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e84d578ce41bde0f70f9e704b57d2e9fcc246e24
parahub-mesh/files/etc/uci-defaults/99-parahub-mesh
Parahub AI e84d578ce4 fix(firmware): Three critical bugs found during MT3000 testing 
1. Add yggdrasil init script (procd) — OpenWrt 25.x package doesn't
   include one, causing uci-defaults to fail on `/etc/init.d/yggdrasil
   enable` with set -e, leaving script in /etc/uci-defaults/ to re-run
   every boot and overwrite all config changes.

2. Delete default br-lan/lan before creating br-private — both bridges
   competing for eth0/eth1 port, preventing LAN cable access.

3. Per-device port mapping via /etc/parahub/port_map — filogic devices
   (MT3000, MT6000, WR3000) have eth0=WAN, eth1=LAN (opposite of
   qualcommax/ath79). Build.sh writes PORT_MAP, uci-defaults reads it.

Also: remove `set -e` from uci-defaults (too fragile for first-boot),
add SSH/HTTP firewall rules on yggdrasil zone for remote management.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
2026-02-09 15:06:47 +00:00

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#!/bin/sh
# Parahub Mesh Node — Zero-Touch First Boot Configuration
# This script runs once on first boot via uci-defaults mechanism.
# It configures: batman-adv mesh, dual-band WiFi (private+public), firewall zones, SQM shaping.
#
# Roles:
# bumblebee (L3 Gateway) — full stack: yggdrasil, GRE6, VPN, guest isolation, SQM, DoH
# bee (L2 Transport) — minimal: batman-adv mesh relay, heartbeat
# Read firmware role (written by build.sh)
ROLE=$(cat /etc/parahub/role 2>/dev/null || echo "bumblebee")
# ============================================================================
# 1. IDENTITY GENERATION
# ============================================================================
# Get br-lan MAC (fallback to eth0 if br-lan doesn't exist yet)
BASE_MAC=$(cat /sys/class/net/br-lan/address 2>/dev/null || cat /sys/class/net/eth0/address 2>/dev/null || echo "00:00:00:00:00:00")
# Last 4 hex digits of MAC for unique suffix
NODE_SUFFIX=$(echo "$BASE_MAC" | awk -F: '{print toupper($5$6)}')
HOSTNAME="Parahub-${NODE_SUFFIX}"
PRIVATE_SSID="Parahub_${NODE_SUFFIX}"
MESH_ID="parahub-mesh"
PUBLIC_SSID="Parahub_Free"
# ============================================================================
# 2. SUBNET GENERATION (collision avoidance from MAC octets)
# ============================================================================
# Private: octets 4,5 → 10.P1.P2.0/24
PRIV_O1=$(echo "$BASE_MAC" | awk -F: '{printf "%d", "0x"$4}')
PRIV_O2=$(echo "$BASE_MAC" | awk -F: '{printf "%d", "0x"$5}')
# Guest: octets 2,3 → 10.G1.G2.0/24 (guaranteed different from private since different MAC positions)
GUEST_O1=$(echo "$BASE_MAC" | awk -F: '{printf "%d", "0x"$2}')
GUEST_O2=$(echo "$BASE_MAC" | awk -F: '{printf "%d", "0x"$3}')
# Avoid 0 and 255 in second octet (reserved)
[ "$PRIV_O1" -eq 0 ] && PRIV_O1=1
[ "$PRIV_O1" -eq 255 ] && PRIV_O1=254
[ "$GUEST_O1" -eq 0 ] && GUEST_O1=2
[ "$GUEST_O1" -eq 255 ] && GUEST_O1=253
PRIV_SUBNET="10.${PRIV_O1}.${PRIV_O2}.0"
PRIV_IP="10.${PRIV_O1}.${PRIV_O2}.1"
GUEST_SUBNET="10.${GUEST_O1}.${GUEST_O2}.0"
GUEST_IP="10.${GUEST_O1}.${GUEST_O2}.1"
# ============================================================================
# 3. KEY GENERATION
# ============================================================================
PRIVATE_KEY=$(head -c 128 /dev/urandom | tr -dc 'A-Za-z0-9' | head -c 12)
# Shared mesh SAE key — same across all Parahub nodes for auto-peering
MESH_KEY="ndIPclyqSn9LaCki"
mkdir -p /etc/parahub
cat > /etc/parahub/keys <<KEYS_EOF
# Parahub Mesh Node Keys — Generated at first boot
# Node: ${HOSTNAME}
# Role: ${ROLE}
# Date: $(date -u +%Y-%m-%dT%H:%M:%SZ)
PRIVATE_WIFI_KEY=${PRIVATE_KEY}
MESH_SAE_KEY=${MESH_KEY}
PRIVATE_SSID=${PRIVATE_SSID}
PRIVATE_SUBNET=${PRIV_SUBNET}/24
GUEST_SUBNET=${GUEST_SUBNET}/24
NODE_MAC=${BASE_MAC}
KEYS_EOF
chmod 600 /etc/parahub/keys
# ============================================================================
# 4. NETWORK CONFIGURATION
# ============================================================================
# --- Port mapping (written by build.sh per device) ---
PORT_MAP=$(cat /etc/parahub/port_map 2>/dev/null || echo "eth0:lan eth1:wan")
if [ "$PORT_MAP" = "dsa" ]; then
# DSA switch (ax53u) — individual ports
LAN_PORTS="lan1 lan2 lan3 lan4"
WAN_DEV="wan"
else
# Parse port map: "eth0:wan eth1:lan" → extract LAN and WAN
LAN_PORTS=""
WAN_DEV=""
for mapping in $PORT_MAP; do
port="${mapping%%:*}"
role="${mapping##*:}"
if [ "$role" = "lan" ]; then
LAN_PORTS="$port"
elif [ "$role" = "wan" ]; then
WAN_DEV="$port"
fi
done
[ -z "$LAN_PORTS" ] && LAN_PORTS="eth0"
[ -z "$WAN_DEV" ] && WAN_DEV="eth1"
fi
# Delete default OpenWrt br-lan/lan (conflicts with our br-private)
uci -q delete network.lan 2>/dev/null || true
# Find and delete br-lan device
for i in 0 1 2 3 4; do
name=$(uci -q get "network.@device[$i].name" 2>/dev/null)
if [ "$name" = "br-lan" ]; then
uci delete "network.@device[$i]"
break
fi
done
if [ "$ROLE" = "bee" ]; then
# --- Bee: minimal network (bat0 gw_mode=client, no GRE6, no guest, no policy routing) ---
uci batch <<-NET_EOF
# --- loopback ---
set network.loopback=interface
set network.loopback.device='lo'
set network.loopback.proto='static'
set network.loopback.ipaddr='127.0.0.1'
set network.loopback.netmask='255.0.0.0'
# --- bat0 (batman-adv, client mode — uses Bumblebee as gateway) ---
set network.bat0=interface
set network.bat0.proto='batadv'
set network.bat0.routing_algo='BATMAN_V'
set network.bat0.aggregated_ogms='1'
set network.bat0.bridge_loop_avoidance='1'
set network.bat0.distributed_arp_table='1'
set network.bat0.gw_mode='client'
set network.bat0.hop_penalty='15'
set network.bat0.orig_interval='1000'
# --- bat0 hardif for mesh0 (2.4GHz mesh) ---
set network.bat0_hardif_mesh0=interface
set network.bat0_hardif_mesh0.proto='batadv_hardif'
set network.bat0_hardif_mesh0.master='bat0'
# --- bat0 hardif for mesh1 (5GHz mesh) ---
set network.bat0_hardif_mesh1=interface
set network.bat0_hardif_mesh1.proto='batadv_hardif'
set network.bat0_hardif_mesh1.master='bat0'
# --- private bridge (bat0 + LAN ethernet) ---
set network.private_dev=device
set network.private_dev.type='bridge'
set network.private_dev.name='br-private'
delete network.private_dev.ports
add_list network.private_dev.ports='bat0'
set network.private=interface
set network.private.device='br-private'
set network.private.proto='static'
set network.private.ipaddr='${PRIV_IP}'
set network.private.netmask='255.255.255.0'
# --- wan (DHCP, create if missing) ---
set network.wan=interface
set network.wan.device='${WAN_DEV}'
set network.wan.proto='dhcp'
NET_EOF
# Add LAN ports to private bridge (DSA: lan1-4, non-DSA: eth0)
for port in $LAN_PORTS; do
uci add_list network.private_dev.ports="$port"
done
else
# --- Bumblebee: full network (gw_mode=server, GRE6, guest, policy routing) ---
uci batch <<-NET_EOF
# --- loopback ---
set network.loopback=interface
set network.loopback.device='lo'
set network.loopback.proto='static'
set network.loopback.ipaddr='127.0.0.1'
set network.loopback.netmask='255.0.0.0'
# --- bat0 (batman-adv, server mode — acts as gateway for Bee nodes) ---
set network.bat0=interface
set network.bat0.proto='batadv'
set network.bat0.routing_algo='BATMAN_V'
set network.bat0.aggregated_ogms='1'
set network.bat0.bridge_loop_avoidance='1'
set network.bat0.distributed_arp_table='1'
set network.bat0.gw_mode='server'
set network.bat0.hop_penalty='15'
set network.bat0.orig_interval='1000'
# --- bat0 hardif for mesh0 (2.4GHz mesh) ---
set network.bat0_hardif_mesh0=interface
set network.bat0_hardif_mesh0.proto='batadv_hardif'
set network.bat0_hardif_mesh0.master='bat0'
# --- bat0 hardif for mesh1 (5GHz mesh) ---
set network.bat0_hardif_mesh1=interface
set network.bat0_hardif_mesh1.proto='batadv_hardif'
set network.bat0_hardif_mesh1.master='bat0'
# --- private bridge (bat0 + LAN ethernet) ---
set network.private_dev=device
set network.private_dev.type='bridge'
set network.private_dev.name='br-private'
delete network.private_dev.ports
add_list network.private_dev.ports='bat0'
set network.private=interface
set network.private.device='br-private'
set network.private.proto='static'
set network.private.ipaddr='${PRIV_IP}'
set network.private.netmask='255.255.255.0'
# --- guest (standalone, no bridge to mesh) ---
set network.guest=interface
set network.guest.proto='static'
set network.guest.ipaddr='${GUEST_IP}'
set network.guest.netmask='255.255.255.0'
# --- wan (DHCP, create if missing) ---
set network.wan=interface
set network.wan.device='${WAN_DEV}'
set network.wan.proto='dhcp'
# --- GRE6 tunnel (guest traffic → VPS gateway via Yggdrasil) ---
set network.vpn_tunnel=interface
set network.vpn_tunnel.proto='grev6'
set network.vpn_tunnel.peeraddr='200:39f1:6a26:328a:d901:fbd2:d30d:faef'
set network.vpn_tunnel.ipaddr='172.16.0.2'
set network.vpn_tunnel.netmask='255.255.255.0'
set network.vpn_tunnel.gateway='172.16.0.1'
set network.vpn_tunnel.mtu='1400'
set network.vpn_tunnel.ip4table='100'
# --- Policy routing: guest traffic → VPN table 100 ---
add network rule
set network.@rule[-1].src='${GUEST_SUBNET}/24'
set network.@rule[-1].lookup='100'
set network.@rule[-1].priority='100'
NET_EOF
# Add LAN ports to private bridge (DSA: lan1-4, non-DSA: eth0)
for port in $LAN_PORTS; do
uci add_list network.private_dev.ports="$port"
done
fi
uci commit network
# ============================================================================
# 5. WIRELESS CONFIGURATION
# ============================================================================
# Detect radios dynamically
RADIOS=$(uci show wireless | grep '=wifi-device' | cut -d'=' -f1 | cut -d'.' -f2)
# Determine which radio is 2.4GHz and which is 5GHz
RADIO_2G=""
RADIO_5G=""
for radio in $RADIOS; do
band=$(uci -q get "wireless.${radio}.band" 2>/dev/null || echo "")
htmode=$(uci -q get "wireless.${radio}.htmode" 2>/dev/null || echo "")
if [ "$band" = "2g" ]; then
RADIO_2G="$radio"
elif [ "$band" = "5g" ]; then
RADIO_5G="$radio"
else
# Fallback: detect from htmode or channel
channel=$(uci -q get "wireless.${radio}.channel" 2>/dev/null || echo "0")
if [ "$channel" -le 14 ] 2>/dev/null; then
RADIO_2G="$radio"
else
RADIO_5G="$radio"
fi
fi
done
# Fallback: if only one radio detected, use it for both
if [ -z "$RADIO_2G" ] && [ -n "$RADIO_5G" ]; then
RADIO_2G="$RADIO_5G"
fi
if [ -z "$RADIO_5G" ] && [ -n "$RADIO_2G" ]; then
RADIO_5G="$RADIO_2G"
fi
# Remove all existing wifi-iface sections
while uci -q delete wireless.@wifi-iface[0]; do :; done
# Enable radios (remove disabled flag)
for radio in $RADIOS; do
uci -q delete "wireless.${radio}.disabled" 2>/dev/null || true
done
# --- 2.4GHz radio: mesh backhaul + Parahub_Free AP ---
if [ -n "$RADIO_2G" ]; then
# Mesh interface on 2.4GHz
uci batch <<-WIFI_2G_MESH
set wireless.mesh_2g=wifi-iface
set wireless.mesh_2g.device='${RADIO_2G}'
set wireless.mesh_2g.mode='mesh'
set wireless.mesh_2g.mesh_id='${MESH_ID}'
set wireless.mesh_2g.mesh_fwding='0'
set wireless.mesh_2g.encryption='sae'
set wireless.mesh_2g.key='${MESH_KEY}'
set wireless.mesh_2g.network='bat0_hardif_mesh0'
WIFI_2G_MESH
if [ "$ROLE" = "bee" ]; then
# Bee: Parahub_Free on private bridge (no guest isolation)
uci batch <<-WIFI_2G_PUB
set wireless.public_2g=wifi-iface
set wireless.public_2g.device='${RADIO_2G}'
set wireless.public_2g.mode='ap'
set wireless.public_2g.ssid='${PUBLIC_SSID}'
set wireless.public_2g.encryption='none'
set wireless.public_2g.network='private'
WIFI_2G_PUB
else
# Bumblebee: Parahub_Free on guest network (isolated)
uci batch <<-WIFI_2G_PUB
set wireless.public_2g=wifi-iface
set wireless.public_2g.device='${RADIO_2G}'
set wireless.public_2g.mode='ap'
set wireless.public_2g.ssid='${PUBLIC_SSID}'
set wireless.public_2g.encryption='none'
set wireless.public_2g.isolate='1'
set wireless.public_2g.network='guest'
WIFI_2G_PUB
fi
fi
# --- 5GHz radio: mesh backhaul + Private AP ---
if [ -n "$RADIO_5G" ]; then
# Mesh interface on 5GHz
uci batch <<-WIFI_5G_MESH
set wireless.mesh_5g=wifi-iface
set wireless.mesh_5g.device='${RADIO_5G}'
set wireless.mesh_5g.mode='mesh'
set wireless.mesh_5g.mesh_id='${MESH_ID}'
set wireless.mesh_5g.mesh_fwding='0'
set wireless.mesh_5g.encryption='sae'
set wireless.mesh_5g.key='${MESH_KEY}'
set wireless.mesh_5g.network='bat0_hardif_mesh1'
WIFI_5G_MESH
# Private AP on 5GHz (better throughput)
uci batch <<-WIFI_5G_PRIV
set wireless.private_5g=wifi-iface
set wireless.private_5g.device='${RADIO_5G}'
set wireless.private_5g.mode='ap'
set wireless.private_5g.ssid='${PRIVATE_SSID}'
set wireless.private_5g.encryption='sae'
set wireless.private_5g.key='${PRIVATE_KEY}'
set wireless.private_5g.network='private'
WIFI_5G_PRIV
fi
uci commit wireless
# ============================================================================
# 6. FIREWALL CONFIGURATION
# ============================================================================
# Reset firewall to clean state
while uci -q delete firewall.@zone[0]; do :; done
while uci -q delete firewall.@forwarding[0]; do :; done
while uci -q delete firewall.@rule[0]; do :; done
while uci -q delete firewall.@redirect[0]; do :; done
if [ "$ROLE" = "bee" ]; then
# --- Bee: minimal firewall (lan + wan only) ---
uci batch <<-FW_EOF
# --- Zone: lan (private network) ---
add firewall zone
set firewall.@zone[-1].name='lan'
set firewall.@zone[-1].input='ACCEPT'
set firewall.@zone[-1].output='ACCEPT'
set firewall.@zone[-1].forward='ACCEPT'
add_list firewall.@zone[-1].network='private'
# --- Zone: wan ---
add firewall zone
set firewall.@zone[-1].name='wan'
set firewall.@zone[-1].input='REJECT'
set firewall.@zone[-1].output='ACCEPT'
set firewall.@zone[-1].forward='REJECT'
set firewall.@zone[-1].masq='1'
set firewall.@zone[-1].mtu_fix='1'
add_list firewall.@zone[-1].network='wan'
# --- Forwarding: lan → wan ---
add firewall forwarding
set firewall.@forwarding[-1].src='lan'
set firewall.@forwarding[-1].dest='wan'
# --- Standard WAN input rules ---
add firewall rule
set firewall.@rule[-1].name='Allow-DHCP-Renew'
set firewall.@rule[-1].src='wan'
set firewall.@rule[-1].proto='udp'
set firewall.@rule[-1].dest_port='68'
set firewall.@rule[-1].target='ACCEPT'
set firewall.@rule[-1].family='ipv4'
add firewall rule
set firewall.@rule[-1].name='Allow-Ping'
set firewall.@rule[-1].src='wan'
set firewall.@rule[-1].proto='icmp'
set firewall.@rule[-1].icmp_type='echo-request'
set firewall.@rule[-1].target='ACCEPT'
FW_EOF
else
# --- Bumblebee: full firewall (4 zones, guest isolation, kill switch) ---
uci batch <<-FW_EOF
# --- Zone: lan (private network) ---
add firewall zone
set firewall.@zone[-1].name='lan'
set firewall.@zone[-1].input='ACCEPT'
set firewall.@zone[-1].output='ACCEPT'
set firewall.@zone[-1].forward='ACCEPT'
add_list firewall.@zone[-1].network='private'
# --- Zone: guest (dual-stack — IPv6 for Yggdrasil services) ---
add firewall zone
set firewall.@zone[-1].name='guest'
set firewall.@zone[-1].input='REJECT'
set firewall.@zone[-1].output='ACCEPT'
set firewall.@zone[-1].forward='REJECT'
add_list firewall.@zone[-1].network='guest'
# --- Zone: wan ---
add firewall zone
set firewall.@zone[-1].name='wan'
set firewall.@zone[-1].input='REJECT'
set firewall.@zone[-1].output='ACCEPT'
set firewall.@zone[-1].forward='REJECT'
set firewall.@zone[-1].masq='1'
set firewall.@zone[-1].mtu_fix='1'
add_list firewall.@zone[-1].network='wan'
# --- Zone: vpn_tunnel (GRE6 → VPS → Mullvad) ---
add firewall zone
set firewall.@zone[-1].name='vpn_tunnel'
set firewall.@zone[-1].input='REJECT'
set firewall.@zone[-1].output='ACCEPT'
set firewall.@zone[-1].forward='REJECT'
set firewall.@zone[-1].masq='1'
set firewall.@zone[-1].mtu_fix='1'
add_list firewall.@zone[-1].network='vpn_tunnel'
# --- Forwarding: lan → wan (internet for owner) ---
add firewall forwarding
set firewall.@forwarding[-1].src='lan'
set firewall.@forwarding[-1].dest='wan'
# --- Forwarding: guest → vpn_tunnel ONLY (kill switch: no wan!) ---
add firewall forwarding
set firewall.@forwarding[-1].src='guest'
set firewall.@forwarding[-1].dest='vpn_tunnel'
# --- Rule: guest DHCP (allow guests to get IP) ---
add firewall rule
set firewall.@rule[-1].name='Guest DHCP'
set firewall.@rule[-1].src='guest'
set firewall.@rule[-1].proto='udp'
set firewall.@rule[-1].dest_port='67'
set firewall.@rule[-1].target='ACCEPT'
set firewall.@rule[-1].family='ipv4'
# --- Rule: guest DNS to router (hijacked to DoH, dual-stack) ---
add firewall rule
set firewall.@rule[-1].name='Guest DNS'
set firewall.@rule[-1].src='guest'
set firewall.@rule[-1].proto='tcpudp'
set firewall.@rule[-1].dest_port='53'
set firewall.@rule[-1].target='ACCEPT'
# --- Rule: block guest → lan (isolation) ---
add firewall rule
set firewall.@rule[-1].name='Block guest to LAN'
set firewall.@rule[-1].src='guest'
set firewall.@rule[-1].dest='lan'
set firewall.@rule[-1].proto='all'
set firewall.@rule[-1].target='REJECT'
# --- Rule: allow guest DHCPv6/RA (IPv6 address assignment) ---
add firewall rule
set firewall.@rule[-1].name='Guest RA'
set firewall.@rule[-1].src='guest'
set firewall.@rule[-1].proto='icmp'
set firewall.@rule[-1].family='ipv6'
set firewall.@rule[-1].icmp_type='router-solicitation'
set firewall.@rule[-1].target='ACCEPT'
# --- Rule: block guest IPv6 to WAN (only Yggdrasil allowed via forwarding) ---
add firewall rule
set firewall.@rule[-1].name='Block guest IPv6 WAN'
set firewall.@rule[-1].src='guest'
set firewall.@rule[-1].dest='wan'
set firewall.@rule[-1].proto='all'
set firewall.@rule[-1].family='ipv6'
set firewall.@rule[-1].target='REJECT'
# --- DNS hijack: redirect guest DNS to local DoH resolver ---
add firewall redirect
set firewall.@redirect[-1].name='Guest DNS hijack'
set firewall.@redirect[-1].src='guest'
set firewall.@redirect[-1].src_dport='53'
set firewall.@redirect[-1].proto='tcpudp'
set firewall.@redirect[-1].target='DNAT'
set firewall.@redirect[-1].dest='lan'
set firewall.@redirect[-1].dest_port='53'
set firewall.@redirect[-1].family='ipv4'
# --- Standard WAN input rules ---
add firewall rule
set firewall.@rule[-1].name='Allow-DHCP-Renew'
set firewall.@rule[-1].src='wan'
set firewall.@rule[-1].proto='udp'
set firewall.@rule[-1].dest_port='68'
set firewall.@rule[-1].target='ACCEPT'
set firewall.@rule[-1].family='ipv4'
add firewall rule
set firewall.@rule[-1].name='Allow-Ping'
set firewall.@rule[-1].src='wan'
set firewall.@rule[-1].proto='icmp'
set firewall.@rule[-1].icmp_type='echo-request'
set firewall.@rule[-1].target='ACCEPT'
FW_EOF
fi
uci commit firewall
# ============================================================================
# 7. DHCP CONFIGURATION
# ============================================================================
# Remove existing DHCP pools that may conflict
uci -q delete dhcp.lan 2>/dev/null || true
uci -q delete dhcp.guest 2>/dev/null || true
if [ "$ROLE" = "bee" ]; then
# Bee: private DHCP only (no guest pool)
uci batch <<-DHCP_EOF
set dhcp.private=dhcp
set dhcp.private.interface='private'
set dhcp.private.start='100'
set dhcp.private.limit='150'
set dhcp.private.leasetime='12h'
DHCP_EOF
else
# Bumblebee: private + guest DHCP
uci batch <<-DHCP_EOF
# --- Private DHCP ---
set dhcp.private=dhcp
set dhcp.private.interface='private'
set dhcp.private.start='100'
set dhcp.private.limit='150'
set dhcp.private.leasetime='12h'
# --- Guest DHCP ---
set dhcp.guest=dhcp
set dhcp.guest.interface='guest'
set dhcp.guest.start='100'
set dhcp.guest.limit='50'
set dhcp.guest.leasetime='1h'
DHCP_EOF
fi
uci commit dhcp
# ============================================================================
# 8. SPEED CONTROL (Bumblebee only — per-client shaping, paid Lightning upgrade)
# ============================================================================
if [ "$ROLE" != "bee" ]; then
chmod +x /usr/bin/parahub-speed-control
# Create init.d service for speed control
cat > /etc/init.d/parahub-speed <<'INITEOF'
#!/bin/sh /etc/rc.common
START=99
start() { /usr/bin/parahub-speed-control init; }
stop() {
tc qdisc del dev br-guest root 2>/dev/null
tc qdisc del dev br-guest ingress 2>/dev/null
ip link del ifb-guest 2>/dev/null
nft delete table inet parahub 2>/dev/null
}
INITEOF
chmod +x /etc/init.d/parahub-speed
/etc/init.d/parahub-speed enable
fi
# ============================================================================
# 9. DNS-OVER-HTTPS (Bumblebee only — guest DNS privacy)
# ============================================================================
if [ "$ROLE" != "bee" ]; then
uci batch <<-DOH_EOF
set https-dns-proxy.main=main
set https-dns-proxy.main.doh_paramters='-4'
set https-dns-proxy.main.listen_addr='0.0.0.0'
set https-dns-proxy.main.listen_port='5053'
set https-dns-proxy.cloudflare=https-dns-proxy
set https-dns-proxy.cloudflare.resolver_url='https://1.1.1.1/dns-query'
set https-dns-proxy.cloudflare.listen_addr='127.0.0.1'
set https-dns-proxy.cloudflare.listen_port='5053'
DOH_EOF
uci commit https-dns-proxy
# Configure dnsmasq to use DoH for upstream
uci -q delete dhcp.@dnsmasq[0].server 2>/dev/null || true
uci add_list dhcp.@dnsmasq[0].server='127.0.0.1#5053'
uci set dhcp.@dnsmasq[0].noresolv='1'
uci commit dhcp
# Enable https-dns-proxy service
/etc/init.d/https-dns-proxy enable 2>/dev/null || true
fi
# ============================================================================
# 10. SYSTEM SETTINGS
# ============================================================================
uci batch <<-SYS_EOF
set system.@system[0].hostname='${HOSTNAME}'
set system.@system[0].timezone='UTC0'
set system.@system[0].zonename='UTC'
set system.@system[0].log_proto='udp'
set system.@system[0].conloglevel='7'
set system.@system[0].cronloglevel='9'
SYS_EOF
uci commit system
# ============================================================================
# 11. YGGDRASIL OVERLAY NETWORK (Bumblebee only)
# ============================================================================
if [ "$ROLE" != "bee" ]; then
# Generate unique keys for this node
yggdrasil -genconf | sed 's/IfName: .*/IfName: ygg0/' > /etc/yggdrasil.conf
# Add VPS gateway as static Yggdrasil peer (for GRE6 tunnel)
sed -i 's|Peers: \[\]|Peers: ["tls://91.98.123.238:443"]|' /etc/yggdrasil.conf
# UCI network interface for yggdrasil TUN
uci batch <<-YGG_EOF
set network.yggdrasil=interface
set network.yggdrasil.device='ygg0'
set network.yggdrasil.proto='none'
YGG_EOF
uci commit network
# Yggdrasil firewall zone (separate from LAN — allows guest→yggdrasil forwarding)
uci batch <<-YGG_FW_EOF
add firewall zone
set firewall.@zone[-1].name='yggdrasil'
set firewall.@zone[-1].input='REJECT'
set firewall.@zone[-1].output='ACCEPT'
set firewall.@zone[-1].forward='REJECT'
add_list firewall.@zone[-1].network='yggdrasil'
# Allow SSH on Yggdrasil (remote management)
add firewall rule
set firewall.@rule[-1].name='Allow SSH Ygg'
set firewall.@rule[-1].src='yggdrasil'
set firewall.@rule[-1].proto='tcp'
set firewall.@rule[-1].dest_port='22'
set firewall.@rule[-1].target='ACCEPT'
# Allow HTTP on Yggdrasil (LuCI)
add firewall rule
set firewall.@rule[-1].name='Allow HTTP Ygg'
set firewall.@rule[-1].src='yggdrasil'
set firewall.@rule[-1].proto='tcp'
set firewall.@rule[-1].dest_port='80'
set firewall.@rule[-1].target='ACCEPT'
# Allow GRE6 protocol input (tunnel endpoint)
add firewall rule
set firewall.@rule[-1].name='Allow GRE6 input'
set firewall.@rule[-1].src='yggdrasil'
set firewall.@rule[-1].proto='47'
set firewall.@rule[-1].target='ACCEPT'
# Allow ICMPv6 on Yggdrasil
add firewall rule
set firewall.@rule[-1].name='Allow ICMPv6 Ygg'
set firewall.@rule[-1].src='yggdrasil'
set firewall.@rule[-1].proto='icmp'
set firewall.@rule[-1].family='ipv6'
set firewall.@rule[-1].target='ACCEPT'
# Forwardings: LAN ↔ Yggdrasil (owner full access)
add firewall forwarding
set firewall.@forwarding[-1].src='lan'
set firewall.@forwarding[-1].dest='yggdrasil'
add firewall forwarding
set firewall.@forwarding[-1].src='yggdrasil'
set firewall.@forwarding[-1].dest='lan'
# Forwarding: guest → yggdrasil (IPv6 Parahub services at full speed)
add firewall forwarding
set firewall.@forwarding[-1].src='guest'
set firewall.@forwarding[-1].dest='yggdrasil'
YGG_FW_EOF
uci commit firewall
# Enable yggdrasil service
/etc/init.d/yggdrasil enable 2>/dev/null || true
# Save yggdrasil address to node keys file
YGG_ADDR=$(yggdrasil -address -useconffile /etc/yggdrasil.conf 2>/dev/null || echo "unknown")
echo "YGGDRASIL_ADDRESS=${YGG_ADDR}" >> /etc/parahub/keys
else
YGG_ADDR="none"
fi
# ============================================================================
# 12. GUEST IPv6 VIA YGGDRASIL (Bumblebee only — full-speed Parahub access)
# ============================================================================
if [ "$ROLE" != "bee" ]; then
# Extract Yggdrasil 300::/64 subnet for guest SLAAC
YGG_SUBNET=$(yggdrasil -subnet -useconffile /etc/yggdrasil.conf 2>/dev/null)
# YGG_SUBNET format: 300:xxxx:xxxx:xxxx::/64
YGG_SUBNET_PREFIX="${YGG_SUBNET%%::*}" # 300:xxxx:xxxx:xxxx
if [ -n "$YGG_SUBNET_PREFIX" ]; then
# Assign IPv6 from Yggdrasil subnet to guest interface
uci set network.guest.ip6addr="${YGG_SUBNET_PREFIX}::1/64"
uci commit network
# Configure RA/SLAAC for guest (odhcpd)
uci batch <<-GUEST6_EOF
set dhcp.guest.ra='server'
set dhcp.guest.dhcpv6='disabled'
set dhcp.guest.ra_management='0'
set dhcp.guest.ra_default='1'
set dhcp.guest.ra_slaac='1'
GUEST6_EOF
uci commit dhcp
logger -t parahub-mesh "Guest IPv6: ${YGG_SUBNET_PREFIX}::1/64 (SLAAC)"
else
logger -t parahub-mesh "Warning: Could not extract Yggdrasil subnet, guest IPv6 disabled"
fi
fi
# ============================================================================
# 13. HEARTBEAT (phone-home to Parahub cloud)
# ============================================================================
chmod +x /usr/bin/parahub-heartbeat
chmod +x /usr/bin/parahub-autoupdate
# Cron: heartbeat every 5 minutes + OTA update nightly at 3am
echo "*/5 * * * * /usr/bin/parahub-heartbeat" >> /etc/crontabs/root
echo "0 3 * * * /usr/bin/parahub-autoupdate" >> /etc/crontabs/root
/etc/init.d/cron enable
# ============================================================================
# 14. FINAL
# ============================================================================
# Log completion
logger -t parahub-mesh "First boot configuration complete (role: ${ROLE})"
logger -t parahub-mesh "Hostname: ${HOSTNAME}"
logger -t parahub-mesh "Role: ${ROLE}"
logger -t parahub-mesh "Private: ${PRIVATE_SSID} @ ${PRIV_IP}/24"
if [ "$ROLE" = "bee" ]; then
logger -t parahub-mesh "Parahub_Free: bridged to private (no guest isolation)"
logger -t parahub-mesh "bat0 gw_mode: client (uses Bumblebee as gateway)"
else
logger -t parahub-mesh "Guest: ${PUBLIC_SSID} @ ${GUEST_IP}/24"
logger -t parahub-mesh "Mesh ID: ${MESH_ID}"
logger -t parahub-mesh "Yggdrasil: ${YGG_ADDR}"
logger -t parahub-mesh "GRE tunnel: 172.16.0.2 → VPS gateway (Mullvad Portugal)"
logger -t parahub-mesh "Kill switch: guest→vpn_tunnel only (no wan)"
logger -t parahub-mesh "Guest IPv6: Yggdrasil SLAAC (full speed, firewall restricted)"
logger -t parahub-mesh "bat0 gw_mode: server (gateway for Bee nodes)"
fi
exit 0
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