int to_fd(fd64_t);
void fd64_close(fd64_t fd64);
void reserve(int n);
u64_t create(int fd);
fd_manager_t();
private:
u64_t counter;
unordered_map<int,fd64_t> fd_to_fd64_mp;
unordered_map<fd64_t,int> fd64_to_fd_mp;
unordered_map<fd64_t,fd_info_t> fd_info_mp;
int fd_exist(int fd);
//void remove_fd(int fd);
//fd64_t fd_to_fd64(int fd);
};
extern fd_manager_t fd_manager;
#endif /* FD_MANAGER_H_ */

BIN
images/udp2rawopenvpn.PNG Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 58 KiB

1
images/wiki/111 Normal file
View File

@ -0,0 +1 @@

BIN
images/wiki/mac_nat_vb1.PNG Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 56 KiB

BIN
images/wiki/mac_nat_vb2.PNG Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 70 KiB

BIN
images/wiki/mac_nat_vb3.PNG Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 68 KiB

BIN
images/wiki/mac_nat_vb4.PNG Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 75 KiB

BIN
images/wiki/windows_nat.PNG Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 11 KiB

BIN
images/wiki/windows_nat_vb1.PNG Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 27 KiB

BIN
images/wiki/windows_nat_vb2.PNG Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 21 KiB

BIN
images/wiki/windows_nat_vm1.PNG Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 33 KiB

BIN
images/wiki/windows_nat_vm2.PNG Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 29 KiB

16
lib/aes_acc/aesacc.c
View File

@ -340,30 +340,34 @@ int AES_support_hwaccel(void)
void AES_CBC_encrypt_buffer(uint8_t* output, uint8_t* input, uint32_t length, const uint8_t* key, const uint8_t* iv)
{
uint8_t iv_tmp[16];
uint8_t rk[AES_RKSIZE];
static uint8_t rk[AES_RKSIZE];
if (key == NULL || iv == NULL)
if (iv == NULL)
{
return;
}
aeshw_init();
memcpy(iv_tmp, iv, 16);
setkey_enc(rk, key);
if(key!= NULL)
setkey_enc(rk, key);
encrypt_cbc(rk, length, iv_tmp, input, output);
}
void AES_CBC_decrypt_buffer(uint8_t* output, uint8_t* input, uint32_t length, const uint8_t* key, const uint8_t* iv)
{
uint8_t iv_tmp[16];
uint8_t rk[AES_RKSIZE];
static uint8_t rk[AES_RKSIZE];
if (key == NULL || iv == NULL)
if (iv == NULL)
{
return;
}
aeshw_init();
memcpy(iv_tmp, iv, 16);
setkey_dec(rk, key);
if(key!= NULL)
{
setkey_dec(rk, key);
}
decrypt_cbc(rk, length, iv_tmp, input, output);
}

1459
lib/aes_faster_c/aes.c Normal file
View File

File diff suppressed because it is too large Load Diff

267
lib/aes_faster_c/aes.h Normal file
View File

@ -0,0 +1,267 @@
/**
* \file aes.h
*
* \brief AES block cipher
*
* Copyright (C) 2006-2014, Brainspark B.V.
*
* This file is part of PolarSSL (http://www.polarssl.org)
* Lead Maintainer: Paul Bakker <polarssl_maintainer at polarssl.org>
*
* All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* 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.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#ifndef POLARSSL_AES_H
#define POLARSSL_AES_H
/*
#if !defined(POLARSSL_CONFIG_FILE)
#include "config.h"
#else
#include POLARSSL_CONFIG_FILE
#endif
*/
////////modification begin
#define POLARSSL_AES_ROM_TABLES
#define POLARSSL_CIPHER_MODE_CBC
//#define POLARSSL_SELF_TEST
#define polarssl_printf printf
///////add end
#include <string.h>
#if defined(_MSC_VER) && !defined(EFIX64) && !defined(EFI32)
#include <basetsd.h>
typedef UINT32 uint32_t;
#else
#include <inttypes.h>
#endif
/* padlock.c and aesni.c rely on these values! */
#define AES_ENCRYPT 1
#define AES_DECRYPT 0
#define POLARSSL_ERR_AES_INVALID_KEY_LENGTH -0x0020 /**< Invalid key length. */
#define POLARSSL_ERR_AES_INVALID_INPUT_LENGTH -0x0022 /**< Invalid data input length. */
#if !defined(POLARSSL_AES_ALT)
// Regular implementation
//
#ifdef __cplusplus
extern "C" {
#endif
/**
* \brief AES context structure
*
* \note buf is able to hold 32 extra bytes, which can be used:
* - for alignment purposes if VIA padlock is used, and/or
* - to simplify key expansion in the 256-bit case by
* generating an extra round key
*/
typedef struct
{
int nr; /*!< number of rounds */
uint32_t *rk; /*!< AES round keys */
uint32_t buf[68]; /*!< unaligned data */
}
aes_context;
/**
* \brief Initialize AES context
*
* \param ctx AES context to be initialized
*/
void aes_init( aes_context *ctx );
/**
* \brief Clear AES context
*
* \param ctx AES context to be cleared
*/
void aes_free( aes_context *ctx );
/**
* \brief AES key schedule (encryption)
*
* \param ctx AES context to be initialized
* \param key encryption key
* \param keysize must be 128, 192 or 256
*
* \return 0 if successful, or POLARSSL_ERR_AES_INVALID_KEY_LENGTH
*/
int aes_setkey_enc( aes_context *ctx, const unsigned char *key,
unsigned int keysize );
/**
* \brief AES key schedule (decryption)
*
* \param ctx AES context to be initialized
* \param key decryption key
* \param keysize must be 128, 192 or 256
*
* \return 0 if successful, or POLARSSL_ERR_AES_INVALID_KEY_LENGTH
*/
int aes_setkey_dec( aes_context *ctx, const unsigned char *key,
unsigned int keysize );
/**
* \brief AES-ECB block encryption/decryption
*
* \param ctx AES context
* \param mode AES_ENCRYPT or AES_DECRYPT
* \param input 16-byte input block
* \param output 16-byte output block
*
* \return 0 if successful
*/
int aes_crypt_ecb( aes_context *ctx,
int mode,
const unsigned char input[16],
unsigned char output[16] );
#if defined(POLARSSL_CIPHER_MODE_CBC)
/**
* \brief AES-CBC buffer encryption/decryption
* Length should be a multiple of the block
* size (16 bytes)
*
* \param ctx AES context
* \param mode AES_ENCRYPT or AES_DECRYPT
* \param length length of the input data
* \param iv initialization vector (updated after use)
* \param input buffer holding the input data
* \param output buffer holding the output data
*
* \return 0 if successful, or POLARSSL_ERR_AES_INVALID_INPUT_LENGTH
*/
int aes_crypt_cbc( aes_context *ctx,
int mode,
size_t length,
unsigned char iv[16],
const unsigned char *input,
unsigned char *output );
#endif /* POLARSSL_CIPHER_MODE_CBC */
#if defined(POLARSSL_CIPHER_MODE_CFB)
/**
* \brief AES-CFB128 buffer encryption/decryption.
*
* Note: Due to the nature of CFB you should use the same key schedule for
* both encryption and decryption. So a context initialized with
* aes_setkey_enc() for both AES_ENCRYPT and AES_DECRYPT.
*
* \param ctx AES context
* \param mode AES_ENCRYPT or AES_DECRYPT
* \param length length of the input data
* \param iv_off offset in IV (updated after use)
* \param iv initialization vector (updated after use)
* \param input buffer holding the input data
* \param output buffer holding the output data
*
* \return 0 if successful
*/
int aes_crypt_cfb128( aes_context *ctx,
int mode,
size_t length,
size_t *iv_off,
unsigned char iv[16],
const unsigned char *input,
unsigned char *output );
/**
* \brief AES-CFB8 buffer encryption/decryption.
*
* Note: Due to the nature of CFB you should use the same key schedule for
* both encryption and decryption. So a context initialized with
* aes_setkey_enc() for both AES_ENCRYPT and AES_DECRYPT.
*
* \param ctx AES context
* \param mode AES_ENCRYPT or AES_DECRYPT
* \param length length of the input data
* \param iv initialization vector (updated after use)
* \param input buffer holding the input data
* \param output buffer holding the output data
*
* \return 0 if successful
*/
int aes_crypt_cfb8( aes_context *ctx,
int mode,
size_t length,
unsigned char iv[16],
const unsigned char *input,
unsigned char *output );
#endif /*POLARSSL_CIPHER_MODE_CFB */
#if defined(POLARSSL_CIPHER_MODE_CTR)
/**
* \brief AES-CTR buffer encryption/decryption
*
* Warning: You have to keep the maximum use of your counter in mind!
*
* Note: Due to the nature of CTR you should use the same key schedule for
* both encryption and decryption. So a context initialized with
* aes_setkey_enc() for both AES_ENCRYPT and AES_DECRYPT.
*
* \param ctx AES context
* \param length The length of the data
* \param nc_off The offset in the current stream_block (for resuming
* within current cipher stream). The offset pointer to
* should be 0 at the start of a stream.
* \param nonce_counter The 128-bit nonce and counter.
* \param stream_block The saved stream-block for resuming. Is overwritten
* by the function.
* \param input The input data stream
* \param output The output data stream
*
* \return 0 if successful
*/
int aes_crypt_ctr( aes_context *ctx,
size_t length,
size_t *nc_off,
unsigned char nonce_counter[16],
unsigned char stream_block[16],
const unsigned char *input,
unsigned char *output );
#endif /* POLARSSL_CIPHER_MODE_CTR */
#ifdef __cplusplus
}
#endif
#else /* POLARSSL_AES_ALT */
#include "aes_alt.h"
#endif /* POLARSSL_AES_ALT */
#ifdef __cplusplus
extern "C" {
#endif
/**
* \brief Checkup routine
*
* \return 0 if successful, or 1 if the test failed
*/
int aes_self_test( int verbose );
#ifdef __cplusplus
}
#endif
#endif /* aes.h */

56
lib/aes_faster_c/wrapper.c Normal file
View File

@ -0,0 +1,56 @@
#include "aes.h"
#include <stdio.h>
#include <stdlib.h>
#if defined(AES256) && (AES256 == 1)
#define AES_KEYSIZE 256
#elif defined(AES192) && (AES192 == 1)
#define AES_KEYSIZE 192
#else
#define AES_KEYSIZE 128
#endif
void AES_ECB_encrypt(const uint8_t* input, const uint8_t* key, uint8_t *output, const uint32_t length)
{
printf("AES_ECB_encrypt not implemented\n");
exit(-1);
}
void AES_ECB_decrypt(const uint8_t* input, const uint8_t* key, uint8_t *output, const uint32_t length)
{
printf("AES_ECB_encrypt not implemented\n");
exit(-1);
}
void AES_CBC_encrypt_buffer(uint8_t* output, uint8_t* input, uint32_t length, const uint8_t* key, const uint8_t* iv)
{
static aes_context ctx;
static int done=0;
if(done==0)
{
aes_init( &ctx);
done=1;
}
char tmp_iv[16];
if(key!=0) aes_setkey_enc(&ctx,key,AES_KEYSIZE);
memcpy(tmp_iv,iv,16);
aes_crypt_cbc( &ctx, AES_ENCRYPT, length, (unsigned char* )tmp_iv, (const unsigned char*)input,(unsigned char*) output );
return ;
}
void AES_CBC_decrypt_buffer(uint8_t* output, uint8_t* input, uint32_t length, const uint8_t* key, const uint8_t* iv)
{
static aes_context ctx;
static int done=0;
if(done==0)
{
aes_init( &ctx);
done=1;
}
char tmp_iv[16];
if(key!=0) aes_setkey_dec(&ctx,key,AES_KEYSIZE);
memcpy(tmp_iv,iv,16);
aes_crypt_cbc( &ctx,AES_DECRYPT, length, (unsigned char*)tmp_iv, (const unsigned char*)input, (unsigned char*) output );
return;
}

12
lib/md5.c
View File

@ -302,11 +302,15 @@ void md5_finish( md5_context *ctx, unsigned char output[16] )
*/
void md5( const unsigned char *input, size_t ilen, unsigned char output[16] )
{
md5_context ctx;
md5_init( &ctx );
static md5_context ctx;
static int done=0;
if(done==0)
{
md5_init( &ctx );
done=1;
}
md5_starts( &ctx );
md5_update( &ctx, input, ilen );
md5_finish( &ctx, output );
md5_free( &ctx );
//md5_free( &ctx );
}

2
log.cpp
View File

@ -1,11 +1,11 @@
#include "log.h"
#include "misc.h"
int log_level=log_info;
int enable_log_position=0;
int enable_log_color=1;
void log0(const char * file,const char * function,int line,int level,const char* str, ...) {
if(level>log_level) return ;

3
log.h
View File

@ -3,7 +3,8 @@
#define UDP2RAW_LOG_MYLOG_H_
#include<common.h>
#include "common.h"
using namespace std;

2199
main.cpp
View File

File diff suppressed because it is too large Load Diff

41
makefile
View File

@ -1,17 +1,23 @@
cc_cross=/home/wangyu/Desktop/arm-2014.05/bin/arm-none-linux-gnueabi-g++
cc_local=g++
cc_mips34kc=/toolchains/OpenWrt-SDK-ar71xx-for-linux-x86_64-gcc-4.8-linaro_uClibc-0.9.33.2/staging_dir/toolchain-mips_34kc_gcc-4.8-linaro_uClibc-0.9.33.2/bin/mips-openwrt-linux-g++
#cc_local=/opt/cross/x86_64-linux-musl/bin/x86_64-linux-musl-g++
#cc_mips34kc=/toolchains/OpenWrt-SDK-ar71xx-for-linux-x86_64-gcc-4.8-linaro_uClibc-0.9.33.2/staging_dir/toolchain-mips_34kc_gcc-4.8-linaro_uClibc-0.9.33.2/bin/mips-openwrt-linux-g++
cc_mips24kc_be=/toolchains/lede-sdk-17.01.2-ar71xx-generic_gcc-5.4.0_musl-1.1.16.Linux-x86_64/staging_dir/toolchain-mips_24kc_gcc-5.4.0_musl-1.1.16/bin/mips-openwrt-linux-musl-g++
cc_mips24kc_le=/toolchains/lede-sdk-17.01.2-ramips-mt7621_gcc-5.4.0_musl-1.1.16.Linux-x86_64/staging_dir/toolchain-mipsel_24kc_gcc-5.4.0_musl-1.1.16/bin/mipsel-openwrt-linux-musl-g++
#cc_arm= /toolchains/gcc-linaro-4.9.4-2017.01-x86_64_arm-linux-gnueabi/bin/arm-linux-gnueabi-g++ -march=armv6 -marm
cc_arm= /toolchains/arm-2014.05/bin/arm-none-linux-gnueabi-g++
#cc_arm=/toolchains/lede-sdk-17.01.2-brcm2708-bcm2708_gcc-5.4.0_musl-1.1.16_eabi.Linux-x86_64/staging_dir/toolchain-arm_arm1176jzf-s+vfp_gcc-5.4.0_musl-1.1.16_eabi/bin/arm-openwrt-linux-muslgnueabi-g++
#cc_bcm2708=/home/wangyu/raspberry/tools/arm-bcm2708/gcc-linaro-arm-linux-gnueabihf-raspbian/bin/arm-linux-gnueabihf-g++
FLAGS= -std=c++11 -Wall -Wextra -Wno-unused-variable -Wno-unused-parameter -Wno-missing-field-initializers
SOURCES=main.cpp lib/aes.c lib/md5.c encrypt.cpp log.cpp network.cpp common.cpp -lpthread
SOURCES_AES_ACC=$(filter-out lib/aes.c,$(SOURCES)) $(wildcard lib/aes_acc/aes*.c)
COMMON=main.cpp lib/md5.c encrypt.cpp log.cpp network.cpp common.cpp connection.cpp misc.cpp fd_manager.cpp -lpthread
SOURCES= $(COMMON) lib/aes_faster_c/aes.c lib/aes_faster_c/wrapper.c
SOURCES_TINY_AES= $(COMMON) lib/aes.c
SOURCES_AES_ACC=$(COMMON) $(wildcard lib/aes_acc/aes*.c)
NAME=udp2raw
TARGETS=amd64 mips34kc arm amd64_hw_aes arm_asm_aes mips34kc_asm_aes x86 x86_asm_aes
TAR=${NAME}_binaries.tar.gz `echo ${TARGETS}|sed -r 's/([^ ]+)/udp2raw_\1/g'`
TARGETS=amd64 arm amd64_hw_aes arm_asm_aes mips24kc_be mips24kc_be_asm_aes x86 x86_asm_aes mips24kc_le mips24kc_le_asm_aes
TAR=${NAME}_binaries.tar.gz `echo ${TARGETS}|sed -r 's/([^ ]+)/udp2raw_\1/g'` version.txt
all:git_version
rm -f ${NAME}
@ -26,16 +32,27 @@ debug2: git_version
rm -f ${NAME}
${cc_local} -o ${NAME} -I. ${SOURCES} ${FLAGS} -lrt -Wformat-nonliteral -ggdb
mips34kc: git_version
${cc_mips34kc} -o ${NAME}_$@ -I. ${SOURCES} ${FLAGS} -lrt -lgcc_eh -static -O3
dynamic: git_version
${cc_local} -o ${NAME}_$@ -I. ${SOURCES} ${FLAGS} -lrt -O3
mips34kc_asm_aes: git_version
${cc_mips34kc} -o ${NAME}_$@ -I. ${SOURCES_AES_ACC} ${FLAGS} -lrt -lgcc_eh -static -O3 lib/aes_acc/asm/mips_be.S
mips24kc_be: git_version
${cc_mips24kc_be} -o ${NAME}_$@ -I. ${SOURCES} ${FLAGS} -lrt -lgcc_eh -static -O3
mips24kc_be_asm_aes: git_version
${cc_mips24kc_be} -o ${NAME}_$@ -I. ${SOURCES_AES_ACC} ${FLAGS} -lrt -lgcc_eh -static -O3 lib/aes_acc/asm/mips_be.S
mips24kc_le: git_version
${cc_mips24kc_le} -o ${NAME}_$@ -I. ${SOURCES} ${FLAGS} -lrt -lgcc_eh -static -O3
mips24kc_le_asm_aes: git_version
${cc_mips24kc_le} -o ${NAME}_$@ -I. ${SOURCES_AES_ACC} ${FLAGS} -lrt -lgcc_eh -static -O3 lib/aes_acc/asm/mips.S
#bcm2708:
# ${cc_bcm2708} -o ${NAME}_bcm2708 -I. ${SOURCES} ${FLAGS} -lrt -static -O3
amd64:git_version
${cc_local} -o ${NAME}_$@ -I. ${SOURCES} ${FLAGS} -lrt -static -O3
amd64_perf:git_version
${cc_local} -o ${NAME}_$@ -I. ${SOURCES} ${FLAGS} -lrt -static -O0 -fno-omit-frame-pointer -g
amd64_hw_aes:git_version
${cc_local} -o ${NAME}_$@ -I. ${SOURCES_AES_ACC} ${FLAGS} -lrt -static -O3 lib/aes_acc/asm/x64.S
x86:git_version
@ -45,6 +62,9 @@ x86_asm_aes:git_version
arm:git_version
${cc_arm} -o ${NAME}_$@ -I. ${SOURCES} ${FLAGS} -lrt -static -O3
arm_perf:git_version
${cc_arm} -o ${NAME}_$@ -I. ${SOURCES} ${FLAGS} -lrt -static -mapcs-frame -fno-omit-frame-pointer -g -O0 -lgcc_eh
arm_asm_aes:git_version
${cc_arm} -o ${NAME}_$@ -I. ${SOURCES_AES_ACC} ${FLAGS} -lrt -static -O3 lib/aes_acc/asm/arm.S
@ -58,11 +78,12 @@ cross3:git_version
${cc_cross} -o ${NAME}_cross -I. ${SOURCES} ${FLAGS} -lrt -static -O3
release: ${TARGETS}
cp git_version.h version.txt
tar -zcvf ${TAR}
clean:
rm -f ${TAR}
rm -f udp2raw udp2raw_cross udp2raw_cmake
rm -f udp2raw udp2raw_cross udp2raw_cmake udp2raw_dynamic
rm -f git_version.h
git_version:

1220
misc.cpp Normal file
View File

File diff suppressed because it is too large Load Diff

134
misc.h Normal file
View File

@ -0,0 +1,134 @@
/*
* misc.h
*
* Created on: Sep 23, 2017
* Author: root
*/
#ifndef MISC_H_
#define MISC_H_
#include "common.h"
#include "log.h"
#include "network.h"
extern int hb_mode;
extern int hb_len;
extern int mtu_warn;
const u32_t max_handshake_conn_num=10000;
const u32_t max_ready_conn_num=1000;
const u32_t anti_replay_window_size=4000;
const int max_conv_num=10000;
const u32_t client_handshake_timeout=5000;//unit ms
const u32_t client_retry_interval=1000;//ms
const u32_t server_handshake_timeout=client_handshake_timeout+5000;// this should be longer than clients. client retry initially ,server retry passtively
const int conv_clear_ratio=30; //conv grabage collecter check 1/30 of all conv one time
const int conn_clear_ratio=50;
const int conv_clear_min=1;
const int conn_clear_min=1;
const u32_t conv_clear_interval=1000;//ms
const u32_t conn_clear_interval=1000;//ms
const i32_t max_fail_time=0;//disable
const u32_t heartbeat_interval=600;//ms
const u32_t timer_interval=400;//ms. this should be smaller than heartbeat_interval and retry interval;
const uint32_t conv_timeout=180000; //ms. 120 second
//const u32_t conv_timeout=30000; //for test
const u32_t client_conn_timeout=10000;//ms.
const u32_t client_conn_uplink_timeout=client_conn_timeout+2000;//ms
const uint32_t server_conn_timeout=conv_timeout+60000;//ms. this should be 60s+ longer than conv_timeout,so that conv_manager can destruct convs gradually,to avoid latency glicth
//const u32_t server_conn_timeout=conv_timeout+10000;//for test
const u32_t iptables_rule_keep_interval=20;//unit: second;
enum server_current_state_t {server_idle=0,server_handshake1,server_ready}; //server state machine
enum client_current_state_t {client_idle=0,client_tcp_handshake,client_handshake1,client_handshake2,client_ready};//client state machine
enum raw_mode_t{mode_faketcp=0,mode_udp,mode_icmp,mode_end};
enum program_mode_t {unset_mode=0,client_mode,server_mode};
union current_state_t
{
server_current_state_t server_current_state;
client_current_state_t client_current_state;
};
extern char local_ip[100], remote_ip[100],source_ip[100];//local_ip is for -l option,remote_ip for -r option,source for --source-ip
extern u32_t local_ip_uint32,remote_ip_uint32,source_ip_uint32;//convert from last line.
extern int local_port , remote_port,source_port;//similiar to local_ip remote_ip,buf for port.source_port=0 indicates --source-port is not enabled
extern int force_source_ip; //if --source-ip is enabled
extern id_t const_id;//an id used for connection recovery,its generated randomly,it never change since its generated
extern int udp_fd; //for client only. client use this fd to listen and handle udp connection
extern int bind_fd; //bind only,never send or recv. its just a dummy fd for bind,so that other program wont occupy the same port
extern int epollfd; //fd for epoll
extern int timer_fd; //the general timer fd for client and server.for server this is not the only timer find,every connection has a timer fd.
extern int fail_time_counter;//determine if the max_fail_time is reached
extern int epoll_trigger_counter;//for debug only
extern int debug_flag;//for debug only
extern int simple_rule; //deprecated.
extern int keep_rule; //whether to monitor the iptables rule periodly,re-add if losted
extern int auto_add_iptables_rule;//if -a is set
extern int generate_iptables_rule;//if -g is set
extern int generate_iptables_rule_add;// if --gen-add is set
extern int retry_on_error;
const int retry_on_error_interval=10;
extern int debug_resend; // debug only
extern char key_string[1000];// -k option
extern char fifo_file[1000];
extern raw_mode_t raw_mode;
extern program_mode_t program_mode;
extern unordered_map<int, const char*> raw_mode_tostring ;
extern int about_to_exit;
extern int socket_buf_size;
extern int force_socket_buf;
extern pthread_t keep_thread;
extern int keep_thread_running;
int process_lower_level_arg();
void print_help();
void iptables_rule();
void pre_process_arg(int argc, char *argv[]);//mainly for load conf file;
int unit_test();
int set_timer(int epollfd,int &timer_fd);
int set_timer_server(int epollfd,int &timer_fd,fd64_t &fd64);
int handle_lower_level(raw_info_t &raw_info);
int add_iptables_rule(const char *);
int clear_iptables_rule();
int iptables_gen_add(const char * s,u32_t const_id);
int iptables_rule_init(const char * s,u32_t const_id,int keep);
int keep_iptables_rule();
void signal_handler(int sig);
#endif /* MISC_H_ */

101
network.cpp
View File

@ -7,6 +7,7 @@
#include "common.h"
#include "network.h"
#include "log.h"
#include "misc.h"
int raw_recv_fd=-1;
int raw_send_fd=-1;
@ -14,6 +15,7 @@ u32_t link_level_header_len=0;//set it to 14 if SOCK_RAW is used in socket(PF_PA
int seq_mode=3;
int max_seq_mode=4;
int random_drop=0;
int filter_port=-1;
@ -1622,6 +1624,12 @@ int recv_raw_tcp_deprecated(packet_info_t &info,char * &payload,int &payloadlen)
}*/
int send_raw0(raw_info_t &raw_info,const char * payload,int payloadlen)
{
if (random_drop != 0) {
if (get_true_random_number() % 10000 < (u32_t) random_drop) {
return 0;
}
}
packet_info_t &send_info=raw_info.send_info;
packet_info_t &recv_info=raw_info.recv_info;
mylog(log_trace,"send_raw : from %x %d to %x %d\n",send_info.src_ip,send_info.src_port,send_info.dst_ip,send_info.dst_port);
@ -1772,3 +1780,96 @@ int recv_raw(raw_info_t &raw_info,char *& payload,int & payloadlen)
}
}*/
int get_src_adress(u32_t &ip,u32_t remote_ip_uint32,int remote_port) //a trick to get src adress for a dest adress,so that we can use the src address in raw socket as source ip
{
struct sockaddr_in remote_addr_in={0};
socklen_t slen = sizeof(sockaddr_in);
//memset(&remote_addr_in, 0, sizeof(remote_addr_in));
remote_addr_in.sin_family = AF_INET;
remote_addr_in.sin_port = htons(remote_port);
remote_addr_in.sin_addr.s_addr = remote_ip_uint32;
int new_udp_fd=socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP);
if(new_udp_fd<0)
{
mylog(log_warn,"create udp_fd error\n");
return -1;
}
//set_buf_size(new_udp_fd);
mylog(log_debug,"created new udp_fd %d\n",new_udp_fd);
int ret = connect(new_udp_fd, (struct sockaddr *) &remote_addr_in, slen);
if(ret!=0)
{
mylog(log_warn,"udp fd connect fail\n");
close(new_udp_fd);
return -1;
}
struct sockaddr_in my_addr={0};
socklen_t len=sizeof(my_addr);
if(getsockname(new_udp_fd, (struct sockaddr *) &my_addr, &len)!=0) return -1;
ip=my_addr.sin_addr.s_addr;
close(new_udp_fd);
return 0;
}
int try_to_list_and_bind(int &fd,u32_t local_ip_uint32,int port) //try to bind to a port,may fail.
{
int old_bind_fd=fd;
if(raw_mode==mode_faketcp)
{
fd=socket(AF_INET,SOCK_STREAM,0);
}
else if(raw_mode==mode_udp||raw_mode==mode_icmp)
{
fd=socket(AF_INET,SOCK_DGRAM,0);
}
if(old_bind_fd!=-1)
{
close(old_bind_fd);
}
struct sockaddr_in temp_bind_addr={0};
//bzero(&temp_bind_addr, sizeof(temp_bind_addr));
temp_bind_addr.sin_family = AF_INET;
temp_bind_addr.sin_port = htons(port);
temp_bind_addr.sin_addr.s_addr = local_ip_uint32;
if (bind(fd, (struct sockaddr*)&temp_bind_addr, sizeof(temp_bind_addr)) !=0)
{
mylog(log_debug,"bind fail\n");
return -1;
}
if(raw_mode==mode_faketcp)
{
if (listen(fd, SOMAXCONN) != 0) {
mylog(log_warn,"listen fail\n");
return -1;
}
}
return 0;
}
int client_bind_to_a_new_port(int &fd,u32_t local_ip_uint32)//find a free port and bind to it.
{
int raw_send_port=10000+get_true_random_number()%(65535-10000);
for(int i=0;i<1000;i++)//try 1000 times at max,this should be enough
{
if (try_to_list_and_bind(fd,local_ip_uint32,raw_send_port)==0)
{
return raw_send_port;
}
}
mylog(log_fatal,"bind port fail\n");
myexit(-1);
return -1;////for compiler check
}

9
network.h
View File

@ -21,6 +21,8 @@ extern int lower_level_manual;
extern char if_name[100];
extern unsigned char dest_hw_addr[];
extern int random_drop;
extern int ifindex;
struct icmphdr
@ -90,10 +92,17 @@ int init_raw_socket();
void init_filter(int port);
void remove_filter();
int init_ifindex(const char * if_name,int &index);
int find_lower_level_info(u32_t ip,u32_t &dest_ip,string &if_name,string &hw);
int get_src_adress(u32_t &ip,u32_t remote_ip_uint32,int remote_port); //a trick to get src adress for a dest adress,so that we can use the src address in raw socket as source ip
int try_to_list_and_bind(int & bind_fd,u32_t local_ip_uint32,int port); //try to bind to a port,may fail.
int client_bind_to_a_new_port(int & bind_fd,u32_t local_ip_uint32);//find a free port and bind to it.
int send_raw_ip(raw_info_t &raw_info,const char * payload,int payloadlen);
int peek_raw(packet_info_t &peek_info);

1
third-party/luci-app-udp2raw/moved_to_new_repo vendored Normal file
View File

@ -0,0 +1 @@
https://github.com/sensec/luci-app-udp2raw

6
cmake/CMakeLists.txt → third-party/udp2raw-cmake-makefile/CMakeLists.txt vendored
View File

@ -2,10 +2,11 @@ cmake_minimum_required(VERSION 3.7)
project(udp2raw_tunnel)
set(CMAKE_CXX_STANDARD 11)
set_source_files_properties(lib/aes.c lib/md5.c PROPERTIES LANGUAGE CXX )
set_source_files_properties(lib/aes_faster_c/aes.c lib/aes_faster_c/wrapper.c lib/md5.c PROPERTIES LANGUAGE CXX )
set(SOURCE_FILES
lib/aes.c
lib/aes_faster_c/aes.c
lib/aes_faster_c/wrapper.c
lib/md5.c
common.cpp
encrypt.cpp
@ -17,3 +18,4 @@ set(CMAKE_CXX_FLAGS "-Wall -Wextra -Wno-unused-variable -Wno-unused-parameter -W
#set(CMAKE_LINK_LIBRARY_FLAG "-lrt")
add_executable(udp2raw_cmake ${SOURCE_FILES})
target_link_libraries(udp2raw_cmake rt)
target_link_libraries(udp2raw_cmake pthread)

1
third-party/udp2raw-openwrt-makefile/moved_to_new_repo vendored Normal file
View File

@ -0,0 +1 @@
https://github.com/sensec/openwrt-udp2raw