autopeering/web/backend/peering_manager.py

import json
import os
import base64
import logging
import random
import threading
import requests


class NodeCommunicator:

    def __init__(self, name: str, config):
        self.name = name
        self.__config = config
        self.__api_addr = config["api-con"]

    def update(self, action: str, peering: dict):
        try:
            if action == "add":
                req = requests.post(f"{self.__api_addr}peerings", json=peering, timeout=6)
            elif action == "update":
                req = requests.put(f"{self.__api_addr}peerings", json=peering, timeout=6)
            elif action == "delete":
                req = requests.delete(f"{self.__api_addr}peerings", json=peering, timeout=6)
            else:
                return 400

            # should only get here if a request was "successful" (not necessarily http code 200)
            return req.status_code
        except requests.exceptions.ReadTimeout:
            # if it took more than timeout for the client to respond
            return 504


class PeeringManager:

    def __init__(self, config):
        self.__config = config
        self.__peering_file = config["peerings"]

        self.__load_peerings()

        self._nodes = {}
        for node in self.__config["nodes"]:
            self._nodes[node] = NodeCommunicator(
                name=node, config=self.__config["nodes"][node])

        self._amounts = None
        self._threads = []

    def __load_peerings(self):
        if not os.path.exists(self.__peering_file):
            with open(self.__peering_file, "x") as p:
                json.dump({"mnter": {}, "asn": {}}, p)
        try:
            with open(self.__peering_file, "r") as p:
                self.peerings = json.load(p)
        except json.decoder.JSONDecodeError:
            with open(self.__peering_file, "w") as p:
                json.dump({"mnter": {}, "asn": {}}, p)
            with open(self.__peering_file, "r") as p:
                self.peerings = json.load(p)

        # self.peerings = {}
        # missing_peerings = False
        # for peering in self._peerings:
        #     if os.path.exists(f"{self._peering_dir}/{peering}.json"):
        #         with open(f"{self._peering_dir}/{peering}.json") as peer_cfg:
        #             self.peerings[peering] = json.load(peer_cfg)
        #     else:
        #         logging.warning(f"peering with id {peering} doesn't exist. removing reference in `{self._peering_dir}/peerings.json`")
        #         self._peerings.remove(peering)
        #         missing_peerings = True
        # if missing_peerings:
        #     with open(f"{self._peering_dir}/peerings.json","w") as p:
        #         json.dump(self._peerings, p, indent=4)
    def _save_peerings(self):
        with open(self.__peering_file, "w") as p:
            json.dump(self.peerings, p, indent=4)
        self._amounts = None

    def _update_nodes(self, action: str, peering, new_peering=None):
        """mode: "add","update","delete
        peering: peering to send to node (included in peering)
        new_peering: if mode=="update" the new peering to update to
        """
        if peering["node"] in self._nodes:
            return_code = self._nodes[peering["node"]].update(action=action, peering = peering if not new_peering else new_peering)
            if return_code in [200, 201]:
                return True, return_code
            else:
                return False, return_code
        else:
            return False, 404

    def _update_amounts(self):
        __new = {}
        for asn in self.peerings["asn"]:
            for peering in self.peerings["asn"][asn]:
                if not peering["node"] in __new:
                    __new[peering["node"]] = 0
                __new[peering["node"]] += 1
        self._amounts = __new

    def amount_by_node(self, node_name: str):
        if self._amounts == None:
            self._update_amounts()
        try:
            return self._amounts[node_name]
        except KeyError:
            return 0

    def exists(self, asn, node, mnt=None, wg_key=None, endpoint=None, ipv6ll=None, ipv4=None, ipv6=None, bgp_mp=True, bgp_enh=True):
        """checks if a peerings with specific data already exists"""
        # check if mnt is specified, already exists in the database and if that mnt has the specified ASn -> if not: return False
        if mnt and not (mnt in self.peerings["mnter"] and asn in self.peerings["mnter"][mnt]):
            return False
        selected_peerings = self.peerings["asn"][asn]
        # check if the ASn even has peerings
        if len(selected_peerings) == 0:
            return False
        for p in selected_peerings:
            if p["node"] == node:
                if (not wg_key or p["wg_key"] == wg_key) and (not endpoint or p["endpoint"] == endpoint) \
                        and (not ipv6ll or p["ipv6ll"] == ipv6ll) and (not ipv4 or p["ipv4"] == ipv4) and (not ipv6 or p["ipv6"] == ipv6)\
                        and (not bgp_mp or p["bgp_mp"] == bgp_mp) and (not bgp_enh or p["bgp_enh"] == bgp_enh):
                    return True
        return False

    def get_peerings_by_mnt(self, mnt):
        # print(self.peerings)
        try:
            out = []
            for asn in self.peerings["mnter"][mnt]:
                try:
                    for peering in self.peerings["asn"][asn]:
                        out.append(peering)
                except KeyError as e:
                    pass
            return out
        except KeyError:
            return {}

    def add_peering(self, asn, node, mnt, wg_key, endpoint=None, ipv6ll=None, ipv4=None, ipv6=None, bgp_mp=True, bgp_enh=True):
        # check if this MNT already has a/this asn
        try:
            if not asn in self.peerings["mnter"][mnt]:
                # ... and add it if it hasn't
                self.peerings[mnt].append(asn)
        except KeyError:
            # ... and cerate it if it doesn't have any yet
            self.peerings["mnter"][mnt] = [asn]
        try:
            if not asn in self.peerings["asn"]:
                self.peerings["asn"][asn] = []
        except KeyError:
            self.peerings["asn"][asn] = []

        # deny more than one peering per ASN to one node
        for peering in self.peerings["asn"][asn]:
            if peering["node"] == node:
                return False, 409

        peering = {"MNT": mnt, "ASN": asn, "node": node, "wg_key": wg_key, "endpoint": endpoint,
                   "ipv6ll": ipv6ll, "ipv4": ipv4, "ipv6": ipv6, "bgp_mp": bgp_mp, "bgp_enh": bgp_enh}
        success, code = self._update_nodes("add", peering=peering)
        if not success:
            # if ssomething failed notify user and don't add it to the list 
            return False, code
        # 
        self.peerings["asn"][asn].append(peering)
        self._save_peerings()
        return True, code

    def update_peering(self, asn, node, mnt, wg_key, endpoint=None, ipv6ll=None, ipv4=None, ipv6=None, bgp_mp=True, bgp_enh=True):
        # check if this MNT already has a/this asn
        try:
            if not asn in self.peerings["mnter"][mnt]:
                # ... and add it if it hasn't
                self.peerings[mnt].append(asn)
        except KeyError:
            # ... and create it if it doesn't have any yet
            self.peerings["mnter"][mnt] = [asn]
        try:
            # there are no peerings for this asn -> can't edit nothing...
            if not asn in self.peerings["asn"]:
                return False, 404
        except KeyError:
            # this should only happen if "asn" not in self.peerings
            return False, 404

        success = False
        for pNr in range(len(self.peerings["asn"][asn])):
            if self.peerings["asn"][asn][pNr]["node"] == node:
                old_peering = self.peerings["asn"][asn][pNr]
                new_peering = self.peerings["asn"][asn][pNr] = {"MNT": mnt, "ASN": asn, "node": node, "wg_key": wg_key,
                                                                "endpoint": endpoint, "ipv6ll": ipv6ll, "ipv4": ipv4, "ipv6": ipv6, "bgp_mp": bgp_mp, "bgp_enh": bgp_enh}
                success = True
                peering_number = pNr
        if not success:
            return False
        # notify the node
        
        success, code = self._update_nodes("update", old_peering, new_peering=new_peering)
        if not success:
            # revert updating peering
            self.peerings["asn"][asn][peering_number] = old_peering
            return False, code
        else:

            self._save_peerings()
            return True, code

    def delete_peering(self, asn, node, mnt, wg_key=None):
        if not self.exists(asn, node, mnt=mnt, wg_key=wg_key):
            return False, 404
        for p in self.peerings["asn"][asn]:
            if p["node"] == node:
                
                self.peerings["asn"][asn].remove(p)
                self._save_peerings()
                success, code = self._update_nodes("delete", peering=p)
                print(f"DELETE: {asn} on {node}: {success}, {code}")
                return success, code
        # if nothing got found (should have been catched by self.exists)
        return False, 404
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`import json`
			`import os`
			`import base64`
			`import logging`
			`import random`
[node] implement everything... 2022-12-21 21:21:57 +01:00			`import threading`
			`import requests`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00
[web] implement communication between web+node(s) 2022-12-21 22:52:56 +01:00
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`class NodeCommunicator:`

[web] implement communication between web+node(s) 2022-12-21 22:52:56 +01:00			`def __init__(self, name: str, config):`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`self.name = name`
			`self.__config = config`
			`self.__api_addr = config["api-con"]`
[web] implement communication between web+node(s) 2022-12-21 22:52:56 +01:00
			`def update(self, action: str, peering: dict):`
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00			`try:`
			`if action == "add":`
			`req = requests.post(f"{self.__api_addr}peerings", json=peering, timeout=6)`
			`elif action == "update":`
			`req = requests.put(f"{self.__api_addr}peerings", json=peering, timeout=6)`
			`elif action == "delete":`
			`req = requests.delete(f"{self.__api_addr}peerings", json=peering, timeout=6)`
			`else:`
			`return 400`

			`# should only get here if a request was "successful" (not necessarily http code 200)`
			`return req.status_code`
			`except requests.exceptions.ReadTimeout:`
			`# if it took more than timeout for the client to respond`
			`return 504`
[web] implement communication between web+node(s) 2022-12-21 22:52:56 +01:00
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00
			`class PeeringManager:`

			`def __init__(self, config):`
			`self.__config = config`
			`self.__peering_file = config["peerings"]`

			`self.__load_peerings()`

			`self._nodes = {}`
			`for node in self.__config["nodes"]:`
[web] implement communication between web+node(s) 2022-12-21 22:52:56 +01:00			`self._nodes[node] = NodeCommunicator(`
			`name=node, config=self.__config["nodes"][node])`

"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`self._amounts = None`
[node] implement everything... 2022-12-21 21:21:57 +01:00			`self._threads = []`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00
			`def __load_peerings(self):`
			`if not os.path.exists(self.__peering_file):`
			`with open(self.__peering_file, "x") as p:`
			`json.dump({"mnter": {}, "asn": {}}, p)`
			`try:`
			`with open(self.__peering_file, "r") as p:`
			`self.peerings = json.load(p)`
			`except json.decoder.JSONDecodeError:`
			`with open(self.__peering_file, "w") as p:`
			`json.dump({"mnter": {}, "asn": {}}, p)`
			`with open(self.__peering_file, "r") as p:`
			`self.peerings = json.load(p)`

			`# self.peerings = {}`
			`# missing_peerings = False`
			`# for peering in self._peerings:`
			`# if os.path.exists(f"{self._peering_dir}/{peering}.json"):`
			`# with open(f"{self._peering_dir}/{peering}.json") as peer_cfg:`
			`# self.peerings[peering] = json.load(peer_cfg)`
			`# else:`
			# logging.warning(f"peering with id {peering} doesn't exist. removing reference in `{self._peering_dir}/peerings.json`")
			`# self._peerings.remove(peering)`
			`# missing_peerings = True`
			`# if missing_peerings:`
			`# with open(f"{self._peering_dir}/peerings.json","w") as p:`
			`# json.dump(self._peerings, p, indent=4)`
			`def _save_peerings(self):`
			`with open(self.__peering_file, "w") as p:`
			`json.dump(self.peerings, p, indent=4)`
			`self._amounts = None`

[web] implement communication between web+node(s) 2022-12-21 22:52:56 +01:00			`def _update_nodes(self, action: str, peering, new_peering=None):`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`"""mode: "add","update","delete`
			`peering: peering to send to node (included in peering)`
			`new_peering: if mode=="update" the new peering to update to`
			`"""`
[node] implement everything... 2022-12-21 21:21:57 +01:00			`if peering["node"] in self._nodes:`
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00			`return_code = self._nodes[peering["node"]].update(action=action, peering = peering if not new_peering else new_peering)`
			`if return_code in [200, 201]:`
			`return True, return_code`
			`else:`
			`return False, return_code`
[web] implement communication between web+node(s) 2022-12-21 22:52:56 +01:00			`else:`
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00			`return False, 404`
[node] implement everything... 2022-12-21 21:21:57 +01:00
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`def _update_amounts(self):`
			`__new = {}`
			`for asn in self.peerings["asn"]:`
			`for peering in self.peerings["asn"][asn]:`
			`if not peering["node"] in __new:`
			`__new[peering["node"]] = 0`
			`__new[peering["node"]] += 1`
			`self._amounts = __new`

			`def amount_by_node(self, node_name: str):`
[web] implement communication between web+node(s) 2022-12-21 22:52:56 +01:00			`if self._amounts == None:`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`self._update_amounts()`
			`try:`
			`return self._amounts[node_name]`
			`except KeyError:`
			`return 0`
[web] implement communication between web+node(s) 2022-12-21 22:52:56 +01:00
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`def exists(self, asn, node, mnt=None, wg_key=None, endpoint=None, ipv6ll=None, ipv4=None, ipv6=None, bgp_mp=True, bgp_enh=True):`
			`"""checks if a peerings with specific data already exists"""`
			`# check if mnt is specified, already exists in the database and if that mnt has the specified ASn -> if not: return False`
			`if mnt and not (mnt in self.peerings["mnter"] and asn in self.peerings["mnter"][mnt]):`
			`return False`
			`selected_peerings = self.peerings["asn"][asn]`
			`# check if the ASn even has peerings`
			`if len(selected_peerings) == 0:`
			`return False`
			`for p in selected_peerings:`
			`if p["node"] == node:`
			`if (not wg_key or p["wg_key"] == wg_key) and (not endpoint or p["endpoint"] == endpoint) \`
			`and (not ipv6ll or p["ipv6ll"] == ipv6ll) and (not ipv4 or p["ipv4"] == ipv4) and (not ipv6 or p["ipv6"] == ipv6)\`
			`and (not bgp_mp or p["bgp_mp"] == bgp_mp) and (not bgp_enh or p["bgp_enh"] == bgp_enh):`
			`return True`
			`return False`

			`def get_peerings_by_mnt(self, mnt):`
			`# print(self.peerings)`
			`try:`
			`out = []`
			`for asn in self.peerings["mnter"][mnt]:`
			`try:`
			`for peering in self.peerings["asn"][asn]:`
			`out.append(peering)`
			`except KeyError as e:`
			`pass`
			`return out`
			`except KeyError:`
			`return {}`

			`def add_peering(self, asn, node, mnt, wg_key, endpoint=None, ipv6ll=None, ipv4=None, ipv6=None, bgp_mp=True, bgp_enh=True):`
			`# check if this MNT already has a/this asn`
			`try:`
			`if not asn in self.peerings["mnter"][mnt]:`
			`# ... and add it if it hasn't`
			`self.peerings[mnt].append(asn)`
			`except KeyError:`
			`# ... and cerate it if it doesn't have any yet`
			`self.peerings["mnter"][mnt] = [asn]`
			`try:`
			`if not asn in self.peerings["asn"]:`
			`self.peerings["asn"][asn] = []`
			`except KeyError:`
			`self.peerings["asn"][asn] = []`

			`# deny more than one peering per ASN to one node`
			`for peering in self.peerings["asn"][asn]:`
			`if peering["node"] == node:`
[web] also return http_code when trying to create peering when already exists 2023-07-21 11:08:27 +02:00			`return False, 409`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00
[web] implement communication between web+node(s) 2022-12-21 22:52:56 +01:00			`peering = {"MNT": mnt, "ASN": asn, "node": node, "wg_key": wg_key, "endpoint": endpoint,`
			`"ipv6ll": ipv6ll, "ipv4": ipv4, "ipv6": ipv6, "bgp_mp": bgp_mp, "bgp_enh": bgp_enh}`
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00			`success, code = self._update_nodes("add", peering=peering)`
			`if not success:`
			`# if ssomething failed notify user and don't add it to the list`
			`return False, code`
			`#`
[web] implement communication between web+node(s) 2022-12-21 22:52:56 +01:00			`self.peerings["asn"][asn].append(peering)`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`self._save_peerings()`
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00			`return True, code`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00
			`def update_peering(self, asn, node, mnt, wg_key, endpoint=None, ipv6ll=None, ipv4=None, ipv6=None, bgp_mp=True, bgp_enh=True):`
			`# check if this MNT already has a/this asn`
			`try:`
			`if not asn in self.peerings["mnter"][mnt]:`
			`# ... and add it if it hasn't`
			`self.peerings[mnt].append(asn)`
			`except KeyError:`
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00			`# ... and create it if it doesn't have any yet`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`self.peerings["mnter"][mnt] = [asn]`
			`try:`
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00			`# there are no peerings for this asn -> can't edit nothing...`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`if not asn in self.peerings["asn"]:`
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00			`return False, 404`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`except KeyError:`
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00			`# this should only happen if "asn" not in self.peerings`
			`return False, 404`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00
			`success = False`
			`for pNr in range(len(self.peerings["asn"][asn])):`
			`if self.peerings["asn"][asn][pNr]["node"] == node:`
[node] implement everything... 2022-12-21 21:21:57 +01:00			`old_peering = self.peerings["asn"][asn][pNr]`
			`new_peering = self.peerings["asn"][asn][pNr] = {"MNT": mnt, "ASN": asn, "node": node, "wg_key": wg_key,`
[web] implement communication between web+node(s) 2022-12-21 22:52:56 +01:00			`"endpoint": endpoint, "ipv6ll": ipv6ll, "ipv4": ipv4, "ipv6": ipv6, "bgp_mp": bgp_mp, "bgp_enh": bgp_enh}`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`success = True`
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00			`peering_number = pNr`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`if not success:`
			`return False`
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00			`# notify the node`

			`success, code = self._update_nodes("update", old_peering, new_peering=new_peering)`
			`if not success:`
			`# revert updating peering`
			`self.peerings["asn"][asn][peering_number] = old_peering`
			`return False, code`
			`else:`
[web] implement communication between web+node(s) 2022-12-21 22:52:56 +01:00
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00			`self._save_peerings()`
			`return True, code`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00
			`def delete_peering(self, asn, node, mnt, wg_key=None):`
			`if not self.exists(asn, node, mnt=mnt, wg_key=wg_key):`
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00			`return False, 404`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`for p in self.peerings["asn"][asn]:`
			`if p["node"] == node:`
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`self.peerings["asn"][asn].remove(p)`
			`self._save_peerings()`
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00			`success, code = self._update_nodes("delete", peering=p)`
			`print(f"DELETE: {asn} on {node}: {success}, {code}")`
			`return success, code`
"small changes" - remove http only in login.html - extract PeeringManager into separate file - add "progress meter" for "used" to "available" peerings 2022-12-12 19:40:30 +01:00			`# if nothing got found (should have been catched by self.exists)`
[web] notify user if something failed in the backend 2023-06-14 08:52:17 +02:00			`return False, 404`