ssh_scan是一个面向Linux和UNIX服务器的易用的SSH服务参数配置和策略扫描器程序,它的设计灵感来源于Mozilla OpenSSH安全指南。这个安全指南为SSH服务参数配置提供了可靠的安全策略基线建议,包括加密算法(Ciphers)、报文认证代码算法(MAC)、密钥交换算法(KexAlgos)等方面的配置。ssh_scan的目标是帮助管理员轻松评估和确保其SSH服务的安全性。它提供了简单易用的命令行接口,可以扫描服务器的SSH配置,并给出配置的安全性评级和详细报告。ssh_scan广泛用于网络安全领域,帮助管理员更好地保护服务器和用户数据安全。同时,ssh_scan还持续更新和改进,以适应不断变化的安全环境和最新的安全威胁。
ssh_scan有如下好处:
-
它的依赖是最小化的,ssh_scan只引入了本地 Ruby 和 BinData 来进行它的工作,没有太多的依赖。 -
它是可移植的,你可以在其它的项目中使用ssh_scan或者将它用在自动化任务上。 -
它是易于使用的,只需要简单的将它指向一个 SSH 服务就可以获得一个该服务所支持的选项和策略状态的 JSON 格式报告。 -
它同时也是易于配置的,你可以创建适合你策略需求的策略。
建议阅读:如何在 Linux 上安装配置 OpenSSH 服务
如何在 Linux 上安装 ssh_scan
有如下三种安装ssh_scan 的方式:
使用 Ruby gem 来安装运行,如下:
----------- 在 Debian/Ubuntu -----------
$ sudo apt-get install ruby gem
$ sudo gem install ssh_scan
----------- 在 CentOS/RHEL -----------
# yum install ruby rubygem
# gem install ssh_scan
使用docker 容器来运行,如下:
# docker pull mozilla/ssh_scan
# docker run -it mozilla/ssh_scan /app/bin/ssh_scan -t github.com
使用源码安装运行,如下:
# git clone https://github.com/mozilla/ssh_scan.git
# cd ssh_scan
# gpg2 --keyserver hkp://keys.gnupg.net --recv-keys 409B6B1796C275462A1703113804BB82D39DC0E3
# curl -sSL https://get.rvm.io | bash -s stable
# rvm install 2.3.1
# rvm use 2.3.1
# gem install bundler
# bundle install
# ./bin/ssh_scan
如何在 Linux 上使用 ssh_scan
使用ssh_scan的语法如下:
$ ssh_scan -t ip地址
$ ssh_scan -t 主机名
举个例子来扫描 192.168.43.198 这台服务器的 SSH 配置和策略,键入:
$ ssh_scan -t 192.168.43.198
注意你同时也可以像下方展示的给-t选项传入一个[IP地址/地址段/主机名]:
$ ssh_scan -t 192.168.43.198,200,205
$ ssh_scan -t test.tecmint.lan
输出示例:
I, [2017-05-09T10:36:17.913644 #7145] INFO -- : You're using the latest version of ssh_scan 0.0.19
[
{
"ssh_scan_version": "0.0.19",
"ip": "192.168.43.198",
"port": 22,
"server_banner": "SSH-2.0-OpenSSH_7.2p2 Ubuntu-4ubuntu2.1",
"ssh_version": 2.0,
"os": "ubuntu",
"os_cpe": "o:canonical:ubuntu:16.04",
"ssh_lib": "openssh",
"ssh_lib_cpe": "a:openssh:openssh:7.2p2",
"cookie": "68b17bcca652eeaf153ed18877770a38",
"key_algorithms": [
"curve25519-sha256@libssh.org",
"ecdh-sha2-nistp256",
"ecdh-sha2-nistp384",
"ecdh-sha2-nistp521",
"diffie-hellman-group-exchange-sha256",
"diffie-hellman-group14-sha1"
],
"server_host_key_algorithms": [
"ssh-rsa",
"rsa-sha2-512",
"rsa-sha2-256",
"ecdsa-sha2-nistp256",
"ssh-ed25519"
],
"encryption_algorithms_client_to_server": [
"chacha20-poly1305@openssh.com",
"aes128-ctr",
"aes192-ctr",
"aes256-ctr",
"aes128-gcm@openssh.com",
"aes256-gcm@openssh.com"
],
"encryption_algorithms_server_to_client": [
"chacha20-poly1305@openssh.com",
"aes128-ctr",
"aes192-ctr",
"aes256-ctr",
"aes128-gcm@openssh.com",
"aes256-gcm@openssh.com"
],
"mac_algorithms_client_to_server": [
"umac-64-etm@openssh.com",
"umac-128-etm@openssh.com",
"hmac-sha2-256-etm@openssh.com",
"hmac-sha2-512-etm@openssh.com",
"hmac-sha1-etm@openssh.com",
"umac-64@openssh.com",
"umac-128@openssh.com",
"hmac-sha2-256",
"hmac-sha2-512",
"hmac-sha1"
],
"mac_algorithms_server_to_client": [
"umac-64-etm@openssh.com",
"umac-128-etm@openssh.com",
"hmac-sha2-256-etm@openssh.com",
"hmac-sha2-512-etm@openssh.com",
"hmac-sha1-etm@openssh.com",
"umac-64@openssh.com",
"umac-128@openssh.com",
"hmac-sha2-256",
"hmac-sha2-512",
"hmac-sha1"
],
"compression_algorithms_client_to_server": [
"none",
"zlib@openssh.com"
],
"compression_algorithms_server_to_client": [
"none",
"zlib@openssh.com"
],
"languages_client_to_server": [
],
"languages_server_to_client": [
],
"hostname": "tecmint",
"auth_methods": [
"publickey",
"password"
],
"fingerprints": {
"rsa": {
"known_bad": "false",
"md5": "0e:d0:d7:11:f0:9b:f8:33:9c:ab:26:77:e5:66:9e:f4",
"sha1": "fc:8d:d5:a1:bf:52:48:a6:7e:f9:a6:2f:af:ca:e2:f0:3a:9a:b7:fa",
"sha256": "ff:00:b4:a4:40:05:19:27:7c:33:aa:db:a6:96:32:88:8e:bf:05:a1:81:c0:a4:a8:16:01:01:0b:20:37:81:11"
}
},
"start_time": "2017-05-09 10:36:17 +0300",
"end_time": "2017-05-09 10:36:18 +0300",
"scan_duration_seconds": 0.221573169,
"duplicate_host_key_ips": [
],
"compliance": {
"policy": "Mozilla Modern",
"compliant": false,
"recommendations": [
"Remove these Key Exchange Algos: diffie-hellman-group14-sha1",
"Remove these MAC Algos: umac-64-etm@openssh.com, hmac-sha1-etm@openssh.com, umac-64@openssh.com, hmac-sha1",
"Remove these Authentication Methods: password"
],
"references": [
"https://wiki.mozilla.org/Security/Guidelines/OpenSSH"
]
}
}
]
你可以使用-p选项来指定不同的端口,-L选项来开启日志记录配合-V选项来指定日志级别:
$ ssh_scan -t 192.168.43.198 -p 22222 -L ssh-scan.log -V INFO
另外,可以使用-P或–policy选项来指定一个策略文件(默认是 Mozilla Modern):
$ ssh_scan -t 192.168.43.198 -L ssh-scan.log -V INFO -P /path/to/custom/policy/file
ssh_scan 使用帮助与其它示例:
$ ssh_scan -h
输出示例:
ssh_scan v0.0.17 (https://github.com/mozilla/ssh_scan)
Usage: ssh_scan [options]
-t, --target [IP/Range/Hostname] IP/Ranges/Hostname to scan
-f, --file [FilePath] File Path of the file containing IP/Range/Hostnames to scan
-T, --timeout [seconds] Timeout per connect after which ssh_scan gives up on the host
-L, --logger [Log File Path] Enable logger
-O, --from_json [FilePath] File to read JSON output from
-o, --output [FilePath] File to write JSON output to
-p, --port [PORT] Port (Default: 22)
-P, --policy [FILE] Custom policy file (Default: Mozilla Modern)
--threads [NUMBER] Number of worker threads (Default: 5)
--fingerprint-db [FILE] File location of fingerprint database (Default: ./fingerprints.db)
--suppress-update-status Do not check for updates
-u, --unit-test [FILE] Throw appropriate exit codes based on compliance status
-V [STD_LOGGING_LEVEL],
--verbosity
-v, --version Display just version info
-h, --help Show this message
Examples:
ssh_scan -t 192.168.1.1
ssh_scan -t server.example.com
ssh_scan -t ::1
ssh_scan -t ::1 -T 5
ssh_scan -f hosts.txt
ssh_scan -o output.json
ssh_scan -O output.json -o rescan_output.json
ssh_scan -t 192.168.1.1 -p 22222
ssh_scan -t 192.168.1.1 -p 22222 -L output.log -V INFO
ssh_scan -t 192.168.1.1 -P custom_policy.yml
ssh_scan -t 192.168.1.1 --unit-test -P custom_policy.yml
SSH 服务器相关参考阅读:
-
使用 SSH Keygen(ssh-keygen)五步实现 SSH 免密登录 -
安全 SSH 服务器的 5 个最佳实践 -
使用 Chroot 来限制 SSH 用户进入某些目录 -
如何配置 SSH 连接来简化远程登录
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