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main #22

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ccyj merged 68 commits from sangge/tpre-python:main into main 2023-10-26 14:45:47 +08:00
Conversation 0 Commits 68 Files Changed 12 +378 -184
12 changed files with 378 additions and 184 deletions
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46
.gitea/workflows/ci.yaml Normal file
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@ -0,0 +1,46 @@
name: Deploy App
on:
push:
branches:
- main
jobs:
deploy:
name: Deploy to Web Server
runs-on: ubuntu-latest
steps:
- name: Checkout repository
uses: actions/checkout@v3
- name: copy file via ssh password
uses: cross-the-world/scp-pipeline@master
with:
host: "110.41.155.96"
user: ${{ secrets.USERNAME }}
pass: ${{ secrets.PASSWORD }}
local: "src/*"
remote: /root/mimajingsai/src/
- name: copy file via ssh password
uses: cross-the-world/scp-pipeline@master
with:
host: "110.41.130.197"
user: ${{ secrets.USERNAME }}
pass: ${{ secrets.PASSWORD }}
local: "src/*"
remote: /root/mimajingsai/src/
- name: copy file via ssh password
uses: cross-the-world/scp-pipeline@master
with:
host: "110.41.21.35"
user: ${{ secrets.USERNAME }}
pass: ${{ secrets.PASSWORD }}
local: "src/*"
remote: /root/mimajingsai/src/

1
README_en.md
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@ -52,6 +52,7 @@ pip install -r requirements.txt -i https://pypi.tuna.tsinghua.edu.cn/simple
### Use base image and build yourself ### Use base image and build yourself
```bash ```bash
docker build . -f basedockerfile -t git.mamahaha.work/sangge/tpre:base
docker pull git.mamahaha.work/sangge/tpre:base docker pull git.mamahaha.work/sangge/tpre:base
docker build . -t your_image_name docker build . -t your_image_name
docker run your_image_name docker run your_image_name

20
doc/README_app_en.md
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@ -5,3 +5,23 @@
/request_node /request_node
get method get method
pr pr
docker run -it -p 8000:8000 -p 8001:8001 -p 8002:8002 -v ~/mimajingsai:/app -e HOST_IP=110.41.130.197 git.mamahaha.work/sangge/tpre:base bash
tpre3: docker run -it -p 8000:8000 -p 8001:8001 -p 8002:8002 -v ~/mimajingsai:/app -e HOST_IP=60.204.233.103 git.mamahaha.work/sangge/tpre:base bash
110.41.155.96 tpre1
110.41.130.197 tpre2
110.41.21.35 tpre3
python client_cli.py 110.41.21.35 aaa
apt update && apt install docker.io mosh -y
60.204.236.38 tpre1
1.94.42.18 tpre2
60.204.233.103 tpre3

1
requirements.txt
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@ -1,3 +1,4 @@
gmssl-python gmssl-python
fastapi fastapi
uvicorn uvicorn
requests

2
src/client.ini
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@ -1,3 +1,3 @@
[settings] [settings]
server_address = 10.20.127.226:8000 server_address = 60.204.236.38:8000
version = 1.0 version = 1.0

208
src/client.py
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@ -9,6 +9,11 @@ from pydantic import BaseModel
import socket import socket
import random import random
import time import time
import base64
import json
import pickle
from fastapi.responses import JSONResponse
import asyncio
@asynccontextmanager @asynccontextmanager
@ -28,8 +33,7 @@ def init():
# load config from config file # load config from config file
init_config() init_config()
get_node_list(2, server_address) # type: ignore
# get_node_list(6, server_address) # type: ignore
def init_db(): def init_db():
@ -39,7 +43,7 @@ def init_db():
""" """
CREATE TABLE IF NOT EXISTS message ( CREATE TABLE IF NOT EXISTS message (
id INTEGER PRIMARY KEY, id INTEGER PRIMARY KEY,
capsule TEXT, capsule BLOB,
ct TEXT, ct TEXT,
senderip TEXT senderip TEXT
); );
@ -62,7 +66,8 @@ def init_db():
CREATE TABLE IF NOT EXISTS senderinfo ( CREATE TABLE IF NOT EXISTS senderinfo (
id INTEGER PRIMARY KEY, id INTEGER PRIMARY KEY,
ip TEXT, ip TEXT,
publickey TEXT, pkx TEXT,
pky TEXT,
threshold INTEGER threshold INTEGER
) )
""" """
@ -84,6 +89,13 @@ def init_config():
# execute on exit # execute on exit
def clean_env(): def clean_env():
global message, node_response
message = b""
node_response = False
with sqlite3.connect("client.db") as db:
db.execute("DELETE FROM node")
db.execute("DELETE FROM message")
db.commit()
print("Exit app") print("Exit app")
@ -94,9 +106,10 @@ async def read_root():
class C(BaseModel): class C(BaseModel):
Tuple: Tuple[capsule, int] Tuple: Tuple[Tuple[Tuple[int, int], Tuple[int, int], int, Tuple[int, int]], int]
ip: str ip: str
# receive messages from nodes # receive messages from nodes
@app.post("/receive_messages") @app.post("/receive_messages")
async def receive_messages(message: C): async def receive_messages(message: C):
@ -108,32 +121,30 @@ async def receive_messages(message: C):
return: return:
status_code status_code
""" """
C_tuple = message.Tuple
ip = message.ip if not message.Tuple or not message.ip:
if not C_tuple or not ip:
raise HTTPException(status_code=400, detail="Invalid input data") raise HTTPException(status_code=400, detail="Invalid input data")
C_capsule = C_tuple[0] C_capsule, C_ct = message.Tuple
C_ct = C_tuple[1] ip = message.ip
if not Checkcapsule(C_capsule): # Serialization
raise HTTPException(status_code=400, detail="Invalid capsule") bin_C_capsule = pickle.dumps(C_capsule)
# insert record into database # insert record into database
with sqlite3.connect("message.db") as db: with sqlite3.connect("client.db") as db:
try: try:
db.execute( db.execute(
""" """
INSERT INTO message INSERT INTO message
(capsule_column, ct_column, ip_column) (capsule, ct, senderip)
VALUES VALUES
(?, ?, ?) (?, ?, ?)
""", """,
(C_capsule, C_ct, ip), (bin_C_capsule, str(C_ct), ip),
) )
db.commit() db.commit()
await check_merge(C_ct, ip) check_merge(C_ct, ip)
return HTTPException(status_code=200, detail="Message received") return HTTPException(status_code=200, detail="Message received")
except Exception as e: except Exception as e:
print(f"Error occurred: {e}") print(f"Error occurred: {e}")
@ -142,38 +153,67 @@ async def receive_messages(message: C):
# check record count # check record count
async def check_merge(ct: int, ip: str): def check_merge(ct: int, ip: str):
global sk, pk, node_response, message global sk, pk, node_response, message
"""
CREATE TABLE IF NOT EXISTS senderinfo (
id INTEGER PRIMARY KEY,
ip TEXT,
pkx TEXT,
pky TEXT,
threshold INTEGER
)
"""
with sqlite3.connect("client.db") as db: with sqlite3.connect("client.db") as db:
# Check if the combination of ct_column and ip_column appears more than once. # Check if the combination of ct_column and ip_column appears more than once.
cursor = db.execute( cursor = db.execute(
""" """
SELECT capsule, ct SELECT capsule, ct
FROM message FROM message
WHERE ct = ? AND senderip = ? WHERE ct = ? AND senderip = ?
""", """,
(ct, ip), (str(ct), ip),
) )
# [(capsule, ct), ...] # [(capsule, ct), ...]
cfrag_cts = cursor.fetchall() cfrag_cts = cursor.fetchall()
# get T # get _sender_pk
cursor = db.execute( cursor = db.execute(
""" """
SELECT publickey, threshold SELECT pkx, pky
FROM senderinfo FROM senderinfo
WHERE senderip = ? WHERE ip = ?
""", """,
(ip), (ip,),
) )
result = cursor.fetchall() result = cursor.fetchall()
pk_sender, T = result[0] # result[0] = (pk, threshold) try:
pkx, pky = result[0] # result[0] = (pkx, pky)
pk_sender = (int(pkx), int(pky))
except:
pk_sender, T = 0, -1
T = 2
if len(cfrag_cts) >= T: if len(cfrag_cts) >= T:
cfrags = mergecfrag(cfrag_cts) # Deserialization
message = DecryptFrags(sk, pk, pk_sender, cfrags) # type: ignore temp_cfrag_cts = []
for i in cfrag_cts:
capsule = pickle.loads(i[0])
temp_cfrag_cts.append((capsule, int(i[1]).to_bytes(32)))
cfrags = mergecfrag(temp_cfrag_cts)
print("sk:", type(sk))
print("pk:", type(pk))
print("pk_sender:", type(pk_sender))
print("cfrags:", type(cfrags))
message = DecryptFrags(sk, pk, pk_sender, cfrags)
print("merge success", message)
node_response = True node_response = True
print("merge:", node_response)
# send message to node # send message to node
async def send_messages( async def send_messages(
@ -181,29 +221,33 @@ async def send_messages(
): ):
global pk, sk global pk, sk
id_list = [] id_list = []
# calculate id of nodes # calculate id of nodes
for node_ip in node_ips: for node_ip in node_ips:
node_ip = node_ip[0]
ip_parts = node_ip.split(".") ip_parts = node_ip.split(".")
id = 0 id = 0
for i in range(4): for i in range(4):
id += int(ip_parts[i]) << (24 - (8 * i)) id += int(ip_parts[i]) << (24 - (8 * i))
id_list.append(id) id_list.append(id)
# generate rk # generate rk
rk_list = GenerateReKey(sk, pk_B, len(node_ips), shreshold, tuple(id_list)) # type: ignore rk_list = GenerateReKey(sk, pk_B, len(node_ips), shreshold, tuple(id_list)) # type: ignore
capsule_ct = Encrypt(pk, message) # type: ignore capsule, ct = Encrypt(pk, message) # type: ignore
# capsule_ct = (capsule, int.from_bytes(ct))
for i in range(len(node_ips)): for i in range(len(node_ips)):
url = "http://" + node_ips[i] + ":8001" + "/user_src?message" url = "http://" + node_ips[i][0] + ":8001" + "/user_src"
payload = { payload = {
"source_ip": local_ip, "source_ip": local_ip,
"dest_ip": dest_ip, "dest_ip": dest_ip,
"capsule_ct": capsule_ct, "capsule": capsule,
"ct": int.from_bytes(ct),
"rk": rk_list[i], "rk": rk_list[i],
} }
print(json.dumps(payload))
response = requests.post(url, json=payload) response = requests.post(url, json=payload)
if response.status_code == 200: if response.status_code == 200:
print(f"send to {node_ips[i]} successful") print(f"send to {node_ips[i]} successful")
return 0 return 0
@ -229,8 +273,8 @@ async def request_message(i_m: Request_Message):
# dest_ip = dest_ip.split(":")[0] # dest_ip = dest_ip.split(":")[0]
message_name = i_m.message_name message_name = i_m.message_name
source_ip = get_own_ip() source_ip = get_own_ip()
dest_port = "8003" dest_port = "8002"
url = "http://" + dest_ip + ":" + dest_port + "/recieve_request?i_m" url = "http://" + dest_ip + ":" + dest_port + "/receive_request"
payload = { payload = {
"dest_ip": dest_ip, "dest_ip": dest_ip,
"message_name": message_name, "message_name": message_name,
@ -238,33 +282,17 @@ async def request_message(i_m: Request_Message):
"pk": pk, "pk": pk,
} }
try: try:
response = requests.post(url, json=payload) response = requests.post(url, json=payload, timeout=1)
# print("menxian and pk", response.text)
except: except requests.Timeout:
print("can't post") print("can't post")
return {"message": "can't post"} # content = {"message": "post timeout", "error": str(e)}
# return JSONResponse(content, status_code=400)
try: # wait 3s to receive message from nodes
if response.status_code == 200:
data = response.json()
public_key = int(data["public_key"])
threshold = int(data["threshold"])
with sqlite3.connect("client.db") as db:
db.execute(
"""
INSERT INTO senderinfo
(public_key, threshold)
VALUES
(?, ?)
""",
(public_key, threshold),
)
except:
print("Database error")
return {"message": "Database Error"}
# wait 10s to recieve message from nodes
for _ in range(10): for _ in range(10):
print("wait:", node_response)
if node_response: if node_response:
data = message data = message
@ -273,20 +301,22 @@ async def request_message(i_m: Request_Message):
node_response = False node_response = False
# return message to frontend # return message to frontend
return {"message": data} return {"message": str(data)}
time.sleep(1) await asyncio.sleep(0.2)
return {"message": "recieve timeout"} content = {"message": "receive timeout"}
return JSONResponse(content, status_code=400)
# recieve request from others # receive request from others
@app.post("/recieve_request") @app.post("/receive_request")
async def recieve_request(i_m: IP_Message): async def receive_request(i_m: IP_Message):
global pk global pk
source_ip = get_own_ip() source_ip = get_own_ip()
if source_ip != i_m.dest_ip: if source_ip != i_m.dest_ip:
return HTTPException(status_code=400, detail="Wrong ip") return HTTPException(status_code=400, detail="Wrong ip")
dest_ip = i_m.source_ip dest_ip = i_m.source_ip
threshold = random.randrange(1, 6) # threshold = random.randrange(1, 2)
threshold = 2
own_public_key = pk own_public_key = pk
pk_B = i_m.pk pk_B = i_m.pk
@ -307,19 +337,19 @@ async def recieve_request(i_m: IP_Message):
# send message to nodes # send message to nodes
await send_messages(tuple(node_ips), message, dest_ip, pk_B, threshold) await send_messages(tuple(node_ips), message, dest_ip, pk_B, threshold)
response = {"threshold": threshold, "public_key": own_public_key} response = {"threshold": threshold, "public_key": own_public_key}
print("###############RESPONSE = ", response)
return response return response
def get_own_ip() -> str: def get_own_ip() -> str:
hostname = socket.gethostname() ip = os.environ.get("HOST_IP", "IP not set")
ip = socket.gethostbyname(hostname)
return ip return ip
# get node list from central server # get node list from central server
def get_node_list(count: int, server_addr: str): def get_node_list(count: int, server_addr: str):
url = "http://" + server_addr + "/server/send_nodes_list?count=" + str(count) url = "http://" + server_addr + "/server/send_nodes_list?count=" + str(count)
response = requests.get(url) response = requests.get(url, timeout=3)
# Checking the response # Checking the response
if response.status_code == 200: if response.status_code == 200:
print("Success get node list") print("Success get node list")
@ -342,8 +372,48 @@ def get_node_list(count: int, server_addr: str):
print("Failed:", response.status_code, response.text) print("Failed:", response.status_code, response.text)
pk = point # send pk to others
sk = int @app.get("/get_pk")
async def get_pk():
global pk, sk
print(sk)
return {"pkx": str(pk[0]), "pky": str(pk[1])}
class pk_model(BaseModel):
pkx: str
pky: str
ip: str
# recieve pk from frontend
@app.post("/recieve_pk")
async def recieve_pk(pk: pk_model):
pkx = pk.pkx
pky = pk.pky
dest_ip = pk.ip
try:
threshold = 2
with sqlite3.connect("client.db") as db:
db.execute(
"""
INSERT INTO senderinfo
(ip, pkx, pky, threshold)
VALUES
(?, ?, ?, ?)
""",
(str(dest_ip), pkx, pky, threshold),
)
except Exception as e:
# raise error
print("Database error")
content = {"message": "Database Error", "error": str(e)}
return JSONResponse(content, status_code=400)
return {"message": "save pk in database"}
pk = (0, 0)
sk = 0
server_address = str server_address = str
node_response = False node_response = False
message = bytes message = bytes
@ -352,4 +422,4 @@ local_ip = get_own_ip()
if __name__ == "__main__": if __name__ == "__main__":
import uvicorn # pylint: disable=e0401 import uvicorn # pylint: disable=e0401
uvicorn.run("client:app", host="0.0.0.0", port=8003, reload=True) uvicorn.run("client:app", host="0.0.0.0", port=8002, reload=True, log_level="debug")

30
src/client_cli.py
View File

@ -1,23 +1,41 @@
import argparse import argparse
import requests import requests
import json
def send_post_request(ip_addr, message_name): def send_post_request(ip_addr, message_name):
url = f"http://localhost:20234/request_message/?i_m" url = f"http://localhost:8002/request_message"
data = { data = {"dest_ip": ip_addr, "message_name": message_name}
"dest_ip": ip_addr,
"message_name": message_name
}
response = requests.post(url, json=data) response = requests.post(url, json=data)
return response.text return response.text
def get_pk(ip_addr):
url = f"http://" + ip_addr + ":8002/get_pk"
response = requests.get(url, timeout=1)
print(response.text)
json_pk = json.loads(response.text)
payload = {"pkx": json_pk["pkx"], "pky": json_pk["pky"], "ip": ip_addr}
response = requests.post("http://localhost:8002/recieve_pk", json=payload)
return response.text
def main(): def main():
parser = argparse.ArgumentParser(description="Send POST request to a specified IP.") parser = argparse.ArgumentParser(description="Send POST request to a specified IP.")
parser.add_argument("ip_addr", help="IP address to send request to.") parser.add_argument("ip_addr", help="IP address to send request to.")
parser.add_argument("message_name", help="Message name to send.") parser.add_argument("message_name", help="Message name to send.")
args = parser.parse_args() args = parser.parse_args()
response = send_post_request(args.ip_addr, args.message_name)
response = get_pk(args.ip_addr)
print(response) print(response)
response = send_post_request(args.ip_addr, args.message_name)
print(response)
if __name__ == "__main__": if __name__ == "__main__":
main() main()

4
src/client_demo.py Normal file
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@ -0,0 +1,4 @@
from tpre import *
# local {"pkx":"110913495319893280527511520027612816833094668640322629943553195742251267532611","pky":"42442813417048462506373786007682778510807282038950736216326706485290996455738"}
# pkb (110913495319893280527511520027612816833094668640322629943553195742251267532611,42442813417048462506373786007682778510807282038950736216326706485290996455738

91
src/demo.py
View File

@ -1,51 +1,60 @@
from tpre import * from tpre import *
import time import time
# 1 for N in range(4,21,4):
start_time = time.time() # N = 10
pk_a, sk_a = GenerateKeyPair() # T = 5
m = b"hello world" T = N // 2
end_time = time.time() print(f"当前门限值: N = {N}, T = {T}")
elapsed_time = end_time - start_time
print(f"代码块1运行时间:{elapsed_time}")
# 2 start_total_time = time.time()
start_time = time.time() # 1
capsule_ct = Encrypt(pk_a, m) start_time = time.time()
end_time = time.time() pk_a, sk_a = GenerateKeyPair()
elapsed_time = end_time - start_time m = b"hello world"
print(f"代码块2运行时间:{elapsed_time}") end_time = time.time()
elapsed_time = end_time - start_time
print(f"密钥生成运行时间:{elapsed_time}")
# 3 # 2
pk_b, sk_b = GenerateKeyPair() start_time = time.time()
capsule_ct = Encrypt(pk_a, m)
end_time = time.time()
elapsed_time = end_time - start_time
print(f"加密算法运行时间:{elapsed_time}")
N = 10 # 3
T = 5 pk_b, sk_b = GenerateKeyPair()
# 5
start_time = time.time()
id_tuple = tuple(range(N))
rekeys = GenerateReKey(sk_a, pk_b, N, T, id_tuple)
end_time = time.time()
elapsed_time = end_time - start_time
print(f"代码块5运行时间:{elapsed_time}")
# 7 # 5
start_time = time.time() start_time = time.time()
cfrag_cts = [] id_tuple = tuple(range(N))
rekeys = GenerateReKey(sk_a, pk_b, N, T, id_tuple)
end_time = time.time()
elapsed_time = end_time - start_time
print(f"重加密密钥生成算法运行时间:{elapsed_time}")
for rekey in rekeys: # 7
cfrag_ct = ReEncrypt(rekey, capsule_ct) start_time = time.time()
cfrag_cts.append(cfrag_ct) cfrag_cts = []
end_time = time.time()
elapsed_time = end_time - start_time
print(f"代码块7运行时间:{elapsed_time}")
# 9 for rekey in rekeys:
start_time = time.time() cfrag_ct = ReEncrypt(rekey, capsule_ct)
cfrags = mergecfrag(cfrag_cts) cfrag_cts.append(cfrag_ct)
m = DecryptFrags(sk_b, pk_b, pk_a, cfrags) end_time = time.time()
end_time = time.time() elapsed_time = (end_time - start_time) / len(rekeys)
elapsed_time = end_time - start_time print(f"重加密算法运行时间:{elapsed_time}")
print(f"代码块9运行时间:{elapsed_time}")
print(m) # 9
start_time = time.time()
cfrags = mergecfrag(cfrag_cts)
m = DecryptFrags(sk_b, pk_b, pk_a, cfrags)
end_time = time.time()
elapsed_time = end_time - start_time
end_total_time = time.time()
total_time = end_total_time - start_total_time
print(f"解密算法运行时间:{elapsed_time}")
print("成功解密:", m)
print(f"算法总运行时间:{total_time}")
print()

61
src/node.py
View File

@ -5,6 +5,9 @@ import socket
import asyncio import asyncio
from pydantic import BaseModel from pydantic import BaseModel
from tpre import * from tpre import *
import os
from typing import Any, Tuple
import base64
@asynccontextmanager @asynccontextmanager
@ -15,9 +18,9 @@ async def lifespan(app: FastAPI):
app = FastAPI(lifespan=lifespan) app = FastAPI(lifespan=lifespan)
server_address = "http://10.20.14.232:8000/server" server_address = "http://60.204.236.38:8000/server"
id = 0 id = 0
ip = "10.16.21.163" ip = ""
client_ip_src = "" # 发送信息用户的ip client_ip_src = "" # 发送信息用户的ip
client_ip_des = "" # 接收信息用户的ip client_ip_des = "" # 接收信息用户的ip
processed_message = () # 重加密后的数据 processed_message = () # 重加密后的数据
@ -32,45 +35,37 @@ def send_ip():
url = server_address + "/get_node?ip=" + ip url = server_address + "/get_node?ip=" + ip
# ip = get_local_ip() # type: ignore # ip = get_local_ip() # type: ignore
global id global id
id = requests.get(url) id = requests.get(url, timeout=3)
# 用socket获取本机ip # 用环境变量获取本机ip
def get_local_ip(): def get_local_ip():
# 创建一个套接字对象
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
# 连接到一个外部的服务器这将自动绑定到本地IP地址
s.connect(("8.8.8.8", 80))
# 获取本地IP地址
local_ip = s.getsockname()[0]
s.close()
global ip global ip
ip = local_ip ip = os.environ.get("HOST_IP", "IP not set")
def init(): def init():
# get_local_ip() get_local_ip()
global id
send_ip() send_ip()
task = asyncio.create_task(send_heartbeat_internal()) task = asyncio.create_task(send_heartbeat_internal())
print("Finish init") print("Finish init")
def clear(): def clear():
pass print("exit node")
# 接收用户发来的消息,经过处理之后,再将消息发送给其他用户 # 接收用户发来的消息,经过处理之后,再将消息发送给其他用户
async def send_heartbeat_internal() -> None: async def send_heartbeat_internal() -> None:
timeout = 3 timeout = 30
global ip global ip
url = server_address + "/heartbeat?ip=" + ip url = server_address + "/heartbeat?ip=" + ip
while True: while True:
# print('successful send my_heart') # print('successful send my_heart')
try: try:
folderol = requests.get(url) folderol = requests.get(url, timeout=3)
except: except:
print("Central server error") print("Central server error")
@ -78,8 +73,16 @@ async def send_heartbeat_internal() -> None:
await asyncio.sleep(timeout) await asyncio.sleep(timeout)
class Req(BaseModel):
source_ip: str
dest_ip: str
capsule: capsule
ct: int
rk: list
@app.post("/user_src") # 接收用户1发送的信息 @app.post("/user_src") # 接收用户1发送的信息
async def receive_user_src_message(message: Request): async def user_src(message: Req):
global client_ip_src, client_ip_des global client_ip_src, client_ip_des
# kfrag , capsule_ct ,client_ip_src , client_ip_des = json_data[] # 看梁俊勇 # kfrag , capsule_ct ,client_ip_src , client_ip_des = json_data[] # 看梁俊勇
""" """
@ -90,14 +93,16 @@ async def receive_user_src_message(message: Request):
"rk": rk_list[i], "rk": rk_list[i],
} }
""" """
print("node: ", message)
source_ip = message.source_ip
dest_ip = message.dest_ip
capsule = message.capsule
ct = message.ct
capsule_ct = (capsule, ct.to_bytes(32))
rk = message.rk
data = await message.json() a, b = ReEncrypt(rk, capsule_ct)
source_ip = data.get("source_ip") processed_message = (a, int.from_bytes(b))
dest_ip = data.get("dest_ip")
capsule_ct = data.get("capsule_ct")
rk = data.get("rk")
processed_message = ReEncrypt(rk, capsule_ct)
await send_user_des_message(source_ip, dest_ip, processed_message) await send_user_des_message(source_ip, dest_ip, processed_message)
return HTTPException(status_code=200, detail="message recieved") return HTTPException(status_code=200, detail="message recieved")
@ -107,12 +112,12 @@ async def send_user_des_message(source_ip: str, dest_ip: str, re_message): #
# 发送 HTTP POST 请求 # 发送 HTTP POST 请求
response = requests.post( response = requests.post(
"http://" + dest_ip + "/receive_messages?message", json=data "http://" + dest_ip + ":8002" + "/receive_messages", json=data
) )
print(response) print("send stauts:" ,response.text)
if __name__ == "__main__": if __name__ == "__main__":
import uvicorn # pylint: disable=e0401 import uvicorn # pylint: disable=e0401
uvicorn.run("node:app", host="0.0.0.0", port=8001, reload=True) uvicorn.run("node:app", host="0.0.0.0", port=8001, reload=True,log_level="debug")

52
src/server.py
View File

@ -6,34 +6,41 @@ import sqlite3
import asyncio import asyncio
import time import time
@asynccontextmanager @asynccontextmanager
async def lifespan(app: FastAPI): async def lifespan(app: FastAPI):
init() init()
yield yield
clean_env() clean_env()
app = FastAPI(lifespan = lifespan)
app = FastAPI(lifespan=lifespan)
# 连接到数据库(如果数据库不存在,则会自动创建) # 连接到数据库(如果数据库不存在,则会自动创建)
conn = sqlite3.connect('server.db') conn = sqlite3.connect("server.db")
# 创建游标对象用于执行SQL语句 # 创建游标对象用于执行SQL语句
cursor = conn.cursor() cursor = conn.cursor()
# 创建表: id: int; ip: TEXT # 创建表: id: int; ip: TEXT
cursor.execute('''CREATE TABLE IF NOT EXISTS nodes ( cursor.execute(
"""CREATE TABLE IF NOT EXISTS nodes (
id INTEGER PRIMARY KEY AUTOINCREMENT, id INTEGER PRIMARY KEY AUTOINCREMENT,
ip TEXT NOT NULL, ip TEXT NOT NULL,
last_heartbeat INTEGER last_heartbeat INTEGER
)''') )"""
)
def init(): def init():
asyncio.create_task(receive_heartbeat_internal()) asyncio.create_task(receive_heartbeat_internal())
def clean_env(): def clean_env():
clear_database() clear_database()
# 关闭游标和连接 # 关闭游标和连接
cursor.close() cursor.close()
conn.close() conn.close()
@app.get("/server/show_nodes") @app.get("/server/show_nodes")
async def show_nodes() -> list: async def show_nodes() -> list:
nodes_list = [] nodes_list = []
@ -44,15 +51,16 @@ async def show_nodes() -> list:
nodes_list.append(row) nodes_list.append(row)
return nodes_list return nodes_list
@app.get("/server/get_node") @app.get("/server/get_node")
async def get_node(ip: str) -> int: async def get_node(ip: str) -> int:
''' """
中心服务器与节点交互, 节点发送ip, 中心服务器接收ip存入数据库并将ip转换为int作为节点id返回给节点 中心服务器与节点交互, 节点发送ip, 中心服务器接收ip存入数据库并将ip转换为int作为节点id返回给节点
params: params:
ip: node ip ip: node ip
return: return:
id: ip按点分割成四部分, 每部分转二进制后拼接再转十进制作为节点id id: ip按点分割成四部分, 每部分转二进制后拼接再转十进制作为节点id
''' """
ip_parts = ip.split(".") ip_parts = ip.split(".")
ip_int = 0 ip_int = 0
for i in range(4): for i in range(4):
@ -62,19 +70,23 @@ async def get_node(ip: str) -> int:
current_time = int(time.time()) current_time = int(time.time())
# 插入数据 # 插入数据
cursor.execute("INSERT INTO nodes (id, ip, last_heartbeat) VALUES (?, ?, ?)", (ip_int, ip, current_time)) cursor.execute(
"INSERT INTO nodes (id, ip, last_heartbeat) VALUES (?, ?, ?)",
(ip_int, ip, current_time),
)
conn.commit() conn.commit()
return ip_int return ip_int
@app.get("/server/delete_node") @app.get("/server/delete_node")
async def delete_node(ip: str) -> None: async def delete_node(ip: str) -> None:
''' """
param: param:
ip: 待删除节点的ip地址 ip: 待删除节点的ip地址
return: return:
None None
''' """
# 查询要删除的节点 # 查询要删除的节点
cursor.execute("SELECT * FROM nodes WHERE ip=?", (ip,)) cursor.execute("SELECT * FROM nodes WHERE ip=?", (ip,))
row = cursor.fetchone() row = cursor.fetchone()
@ -86,46 +98,52 @@ async def delete_node(ip: str) -> None:
else: else:
print(f"Node with IP {ip} not found.") print(f"Node with IP {ip} not found.")
# 接收节点心跳包 # 接收节点心跳包
@app.get("/server/heartbeat") @app.get("/server/heartbeat")
async def receive_heartbeat(ip: str): async def receive_heartbeat(ip: str):
cursor.execute("UPDATE nodes SET last_heartbeat = ? WHERE ip = ?", (time.time(), ip)) cursor.execute(
return {"status": "received"} "UPDATE nodes SET last_heartbeat = ? WHERE ip = ?", (time.time(), ip)
)
return {"status": "received"}
async def receive_heartbeat_internal(): async def receive_heartbeat_internal():
while 1: while 1:
timeout = 7 timeout = 70
# 删除超时的节点 # 删除超时的节点
# cursor.execute("DELETE FROM nodes WHERE last_heartbeat < ?", (time.time() - timeout,)) cursor.execute("DELETE FROM nodes WHERE last_heartbeat < ?", (time.time() - timeout,))
# conn.commit() conn.commit()
await asyncio.sleep(timeout) await asyncio.sleep(timeout)
@app.get("/server/send_nodes_list") @app.get("/server/send_nodes_list")
async def send_nodes_list(count: int) -> list: async def send_nodes_list(count: int) -> list:
''' """
中心服务器与客户端交互, 客户端发送所需节点个数, 中心服务器从数据库中顺序取出节点封装成list格式返回给客户端 中心服务器与客户端交互, 客户端发送所需节点个数, 中心服务器从数据库中顺序取出节点封装成list格式返回给客户端
params: params:
count: 所需节点个数 count: 所需节点个数
return: return:
nodes_list: list nodes_list: list
''' """
nodes_list = [] nodes_list = []
# 查询数据库中的节点数据 # 查询数据库中的节点数据
cursor.execute("SELECT * FROM nodes LIMIT ?", (count,)) cursor.execute("SELECT * FROM nodes LIMIT ?", (count,))
rows = cursor.fetchall() rows = cursor.fetchall()
for row in rows: for row in rows:
id, ip, last_heartbeat = row id, ip, last_heartbeat = row
nodes_list.append(ip) nodes_list.append(ip)
return nodes_list return nodes_list
# @app.get("/server/clear_database") # @app.get("/server/clear_database")
def clear_database() -> None: def clear_database() -> None:
cursor.execute("DELETE FROM nodes") cursor.execute("DELETE FROM nodes")
conn.commit() conn.commit()
if __name__ == "__main__": if __name__ == "__main__":
import uvicorn # pylint: disable=e0401 import uvicorn # pylint: disable=e0401

8
src/tpre.py
View File

@ -272,7 +272,9 @@ def f(x: int, f_modulus: list, T: int) -> int:
return res return res
def GenerateReKey(sk_A: int, pk_B: point, N: int, T: int, id_tuple: Tuple[int,...]) -> list: def GenerateReKey(
sk_A: int, pk_B: point, N: int, T: int, id_tuple: Tuple[int, ...]
) -> list:
""" """
param: param:
skA, pkB, N(节点总数), T(阈值) skA, pkB, N(节点总数), T(阈值)
@ -341,7 +343,7 @@ def Checkcapsule(capsule: capsule) -> bool: # 验证胶囊的有效性
return flag return flag
def ReEncapsulate(kFrag: list, capsule: capsule) -> Tuple[point, point, int, point]: def ReEncapsulate(kFrag: tuple, capsule: capsule) -> Tuple[point, point, int, point]:
id, rk, Xa, U1 = kFrag id, rk, Xa, U1 = kFrag
E, V, s = capsule E, V, s = capsule
if not Checkcapsule(capsule): if not Checkcapsule(capsule):
@ -355,7 +357,7 @@ def ReEncapsulate(kFrag: list, capsule: capsule) -> Tuple[point, point, int, poi
def ReEncrypt( def ReEncrypt(
kFrag: list, C: Tuple[capsule, bytes] kFrag: tuple, C: Tuple[capsule, bytes]
) -> Tuple[Tuple[point, point, int, point], bytes]: ) -> Tuple[Tuple[point, point, int, point], bytes]:
capsule, enc_Data = C capsule, enc_Data = C