Headscale初体验以及踩坑记
最近或者说很久以前就想着能够把几个散装服务器以及家里的网络连起来,譬如一些remote desktop的访问,之前搞了下frp,因为家里电脑没怎么注意安全性就被搞了一下,所以还是想用相对更安全的方式,比如限定ip和端口进行访问,但是感觉ip也不固定就比较难搞,后来看到了 Tailscale
和 Headscale
的方式,就想着试试看,没想到一开始就踩了几个比较莫名其妙的坑。
可以按官方文档去搭建,也可以在网上找一些其他人搭建的教程。我碰到的主要是关于配置文件的问题
第一个问题
1 | Error initializing error="failed to read or create private key: failed to save private key to disk: open /etc/headscale/private.key: read-only file system" |
其实一开始看到这个我都有点懵了,咋回事呢,read-only file system
一般有可能是文件系统出问题了,不可写入,需要重启或者修改挂载方式,被这个错误的错误日志给误导了,后面才知道是配置文件,在另一个教程中也有个类似的回复,一开始没注意,其实就是同一个问题。
默认的配置文件是这样的1
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# headscale will look for a configuration file named `config.yaml` (or `config.json`) in the following order:
#
# - `/etc/headscale`
# - `~/.headscale`
# - current working directory
# The url clients will connect to.
# Typically this will be a domain like:
#
# https://myheadscale.example.com:443
#
server_url: http://127.0.0.1:8080
# Address to listen to / bind to on the server
#
# For production:
# listen_addr: 0.0.0.0:8080
listen_addr: 127.0.0.1:8080
# Address to listen to /metrics, you may want
# to keep this endpoint private to your internal
# network
#
metrics_listen_addr: 127.0.0.1:9090
# Address to listen for gRPC.
# gRPC is used for controlling a headscale server
# remotely with the CLI
# Note: Remote access _only_ works if you have
# valid certificates.
#
# For production:
# grpc_listen_addr: 0.0.0.0:50443
grpc_listen_addr: 127.0.0.1:50443
# Allow the gRPC admin interface to run in INSECURE
# mode. This is not recommended as the traffic will
# be unencrypted. Only enable if you know what you
# are doing.
grpc_allow_insecure: false
# Private key used to encrypt the traffic between headscale
# and Tailscale clients.
# The private key file will be autogenerated if it's missing.
#
# For production:
# /var/lib/headscale/private.key
private_key_path: ./private.key
# The Noise section includes specific configuration for the
# TS2021 Noise protocol
noise:
# The Noise private key is used to encrypt the
# traffic between headscale and Tailscale clients when
# using the new Noise-based protocol. It must be different
# from the legacy private key.
#
# For production:
# private_key_path: /var/lib/headscale/noise_private.key
private_key_path: ./noise_private.key
# List of IP prefixes to allocate tailaddresses from.
# Each prefix consists of either an IPv4 or IPv6 address,
# and the associated prefix length, delimited by a slash.
# While this looks like it can take arbitrary values, it
# needs to be within IP ranges supported by the Tailscale
# client.
# IPv6: https://github.com/tailscale/tailscale/blob/22ebb25e833264f58d7c3f534a8b166894a89536/net/tsaddr/tsaddr.go#LL81C52-L81C71
# IPv4: https://github.com/tailscale/tailscale/blob/22ebb25e833264f58d7c3f534a8b166894a89536/net/tsaddr/tsaddr.go#L33
ip_prefixes:
- fd7a:115c:a1e0::/48
- 100.64.0.0/10
# DERP is a relay system that Tailscale uses when a direct
# connection cannot be established.
# https://tailscale.com/blog/how-tailscale-works/#encrypted-tcp-relays-derp
#
# headscale needs a list of DERP servers that can be presented
# to the clients.
derp:
server:
# If enabled, runs the embedded DERP server and merges it into the rest of the DERP config
# The Headscale server_url defined above MUST be using https, DERP requires TLS to be in place
enabled: false
# Region ID to use for the embedded DERP server.
# The local DERP prevails if the region ID collides with other region ID coming from
# the regular DERP config.
region_id: 999
# Region code and name are displayed in the Tailscale UI to identify a DERP region
region_code: "headscale"
region_name: "Headscale Embedded DERP"
# Listens over UDP at the configured address for STUN connections - to help with NAT traversal.
# When the embedded DERP server is enabled stun_listen_addr MUST be defined.
#
# For more details on how this works, check this great article: https://tailscale.com/blog/how-tailscale-works/
stun_listen_addr: "0.0.0.0:3478"
# List of externally available DERP maps encoded in JSON
urls:
- https://controlplane.tailscale.com/derpmap/default
# Locally available DERP map files encoded in YAML
#
# This option is mostly interesting for people hosting
# their own DERP servers:
# https://tailscale.com/kb/1118/custom-derp-servers/
#
# paths:
# - /etc/headscale/derp-example.yaml
paths: []
# If enabled, a worker will be set up to periodically
# refresh the given sources and update the derpmap
# will be set up.
auto_update_enabled: true
# How often should we check for DERP updates?
update_frequency: 24h
# Disables the automatic check for headscale updates on startup
disable_check_updates: false
# Time before an inactive ephemeral node is deleted?
ephemeral_node_inactivity_timeout: 30m
# Period to check for node updates within the tailnet. A value too low will severely affect
# CPU consumption of Headscale. A value too high (over 60s) will cause problems
# for the nodes, as they won't get updates or keep alive messages frequently enough.
# In case of doubts, do not touch the default 10s.
node_update_check_interval: 10s
# SQLite config
db_type: sqlite3
# For production:
# db_path: /var/lib/headscale/db.sqlite
db_path: ./db.sqlite
# # Postgres config
# If using a Unix socket to connect to Postgres, set the socket path in the 'host' field and leave 'port' blank.
# db_type: postgres
# db_host: localhost
# db_port: 5432
# db_name: headscale
# db_user: foo
# db_pass: bar
# If other 'sslmode' is required instead of 'require(true)' and 'disabled(false)', set the 'sslmode' you need
# in the 'db_ssl' field. Refers to https://www.postgresql.org/docs/current/libpq-ssl.html Table 34.1.
# db_ssl: false
### TLS configuration
#
## Let's encrypt / ACME
#
# headscale supports automatically requesting and setting up
# TLS for a domain with Let's Encrypt.
#
# URL to ACME directory
acme_url: https://acme-v02.api.letsencrypt.org/directory
# Email to register with ACME provider
acme_email: ""
# Domain name to request a TLS certificate for:
tls_letsencrypt_hostname: ""
# Path to store certificates and metadata needed by
# letsencrypt
# For production:
# tls_letsencrypt_cache_dir: /var/lib/headscale/cache
tls_letsencrypt_cache_dir: ./cache
# Type of ACME challenge to use, currently supported types:
# HTTP-01 or TLS-ALPN-01
# See [docs/tls.md](docs/tls.md) for more information
tls_letsencrypt_challenge_type: HTTP-01
# When HTTP-01 challenge is chosen, letsencrypt must set up a
# verification endpoint, and it will be listening on:
# :http = port 80
tls_letsencrypt_listen: ":http"
## Use already defined certificates:
tls_cert_path: ""
tls_key_path: ""
log:
# Output formatting for logs: text or json
format: text
level: info
# Path to a file containg ACL policies.
# ACLs can be defined as YAML or HUJSON.
# https://tailscale.com/kb/1018/acls/
acl_policy_path: ""
## DNS
#
# headscale supports Tailscale's DNS configuration and MagicDNS.
# Please have a look to their KB to better understand the concepts:
#
# - https://tailscale.com/kb/1054/dns/
# - https://tailscale.com/kb/1081/magicdns/
# - https://tailscale.com/blog/2021-09-private-dns-with-magicdns/
#
dns_config:
# Whether to prefer using Headscale provided DNS or use local.
override_local_dns: true
# List of DNS servers to expose to clients.
nameservers:
- 1.1.1.1
# NextDNS (see https://tailscale.com/kb/1218/nextdns/).
# "abc123" is example NextDNS ID, replace with yours.
#
# With metadata sharing:
# nameservers:
# - https://dns.nextdns.io/abc123
#
# Without metadata sharing:
# nameservers:
# - 2a07:a8c0::ab:c123
# - 2a07:a8c1::ab:c123
# Split DNS (see https://tailscale.com/kb/1054/dns/),
# list of search domains and the DNS to query for each one.
#
# restricted_nameservers:
# foo.bar.com:
# - 1.1.1.1
# darp.headscale.net:
# - 1.1.1.1
# - 8.8.8.8
# Search domains to inject.
domains: []
# Extra DNS records
# so far only A-records are supported (on the tailscale side)
# See https://github.com/juanfont/headscale/blob/main/docs/dns-records.md#Limitations
# extra_records:
# - name: "grafana.myvpn.example.com"
# type: "A"
# value: "100.64.0.3"
#
# # you can also put it in one line
# - { name: "prometheus.myvpn.example.com", type: "A", value: "100.64.0.3" }
# Whether to use [MagicDNS](https://tailscale.com/kb/1081/magicdns/).
# Only works if there is at least a nameserver defined.
magic_dns: true
# Defines the base domain to create the hostnames for MagicDNS.
# `base_domain` must be a FQDNs, without the trailing dot.
# The FQDN of the hosts will be
# `hostname.user.base_domain` (e.g., _myhost.myuser.example.com_).
base_domain: example.com
# Unix socket used for the CLI to connect without authentication
# Note: for production you will want to set this to something like:
# unix_socket: /var/run/headscale.sock
unix_socket: ./headscale.sock
unix_socket_permission: "0770"
#
# headscale supports experimental OpenID connect support,
# it is still being tested and might have some bugs, please
# help us test it.
# OpenID Connect
# oidc:
# only_start_if_oidc_is_available: true
# issuer: "https://your-oidc.issuer.com/path"
# client_id: "your-oidc-client-id"
# client_secret: "your-oidc-client-secret"
# # Alternatively, set `client_secret_path` to read the secret from the file.
# # It resolves environment variables, making integration to systemd's
# # `LoadCredential` straightforward:
# client_secret_path: "${CREDENTIALS_DIRECTORY}/oidc_client_secret"
# # client_secret and client_secret_path are mutually exclusive.
#
# Customize the scopes used in the OIDC flow, defaults to "openid", "profile" and "email" and add custom query
# parameters to the Authorize Endpoint request. Scopes default to "openid", "profile" and "email".
#
# scope: ["openid", "profile", "email", "custom"]
# extra_params:
# domain_hint: example.com
#
# List allowed principal domains and/or users. If an authenticated user's domain is not in this list, the
# authentication request will be rejected.
#
# allowed_domains:
# - example.com
# Groups from keycloak have a leading '/'
# allowed_groups:
# - /headscale
# allowed_users:
# - alice@example.com
#
# If `strip_email_domain` is set to `true`, the domain part of the username email address will be removed.
# This will transform `first-name.last-name@example.com` to the user `first-name.last-name`
# If `strip_email_domain` is set to `false` the domain part will NOT be removed resulting to the following
# user: `first-name.last-name.example.com`
#
# strip_email_domain: true
# Logtail configuration
# Logtail is Tailscales logging and auditing infrastructure, it allows the control panel
# to instruct tailscale nodes to log their activity to a remote server.
logtail:
# Enable logtail for this headscales clients.
# As there is currently no support for overriding the log server in headscale, this is
# disabled by default. Enabling this will make your clients send logs to Tailscale Inc.
enabled: false
# Enabling this option makes devices prefer a random port for WireGuard traffic over the
# default static port 41641. This option is intended as a workaround for some buggy
# firewall devices. See https://tailscale.com/kb/1181/firewalls/ for more information.
randomize_client_port: false
问题就是出在几个文件路径的配置,默认都是当前目录,也就是headscale的可执行文件所在目录,需要按它配置说明中的生产配置进行修改1
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3# For production:
# /var/lib/headscale/private.key
private_key_path: /var/lib/headscale/private.key
直接改成绝对路径就好了,还有两个文件路径
另一个也是个秘钥的路径问题1
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9noise:
# The Noise private key is used to encrypt the
# traffic between headscale and Tailscale clients when
# using the new Noise-based protocol. It must be different
# from the legacy private key.
#
# For production:
# private_key_path: /var/lib/headscale/noise_private.key
private_key_path: /var/lib/headscale/noise_private.key
第二个问题
这个问题也是一种误导,
错误信息是1
Error initializing error="unable to open database file: out of memory (14)"
这就是个文件,内存也完全没有被占满的迹象,原来也是文件路径的问题1
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3# For production:
# db_path: /var/lib/headscale/db.sqlite
db_path: /var/lib/headscale/db.sqlite
都改成绝对路径就可以了,然后这里还有个就是要对/var/lib/headscale/
和/etc/headscale/
等路径赋予headscale用户权限,有时候对这类问题的排查真的蛮头疼,日志报错都不是真实的错误信息,开源项目对这些错误的提示真的也需要优化,后续的譬如mac也加入节点等后面再开篇讲