Utwórz samopodpisany certyfikat z podmiotemAltName, aby naprawić [missing_subjectAltName] w Chrome 58+

27

Próbuję utworzyć samopodpisany certyfikat, który będzie localhostzawierał w subjectAltNamecelu spełnienia wymagań przeglądarki Chrome 58+:

createcertificate.sh:

#!/usr/bin/env bash
filename="$1server"
openssl req -new -sha256 -nodes -out ./../nginx/ssl/${filename}.csr -newkey rsa:2048 -keyout ./../nginx/ssl/${filename}.key -config <( cat ${filename}_csr.txt )
openssl x509 -req -in ./../nginx/ssl/${filename}.csr -CA ~/ssl/rootCA.pem -CAkey ~/ssl/rootCA.key -CAcreateserial -out ./../nginx/ssl/${filename}.crt -days 500 -sha256

server_csr.txt:

[req]
default_bits = 2048
prompt = no
default_md = sha256
req_extensions = req_ext
distinguished_name = dn

[ dn ]
C=US
ST=New York
L=Rochester
O=End Point
OU=Testing Domain
emailAddress=your-administrative-address@your-awesome-existing-domain.com
CN = localhost

[ req_ext ]
subjectAltName = @alt_names

[ alt_names ]
DNS.1 = localhost

Zadzwoń ./createcertificate.sh:

server_csr.txt
Generating a 2048 bit RSA private key
.........................................................................................................+++
...............................+++
writing new private key to './../nginx/ssl/server.key'
-----
Signature ok
subject=/C=US/ST=New York/L=Rochester/O=End Point/OU=Testing Domain/emailAddress=your-administrative-address@your-awesome-existing-domain.com/CN=localhost
Getting CA Private Key
Enter pass phrase for /home/alexzeitler/ssl/rootCA.key:

Ale Chrome 58 nadal odrzuca certyfikat:

This server could not prove that it is localhost; its security certificate is from [missing_subjectAltName]. This may be caused by a misconfiguration or an attacker intercepting your connection. 

To jest wynik openssl req -in ../nginx/ssl/server.csr -noout -text:

Certificate Request:
    Data:
        Version: 0 (0x0)
        Subject: C=US, ST=New York, L=Rochester, O=End Point, OU=Testing Domain/emailAddress=your-administrative-address@your-awesome-existing-domain.com, CN=localhost
        Subject Public Key Info:
            Public Key Algorithm: rsaEncryption
                Public-Key: (2048 bit)
                Modulus:
                    00:cf:ec:6d:54:6e:db:e0:9c:cd:17:c2:dd:bf:81:
                    1e:52:bb:62:27:04:f3:13:8e:01:69:47:fa:93:92:
                    57:b3:77:be:51:87:9b:c8:40:f1:28:de:df:cb:d2:
                    fd:87:fb:00:a1:c4:17:30:4c:9a:fd:e0:b6:d0:8c:
                    a0:c9:01:f4:71:5f:63:ee:6d:4c:5a:b4:4d:ca:60:
                    d4:0b:dc:6f:c1:2b:62:95:44:76:ec:45:bf:cb:39:
                    4a:0a:e4:f7:84:56:d0:1b:11:2c:e7:a8:b6:f6:bc:
                    46:89:bb:4b:44:3c:7d:9d:d8:cc:75:4c:4c:72:15:
                    b4:58:77:9b:38:61:72:4c:b2:45:55:a2:34:06:aa:
                    4c:9d:54:cb:a4:bf:58:26:88:11:81:17:a3:52:ab:
                    c8:38:f7:c5:55:78:af:d3:be:3f:70:95:79:d9:79:
                    10:45:5f:e9:10:e9:56:6f:b5:fa:b9:36:2e:c8:40:
                    c5:fa:86:66:12:82:ec:ab:45:75:54:ec:93:40:9f:
                    d1:cc:8f:18:31:8b:62:1c:20:da:6e:19:17:89:c5:
                    6f:c5:b9:23:a0:86:6e:70:f9:2a:b1:e3:87:dc:a2:
                    57:99:16:05:d4:85:01:43:34:48:d5:b4:39:35:63:
                    46:81:d2:f1:b8:66:e2:21:31:c3:8a:02:f7:8f:a9:
                    b4:8b
                Exponent: 65537 (0x10001)
        Attributes:
        Requested Extensions:
            X509v3 Subject Alternative Name: 
                DNS:localhost
    Signature Algorithm: sha256WithRSAEncryption
         60:d7:11:95:45:9b:b6:35:ed:b7:31:2b:14:5d:c7:57:bb:cd:
         fc:3b:c4:97:01:aa:46:4c:58:9b:f8:4c:44:e2:12:46:2d:69:
         5f:95:10:02:fd:79:e1:30:cb:a9:f9:41:b2:a7:b6:fa:e3:2f:
         e9:c6:7c:3e:3a:b1:db:64:b9:6e:ab:a1:98:82:0c:df:cf:b5:
         e9:7f:17:f0:87:c9:09:15:ab:c8:9b:a2:d8:b3:37:a8:13:2e:
         05:f5:ab:18:4c:cf:d9:6d:d0:05:c4:90:b5:0e:a5:c2:24:6d:
         12:fb:e1:64:5c:d0:6f:5a:86:a3:d2:1f:b8:73:12:1e:39:28:
         a9:50:a4:88:fb:e6:24:95:17:43:76:22:7d:57:48:af:84:36:
         66:30:d8:3b:88:3b:4c:c5:44:fc:92:75:16:b6:9a:22:4b:cf:
         b2:9b:19:e2:15:d4:9c:04:85:8d:7a:59:f7:13:7c:be:d4:4f:
         c5:d8:02:79:ab:98:3f:91:0e:da:ba:8b:68:01:d3:71:cb:f0:
         55:22:fe:f8:55:41:ef:ac:f4:55:48:06:ce:75:ba:33:5c:b2:
         7b:f3:a7:b4:c3:ec:c0:52:ec:e1:56:64:84:cb:fa:a1:ca:0c:
         c0:c3:87:e4:f4:c1:5b:8b:92:00:26:9d:a8:6b:35:58:1f:ad:
         9e:91:ba:5b

Tak więc Subject Alternative Nameinformacja wydaje się istnieć w csr.

Z drugiej strony openssl x509 -text -in ../nginx/ssl/server.crt -nooutwyjścia:

Certificate:
    Data:
        Version: 1 (0x0)
        Serial Number: 17237690484651272010 (0xef38942aa5c5274a)
    Signature Algorithm: sha256WithRSAEncryption
        Issuer: C=US, ST=New York, L=Rochester, O=End Point, CN=localhost/emailAddress=your-administrative-address@your-awesome-existing-domain.com
        Validity
            Not Before: Apr 23 15:42:28 2017 GMT
            Not After : Sep  5 15:42:28 2018 GMT
        Subject: C=US, ST=New York, L=Rochester, O=End Point, OU=Testing Domain/emailAddress=your-administrative-address@your-awesome-existing-domain.com, CN=localhost
        Subject Public Key Info:
            Public Key Algorithm: rsaEncryption
                Public-Key: (2048 bit)
                Modulus:
                    00:af:ee:7c:7a:2c:3c:5c:a6:57:ce:81:cf:22:49:
                    3c:d3:c4:6d:3a:71:a8:c7:cf:04:cc:68:4a:e6:03:
                    7c:9d:9d:49:c7:4f:8e:33:09:5b:73:9b:a0:21:51:
                    27:c6:e6:d0:ac:f5:5e:1d:4f:f8:60:9f:a1:50:1e:
                    dd:1f:bc:20:44:6f:42:c8:de:2a:6f:04:b7:21:aa:
                    cb:82:18:5e:fa:d8:68:5d:e5:c6:a0:cb:39:e3:91:
                    60:99:3f:ae:63:ab:9c:23:e9:03:0c:ca:10:23:8f:
                    76:e1:5c:55:10:b7:e1:e7:aa:e7:24:4d:49:ff:d0:
                    c7:67:f6:8a:1d:36:12:15:49:2d:33:c9:39:d4:3f:
                    7f:b6:a5:9e:ac:b5:55:75:aa:bc:7f:f4:c2:85:b4:
                    18:f1:76:3c:5e:a3:df:47:00:1c:e6:ac:d5:3c:f3:
                    ac:ff:f2:f0:7a:43:3f:63:bd:77:86:ea:3f:e5:35:
                    04:fa:3c:2a:0c:34:b5:36:ee:a0:b2:50:f9:08:31:
                    b8:76:27:af:c7:c6:5a:af:52:07:6f:c3:d6:6c:97:
                    6b:9b:cb:cd:c7:01:4f:33:7e:2f:09:06:b0:71:1a:
                    9a:9f:30:d4:c3:67:89:15:dc:df:ad:68:44:54:29:
                    26:d0:ca:8e:f6:eb:dd:f3:1a:74:63:89:b4:c5:72:
                    82:af
                Exponent: 65537 (0x10001)
    Signature Algorithm: sha256WithRSAEncryption
         42:f7:c4:1e:47:dc:e7:81:3a:b0:83:a8:fd:51:53:32:f7:80:
         76:b4:ec:a8:44:17:5a:18:29:68:9f:14:4a:1c:35:87:3e:7a:
         13:95:0c:8b:5b:2f:f9:f0:42:56:51:9c:a9:9f:7f:77:45:7d:
         6c:1d:1c:39:75:99:4a:c5:22:c4:d9:1d:11:bb:bf:7d:56:7b:
         a7:18:fc:2a:c3:32:c1:72:3a:17:0e:1d:27:f1:f3:b6:72:91:
         5d:38:64:6c:98:03:8b:17:88:ce:2c:a2:dc:2a:86:a0:e8:23:
         e8:07:79:ac:05:62:b1:17:10:84:82:02:23:4a:10:9a:2a:b3:
         9c:5d:05:71:31:43:f3:28:4e:28:bd:31:49:21:1f:39:b0:6b:
         39:27:1c:1a:8e:b8:92:e9:e7:76:a2:e7:3e:6c:ba:fc:56:f1:
         78:85:3f:68:ea:db:50:88:b4:8a:fc:ea:73:04:4b:8a:54:86:
         5e:0d:fc:b4:70:72:c9:5a:c7:cf:cb:19:e2:9a:b9:af:c6:3e:
         55:06:1c:7c:62:44:b3:e6:57:2b:0f:cc:33:9e:28:5f:62:85:
         05:27:4c:f0:de:6c:d6:fb:e4:de:2f:41:99:34:b2:b1:7d:12:
         b6:d6:96:a5:4b:c4:49:6b:49:bf:c5:86:e6:3c:3e:f3:e3:ef:
         a9:d3:21:5e

.crtNie zawierają Subject Alternative Name.

Alexander Zeitler
źródło
Czy nadal musisz ufać certyfikatowi, dodając go do magazynu certyfikatów?
Ramhound
Dodałem rootCA.crtdo zaufanego certyfikatu CA w Chrome (na Ubuntu)
Alexander Zeitler
Nawiasem mówiąc, Firefox - niewymagający podmiotuAltName - akceptuje certyfikat.
Alexander Zeitler

Odpowiedzi:

33

Podczas czytania dokumentacji na subjectAltName, zauważyłem, że mój certyfikat został pokazany Version: 1podczas pokazu dokumentacji Version: 3.

Aby uzyskać Version 3certyfikat, określiłem -extfileopcję:

sudo openssl x509 -req -in ./../nginx/ssl/${filename}.csr -CA ~/ssl/rootCA.pem -CAkey ~/ssl/rootCA.key -CAcreateserial -out ./../nginx/ssl/${filename}.crt -days 500 -sha256 -extfile v3.ext

v3.ext wygląda tak:

authorityKeyIdentifier=keyid,issuer
basicConstraints=CA:FALSE
keyUsage = digitalSignature, nonRepudiation, keyEncipherment, dataEncipherment
subjectAltName = @alt_names

[alt_names]
DNS.1 = localhost

Przy openssl x509 -text -in ../nginx/ssl/server.crt -nooutponownym uruchomieniu certyfikat zawiera teraz także Subject Alternative Namesekcję:

Certificate:
    Data:
        Version: 3 (0x2)
        Serial Number: 17237690484651272016 (0xef38942aa5c52750)
    Signature Algorithm: sha256WithRSAEncryption
        Issuer: C=US, ST=New York, L=Rochester, O=End Point, CN=localhost/[email protected]
        Validity
            Not Before: Apr 23 16:07:38 2017 GMT
            Not After : Sep  5 16:07:38 2018 GMT
        Subject: C=US, ST=New York, L=Rochester, O=End Point, OU=Testing Domain/emailAddress=your-administrative-address@your-awesome-existing-domain.com, CN=localhost
        Subject Public Key Info:
            Public Key Algorithm: rsaEncryption
                Public-Key: (2048 bit)
                Modulus:
                    00:b2:e3:bd:ed:28:04:85:ea:75:ee:d2:82:e1:eb:
                    f5:5f:7f:cf:7e:cb:70:de:86:9f:75:7c:f3:71:e7:
                    da:16:fb:bc:1f:89:bc:47:08:77:ca:33:20:f1:c1:
                    9e:e3:20:8d:89:14:7e:c1:0a:12:d2:59:24:56:9b:
                    77:90:5f:69:d1:a5:f1:00:38:93:1b:a7:75:f1:33:
                    e2:da:dc:32:a9:0a:85:7d:9a:20:81:ca:20:ee:86:
                    ce:e2:a0:52:d2:ab:11:34:e5:52:99:3a:81:c6:9f:
                    6b:0f:6a:02:2b:38:a6:84:c9:ba:fa:9b:ef:0a:89:
                    22:4b:79:86:3c:bd:44:a5:54:fb:cf:4d:8b:d1:44:
                    03:35:22:de:69:77:c8:fa:4d:c6:01:25:08:9f:4d:
                    a9:79:7a:aa:ca:03:b6:e4:51:57:22:27:5f:a7:12:
                    11:f3:e6:00:29:f6:58:be:2c:aa:09:e4:06:45:d9:
                    3f:75:a7:f0:75:bd:2b:a6:bb:6d:ad:93:bb:b9:1d:
                    d7:75:39:4e:9b:1d:0e:39:cc:17:74:88:f7:e2:b7:
                    85:12:96:e0:cb:42:56:d0:11:e0:84:86:e5:14:a5:
                    f2:6d:43:5d:f9:59:ae:61:7f:01:ae:95:b8:92:27:
                    1d:1c:02:d7:ad:fb:ee:f6:25:38:60:c8:41:20:17:
                    80:69
                Exponent: 65537 (0x10001)
        X509v3 extensions:
            X509v3 Authority Key Identifier:
                keyid:5A:8D:89:64:BD:F2:3E:C2:D7:7B:BE:17:84:F4:29:E8:C5:32:35:34

            X509v3 Basic Constraints:
                CA:FALSE
            X509v3 Key Usage:
                Digital Signature, Non Repudiation, Key Encipherment, Data Encipherment
            X509v3 Subject Alternative Name:
                DNS:localhost
    Signature Algorithm: sha256WithRSAEncryption
         27:1d:d6:84:50:33:d2:ff:b1:06:9b:fa:f1:40:7d:47:11:bc:
         f7:80:fd:26:87:0e:91:9f:14:be:1f:1d:9b:32:d1:fb:d6:8d:
         af:30:8a:88:38:8c:1c:bf:77:98:8e:cd:06:48:82:fa:09:b9:
         3c:0d:38:c4:a0:da:b7:4d:f5:81:5f:5a:76:04:61:f8:c2:1a:
         17:ad:56:7c:72:ba:f6:65:7f:7f:e7:5e:b2:34:ba:13:23:57:
         84:f1:c5:ca:dd:5b:55:69:95:71:44:4a:30:53:61:5c:ad:47:
         d8:9c:d5:a2:1b:18:2d:e1:19:35:3e:3f:b2:7e:fd:bf:f3:d0:
         45:dc:f5:57:f0:1b:cd:70:1b:e0:34:de:27:98:89:b4:a5:25:
         a5:6c:29:c3:89:a6:a5:c5:4d:f5:45:3b:47:8e:13:45:23:07:
         5e:d6:59:0d:96:c6:a3:f0:c5:3d:ee:a8:ad:36:96:43:13:a1:
         b8:55:f6:c7:10:7e:8f:5d:09:ef:61:17:2a:9c:3b:50:28:c8:
         e3:8d:a6:34:06:50:d4:3e:d5:17:ea:7d:31:97:d3:ee:df:b5:
         23:66:5e:22:b7:e4:fa:36:4f:9a:d5:f0:a3:f9:b4:2b:27:02:
         0b:41:94:d1:a1:f7:1b:2c:7e:74:e6:14:c3:b5:67:15:d2:ca:
         02:77:57:a6

Stworzyłem również post na blogu .

Jeśli chcesz dodać 127.0.0.1, musisz napisać:

[alt_names]
IP.1 = 127.0.0.1

Jeśli dodasz, DNS.1 = 127.0.0.1Chrome zwróci a ERR_CERT_COMMON_NAME_INVALID.

Dzięki @Robar za wskazanie tego w komentarzach.

Alexander Zeitler
źródło
4
Cześć, pierwsze dzięki za ten świetny post na blogu! Pewnego dnia roboczego zastanawiałem się, jak dodać adresy IP do [alt_name]. Więc jeśli ktoś chce dodać 127.0.0.1, musi napisać: [alt_name] IP.1 = 127.0.0.1 Jeśli dodasz DNS.1 = 127.0.0.1chrome, zwróci a ERR_CERT_COMMON_NAME_INVALID. Możesz dodać to do swojej odpowiedzi, zaoszczędziłoby to wielu deweloperom dużo czasu, gdyby mieli ten sam problem.
Robar
1
Dzięki za podpowiedź - też tego spróbowałem, ale nie wspomniałem o tym. Zaktualizowałem odpowiedź.
Alexander Zeitler
„Jeśli dodasz DNS.1 = 127.0.0.1 chrome zwróci ERR_CERT_COMMON_NAME_INVALID” - To prawie brzmi jak błąd Chrome. O ile mi wiadomo, adres IP wymieniony w sieci SAN nie ma nic wspólnego z CN.
jww
Jeden dodatek do kompatybilności z wieloma przeglądarkami. IE chce DNSwejścia i chrome IP. Aby uczynić pracę świadectwo zarówno musiałem dodać następujące nazwiska podlega alt: DNS.1 = localhost, DNS.2 = 127.0.0.1,IP.1 = 127.0.0.1
Gabel
7

W systemie Windows zapisz ten skrypt w folderze SSL jako makeCert.bat. Samopodpisany certyfikat spełnia wymagania Chrome SAN 58+ dla SAN (alternatywna nazwa podmiotu).

Ten skrypt utworzy następujące pliki: example.cnf, example.crt, example.key

@echo off

REM IN YOUR SSL FOLDER, SAVE THIS FILE AS: makeCert.bat
REM AT COMMAND LINE IN YOUR SSL FOLDER, RUN: makecert
REM IT WILL CREATE THESE FILES: example.cnf, example.crt, example.key
REM IMPORT THE .crt FILE INTO CHROME Trusted Root Certification Authorities
REM REMEMBER TO RESTART APACHE OR NGINX AFTER YOU CONFIGURE FOR THESE FILES

REM PLEASE UPDATE THE FOLLOWING VARIABLES FOR YOUR NEEDS.
SET HOSTNAME=example
SET DOT=com
SET COUNTRY=US
SET STATE=KS
SET CITY=Olathe
SET ORGANIZATION=IT
SET ORGANIZATION_UNIT=IT Department
SET EMAIL=webmaster@%HOSTNAME%.%DOT%

(
echo [req]
echo default_bits = 2048
echo prompt = no
echo default_md = sha256
echo x509_extensions = v3_req
echo distinguished_name = dn
echo:
echo [dn]
echo C = %COUNTRY%
echo ST = %STATE%
echo L = %CITY%
echo O = %ORGANIZATION%
echo OU = %ORGANIZATION_UNIT%
echo emailAddress = %EMAIL%
echo CN = %HOSTNAME%.%DOT%
echo:
echo [v3_req]
echo subjectAltName = @alt_names
echo:
echo [alt_names]
echo DNS.1 = *.%HOSTNAME%.%DOT%
echo DNS.2 = %HOSTNAME%.%DOT%
)>%HOSTNAME%.cnf

openssl req -new -x509 -newkey rsa:2048 -sha256 -nodes -keyout %HOSTNAME%.key -days 3560 -out %HOSTNAME%.crt -config %HOSTNAME%.cnf
STWilson
źródło
Nadal występują problemy z nazwą pospolitą podczas importowania certyfikatu do Chrome.
vee
0

Zaktualizowałem plik wsadowy STWilson , aby usunąć elementy COM, ponieważ localhost tak naprawdę tego nie ma i chcę programisty localhost certyfikatu SSL do programowania. Dodałem także kilka dodatkowych plików, takich jak .pfx i .pem.key.

@echo off

REM IN YOUR SSL FOLDER, SAVE THIS FILE AS: makeCert.bat
REM AT COMMAND LINE IN YOUR SSL FOLDER, RUN: makecert
REM IT WILL CREATE THESE FILES: example.cnf, example.crt, example.key
REM IMPORT THE .crt FILE INTO CHROME Trusted Root Certification Authorities
REM REMEMBER TO RESTART APACHE OR NGINX AFTER YOU CONFIGURE FOR THESE FILES

REM PLEASE UPDATE THE FOLLOWING VARIABLES FOR YOUR NEEDS.
SET HOSTNAME=example
SET COUNTRY=US
SET STATE=KS
SET CITY=Olathe
SET ORGANIZATION=IT
SET ORGANIZATION_UNIT=IT Department
SET [email protected]

(
echo [req]
echo default_bits = 2048
echo prompt = no
echo default_md = sha256
echo x509_extensions = v3_req
echo distinguished_name = dn
echo:
echo [dn]
echo C = %COUNTRY%
echo ST = %STATE%
echo L = %CITY%
echo O = %ORGANIZATION%
echo OU = %ORGANIZATION_UNIT%
echo emailAddress = %EMAIL%
echo CN = %HOSTNAME%
echo:
echo [v3_req]
echo subjectAltName = @alt_names
echo:
echo [alt_names]
echo DNS.1 = *.%HOSTNAME%
echo DNS.2 = %HOSTNAME%
)>%HOSTNAME%.cnf

REM MAKE THE .key .crt AND .cnf FILES
openssl req -new -x509 -newkey rsa:2048 -sha256 -nodes -keyout %HOSTNAME%.key -days 3560 -out %HOSTNAME%.crt -config %HOSTNAME%.cnf

REM MAKE THE .pfx FILE
openssl pkcs12 -export -out %HOSTNAME%.pfx -inkey %HOSTNAME%.key -in %HOSTNAME%.crt

REM MAKE THE .pem.key FILE
openssl rsa -in %HOSTNAME%.key -outform PEM -out %HOSTNAME%.pem.key
jake_nerdnest
źródło
0

Takie rzeczy zawsze się pojawiają /usr/local/bin.

Dostałem to od https://alexanderzeitler.com/articles/Fixing-Chrome-missing_subjectAltName-selfsigned-cert-openssl/

#! /bin/bash

mkdir /tmp/scert 2>/dev/null
rm -r /tmp/scert/* 2>/dev/null

if [ $# -ne 1 ];
then
        echo "Usage: scert <name>"
        exit
fi

if [ -e "/etc/ssl/private/$1.key" ];
then
        echo "/etc/ssl/private/$1.key already exists"
        exit
fi

if [ -e "/etc/ssl/certs/$1.crt" ];
then
        echo "/etc/ssl/certs/$1.crt already exists"
        exit
fi

if [ -e "/etc/ssl/certs/$1.pem" ];
then
        echo "/etc/ssl/certs/$1.pem already exists"
        exit
fi

echo "[req]" > /tmp/scert/tmp.cnf
echo "default_bits = 2048" >> /tmp/scert/tmp.cnf
echo "prompt = no" >> /tmp/scert/tmp.cnf
echo "default_md = sha256" >> /tmp/scert/tmp.cnf
echo "distinguished_name = dn" >> /tmp/scert/tmp.cnf
echo "" >> /tmp/scert/tmp.cnf
echo "[dn]" >> /tmp/scert/tmp.cnf
echo "C=US" >> /tmp/scert/tmp.cnf
echo "ST=New York" >> /tmp/scert/tmp.cnf
echo "L=Rochester" >> /tmp/scert/tmp.cnf
echo "O=$1" >> /tmp/scert/tmp.cnf
echo "OU=Testing Domain" >> /tmp/scert/tmp.cnf
echo "[email protected]" >> /tmp/scert/tmp.cnf
echo "CN = localhost" >> /tmp/scert/tmp.cnf

echo "authorityKeyIdentifier=keyid,issuer" > /tmp/scert/tmp.ext
echo "basicConstraints=CA:FALSE" >> /tmp/scert/tmp.ext
echo "keyUsage = digitalSignature, nonRepudiation, keyEncipherment, dataEncipherment" >> /tmp/scert/tmp.ext
echo "subjectAltName = @alt_names" >> /tmp/scert/tmp.ext
echo "" >> /tmp/scert/tmp.ext
echo "[alt_names]" >> /tmp/scert/tmp.ext
echo "DNS.1 = localhost" >> /tmp/scert/tmp.ext

openssl genrsa -des3 -passout pass:x -out /tmp/scert/tmp.pass.key 2048
openssl rsa -passin pass:x -in "/tmp/scert/tmp.pass.key" -out "/tmp/scert/tmp.key"

openssl req -x509 -new -nodes -key /tmp/scert/tmp.key  -subj "/C=US/ST=New York/L=Rochester/O=$1/OU=Testing Domain/CN=localhost" -sha256 -days 1024 -out /tmp/scert/$1.pem

openssl req -new -sha256 -nodes -out /tmp/scert/tmp.csr -newkey rsa:2048 -keyout /tmp/scert/$1.key -config <( cat /tmp/scert/tmp.cnf )

openssl x509 -req -in /tmp/scert/tmp.csr -CA /tmp/scert/$1.pem -CAkey /tmp/scert/tmp.key -CAcreateserial -out /tmp/scert/$1.crt -days 500 -sha256 -extfile /tmp/scert/tmp.ext

if [ -e "/tmp/scert/$1.key" ];
then
        sudo cp /tmp/scert/$1.key /etc/ssl/private
        sudo chown root:ssl-cert /etc/ssl/private/$1.key
        sudo chmod 640 /etc/ssl/private/$1.key
        ls -al /etc/ssl/private/$1.key
else
        echo "ERROR: /tmp/scert/$1.key not found"
fi

if [ -e "/tmp/scert/$1.crt" ];
then
        sudo cp /tmp/scert/$1.crt /etc/ssl/certs
        sudo chown root:root /etc/ssl/certs/$1.crt
        sudo chmod 755 /etc/ssl/certs/$1.crt
        ls -al /etc/ssl/certs/$1.crt
else
        echo "ERROR: /tmp/scert/$1.crt not found"
fi

if [ -e "/tmp/scert/$1.pem" ];
then
        sudo cp /tmp/scert/$1.pem /etc/ssl/certs
        sudo chown root:root /etc/ssl/certs/$1.pem
        sudo chmod 755 /etc/ssl/certs/$1.pem
        ls -al /etc/ssl/certs/$1.pem
else
        echo "ERROR: /tmp/scert/$1.pem not found"
fi

rm -r /tmp/scert/* 2>/dev/null
Abdul Ahad
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