Linux下Oenssl命令及搭建私有CA

一、Openssl常用命令:

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 # openssl ?    # 查看openssl的命令及子命令
 # man enc    # 可以直接查看子命令帮助

    

    加密:

  # openssl enc -des3 -e -salt -in /lee/sh/test.sh -out /lee/sh/test.sh.des3
    -des3:指定加密算法,可以在openssl ?中查看支持的加密算法
    -e:加密,缺省参数
    -salt:加盐
    -in:输入文件,也就是要加密的文件
    -out:输出文件,也就是加密后的密文
    enter des-ede3-cbc encryption password:    # 输入加密密码
    Verifying - enter des-ede3-cbc encryption password:    #确认输入加密密码

    

    解密:

 # openssl enc -des3 -d -salt -in /lee/sh/test.sh.des3 -out /lee/sh/test1.sh
    -d:解密
    enter des-ede3-cbc decryption password:

    

    散列:

# md5sum /lee/sh/test.sh    # 用MD5散列
    590c2fdc61a76337dd2e1df91a217a27  /lee/sh/test.sh
    # sha1sum /lee/sh/test.sh    # SHA1散列
    40554fd040b5a54821280603a67e5c07818aff65  /lee/sh/test.sh
    # openssl dgst -sha1 /lee/sh/test.sh    # 用openssl命令进行SHA1散列
    SHA1(/lee/sh/test.sh)= 40554fd040b5a54821280603a67e5c07818aff65
    # openssl dgst -md5 /lee/sh/test.sh    # 用openssl命令进行MD5散列
    MD5(/lee/sh/test.sh)= 590c2fdc61a76337dd2e1df91a217a27
    # openssl dgst -?    # 这样可以输出支持的命令
    unknown option '-?'
    options are
    -c              to output the digest with separating colons
    -r              to output the digest in coreutils format
    -d              to output debug info
    -hex            output as hex dump
    -binary         output in binary form
    -hmac arg       set the HMAC key to arg
    -non-fips-allow allow use of non FIPS digest
    -sign   file    sign digest using private key in file
    -verify file    verify a signature using public key in file
    -prverify file  verify a signature using private key in file
    -keyform arg    key file format (PEM or ENGINE)
    -out filename   output to filename rather than stdout
    -signature file signature to verify
    -sigopt nm:v    signature parameter
    -hmac key       create hashed MAC with key
    -mac algorithm  create MAC (not neccessarily HMAC)
    -macopt nm:v    MAC algorithm parameters or key
    -engine e       use engine e, possibly a hardware device.
    -md4            to use the md4 message digest algorithm
    -md5            to use the md5 message digest algorithm
    -ripemd160      to use the ripemd160 message digest algorithm
    -sha            to use the sha message digest algorithm
    -sha1           to use the sha1 message digest algorithm
    -sha224         to use the sha224 message digest algorithm
    -sha256         to use the sha256 message digest algorithm
    -sha384         to use the sha384 message digest algorithm
    -sha512         to use the sha512 message digest algorithm
    -whirlpool      to use the whirlpool message digest algorithm

    

    生成密码串(散列值):

 # openssl passwd -?    # 详细帮助还是查看man
    Usage: passwd [options] [passwords]
    where options are
    -crypt             standard Unix password algorithm (default)
    -1                 MD5-based password algorithm    # MD5算法
    -apr1              MD5-based password algorithm, Apache variant
    -salt string       use provided salt
    -in file           read passwords from file
    -stdin             read passwords from stdin
    -noverify          never verify when reading password from terminal
    -quiet             no warnings
    -table             format output as table
    -reverse           switch table columns

    但是,passwd本身是一个操作系统命令,用man查看的是操作系统那个passwd的帮助,于是whatis一下:

 # whatis passwd
    sslpasswd (1ssl)     - compute password hashes    # 可以看出是sslpasswd
    passwd (1)           - update user's authentication tokens
    passwd (5)           - password file
    # man sslpasswd    # 这样就可以查看了
    # openssl passwd -1    # 使用MD5算法计算密码的(字符串)的散列值
    Password: 
    Verifying - Password: 
    $1$VAehBGE.$vSHYjZqz4O3xLXgqaWTL70

    注意:这个命令时默认加盐的,所以多次执行同一个密码串所得到的结果都会不同

 # openssl passwd -1 -salt VAehBGE.    # 指定salt值
    Password: 
    $1$VAehBGE.$vSHYjZqz4O3xLXgqaWTL70    # 相同的salt结果输出一样了

    

    生成非对称密钥:

 # openssl genrsa    # 生成RSA私钥
    Generating RSA private key, 2048 bit long modulus
    ...........+++
    ........................+++
    e is 65537 (0x10001)
    -----BEGIN RSA PRIVATE KEY-----
    MIIEpQIBAAKCAQEA9armbPLhXtJc70Ktvw0JJEZtWaA6MtWGjL6sr51WGhrC2wcu
    XVdrQlpWXWxFjO7zlwfIs2Oo9+6LmQdmRbqlt0Jmh0RG9XxB51cKR1s8c71k/u2A
    Jm6Ccg8wsxLgBVKrpFB9bZ7WsLAJ7n61mkJul49Vp/uIuGX+3HEgmgoOWObw6xiC
    tMSR9c5ksobz3oI6R9ccwpOfcXBWUzVo2fc+KnuKyM1saR8HXrHBPpoyP6DT2GOv
    CyLjw1l1c4jPKO6PC2CJMyM4q6EuTow/j8y+X2vCVPzferYRixH8b96HGisxqD2f
    UxK1H3RPOCk8L/NiWyE2L5950FgDxUB1gRXANwIDAQABAoIBABg0S1mmoG/QOBnW
    rvmo1iK90Z5H/BPwF76cNrViwg32XwZncbj+mPHDpsizlzKohFV4Dd0mz4oF9bkR
    EpGCLzucDi/7mSYspO2fFMMtCQq6OU4opjyjHLUSLBEopevAVmrtBz6arLphzciy
    sT/OlcjW9XCEhtbsLa0YdEbZAMrfXKdpR88CX8zIKn5ZTG2BO6vP6tfLrSVPM/Rl
    5dJVLFkB4cgoZKLYDzllYPn9YerUFJnl1H+2ky/skEWf+jDoIw+zVQPhUn/kdBpU
    gFEbp60FvJK5iRx81fK0liOhZHFefNGsiSSqPVVvP7qRmqgCamZYqfQdRujzZ4Io
    sW4Q5FECgYEA/iTMjxSnE3x5d8jzR/s5rotEq08XlfVlkAYSxFOje0lOtdlX/OJv
    02+4lf0btEOHPcdCbHIuhx6zMlx2TPaXcfgMvowKe+/bfcX76VldhQxj/xJvXzVx
    acCYY2fRZc69GPsXR+PHANMjI4AZWoDeGYaqxEtMafSQnFiagatyx1kCgYEA93ZA
    kHUDBHlpkg+bQLrlimMGqXGj4m7TasW/PTxEWe1WbgKuN9o7grGdnAlhKDhdAi9S
    4eCNzKA4CTK8Zx9WH6izgq9oushDSofTgzozuPXiJ2PFxDl0nGQLvg2UrgzzBmSK
    0GO0Il7tkkDKfZdApFgqyWbA7CrShs1rF9fsYg8CgYEA00kau5Vq9btVbO2mvGAz
    a1YjZ9ygei6DGkLCVXBHiNbAVlT0XqyOVZUbO68q2ioOBKFlKq2e2vz988+FFqUn
    8TtMtRnOGY2myCDSNwTxyAwuEkBsURYoTMguqO4F24MOGPefOkg3CQt/uiLkcSaT
    /1rDG+CSDcCifSj4gvdbvDkCgYEAorch7xrVuhpvfXg/mMeL6XwFxGMR5PEEmT+f
    6Q74zrzNyRaAIf+gg+ZwgUp1lTHCjo45jIbQFo3/aqTu10v2oGiYaMUYM0E9ZgN7
    49zgZ61eYJItV0KEV9U9F2HssqmXH0v7Lt1wc+1Bf5qUyxIqkiXbNIUZM/FQbw0h
    bxMuvqcCgYEA8JMQHjmx9NCUAH9ShHrrqO4qw9NCvAteShx0D/AbQALP5L56QfWQ
    L0h41nNpL1E2AHAME/ZcWQzeHhrPY0+gOklBRG+mQS2MNOD31bZNUgh7LF20s4M/
    1Qb1srzf9qKbhD2PG3PSSuj1UuFGT/al/L3QOnv4+ewXgL/Iyl7HAgs=
    -----END RSA PRIVATE KEY-----
 # openssl genrsa -out /lee/my.key    # 生成RSA私钥同时输出
 # openssl rsa -in /lee/my.key -pubout    # 查看私钥的公钥
    writing RSA key
    -----BEGIN PUBLIC KEY-----
    MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEA9armbPLhXtJc70Ktvw0J
    JEZtWaA6MtWGjL6sr51WGhrC2wcuXVdrQlpWXWxFjO7zlwfIs2Oo9+6LmQdmRbql
    t0Jmh0RG9XxB51cKR1s8c71k/u2AJm6Ccg8wsxLgBVKrpFB9bZ7WsLAJ7n61mkJu
    l49Vp/uIuGX+3HEgmgoOWObw6xiCtMSR9c5ksobz3oI6R9ccwpOfcXBWUzVo2fc+
    KnuKyM1saR8HXrHBPpoyP6DT2GOvCyLjw1l1c4jPKO6PC2CJMyM4q6EuTow/j8y+
    X2vCVPzferYRixH8b96HGisxqD2fUxK1H3RPOCk8L/NiWyE2L5950FgDxUB1gRXA
    NwIDAQAB
    -----END PUBLIC KEY-----
  # openssl rsa -in /lee/my.key -pubout -out /lee/mypub.key    # 输出私钥的公钥

二、配置CA:

    1):查看并修改CA配置文件:

    # cat /etc/pki/tls/openssl.cnf    # 主要的是下面的内容
    ####################################################################
    [ ca ]
    default_ca= CA_default# The default ca section
    
    ####################################################################
    [ CA_default ]
    
    dir= /etc/pki/CA# Where everything is kept    # 默认主工作目录
    certs= $dir/certs# Where the issued certs are kept    # 客户端证书保存目录
    crl_dir= $dir/crl# Where the issued crl are kept    # 证书撤销列表位置
    database= $dir/index.txt# database index file.    # 发放的证书列表,默认是没有这个文件的,需要自己创建
    #unique_subject= no# Set to 'no' to allow creation of
    # several ctificates with same subject.
    new_certs_dir= $dir/newcerts# default place for new certs.    # 新生成的证书
    
    certificate= $dir/cacert.pem # The CA certificate    # CA自己的证书(自签署证书)
    serial= $dir/serial # The current serial number    # 序号,默认是没有这个文件的,需要自己创建
    crlnumber= $dir/crlnumber# the current crl number
    # must be commented out to leave a V1 CRL
    crl= $dir/crl.pem # The current CRL
    private_key= $dir/private/cakey.pem# The private key    # CA的私钥存放位置
    RANDFILE= $dir/private/.rand# private random number file
    
    x509_extensions= usr_cert# The extentions to add to the cert
    
    # Comment out the following two lines for the "traditional"
    # (and highly broken) format.
    name_opt = ca_default# Subject Name options
    cert_opt = ca_default# Certificate field options
    
    # Extension copying option: use with caution.
    # copy_extensions = copy
    
    # Extensions to add to a CRL. Note: Netscape communicator chokes on V2 CRLs
    # so this is commented out by default to leave a V1 CRL.
    # crlnumber must also be commented out to leave a V1 CRL.
    # crl_extensions= crl_ext
    
    default_days= 365# how long to certify for    # 证书默认有效期
    default_crl_days= 30# how long before next CRL
    default_md= sha256# use SHA-256 by default
    preserve= no# keep passed DN ordering

    

    2):生成一个CA自己的非对称私钥:

 # openssl genrsa -out /etc/pki/CA/private/cakey.pem

    

    3):生成自签署证书:

 # openssl req -new -x509 -key /etc/pki/CA/private/cakey.pem -out /etc/pki/CA/cacert.pem
    -new:新建
    -x509:指定自签署证书
    -key:指定非对称秘钥(私钥)
    -out:输出文件
    -days:证书有效期
    You are about to be asked to enter information that will be incorporated
    into your certificate request.
    What you are about to enter is what is called a Distinguished Name or a DN.
    There are quite a few fields but you can leave some blank
    For some fields there will be a default value,
    If you enter '.', the field will be left blank.
    -----
    Country Name (2 letter code) [XX]:CN
    State or Province Name (full name) []:GuangDong      
    Locality Name (eg, city) [Default City]:ShenZhen
    Organization Name (eg, company) [Default Company Ltd]:test
    Organizational Unit Name (eg, section) []:test
    Common Name (eg, your name or your server's hostname) []:ca.test.com
    Email Address []:admin@test.com
# openssl x509 -text -in cacert.pem    # 查看证书信息
    Certificate:
        Data:
            Version: 3 (0x2)
            Serial Number:
                ae:af:f9:0e:f3:0e:96:bd
        Signature Algorithm: sha256WithRSAEncryption
            Issuer: C=CN, ST=GuangDong, L=ShenZhen, O=test, OU=test, CN=ca.test.com/emailAddress=admin@test.com
            Validity
                Not Before: Feb  3 07:38:39 2018 GMT
                Not After : Mar  5 07:38:39 2018 GMT
            Subject: C=CN, ST=GuangDong, L=ShenZhen, O=test, OU=test, CN=ca.test.com/emailAddress=admin@test.com
            Subject Public Key Info:
                Public Key Algorithm: rsaEncryption
                    Public-Key: (2048 bit)
                    Modulus:
                        00:c3:91:60:ee:17:d2:14:36:75:1c:d3:95:ac:43:
                        69:5c:f0:7f:a6:00:cb:7f:b2:45:5c:1e:0a:da:a9:
                        ba:82:37:7f:36:9c:49:c3:2a:23:2e:b1:fa:78:87:
                        aa:a5:cc:91:2f:55:0f:e5:dd:de:e8:07:46:61:9e:
                        c3:dd:33:12:a1:98:f2:cb:62:00:45:1d:54:89:cb:
                        28:cb:4f:b4:eb:46:df:df:ca:5b:94:81:64:c0:4f:
                        fe:91:23:a0:33:cf:b8:05:27:63:cc:d2:87:c0:42:
                        30:d7:1f:d6:e0:3d:61:61:6d:46:2a:99:63:b3:7f:
                        70:6a:f8:96:5f:9e:f6:b6:9f:8e:44:09:cc:eb:3e:
                        ac:e0:d0:97:5e:43:9a:8d:b2:f9:18:08:73:7f:39:
                        d9:9b:a5:b2:4e:c7:25:93:ce:a6:ee:36:bc:22:e9:
                        08:8b:17:c0:5e:af:ff:c6:ce:ea:0b:f5:a6:d3:bc:
                        f7:77:76:48:f1:57:25:56:88:6b:73:bf:65:44:59:
                        aa:a4:94:cd:d5:7c:4a:ca:fd:77:19:8e:42:62:3a:
                        d3:4c:7c:b3:2d:73:ac:1c:70:4b:a5:26:cf:62:c0:
                        2f:e0:c3:06:eb:37:6e:1d:7b:df:53:08:09:bf:e0:
                        6d:d8:ee:95:6d:1f:d9:df:3e:11:8b:e0:3d:0e:7b:
                        94:0f
                    Exponent: 65537 (0x10001)
            X509v3 extensions:
                X509v3 Subject Key Identifier: 
                    30:2F:BF:46:D3:E2:89:32:F3:76:D8:59:72:E5:06:79:65:E3:FF:2B
                X509v3 Authority Key Identifier: 
                    keyid:30:2F:BF:46:D3:E2:89:32:F3:76:D8:59:72:E5:06:79:65:E3:FF:2B
    
                X509v3 Basic Constraints: 
                    CA:TRUE
        Signature Algorithm: sha256WithRSAEncryption
             c0:d5:cc:e8:65:34:82:b5:99:f5:5d:e9:6d:43:42:c1:8c:01:
             0c:09:34:df:d0:46:ca:01:7c:9b:f8:a1:08:e4:99:b1:5c:ef:
             eb:6d:2d:d5:82:fa:3f:10:c9:96:ac:35:3a:1a:de:a7:37:69:
             9d:20:d3:4f:19:3b:29:e8:e1:4a:7e:29:cd:5f:a1:81:f5:3e:
             5d:c4:55:e6:e5:5d:c5:87:bd:4f:45:d0:3c:2c:5a:60:9b:2e:
             79:23:0d:fa:80:bf:80:83:f2:09:ce:6f:94:5c:c6:21:53:f7:
             58:8e:cf:8d:88:7e:c1:57:38:a3:1c:e5:02:16:af:56:51:04:
             9e:ad:54:e4:70:1f:76:d9:bf:1d:38:95:e4:94:91:6d:36:87:
             c4:fa:75:3d:87:53:c9:10:8d:46:81:34:44:e3:53:12:cf:31:
             ca:10:48:14:c0:6f:d3:7a:3a:62:3f:04:90:f7:00:d6:c0:ce:
             ea:2f:44:ad:70:36:58:20:04:f9:2a:98:b4:af:fe:b4:67:35:
             1d:3b:3e:ea:ba:e4:70:8b:56:f4:d5:bd:61:05:d4:30:23:64:
             c9:54:cd:96:bf:86:dd:38:41:6a:b1:4e:8d:72:ce:79:b7:fa:
             51:53:c5:08:e2:d6:2f:43:b0:39:d4:c3:3c:84:b6:83:23:60:
             4b:c0:9e:9d
    -----BEGIN CERTIFICATE-----
    MIID4zCCAsugAwIBAgIJAK6v+Q7zDpa9MA0GCSqGSIb3DQEBCwUAMIGHMQswCQYD
    VQQGEwJDTjESMBAGA1UECAwJR3VhbmdEb25nMREwDwYDVQQHDAhTaGVuWmhlbjEN
    MAsGA1UECgwEdGVzdDENMAsGA1UECwwEdGVzdDEUMBIGA1UEAwwLY2EudGVzdC5j
    b20xHTAbBgkqhkiG9w0BCQEWDmFkbWluQHRlc3QuY29tMB4XDTE4MDIwMzA3Mzgz
    OVoXDTE4MDMwNTA3MzgzOVowgYcxCzAJBgNVBAYTAkNOMRIwEAYDVQQIDAlHdWFu
    Z0RvbmcxETAPBgNVBAcMCFNoZW5aaGVuMQ0wCwYDVQQKDAR0ZXN0MQ0wCwYDVQQL
    DAR0ZXN0MRQwEgYDVQQDDAtjYS50ZXN0LmNvbTEdMBsGCSqGSIb3DQEJARYOYWRt
    aW5AdGVzdC5jb20wggEiMA0GCSqGSIb3DQEBAQUAA4IBDwAwggEKAoIBAQDDkWDu
    F9IUNnUc05WsQ2lc8H+mAMt/skVcHgraqbqCN382nEnDKiMusfp4h7qlzJEvVQ/l
    3d7oB0ZhnsPdMxKhmPLLYgBFHVSJyyjLT7TrRt/fyluUgWTAT/6RI6Azz7gFJ2PM
    0ofAQjDXH9bgPWFhbUYqmWOzf3Bq+JZfnva2n45ECczrPqzg0JdeQ5qNsvkYCHN/
    OdmbpbJOxyWTzqbuNrwi6QiLF8Ber//GzuoL9abTvPd3dkjxVyVWiGtzv2VEWaqk
    lM3VfErK/XcZjkJiOtNMfLMtc6wccEulJs9iwC/gwwbrN24de99TCAm/4G3Y7pVt
    H9nfPhGL4D0Oe5QPAgMBAAGjUDBOMB0GA1UdDgQWBBQwL79G0+KJMvN22Fly5QZ5
    ZeP/KzAfBgNVHSMEGDAWgBQwL79G0+KJMvN22Fly5QZ5ZeP/KzAMBgNVHRMEBTAD
    AQH/MA0GCSqGSIb3DQEBCwUAA4IBAQDA1czoZTSCtZn1XeltQ0LBjAEMCTTf0EbK
    AXyb+KEI5JmxXO/rbS3Vgvo/EMmWrDU6Gt6nN2mdINNPGTsp6OFKfinNX6GB9T5d
    xFXm5V3Fh71PRdA8LFpgmy55Iw36gL+Ag/IJzm+UXMYhU/dYjs+NiH7BVzijHOUC
    Fq9WUQSerVTkcB922b8dOJXklJFtNofE+nU9h2PJEI1GgTRE41MSzzHKEEgUwG/T
    ejpiPwSQ9wDWwM7qL0StcDZYIAT5Kpi0r/60ZzUdOz7quuRwi1b01b1hBdQwI2TJ
    VM2Wv4bdOEFqsU6Ncs55t/pRU8UI4tYvQ7A51MM8hLaDI2BLwJ6d
    -----END CERTIFICATE-----

    

    4):创建CA工作目录下的必要文件

 # touch /etc/pki/CA/index.txt    # 创建证书发放列表文件
 # touch /etc/pki/CA/serial    # 创建序号文件
 # echo "01" > /etc/pki/CA/serial    # 写入起始序号

    

四、向CA申请证书:

    1):生成一个自己的非对称密钥

 # openssl genrsa -out /lee/my.key

    

    2):申请证书(在这里私有CA申请流程就是一个证书生成的步骤了)

 # openssl req -new -key /lee/my.key -out /lee/my.crt    # 注意这里没有-x509的选项了,-x509代表的是自签署
    You are about to be asked to enter information that will be incorporated
    into your certificate request.
    What you are about to enter is what is called a Distinguished Name or a DN.
    There are quite a few fields but you can leave some blank
    For some fields there will be a default value,
    If you enter '.', the field will be left blank.
    -----
    Country Name (2 letter code) [XX]:CN
    State or Province Name (full name) []:GuangDong
    Locality Name (eg, city) [Default City]:ShenZhen
    Organization Name (eg, company) [Default Company Ltd]:test
    Organizational Unit Name (eg, section) []:test
    Common Name (eg, your name or your server's hostname) []:www.test.com
    Email Address []:www@test.com
    
    Please enter the following 'extra' attributes
    to be sent with your certificate request
    A challenge password []:
    An optional company name []:

    

    3):CA签署证书:

 # openssl ca -in /lee/my.crt -out www.test.com.crt
    Using configuration from /etc/pki/tls/openssl.cnf
    Check that the request matches the signature
    Signature ok
    Certificate Details:
            Serial Number: 1 (0x1)
            Validity
                Not Before: Feb  3 08:29:30 2018 GMT
                Not After : Feb  3 08:29:30 2019 GMT
            Subject:
                countryName               = CN
                stateOrProvinceName       = GuangDong
                organizationName          = test
                organizationalUnitName    = test
                commonName                = www.test.com
                emailAddress              = www@test.com
            X509v3 extensions:
                X509v3 Basic Constraints: 
                    CA:FALSE
                Netscape Comment: 
                    OpenSSL Generated Certificate
                X509v3 Subject Key Identifier: 
                    36:1E:30:68:9A:42:75:DE:EA:BE:F3:FF:EB:3C:26:5F:5B:30:4B:30
                X509v3 Authority Key Identifier: 
                    keyid:30:2F:BF:46:D3:E2:89:32:F3:76:D8:59:72:E5:06:79:65:E3:FF:2B
    
    Certificate is to be certified until Feb  3 08:29:30 2019 GMT (365 days)
    Sign the certificate? [y/n]:y
    
    
    1 out of 1 certificate requests certified, commit? [y/n]y   
    Write out database with 1 new entries
    Data Base Updated
  [root@localhost CA]# cat index.txt    # 查看下证书颁发列表,发现已经有了一条信息,”01“就是从刚才的serial中继承来的
    V190203082930Z01unknown/C=CN/ST=GuangDong/O=test/OU=test/CN=www.test.com/emailAddress=www@test.com

    


文章名称:Linux下Oenssl命令及搭建私有CA
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