Ssl: различия между версиями

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(не показано 7 промежуточных версий этого же участника)
Строка 173: Строка 173:
 
openssl verify -verbose -CAfile rootCA.pem intermediateCA.cert.pem
 
openssl verify -verbose -CAfile rootCA.pem intermediateCA.cert.pem
 
intermediateCA.cert.pem: OK
 
intermediateCA.cert.pem: OK
  +
</PRE>
  +
Валидация с подробностями когда в gd_bundle-g2-g1.crt содержится цепочка сертефикатов
  +
<PRE>
  +
openssl verify -verbose -no-CAfile -no-CApath -show_chain -CAfile gd_bundle-g2-g1.crt c97444e03355f98c.crt
  +
  +
c97444e03355f98c.crt: OK
  +
Chain:
  +
depth=0: CN = container-cloud-auth.int.mirantis.com (untrusted)
  +
depth=1: C = US, ST = Arizona, L = Scottsdale, O = "GoDaddy.com, Inc.", OU = http://certs.godaddy.com/repository/, CN = Go Daddy Secure Certificate Authority - G2
  +
depth=2: C = US, ST = Arizona, L = Scottsdale, O = "GoDaddy.com, Inc.", CN = Go Daddy Root Certificate Authority - G2
  +
depth=3: C = US, O = "The Go Daddy Group, Inc.", OU = Go Daddy Class 2 Certification Authority
  +
</PRE>
  +
  +
  +
<PRE>
  +
openssl verify -verbose -no-CAfile -no-CApath -no-CAstore -show_chain -partial_chain -CAfile root intermidiate
  +
intermidiate: OK
  +
Chain:
  +
depth=0: C = NL, O = Booking.com, CN = Booking.com Services Authority (untrusted)
  +
depth=1: C = NL, O = Booking.com, CN = Booking.com Authority X1
  +
</PRE>
  +
  +
==Проверка ключа==
  +
<PRE>
  +
openssl x509 -noout -modulus -in cert.crt | openssl md5
  +
openssl rsa -noout -modulus -in privkey.txt | openssl md5
  +
</PRE>
  +
Должно совпадать
  +
  +
==Удаление пароля из ключа==
  +
Для RSA
  +
<PRE>
  +
openssl rsa -in [original.key] -out [new.key]
  +
</PRE>
  +
Для другого типа - EC
  +
  +
<PRE>
  +
openssl ec -in /root/easy-rsa/pki/private/ca.key -out /root/easy-rsa/pki/private/ca.key.nopasswd
  +
</PRE>
  +
Ключ выглядит примерно вот так:
  +
<PRE>
  +
-----BEGIN EC PRIVATE KEY-----
  +
Proc-Type: 4,ENCRYPTED
  +
DEK-Info: AES-256-CBC,82C9FA9B7FB1DCBBA5B5C8CE1A41BD76
  +
  +
6hJIO09pwVe2JQLckx4rjtzTZwijik86c5sJamLTT1X/VptM4qclJ3JaQLyDA6Ln
  +
yAmSVanWu9JXuO+4cmNB/Q1BIs4kWZ8Y20zzvcNEAdKR35z5Pf4qF2N/V5g/IJyl
  +
JmLimB4lJERWsiNZ6WjVFJGQvWU0QlMDI7opypksHwB1Vid+hnnqFkOsLoiBW3mR
  +
kQlfjcY1+mDxHC6/q9AQ8OpFiboZ/GPidrpXFn5C608=
  +
-----END EC PRIVATE KEY-----
  +
</PRE>
  +
  +
=1=
  +
<PRE>
  +
Verifying the certificate subject and issuer
  +
  +
This section describes how to get the subject and issuer of the certificates and verify that you have a valid certificate chain.
  +
  +
Run the following OpenSSL command to get the Subject and Issuer for each certificate in the chain from entity to root and verify that they form a proper certificate chain:
  +
  +
openssl x509 -text -in certificate | grep -E '(Subject|Issuer):'
  +
  +
Where certificate is the name of the certificate.
  +
Verify that the certificates in the chain adhere to the following guidelines:
  +
Subject of each certificate matches the Issuer of the preceding certificate in the chain (except for the Entity certificate).
  +
Subject and Issuer are the same for the root certificate.
  +
If the certificates in the chain adhere to these guidelines, then the certificate chain is considered to be complete and valid.
  +
  +
Sample certificate chain validation
  +
  +
The following example is the output of the OpenSSL commands for a sample certificate chain containing three certificates:
  +
  +
Entity certificate
  +
  +
  +
openssl x509 -text -in entity.pem | grep -E '(Subject|Issuer):'
  +
  +
Issuer: C = US, O = Google Trust Services, CN = GTS CA 1O1
  +
Subject: C = US, ST = California, L = Mountain View, O = Google LLC, CN = *.enterprise.apigee.com
  +
  +
Intermediate certificate
  +
  +
  +
openssl x509 -text -in intermediate.pem | grep -E '(Subject|Issuer):'
  +
  +
Issuer: OU = GlobalSign Root CA - R2, O = GlobalSign, CN = GlobalSign
  +
Subject: C = US, O = Google Trust Services, CN = GTS CA 1O1
  +
  +
Root certificate
  +
  +
  +
openssl x509 -text -in root.pem | grep -E '(Subject|Issuer):'
  +
  +
Issuer: OU = GlobalSign Root CA - R2, O = GlobalSign, CN = GlobalSign
  +
Subject: OU = GlobalSign Root CA - R2, O = GlobalSign, CN = GlobalSign
  +
  +
In the example shown above, notice the following:
  +
  +
The Subject of the intermediate certificate matches the Issuer of the entity certificate.
  +
The Subject of the root certificate matches the Issuer of the intermediate certificate.
  +
The Subject and Issuer are the same in the root certificate.
  +
From the example above, you can confirm that the sample certificate chain is valid.
  +
Verifying the certificate subject and issuer hash
  +
  +
This section explains how to get the hash of the subject and issuer of the certificates and verify that you have a valid certificate chain.
  +
  +
It is always a good practice to verify the hash sequence of certificates as it can help in identifying issues such as the Common Name (CN) of the certificate having unwanted space or special characters.
  +
  +
Run the following OpenSSL command to get the hash sequence for each certificate in the chain from entity to root and verify that they form a proper certificate chain.
  +
  +
openssl x509 -hash -issuer_hash -noout -in certificate
  +
  +
Where certificate is the name of the certificate.
  +
  +
Verify that the certificates in the chain adhere to the following guidelines:
  +
Subject of each certificate matches the Issuer of the preceding certificate in the chain (except for the Entity certificate).
  +
Subject and Issuer are the same for the root certificate.
  +
If the certificates in the chain adhere to these guidelines, then the certificate chain is considered to be complete and valid.
  +
  +
Sample certificate chain validation through hash sequence
  +
  +
The following example is the output of the OpenSSL commands for a sample certificate chain containing three certificates:
  +
  +
  +
openssl x509 -in entity.pem -hash -issuer_hash -noout
  +
c54c66ba #this is subject hash
  +
99bdd351 #this is issuer hash
  +
  +
  +
openssl x509 -in intermediate.pem -hash -issuer_hash -noout
  +
99bdd351
  +
4a6481c9
  +
  +
  +
openssl x509 -in root.pem -hash -issuer_hash -noout
  +
4a6481c9
  +
4a6481c9
  +
  +
In the example shown above, notice the following:
  +
  +
The subject hash of the intermediate certificate matches the issuer hash of the entity certificate.
  +
The subject hash of the root certificate matches the issuer hash of the issuer certificate.
  +
The subject and issuer hash are the same in the root certificate.
  +
From the example above, you can confirm that the sample certificate chain is valid.
  +
  +
Verifying the certificate expiry
  +
  +
This section explains how to verify whether or not all the certificates in the chain are expired using of the following methods:
  +
  +
Get the start and end date of the certificate.
  +
Get the expiry status.
  +
START AND END DATE
  +
EXPIRY STATUS
  +
Run the following OpenSSL command to get the start and end date for each certificate in the chain from entity to root and verify that all the certificates in the chain are in force (start date is before today) and are not expired.
  +
  +
Sample certificate expiry validation through start and end dates
  +
  +
  +
openssl x509 -startdate -enddate -noout -in entity.pem
  +
notBefore=Feb 6 21:57:21 2020 GMT
  +
notAfter=Feb 4 21:57:21 2021 GMT
  +
  +
openssl x509 -startdate -enddate -noout -in intermediate.pem
  +
notBefore=Jun 15 00:00:42 2017 GMT
  +
notAfter=Dec 15 00:00:42 2021 GMT
  +
  +
openssl x509 -startdate -enddate -noout -in root.pem
  +
notBefore=Apr 13 10:00:00 2011 GMT
  +
notAfter=Apr 13 10:00:00 2022 GMT
 
</PRE>
 
</PRE>
   

Текущая версия на 13:43, 18 октября 2024


OpenSSL

Заметки на полях что б каждый раз не читать мануал (ssl, openssl)

Получить сертефикат

openssl s_client -connect example.com:443 
echo -n | openssl s_client -showcerts -connect api.diffbot.com:443 -servername api.diffbot.com
CONNECTED(00000003)
depth=2 C = US, O = Internet Security Research Group, CN = ISRG Root X1
verify error:num=20:unable to get local issuer certificate
verify return:0
---
Certificate chain
 0 s:/CN=api.diffbot.com
   i:/C=US/O=Let's Encrypt/CN=R3
-----BEGIN CERTIFICATE-----
MIIFJDCCBAygAwIBAgISBFLfLeNzhyHJCOLtTTFsrh7gMA0GCSqGSIb3DQEBCwUA
MDIxCzAJBgNVBAYTAlVTMRYwFAYDVQQKEw1MZXQncyBFbmNyeXB0MQswCQYDVQQD
EwJSMzAeFw0yMTA4MTIwNzI4NDRaFw0yMTExMTAwNzI4NDJaMBoxGDAWBgNVBAMT
D2FwaS5kaWZmYm90LmNvbTCCASIwDQYJKoZIhvcNAQEBBQADggEPADCCAQoCggEB
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N9N6oIwGHTQGxf/dTnq1hwN1JuXzGsCCIe0ownbHF/sDzWulA+3hCzNQmI2+ukL7
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BgNVHSUEFjAUBggrBgEFBQcDAQYIKwYBBQUHAwIwDAYDVR0TAQH/BAIwADAdBgNV
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UAlA5h+vnYsUwsYwVQYIKwYBBQUHAQEESTBHMCEGCCsGAQUFBzABhhVodHRwOi8v
cjMuby5sZW5jci5vcmcwIgYIKwYBBQUHMAKGFmh0dHA6Ly9yMy5pLmxlbmNyLm9y
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CwUAA4IBAQAr1MkfbXbGXLd0O8+w+JVGotlaJkwLUpBfL2jZ9ydPdBgTYm7sEnsa
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sikfWDCp+l33+csanvnNq6Jl/BqGVxR/k3zklm6XpsRP01/ix1nT5jf/h1FWlNF8
wbiXI+outWMvqpD0pIbDsRHu8Xs2BS5n
-----END CERTIFICATE-----
 1 s:/C=US/O=Let's Encrypt/CN=R3
   i:/C=US/O=Internet Security Research Group/CN=ISRG Root X1
-----BEGIN CERTIFICATE-----
MIIFFjCCAv6gAwIBAgIRAJErCErPDBinU/bWLiWnX1owDQYJKoZIhvcNAQELBQAw
TzELMAkGA1UEBhMCVVMxKTAnBgNVBAoTIEludGVybmV0IFNlY3VyaXR5IFJlc2Vh
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nLRbwHOoq7hHwg==
-----END CERTIFICATE-----
 2 s:/C=US/O=Internet Security Research Group/CN=ISRG Root X1
   i:/O=Digital Signature Trust Co./CN=DST Root CA X3
-----BEGIN CERTIFICATE-----
MIIFYDCCBEigAwIBAgIQQAF3ITfU6UK47naqPGQKtzANBgkqhkiG9w0BAQsFADA/
MSQwIgYDVQQKExtEaWdpdGFsIFNpZ25hdHVyZSBUcnVzdCBDby4xFzAVBgNVBAMT
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Dfvp7OOGAN6dEOM4+qR9sdjoSYKEBpsr6GtPAQw4dy753ec5
-----END CERTIFICATE-----
---
Server certificate
subject=/CN=api.diffbot.com
issuer=/C=US/O=Let's Encrypt/CN=R3
---
No client certificate CA names sent
---
SSL handshake has read 4702 bytes and written 445 bytes
---
New, TLSv1/SSLv3, Cipher is ECDHE-RSA-AES256-GCM-SHA384
Server public key is 2048 bit
Secure Renegotiation IS supported
Compression: NONE
Expansion: NONE
SSL-Session:
    Protocol  : TLSv1.2
    Cipher    : ECDHE-RSA-AES256-GCM-SHA384
    Session-ID: 11834EAF003B0B311A756947F00C5FF07A14AEB57FE9374DBC2D2E51C805E1F0
    Session-ID-ctx:
    Master-Key: 261A38BACE36C1386B29F64D596D097AE428CAC303A377B9D6682ED304C1929336F96616405182D5B0E512D925B459EA
    Key-Arg   : None
    PSK identity: None
    PSK identity hint: None
    SRP username: None
    TLS session ticket lifetime hint: 300 (seconds)
    TLS session ticket:
    0000 - d5 bf f6 94 74 53 bb 5c-51 54 4e 62 fe dc af 7b   ....tS.\QTNb...{
    0010 - f2 45 52 46 d6 c1 84 cf-34 e1 b6 3b e1 3d b5 26   .ERF....4..;.=.&
    0020 - f8 4a b6 d6 1e ae bc 89-a8 7f d0 dc 84 83 a9 6b   .J.............k
    0030 - d9 f4 9b ef 9a 82 da f3-bd e8 8b 8f 25 43 eb 96   ............%C..
    0040 - 6b f6 b7 7f 16 ab 4e b0-11 b0 a9 0c f8 1f 13 15   k.....N.........
    0050 - 1d fe 68 3f 0c f8 83 f0-50 45 1c b7 2f f2 ea 31   ..h?....PE../..1
    0060 - 33 4a dc 35 63 46 cd a7-07 78 8f d1 40 f6 b2 ad   3J.5cF...x..@...
    0070 - c6 06 90 b3 76 2d 61 61-ca c4 92 46 a2 78 72 59   ....v-aa...F.xrY
    0080 - 53 dd eb cc f5 cb 91 a8-58 6c 64 58 4e 4d fd 5b   S.......XldXNM.[
    0090 - ef 98 89 0d 30 8a 57 18-1b c0 f6 c2 ea 2f 63 e4   ....0.W....../c.
    00a0 - 6a d2 da 6c 34 c8 b6 a3-f7 79 25 d2 07 d1 08 18   j..l4....y%.....
    00b0 - 0d 50 0f 9f e9 eb f6 16-ee c1 f9 dc 84 83 75 57   .P............uW

    Start Time: 1633343371
    Timeout   : 300 (sec)
    Verify return code: 20 (unable to get local issuer certificate)
---
DONE

Перевести в текст

openssl x509 -in FileName.pem -text

Валидация

openssl verify -verbose -CAfile rootCA.pem intermediateCA.cert.pem
intermediateCA.cert.pem: OK

Валидация с подробностями когда в gd_bundle-g2-g1.crt содержится цепочка сертефикатов

openssl verify -verbose -no-CAfile -no-CApath -show_chain -CAfile gd_bundle-g2-g1.crt c97444e03355f98c.crt

c97444e03355f98c.crt: OK
Chain:
depth=0: CN = container-cloud-auth.int.mirantis.com (untrusted)
depth=1: C = US, ST = Arizona, L = Scottsdale, O = "GoDaddy.com, Inc.", OU = http://certs.godaddy.com/repository/, CN = Go Daddy Secure Certificate Authority - G2
depth=2: C = US, ST = Arizona, L = Scottsdale, O = "GoDaddy.com, Inc.", CN = Go Daddy Root Certificate Authority - G2
depth=3: C = US, O = "The Go Daddy Group, Inc.", OU = Go Daddy Class 2 Certification Authority


openssl verify -verbose -no-CAfile -no-CApath -no-CAstore -show_chain -partial_chain -CAfile root intermidiate
intermidiate: OK
Chain:
depth=0: C = NL, O = Booking.com, CN = Booking.com Services Authority (untrusted)
depth=1: C = NL, O = Booking.com, CN = Booking.com Authority X1

Проверка ключа

openssl x509 -noout -modulus -in cert.crt | openssl md5
openssl rsa -noout -modulus -in privkey.txt | openssl md5

Должно совпадать

Удаление пароля из ключа

Для RSA

openssl rsa -in [original.key] -out [new.key]

Для другого типа - EC

openssl ec -in /root/easy-rsa/pki/private/ca.key  -out /root/easy-rsa/pki/private/ca.key.nopasswd

Ключ выглядит примерно вот так:

-----BEGIN EC PRIVATE KEY-----
Proc-Type: 4,ENCRYPTED
DEK-Info: AES-256-CBC,82C9FA9B7FB1DCBBA5B5C8CE1A41BD76

6hJIO09pwVe2JQLckx4rjtzTZwijik86c5sJamLTT1X/VptM4qclJ3JaQLyDA6Ln
yAmSVanWu9JXuO+4cmNB/Q1BIs4kWZ8Y20zzvcNEAdKR35z5Pf4qF2N/V5g/IJyl
JmLimB4lJERWsiNZ6WjVFJGQvWU0QlMDI7opypksHwB1Vid+hnnqFkOsLoiBW3mR
kQlfjcY1+mDxHC6/q9AQ8OpFiboZ/GPidrpXFn5C608=
-----END EC PRIVATE KEY-----

1

Verifying the certificate subject and issuer

This section describes how to get the subject and issuer of the certificates and verify that you have a valid certificate chain.

Run the following OpenSSL command to get the Subject and Issuer for each certificate in the chain from entity to root and verify that they form a proper certificate chain:

openssl x509 -text -in certificate | grep -E '(Subject|Issuer):'
    
Where certificate is the name of the certificate.
Verify that the certificates in the chain adhere to the following guidelines:
Subject of each certificate matches the Issuer of the preceding certificate in the chain (except for the Entity certificate).
Subject and Issuer are the same for the root certificate.
If the certificates in the chain adhere to these guidelines, then the certificate chain is considered to be complete and valid.

Sample certificate chain validation

The following example is the output of the OpenSSL commands for a sample certificate chain containing three certificates:

Entity certificate


openssl x509 -text -in entity.pem | grep -E '(Subject|Issuer):'

Issuer: C = US, O = Google Trust Services, CN = GTS CA 1O1
Subject: C = US, ST = California, L = Mountain View, O = Google LLC, CN = *.enterprise.apigee.com
        
Intermediate certificate


openssl x509 -text -in intermediate.pem  | grep -E '(Subject|Issuer):'

Issuer: OU = GlobalSign Root CA - R2, O = GlobalSign, CN = GlobalSign
Subject: C = US, O = Google Trust Services, CN = GTS CA 1O1
        
Root certificate


openssl x509 -text -in root.pem | grep -E '(Subject|Issuer):'

Issuer: OU = GlobalSign Root CA - R2, O = GlobalSign, CN = GlobalSign
Subject: OU = GlobalSign Root CA - R2, O = GlobalSign, CN = GlobalSign
        
In the example shown above, notice the following:

The Subject of the intermediate certificate matches the Issuer of the entity certificate.
The Subject of the root certificate matches the Issuer of the intermediate certificate.
The Subject and Issuer are the same in the root certificate.
From the example above, you can confirm that the sample certificate chain is valid.
Verifying the certificate subject and issuer hash

This section explains how to get the hash of the subject and issuer of the certificates and verify that you have a valid certificate chain.

It is always a good practice to verify the hash sequence of certificates as it can help in identifying issues such as the Common Name (CN) of the certificate having unwanted space or special characters.

Run the following OpenSSL command to get the hash sequence for each certificate in the chain from entity to root and verify that they form a proper certificate chain.

openssl x509 -hash -issuer_hash -noout -in certificate
    
Where certificate is the name of the certificate.

Verify that the certificates in the chain adhere to the following guidelines:
Subject of each certificate matches the Issuer of the preceding certificate in the chain (except for the Entity certificate).
Subject and Issuer are the same for the root certificate.
If the certificates in the chain adhere to these guidelines, then the certificate chain is considered to be complete and valid.

Sample certificate chain validation through hash sequence

The following example is the output of the OpenSSL commands for a sample certificate chain containing three certificates:


openssl x509 -in entity.pem -hash -issuer_hash -noout
c54c66ba #this is subject hash
99bdd351 #this is issuer hash
    

openssl x509 -in intermediate.pem -hash -issuer_hash -noout
99bdd351
4a6481c9
    

openssl x509 -in root.pem -hash -issuer_hash -noout
4a6481c9
4a6481c9
    
In the example shown above, notice the following:

The subject hash of the intermediate certificate matches the issuer hash of the entity certificate.
The subject hash of the root certificate matches the issuer hash of the issuer certificate.
The subject and issuer hash are the same in the root certificate.
From the example above, you can confirm that the sample certificate chain is valid.

Verifying the certificate expiry

This section explains how to verify whether or not all the certificates in the chain are expired using of the following methods:

Get the start and end date of the certificate.
Get the expiry status.
START AND END DATE
EXPIRY STATUS
Run the following OpenSSL command to get the start and end date for each certificate in the chain from entity to root and verify that all the certificates in the chain are in force (start date is before today) and are not expired.

Sample certificate expiry validation through start and end dates


openssl x509 -startdate -enddate -noout -in entity.pem
notBefore=Feb  6 21:57:21 2020 GMT
notAfter=Feb  4 21:57:21 2021 GMT

openssl x509 -startdate -enddate -noout -in intermediate.pem
notBefore=Jun 15 00:00:42 2017 GMT
notAfter=Dec 15 00:00:42 2021 GMT

openssl x509 -startdate -enddate -noout -in root.pem
notBefore=Apr 13 10:00:00 2011 GMT
notAfter=Apr 13 10:00:00 2022 GMT

Ссылки