Hi!
(see this post for a basic somewhat clean wlan-bridge howto) (Here; The Anonymized DNS and an humble wrt)
My wrt (firmware: OpenWrt SNAPSHOT r13768-f632747704)accesses the net through an ISP provided wireless AP.
The problem is, I only get DNS working when I just forward through the router, which in turn bypasses Wireguard completely, even though it connects and keeps itself alive.
So in other words in Luci - Network - Firewall - General settings - General settings:
Input: Accept
Output: Accept
Forward: Accept
This is a No Go:
Input: Accept
Output: Accept
Forward: Deny
Configs:
/etc/config/dhcp
config dnsmasq
option domainneeded '1'
option localise_queries '1'
option local '/lan/'
option domain 'lan'
option expandhosts '1'
option authoritative '1'
option readethers '1'
option leasefile '/tmp/dhcp.leases'
option localservice '1'
option nonwildcard '0'
option confdir '/tmp/dnsmasq.d'
option noresolv '1'
option localuse '1'
# Disable because dnscrypt-proxy's block_undelegated already blocks RFC 1918 private addresses and RFC 6761 top level domains
option boguspriv '0'
# Disable dnsmasq cache because we don't want to cache twice and the dnscrypt-proxy cache is superior
option cachesize '0'
list server '127.0.0.53'
list server '::1#5253'
list server '::1#5254'
list server '127.0.0.1#5256'
list server several rows of wireguardrelatedDNS
option rebind_protection '1'
config dhcp 'lan'
option interface 'lan'
option start '100'
option limit '150'
option dhcpv6 'server'
option ra 'server'
option ra_management '1'
option leasetime '15m'
list dhcp_option '6,ip4adress1,ip4adress2'
config dhcp 'wan'
option interface 'wan'
option ignore '1'
config odhcpd 'odhcpd'
option maindhcp '0'
option leasefile '/tmp/hosts/odhcpd'
option leasetrigger '/usr/sbin/odhcpd-update'
config host
option name '1'
option dns '1'
option mac 'wellyes'
option ip '192.168.1.2'
config host
option name '2'
option dns '1'
option ip '192.168.1.3'
option mac 'wellyes'
config host
option name '3'
option dns '1'
option mac 'wellyes'
option ip '192.168.1.4'
config host
option name '4'
option dns '1'
option mac 'wellyes'
option ip '192.168.1.6'
config host
option name '5'
option dns '1'
option mac 'wellyes'
option ip '192.168.1.7'
config host
option name '6'
option dns '1'
option mac 'wellyes'
option ip '192.168.1.9'
config host
option name '7'
option dns '1'
option mac 'wellyes'
option ip '192.168.1.8'
config host
option mac 'wellyes'
option name '8'
option dns '1'
option ip '192.168.1.10'
config host
option name '9'
option dns '1'
option mac 'wellyes'
option ip '192.168.1.5'
/etc/dnscrypt-proxy2
# dnscrypt-proxy configuration #
##################################
# Global settings #
##################################
## List of servers to use
##
## Servers from the "public-resolvers" source (see down below) can
## be viewed here: https://dnscrypt.info/public-servers
##
## The proxy will automatically pick working servers from this list.
## Note that the require_* filters do NOT apply when using this setting.
##
## By default, this list is empty and all registered servers matching the
## require_* filters will be used instead.
##
## Remove the leading # first to enable this; lines starting with # are ignored.
server_names = ['ip4adress1', 'ip4adress2', 'ipv6adress1', 'ipv6adress2', 'yofiji-se-ipv4', 'sth-dnscrypt-se', 'sth-doh-se', 'doh-fi-snopyta']
## List of local addresses and ports to listen to. Can be IPv4 and/or IPv6.
## Example with both IPv4 and IPv6:
listen_addresses = ['127.0.0.1:5253', '[::1]:5253']
#listen_addresses = ['127.0.0.53:53']
## Maximum number of simultaneous client connections to accept
max_clients = 250
## Switch to a different system user after listening sockets have been created.
## Note (1): this feature is currently unsupported on Windows.
## Note (2): this feature is not compatible with systemd socket activation.
## Note (3): when using -pidfile, the PID file directory must be writable by the new user
# user_name = 'nobody'
## Require servers (from static + remote sources) to satisfy specific properties
# Use servers reachable over IPv4
ipv4_servers = true
# Use servers reachable over IPv6 -- Do not enable if you don't have IPv6 connectivity
ipv6_servers = false
# Use servers implementing the DNSCrypt protocol
dnscrypt_servers = true
# Use servers implementing the DNS-over-HTTPS protocol
doh_servers = true
## Require servers defined by remote sources to satisfy specific properties
# Server must support DNS security extensions (DNSSEC)
require_dnssec = false
# Server must not log user queries (declarative)
require_nolog = true
# Server must not enforce its own blacklist (for parental control, ads blocking...)
require_nofilter = true
# Server names to avoid even if they match all criteria
disabled_server_names = []
## Always use TCP to connect to upstream servers.
## This can be useful if you need to route everything through Tor.
## Otherwise, leave this to `false`, as it doesn't improve security
## (dnscrypt-proxy will always encrypt everything even using UDP), and can
## only increase latency.
force_tcp = false
## SOCKS proxy
## Uncomment the following line to route all TCP connections to a local Tor node
## Tor doesn't support UDP, so set `force_tcp` to `true` as well.
# proxy = 'socks5://127.0.0.1:9050'
## HTTP/HTTPS proxy
## Only for DoH servers
# http_proxy = 'http://127.0.0.1:8888'
## How long a DNS query will wait for a response, in milliseconds.
## If you have a network with *a lot* of latency, you may need to
## increase this. Startup may be slower if you do so.
## Don't increase it too much. 10000 is the highest reasonable value.
timeout = 5000
## Keepalive for HTTP (HTTPS, HTTP/2) queries, in seconds
keepalive = 30
## Response for blocked queries. Options are `refused`, `hinfo` (default) or
## an IP response. To give an IP response, use the format `a:<IPv4>,aaaa:<IPv6>`.
## Using the `hinfo` option means that some responses will be lies.
## Unfortunately, the `hinfo` option appears to be required for Android 8+
# blocked_query_response = 'refused'
## Load-balancing strategy: 'p2' (default), 'ph', 'first' or 'random'
lb_strategy = 'p2'
## Set to `true` to constantly try to estimate the latency of all the resolvers
## and adjust the load-balancing parameters accordingly, or to `false` to disable.
lb_estimator = true
## Log level (0-6, default: 2 - 0 is very verbose, 6 only contains fatal errors)
# log_level = 2
## Log file for the application, as an alternative to sending logs to
## the standard system logging service (syslog/Windows event log).
##
## This file is different from other log files, and will not be
## automatically rotated by the application.
# log_file = 'dnscrypt-proxy.log'
## When using a log file, only keep logs from the most recent launch.
# log_file_latest = true
## Use the system logger (syslog on Unix, Event Log on Windows)
# use_syslog = true
## Delay, in minutes, after which certificates are reloaded
cert_refresh_delay = 240
## DNSCrypt: Create a new, unique key for every single DNS query
## This may improve privacy but can also have a significant impact on CPU usage
## Only enable if you don't have a lot of network load
# dnscrypt_ephemeral_keys = false
## DoH: Disable TLS session tickets - increases privacy but also latency
# tls_disable_session_tickets = false
## DoH: Use a specific cipher suite instead of the server preference
## 49199 = TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256
## 49195 = TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256
## 52392 = TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305
## 52393 = TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305
## 4865 = TLS_AES_128_GCM_SHA256
## 4867 = TLS_CHACHA20_POLY1305_SHA256
##
## On non-Intel CPUs such as MIPS routers and ARM systems (Android, Raspberry Pi...),
## the following suite improves performance.
## This may also help on Intel CPUs running 32-bit operating systems.
##
## Keep tls_cipher_suite empty if you have issues fetching sources or
## connecting to some DoH servers. Google and Cloudflare are fine with it.
# tls_cipher_suite = [52392, 49199]
## Fallback resolvers
## These are normal, non-encrypted DNS resolvers, that will be only used
## for one-shot queries when retrieving the initial resolvers list, and
## only if the system DNS configuration doesn't work.
## No user application queries will ever be leaked through these resolvers,
## and they will not be used after IP addresses of resolvers URLs have been found.
## They will never be used if lists have already been cached, and if stamps
## don't include host names without IP addresses.
## They will not be used if the configured system DNS works.
## Resolvers supporting DNSSEC are recommended.
##
## People in China may need to use 114.114.114.114:53 here.
## Other popular options include 8.8.8.8 and 1.1.1.1.
##
## If more than one resolver is specified, they will be tried in sequence.
fallback_resolvers = ['9.9.9.9:53', '8.8.8.8:53']
## Always use the fallback resolver before the system DNS settings.
ignore_system_dns = true
## Maximum time (in seconds) to wait for network connectivity before
## initializing the proxy.
## Useful if the proxy is automatically started at boot, and network
## connectivity is not guaranteed to be immediately available.
## Use 0 to not test for connectivity at all (not recommended),
## and -1 to wait as much as possible.
netprobe_timeout = 60
## Address and port to try initializing a connection to, just to check
## if the network is up. It can be any address and any port, even if
## there is nothing answering these on the other side. Just don't use
## a local address, as the goal is to check for Internet connectivity.
## On Windows, a datagram with a single, nul byte will be sent, only
## when the system starts.
## On other operating systems, the connection will be initialized
## but nothing will be sent at all.
netprobe_address = '9.9.9.9:53'
## Offline mode - Do not use any remote encrypted servers.
## The proxy will remain fully functional to respond to queries that
## plugins can handle directly (forwarding, cloaking, ...)
# offline_mode = false
## Additional data to attach to outgoing queries.
## These strings will be added as TXT records to queries.
## Do not use, except on servers explicitly asking for extra data
## to be present.
## encrypted-dns-server can be configured to use this for access control
## in the [access_control] section
# query_meta = ["key1:value1", "key2:value2", "token:MySecretToken"]
## Automatic log files rotation
# Maximum log files size in MB - Set to 0 for unlimited.
log_files_max_size = 10
# How long to keep backup files, in days
log_files_max_age = 7
# Maximum log files backups to keep (or 0 to keep all backups)
log_files_max_backups = 1
#########################
# Filters #
#########################
## Note: if you are using dnsmasq, disable the `dnssec` option in dnsmasq if you
## configure dnscrypt-proxy to do any kind of filtering (including the filters
## below and blacklists).
## You can still choose resolvers that do DNSSEC validation.
## Immediately respond to IPv6-related queries with an empty response
## This makes things faster when there is no IPv6 connectivity, but can
## also cause reliability issues with some stub resolvers.
block_ipv6 = false
## Immediately respond to A and AAAA queries for host names without a domain name
block_unqualified = true
## Immediately respond to queries for local zones instead of leaking them to
## upstream resolvers (always causing errors or timeouts).
block_undelegated = true
## TTL for synthetic responses sent when a request has been blocked (due to
## IPv6 or blacklists).
reject_ttl = 600
##################################################################################
# Route queries for specific domains to a dedicated set of servers #
##################################################################################
## See the `example-forwarding-rules.txt` file for an example
# forwarding_rules = 'forwarding-rules.txt'
###############################
# Cloaking rules #
###############################
## Cloaking returns a predefined address for a specific name.
## In addition to acting as a HOSTS file, it can also return the IP address
## of a different name. It will also do CNAME flattening.
##
## See the `example-cloaking-rules.txt` file for an example
# cloaking_rules = 'cloaking-rules.txt'
## TTL used when serving entries in cloaking-rules.txt
# cloak_ttl = 600
###########################
# DNS cache #
###########################
## Enable a DNS cache to reduce latency and outgoing traffic
cache = true
## Cache size
cache_size = 4096
## Minimum TTL for cached entries
cache_min_ttl = 2400
## Maximum TTL for cached entries
cache_max_ttl = 86400
## Minimum TTL for negatively cached entries
cache_neg_min_ttl = 60
## Maximum TTL for negatively cached entries
cache_neg_max_ttl = 600
##################################
# Local DoH server #
##################################
[local_doh]
## dnscrypt-proxy can act as a local DoH server. By doing so, web browsers
## requiring a direct connection to a DoH server in order to enable some
## features will enable these, without bypassing your DNS proxy.
## Addresses that the local DoH server should listen to
# listen_addresses = ['127.0.0.1:3000']
## Path of the DoH URL. This is not a file, but the part after the hostname
## in the URL. By convention, `/dns-query` is frequently chosen.
## For each `listen_address` the complete URL to access the server will be:
## `https://<listen_address><path>` (ex: `https://127.0.0.1/dns-query`)
# path = "/dns-query"
## Certificate file and key - Note that the certificate has to be trusted.
## See the documentation (wiki) for more information.
# cert_file = "localhost.pem"
# cert_key_file = "localhost.pem"
###############################
# Query logging #
###############################
## Log client queries to a file
[query_log]
## Path to the query log file (absolute, or relative to the same directory as the config file)
## On non-Windows systems, can be /dev/stdout to log to the standard output (also set log_files_max_size to 0)
# file = 'query.log'
## Query log format (currently supported: tsv and ltsv)
format = 'tsv'
## Do not log these query types, to reduce verbosity. Keep empty to log everything.
# ignored_qtypes = ['DNSKEY', 'NS']
############################################
# Suspicious queries logging #
############################################
## Log queries for nonexistent zones
## These queries can reveal the presence of malware, broken/obsolete applications,
## and devices signaling their presence to 3rd parties.
[nx_log]
## Path to the query log file (absolute, or relative to the same directory as the config file)
# file = 'nx.log'
## Query log format (currently supported: tsv and ltsv)
format = 'tsv'
######################################################
# Pattern-based blocking (blacklists) #
######################################################
## Blacklists are made of one pattern per line. Example of valid patterns:
##
## example.com
## =example.com
## *sex*
## ads.*
## ads*.example.*
## ads*.example[0-9]*.com
##
## Example blacklist files can be found at https://download.dnscrypt.info/blacklists/
## A script to build blacklists from public feeds can be found in the
## `utils/generate-domains-blacklists` directory of the dnscrypt-proxy source code.
[blacklist]
## Path to the file of blocking rules (absolute, or relative to the same directory as the config file)
blacklist_file = 'blacklist.txt'
## Optional path to a file logging blocked queries
# log_file = 'blocked.log'
## Optional log format: tsv or ltsv (default: tsv)
# log_format = 'tsv'
###########################################################
# Pattern-based IP blocking (IP blacklists) #
###########################################################
## IP blacklists are made of one pattern per line. Example of valid patterns:
##
## 127.*
## fe80:abcd:*
## 192.168.1.4
[ip_blacklist]
## Path to the file of blocking rules (absolute, or relative to the same directory as the config file)
# blacklist_file = 'ip-blacklist.txt'
## Optional path to a file logging blocked queries
# log_file = 'ip-blocked.log'
## Optional log format: tsv or ltsv (default: tsv)
# log_format = 'tsv'
######################################################
# Pattern-based whitelisting (blacklists bypass) #
######################################################
## Whitelists support the same patterns as blacklists
## If a name matches a whitelist entry, the corresponding session
## will bypass names and IP filters.
##
## Time-based rules are also supported to make some websites only accessible at specific times of the day.
[whitelist]
## Path to the file of whitelisting rules (absolute, or relative to the same directory as the config file)
# whitelist_file = 'whitelist.txt'
## Optional path to a file logging whitelisted queries
# log_file = 'whitelisted.log'
## Optional log format: tsv or ltsv (default: tsv)
# log_format = 'tsv'
##########################################
# Time access restrictions #
##########################################
## One or more weekly schedules can be defined here.
## Patterns in the name-based blocklist can optionally be followed with @schedule_name
## to apply the pattern 'schedule_name' only when it matches a time range of that schedule.
##
## For example, the following rule in a blacklist file:
## *.youtube.* @time-to-sleep
## would block access to YouTube during the times defined by the 'time-to-sleep' schedule.
##
## {after='21:00', before= '7:00'} matches 0:00-7:00 and 21:00-0:00
## {after= '9:00', before='18:00'} matches 9:00-18:00
[schedules]
# [schedules.'time-to-sleep']
# mon = [{after='21:00', before='7:00'}]
# tue = [{after='21:00', before='7:00'}]
# wed = [{after='21:00', before='7:00'}]
# thu = [{after='21:00', before='7:00'}]
# fri = [{after='23:00', before='7:00'}]
# sat = [{after='23:00', before='7:00'}]
# sun = [{after='21:00', before='7:00'}]
# [schedules.'work']
# mon = [{after='9:00', before='18:00'}]
# tue = [{after='9:00', before='18:00'}]
# wed = [{after='9:00', before='18:00'}]
# thu = [{after='9:00', before='18:00'}]
# fri = [{after='9:00', before='17:00'}]
#########################
# Servers #
#########################
## Remote lists of available servers
## Multiple sources can be used simultaneously, but every source
## requires a dedicated cache file.
##
## Refer to the documentation for URLs of public sources.
##
## A prefix can be prepended to server names in order to
## avoid collisions if different sources share the same for
## different servers. In that case, names listed in `server_names`
## must include the prefixes.
##
## If the `urls` property is missing, cache files and valid signatures
## must already be present. This doesn't prevent these cache files from
## expiring after `refresh_delay` hours.
[sources]
## An example of a remote source from https://github.com/DNSCrypt/dnscrypt-resolvers
[sources.'public-resolvers']
urls = ['https://raw.githubusercontent.com/DNSCrypt/dnscrypt-resolvers/master/v2/public-resolvers.md', 'https://download.dnscrypt.info/resolvers-list/v2/public-resolvers.md']
cache_file = 'public-resolvers.md'
minisign_key = 'RWQf6LRCGA9i53mlYecO4IzT51TGPpvWucNSCh1CBM0QTaLn73Y7GFO3'
prefix = ''
## Anonymized DNS relays
[sources.'relays']
urls = ['https://raw.githubusercontent.com/DNSCrypt/dnscrypt-resolvers/master/v2/relays.md', 'https://download.dnscrypt.info/resolvers-list/v2/relays.md']
cache_file = 'relays.md'
minisign_key = 'RWQf6LRCGA9i53mlYecO4IzT51TGPpvWucNSCh1CBM0QTaLn73Y7GFO3'
refresh_delay = 72
prefix = ''
## Quad9 over DNSCrypt - https://quad9.net/
# [sources.quad9-resolvers]
# urls = ['https://www.quad9.net/quad9-resolvers.md']
# minisign_key = 'RWQBphd2+f6eiAqBsvDZEBXBGHQBJfeG6G+wJPPKxCZMoEQYpmoysKUN'
# cache_file = 'quad9-resolvers.md'
# prefix = 'quad9-'
## Another example source, with resolvers censoring some websites not appropriate for children
## This is a subset of the `public-resolvers` list, so enabling both is useless
# [sources.'parental-control']
# urls = ['https://raw.githubusercontent.com/DNSCrypt/dnscrypt-resolvers/master/v2/parental-control.md', 'https://download.dnscrypt.info/resolvers-list/v2/parental-control.md']
# cache_file = 'parental-control.md'
# minisign_key = 'RWQf6LRCGA9i53mlYecO4IzT51TGPpvWucNSCh1CBM0QTaLn73Y7GFO3'
#########################################
# Servers with known bugs #
#########################################
[broken_implementations]
# Cisco servers currently cannot handle queries larger than 1472 bytes, and don't
# truncate reponses larger than questions as expected by the DNSCrypt protocol.
# This prevents large responses from being received over UDP and over relays.
#
# The `dnsdist` server software drops client queries larger than 1500 bytes.
# They are aware of it and are working on a fix.
#
# The list below enables workarounds to make non-relayed usage more reliable
# until the servers are fixed.
fragments_blocked = ['cisco', 'cisco-ipv6', 'cisco-familyshield', 'cisco-familyshield-ipv6', 'quad9-dnscrypt-ip4-filter-alt', 'quad9-dnscrypt-ip4-filter-pri', 'quad9-dnscrypt-ip4-nofilter-alt', 'quad9-dnscrypt-ip4-nofilter-pri', 'quad9-dnscrypt-ip6-filter-alt', 'quad9-dnscrypt-ip6-filter-pri', 'quad9-dnscrypt-ip6-nofilter-alt', 'quad9-dnscrypt-ip6-nofilter-pri', 'cleanbrowsing-adult', 'cleanbrowsing-family-ipv6', 'cleanbrowsing-family', 'cleanbrowsing-security']
#################################################################
# Certificate-based client authentication for DoH #
#################################################################
# Use a X509 certificate to authenticate yourself when connecting to DoH servers.
# This is only useful if you are operating your own, private DoH server(s).
# 'creds' maps servers to certificates, and supports multiple entries.
# If you are not using the standard root CA, an optional "root_ca"
# property set to the path to a root CRT file can be added to a server entry.
[doh_client_x509_auth]
#
# creds = [
# { server_name='myserver', client_cert='client.crt', client_key='client.key' }
# ]
################################
# Anonymized DNS #
################################
[anonymized_dns]
## Routes are indirect ways to reach DNSCrypt servers.
##
## A route maps a server name ("server_name") to one or more relays that will be
## used to connect to that server.
##
## A relay can be specified as a DNS Stamp (either a relay stamp, or a
## DNSCrypt stamp), an IP:port, a hostname:port, or a server name.
##
## The following example routes "example-server-1" via `anon-example-1` or `anon-example-2`,
## and "example-server-2" via the relay whose relay DNS stamp
## is "sdns://gRIxMzcuNzQuMjIzLjIzNDo0NDM".
##
## !!! THESE ARE JUST EXAMPLES !!!
##
## Review the list of available relays from the "relays.md" file, and, for each
## server you want to use, define the relays you want connections to go through.
##
## Carefully choose relays and servers so that they are run by different entities.
##
## "server_name" can also be set to "*" to define a default route, but this is not
## recommended. If you do so, keep "server_names" short and distinct from relays.
# routes = [
# { server_name='example-server-1', via=['anon-example-1', 'anon-example-2'] },
# { server_name='example-server-2', via=['sdns://gRIxMzcuNzQuMjIzLjIzNDo0NDM'] }
# ]
routes = [
{ server_name='*', via=['sdns://gRMxMjguMTI3LjEwNC4xMDg6NDQz', 'anon-sth-se', 'anon-yofiji-se-ipv6', 'anon-yofiji-se-ipv4', 'anon-cs-fr', 'anon-cs-de', 'anon-cs-uk'] }
]
# skip resolvers incompatible with anonymization instead of using them directly
skip_incompatible = false
###############################
# DNS64 #
###############################
## DNS64 is a mechanism for synthesizing AAAA records from A records.
## It is used with an IPv6/IPv4 translator to enable client-server
## communication between an IPv6-only client and an IPv4-only server,
## without requiring any changes to either the IPv6 or the IPv4 node,
## for the class of applications that work through NATs.
##
## There are two options to synthesize such records:
## Option 1: Using a set of static IPv6 prefixes;
## Option 2: By discovering the IPv6 prefix from DNS64-enabled resolver.
##
## If both options are configured - only static prefixes are used.
## (Ref. RFC6147, RFC6052, RFC7050)
##
## Do not enable unless you know what DNS64 is and why you need it, or else
## you won't be able to connect to anything at all.
[dns64]
## (Option 1) Static prefix(es) as Pref64::/n CIDRs.
# prefix = ["64:ff9b::/96"]
## (Option 2) DNS64-enabled resolver(s) to discover Pref64::/n CIDRs.
## These resolvers are used to query for Well-Known IPv4-only Name (WKN) "ipv4only.arpa." to discover only.
## Set with your ISP's resolvers in case of custom prefixes (other than Well-Known Prefix 64:ff9b::/96).
## IMPORTANT: Default resolvers listed below support Well-Known Prefix 64:ff9b::/96 only.
# resolver = ["[2606:4700:4700::64]:53", "[2001:4860:4860::64]:53"]
########################################
# Static entries #
########################################
## Optional, local, static list of additional servers
## Mostly useful for testing your own servers.
[static]
# [static.'myserver']
# stamp = 'sdns:AQcAAAAAAAAAAAAQMi5kbnNjcnlwdC1jZXJ0Lg'
/etc/config/firewall
config defaults
option input 'ACCEPT'
option output 'ACCEPT'
option synflood_protect '1'
option forward 'ACCEPT'
config zone
option name 'lan'
option input 'ACCEPT'
option output 'ACCEPT'
option network 'lan'
option forward 'ACCEPT'
config zone
option name 'wan'
option masq '1'
option mtu_fix '1'
option input 'REJECT'
option forward 'REJECT'
option network 'wan wan6 wwanBridge wwanpp wwan5g wwan'
option output 'ACCEPT'
config rule
option name 'Allow-DHCP-Renew'
option src 'wan'
option proto 'udp'
option dest_port '68'
option target 'ACCEPT'
option family 'ipv4'
config rule
option name 'Allow-Ping'
option src 'wan'
option proto 'icmp'
option icmp_type 'echo-request'
option family 'ipv4'
option target 'ACCEPT'
config rule
option name 'Allow-IGMP'
option src 'wan'
option proto 'igmp'
option family 'ipv4'
option target 'ACCEPT'
config rule
option name 'Allow-DHCPv6'
option src 'wan'
option proto 'udp'
option src_ip 'fc00::/6'
option dest_ip 'fc00::/6'
option dest_port '546'
option family 'ipv6'
option target 'ACCEPT'
config rule
option name 'Allow-MLD'
option src 'wan'
option proto 'icmp'
option src_ip 'fe80::/10'
list icmp_type '130/0'
list icmp_type '131/0'
list icmp_type '132/0'
list icmp_type '143/0'
option family 'ipv6'
option target 'ACCEPT'
config rule
option name 'Allow-ICMPv6-Input'
option src 'wan'
option proto 'icmp'
list icmp_type 'echo-request'
list icmp_type 'echo-reply'
list icmp_type 'destination-unreachable'
list icmp_type 'packet-too-big'
list icmp_type 'time-exceeded'
list icmp_type 'bad-header'
list icmp_type 'unknown-header-type'
list icmp_type 'router-solicitation'
list icmp_type 'neighbour-solicitation'
list icmp_type 'router-advertisement'
list icmp_type 'neighbour-advertisement'
option limit '1000/sec'
option family 'ipv6'
option target 'ACCEPT'
config rule
option name 'Allow-ICMPv6-Forward'
option src 'wan'
option dest '*'
option proto 'icmp'
list icmp_type 'echo-request'
list icmp_type 'echo-reply'
list icmp_type 'destination-unreachable'
list icmp_type 'packet-too-big'
list icmp_type 'time-exceeded'
list icmp_type 'bad-header'
list icmp_type 'unknown-header-type'
option limit '1000/sec'
option family 'ipv6'
option target 'ACCEPT'
config include
option path '/etc/firewall.user'
config rule
option src 'wan'
option dest 'lan'
option proto 'esp'
option target 'ACCEPT'
config rule
option src 'wan'
option dest 'lan'
option dest_port '500'
option proto 'udp'
option target 'ACCEPT'
config include 'miniupnpd'
option type 'script'
option path '/usr/share/miniupnpd/firewall.include'
option family 'any'
option reload '1'
config include 'bcp38'
option type 'script'
option path '/usr/lib/bcp38/run.sh'
option family 'IPv4'
option reload '1'
config zone
option name 'wgzone'
option input 'REJECT'
option output 'ACCEPT'
option forward 'REJECT'
option masq '1'
option mtu_fix '1'
option network 'Wireguard'
config forwarding
option src 'lan'
option dest 'wgzone'
config redirect
option name 'Divert-DNS, port 53'
option src 'lan'
option proto 'tcp udp'
option src_dport '53'
option dest_port '53'
option target 'DNAT'
config rule
option name 'Reject-DoT, port 853'
option src 'lan'
option dest 'wwan'
list proto 'tcp udp'
option dest_port '853'
option target 'REJECT'
config redirect
option name 'Divert-DNS, port 5353'
option src 'lan'
option proto 'tcp udp'
option src_dport '5353'
option dest_port '53'
option target 'DNAT'
/etc/config/network
config interface 'loopback'
option ifname 'lo'
option proto 'static'
option ipaddr '127.0.0.1'
option netmask '255.0.0.0'
config globals 'globals'
option ula_prefix 'fd00:11ef:813a::/48'
config interface 'lan'
option type 'bridge'
option proto 'static'
option ipaddr '192.168.1.1'
option netmask '255.255.255.0'
option ip6assign '60'
option ifname 'eth0'
list dns '127.0.0.1'
config interface 'wan'
option proto 'dhcp'
option type 'bridge'
option peerdns '0'
config interface 'wan6'
option ifname 'eth1'
option proto 'dhcpv6'
option reqaddress 'try'
option reqprefix 'auto'
option peerdns '0'
config switch
option name 'switch0'
option reset '1'
option enable_vlan '1'
option blinkrate '2'
config switch_vlan
option device 'switch0'
option vlan '1'
option ports '0 1 2 3 5'
config switch_port
option device 'switch0'
option port '1'
option led '6'
config switch_port
option device 'switch0'
option port '2'
option led '9'
config switch_port
option device 'switch0'
option port '5'
option led '2'
config interface 'wwan'
option proto 'dhcp'
option peerdns '0'
list dns '127.0.0.1'
config interface 'Wireguard'
option proto 'wireguard'
option delegate '0'
option private_key 'yay'
list addresses '333.33.222.333/32'
config wireguard_Wireguard
option description 'vpn00'
option public_key 'underarock1'
list allowed_ips '0.0.0.0/0'
option endpoint_host 'vpn00.in.mah.own.socks'
option endpoint_port '4242'
option persistent_keepalive '25'
config wireguard_Wireguard
option description 'vpn01'
option public_key 'underanotherrock'
list allowed_ips '0.0.0.0/0'
option endpoint_host 'vpn01.in.mah.other.socks'
option endpoint_port '4242'
option persistent_keepalive '25'
config wireguard_Wireguard
option description 'vpn02'
option public_key 'undermylostrock:('
list allowed_ips '0.0.0.0/0'
option endpoint_host 'vpn02.in.some.other.socks'
option endpoint_port '4242'
option persistent_keepalive '25'