Uses your private certificate authority (CA), or one that has been shared with you, to issue a client certificate. This action returns the Amazon Resource Name (ARN) of the certificate. You can retrieve the certificate by calling the GetCertificate action and specifying the ARN.
Note
You cannot use the ACM ListCertificateAuthorities action to retrieve the ARNs of the certificates that you issue by using ACM Private CA.
See also: AWS API Documentation
See ‘aws help’ for descriptions of global parameters.
issue-certificate
[--api-passthrough <value>]
--certificate-authority-arn <value>
--csr <value>
--signing-algorithm <value>
[--template-arn <value>]
--validity <value>
[--validity-not-before <value>]
[--idempotency-token <value>]
[--cli-input-json | --cli-input-yaml]
[--generate-cli-skeleton <value>]
--api-passthrough
(structure)
Specifies X.509 certificate information to be included in the issued certificate. An
APIPassthrough
orAPICSRPassthrough
template variant must be selected, or else this parameter is ignored. For more information about using these templates, see Understanding Certificate Templates .If conflicting or duplicate certificate information is supplied during certificate issuance, ACM Private CA applies order of operation rules to determine what information is used.
Extensions -> (structure)
Specifies X.509 extension information for a certificate.
CertificatePolicies -> (list)
Contains a sequence of one or more policy information terms, each of which consists of an object identifier (OID) and optional qualifiers. For more information, see NIST’s definition of Object Identifier (OID) .
In an end-entity certificate, these terms indicate the policy under which the certificate was issued and the purposes for which it may be used. In a CA certificate, these terms limit the set of policies for certification paths that include this certificate.
(structure)
Defines the X.509
CertificatePolicies
extension.CertPolicyId -> (string)
Specifies the object identifier (OID) of the certificate policy under which the certificate was issued. For more information, see NIST’s definition of Object Identifier (OID) .
PolicyQualifiers -> (list)
Modifies the given
CertPolicyId
with a qualifier. ACM Private CA supports the certification practice statement (CPS) qualifier.(structure)
Modifies the
CertPolicyId
of aPolicyInformation
object with a qualifier. ACM Private CA supports the certification practice statement (CPS) qualifier.PolicyQualifierId -> (string)
Identifies the qualifier modifying a
CertPolicyId
.Qualifier -> (structure)
Defines the qualifier type. ACM Private CA supports the use of a URI for a CPS qualifier in this field.
CpsUri -> (string)
Contains a pointer to a certification practice statement (CPS) published by the CA.
ExtendedKeyUsage -> (list)
Specifies additional purposes for which the certified public key may be used other than basic purposes indicated in the
KeyUsage
extension.(structure)
Specifies additional purposes for which the certified public key may be used other than basic purposes indicated in the
KeyUsage
extension.ExtendedKeyUsageType -> (string)
Specifies a standard
ExtendedKeyUsage
as defined as in RFC 5280 .ExtendedKeyUsageObjectIdentifier -> (string)
Specifies a custom
ExtendedKeyUsage
with an object identifier (OID).KeyUsage -> (structure)
Defines one or more purposes for which the key contained in the certificate can be used. Default value for each option is false.
DigitalSignature -> (boolean)
Key can be used for digital signing.
NonRepudiation -> (boolean)
Key can be used for non-repudiation.
KeyEncipherment -> (boolean)
Key can be used to encipher data.
DataEncipherment -> (boolean)
Key can be used to decipher data.
KeyAgreement -> (boolean)
Key can be used in a key-agreement protocol.
KeyCertSign -> (boolean)
Key can be used to sign certificates.
CRLSign -> (boolean)
Key can be used to sign CRLs.
EncipherOnly -> (boolean)
Key can be used only to encipher data.
DecipherOnly -> (boolean)
Key can be used only to decipher data.
SubjectAlternativeNames -> (list)
The subject alternative name extension allows identities to be bound to the subject of the certificate. These identities may be included in addition to or in place of the identity in the subject field of the certificate.
(structure)
Describes an ASN.1 X.400
GeneralName
as defined in RFC 5280 . Only one of the following naming options should be provided. Providing more than one option results in anInvalidArgsException
error.OtherName -> (structure)
Represents
GeneralName
using anOtherName
object.TypeId -> (string)
Specifies an OID.
Value -> (string)
Specifies an OID value.
Rfc822Name -> (string)
Represents
GeneralName
as an RFC 822 email address.DnsName -> (string)
Represents
GeneralName
as a DNS name.DirectoryName -> (structure)
Contains information about the certificate subject. The
Subject
field in the certificate identifies the entity that owns or controls the public key in the certificate. The entity can be a user, computer, device, or service. TheSubject
must contain an X.500 distinguished name (DN). A DN is a sequence of relative distinguished names (RDNs). The RDNs are separated by commas in the certificate.Country -> (string)
Two-digit code that specifies the country in which the certificate subject located.
Organization -> (string)
Legal name of the organization with which the certificate subject is affiliated.
OrganizationalUnit -> (string)
A subdivision or unit of the organization (such as sales or finance) with which the certificate subject is affiliated.
DistinguishedNameQualifier -> (string)
Disambiguating information for the certificate subject.
State -> (string)
State in which the subject of the certificate is located.
CommonName -> (string)
For CA and end-entity certificates in a private PKI, the common name (CN) can be any string within the length limit.
Note: In publicly trusted certificates, the common name must be a fully qualified domain name (FQDN) associated with the certificate subject.
SerialNumber -> (string)
The certificate serial number.
Locality -> (string)
The locality (such as a city or town) in which the certificate subject is located.
Title -> (string)
A title such as Mr. or Ms., which is pre-pended to the name to refer formally to the certificate subject.
Surname -> (string)
Family name. In the US and the UK, for example, the surname of an individual is ordered last. In Asian cultures the surname is typically ordered first.
GivenName -> (string)
First name.
Initials -> (string)
Concatenation that typically contains the first letter of the GivenName , the first letter of the middle name if one exists, and the first letter of the Surname .
Pseudonym -> (string)
Typically a shortened version of a longer GivenName . For example, Jonathan is often shortened to John. Elizabeth is often shortened to Beth, Liz, or Eliza.
GenerationQualifier -> (string)
Typically a qualifier appended to the name of an individual. Examples include Jr. for junior, Sr. for senior, and III for third.
EdiPartyName -> (structure)
Represents
GeneralName
as anEdiPartyName
object.PartyName -> (string)
Specifies the party name.
NameAssigner -> (string)
Specifies the name assigner.
UniformResourceIdentifier -> (string)
Represents
GeneralName
as a URI.IpAddress -> (string)
Represents
GeneralName
as an IPv4 or IPv6 address.RegisteredId -> (string)
Represents
GeneralName
as an object identifier (OID).Subject -> (structure)
Contains information about the certificate subject. The
Subject
field in the certificate identifies the entity that owns or controls the public key in the certificate. The entity can be a user, computer, device, or service. TheSubject
must contain an X.500 distinguished name (DN). A DN is a sequence of relative distinguished names (RDNs). The RDNs are separated by commas in the certificate.Country -> (string)
Two-digit code that specifies the country in which the certificate subject located.
Organization -> (string)
Legal name of the organization with which the certificate subject is affiliated.
OrganizationalUnit -> (string)
A subdivision or unit of the organization (such as sales or finance) with which the certificate subject is affiliated.
DistinguishedNameQualifier -> (string)
Disambiguating information for the certificate subject.
State -> (string)
State in which the subject of the certificate is located.
CommonName -> (string)
For CA and end-entity certificates in a private PKI, the common name (CN) can be any string within the length limit.
Note: In publicly trusted certificates, the common name must be a fully qualified domain name (FQDN) associated with the certificate subject.
SerialNumber -> (string)
The certificate serial number.
Locality -> (string)
The locality (such as a city or town) in which the certificate subject is located.
Title -> (string)
A title such as Mr. or Ms., which is pre-pended to the name to refer formally to the certificate subject.
Surname -> (string)
Family name. In the US and the UK, for example, the surname of an individual is ordered last. In Asian cultures the surname is typically ordered first.
GivenName -> (string)
First name.
Initials -> (string)
Concatenation that typically contains the first letter of the GivenName , the first letter of the middle name if one exists, and the first letter of the Surname .
Pseudonym -> (string)
Typically a shortened version of a longer GivenName . For example, Jonathan is often shortened to John. Elizabeth is often shortened to Beth, Liz, or Eliza.
GenerationQualifier -> (string)
Typically a qualifier appended to the name of an individual. Examples include Jr. for junior, Sr. for senior, and III for third.
JSON Syntax:
{
"Extensions": {
"CertificatePolicies": [
{
"CertPolicyId": "string",
"PolicyQualifiers": [
{
"PolicyQualifierId": "CPS",
"Qualifier": {
"CpsUri": "string"
}
}
...
]
}
...
],
"ExtendedKeyUsage": [
{
"ExtendedKeyUsageType": "SERVER_AUTH"|"CLIENT_AUTH"|"CODE_SIGNING"|"EMAIL_PROTECTION"|"TIME_STAMPING"|"OCSP_SIGNING"|"SMART_CARD_LOGIN"|"DOCUMENT_SIGNING"|"CERTIFICATE_TRANSPARENCY",
"ExtendedKeyUsageObjectIdentifier": "string"
}
...
],
"KeyUsage": {
"DigitalSignature": true|false,
"NonRepudiation": true|false,
"KeyEncipherment": true|false,
"DataEncipherment": true|false,
"KeyAgreement": true|false,
"KeyCertSign": true|false,
"CRLSign": true|false,
"EncipherOnly": true|false,
"DecipherOnly": true|false
},
"SubjectAlternativeNames": [
{
"OtherName": {
"TypeId": "string",
"Value": "string"
},
"Rfc822Name": "string",
"DnsName": "string",
"DirectoryName": {
"Country": "string",
"Organization": "string",
"OrganizationalUnit": "string",
"DistinguishedNameQualifier": "string",
"State": "string",
"CommonName": "string",
"SerialNumber": "string",
"Locality": "string",
"Title": "string",
"Surname": "string",
"GivenName": "string",
"Initials": "string",
"Pseudonym": "string",
"GenerationQualifier": "string"
},
"EdiPartyName": {
"PartyName": "string",
"NameAssigner": "string"
},
"UniformResourceIdentifier": "string",
"IpAddress": "string",
"RegisteredId": "string"
}
...
]
},
"Subject": {
"Country": "string",
"Organization": "string",
"OrganizationalUnit": "string",
"DistinguishedNameQualifier": "string",
"State": "string",
"CommonName": "string",
"SerialNumber": "string",
"Locality": "string",
"Title": "string",
"Surname": "string",
"GivenName": "string",
"Initials": "string",
"Pseudonym": "string",
"GenerationQualifier": "string"
}
}
--certificate-authority-arn
(string)
The Amazon Resource Name (ARN) that was returned when you called CreateCertificateAuthority . This must be of the form:
``arn:aws:acm-pca:region :account :certificate-authority/12345678-1234-1234-1234-123456789012 ``
--csr
(blob)
The certificate signing request (CSR) for the certificate you want to issue. As an example, you can use the following OpenSSL command to create the CSR and a 2048 bit RSA private key.
openssl req -new -newkey rsa:2048 -days 365 -keyout private/test_cert_priv_key.pem -out csr/test_cert_.csr
If you have a configuration file, you can then use the following OpenSSL command. The
usr_cert
block in the configuration file contains your X509 version 3 extensions.
openssl req -new -config openssl_rsa.cnf -extensions usr_cert -newkey rsa:2048 -days -365 -keyout private/test_cert_priv_key.pem -out csr/test_cert_.csr
Note: A CSR must provide either a subject name or a subject alternative name or the request will be rejected.
--signing-algorithm
(string)
The name of the algorithm that will be used to sign the certificate to be issued.
This parameter should not be confused with the
SigningAlgorithm
parameter used to sign a CSR in theCreateCertificateAuthority
action.Possible values:
SHA256WITHECDSA
SHA384WITHECDSA
SHA512WITHECDSA
SHA256WITHRSA
SHA384WITHRSA
SHA512WITHRSA
--template-arn
(string)
Specifies a custom configuration template to use when issuing a certificate. If this parameter is not provided, ACM Private CA defaults to the
EndEntityCertificate/V1
template. For CA certificates, you should choose the shortest path length that meets your needs. The path length is indicated by the PathLen*N* portion of the ARN, where N is the CA depth .Note: The CA depth configured on a subordinate CA certificate must not exceed the limit set by its parents in the CA hierarchy.
For a list of
TemplateArn
values supported by ACM Private CA, see Understanding Certificate Templates .
--validity
(structure)
Information describing the end of the validity period of the certificate. This parameter sets the “Not After” date for the certificate.
Certificate validity is the period of time during which a certificate is valid. Validity can be expressed as an explicit date and time when the certificate expires, or as a span of time after issuance, stated in days, months, or years. For more information, see Validity in RFC 5280.
This value is unaffected when
ValidityNotBefore
is also specified. For example, ifValidity
is set to 20 days in the future, the certificate will expire 20 days from issuance time regardless of theValidityNotBefore
value.The end of the validity period configured on a certificate must not exceed the limit set on its parents in the CA hierarchy.
Value -> (long)
A long integer interpreted according to the value of
Type
, below.Type -> (string)
Determines how ACM Private CA interprets the
Value
parameter, an integer. Supported validity types include those listed below. Type definitions with values include a sample input value and the resulting output.
END_DATE
: The specific date and time when the certificate will expire, expressed using UTCTime (YYMMDDHHMMSS) or GeneralizedTime (YYYYMMDDHHMMSS) format. When UTCTime is used, if the year field (YY) is greater than or equal to 50, the year is interpreted as 19YY. If the year field is less than 50, the year is interpreted as 20YY.
Sample input value: 491231235959 (UTCTime format)
Output expiration date/time: 12/31/2049 23:59:59
ABSOLUTE
: The specific date and time when the validity of a certificate will start or expire, expressed in seconds since the Unix Epoch.
Sample input value: 2524608000
Output expiration date/time: 01/01/2050 00:00:00
DAYS
,MONTHS
,YEARS
: The relative time from the moment of issuance until the certificate will expire, expressed in days, months, or years.Example if
DAYS
, issued on 10/12/2020 at 12:34:54 UTC:
Sample input value: 90
Output expiration date: 01/10/2020 12:34:54 UTC
The minimum validity duration for a certificate using relative time (
DAYS
) is one day. The minimum validity for a certificate using absolute time (ABSOLUTE
orEND_DATE
) is one second.
Shorthand Syntax:
Value=long,Type=string
JSON Syntax:
{
"Value": long,
"Type": "END_DATE"|"ABSOLUTE"|"DAYS"|"MONTHS"|"YEARS"
}
--validity-not-before
(structure)
Information describing the start of the validity period of the certificate. This parameter sets the “Not Before” date for the certificate.
By default, when issuing a certificate, ACM Private CA sets the “Not Before” date to the issuance time minus 60 minutes. This compensates for clock inconsistencies across computer systems. The
ValidityNotBefore
parameter can be used to customize the “Not Before” value.Unlike the
Validity
parameter, theValidityNotBefore
parameter is optional.The
ValidityNotBefore
value is expressed as an explicit date and time, using theValidity
type valueABSOLUTE
. For more information, see Validity in this API reference and Validity in RFC 5280.Value -> (long)
A long integer interpreted according to the value of
Type
, below.Type -> (string)
Determines how ACM Private CA interprets the
Value
parameter, an integer. Supported validity types include those listed below. Type definitions with values include a sample input value and the resulting output.
END_DATE
: The specific date and time when the certificate will expire, expressed using UTCTime (YYMMDDHHMMSS) or GeneralizedTime (YYYYMMDDHHMMSS) format. When UTCTime is used, if the year field (YY) is greater than or equal to 50, the year is interpreted as 19YY. If the year field is less than 50, the year is interpreted as 20YY.
Sample input value: 491231235959 (UTCTime format)
Output expiration date/time: 12/31/2049 23:59:59
ABSOLUTE
: The specific date and time when the validity of a certificate will start or expire, expressed in seconds since the Unix Epoch.
Sample input value: 2524608000
Output expiration date/time: 01/01/2050 00:00:00
DAYS
,MONTHS
,YEARS
: The relative time from the moment of issuance until the certificate will expire, expressed in days, months, or years.Example if
DAYS
, issued on 10/12/2020 at 12:34:54 UTC:
Sample input value: 90
Output expiration date: 01/10/2020 12:34:54 UTC
The minimum validity duration for a certificate using relative time (
DAYS
) is one day. The minimum validity for a certificate using absolute time (ABSOLUTE
orEND_DATE
) is one second.
Shorthand Syntax:
Value=long,Type=string
JSON Syntax:
{
"Value": long,
"Type": "END_DATE"|"ABSOLUTE"|"DAYS"|"MONTHS"|"YEARS"
}
--idempotency-token
(string)
Alphanumeric string that can be used to distinguish between calls to the IssueCertificate action. Idempotency tokens for IssueCertificate time out after one minute. Therefore, if you call IssueCertificate multiple times with the same idempotency token within one minute, ACM Private CA recognizes that you are requesting only one certificate and will issue only one. If you change the idempotency token for each call, PCA recognizes that you are requesting multiple certificates.
--cli-input-json
| --cli-input-yaml
(string)
Reads arguments from the JSON string provided. The JSON string follows the format provided by --generate-cli-skeleton
. If other arguments are provided on the command line, those values will override the JSON-provided values. It is not possible to pass arbitrary binary values using a JSON-provided value as the string will be taken literally. This may not be specified along with --cli-input-yaml
.
--generate-cli-skeleton
(string)
Prints a JSON skeleton to standard output without sending an API request. If provided with no value or the value input
, prints a sample input JSON that can be used as an argument for --cli-input-json
. Similarly, if provided yaml-input
it will print a sample input YAML that can be used with --cli-input-yaml
. If provided with the value output
, it validates the command inputs and returns a sample output JSON for that command.
See ‘aws help’ for descriptions of global parameters.
To issue a private certificate
The following issue-certificate
command uses the private CA specified by the ARN to issue a private certificate.
aws acm-pca issue-certificate --certificate-authority-arn arn:aws:acm-pca:us-west-2:123456789012:certificate-authority/12345678-1234-1234-1234-123456789012 --csr fileb://C:\cert_1.csr --signing-algorithm "SHA256WITHRSA" --validity Value=365,Type="DAYS" --idempotency-token 1234