Creates a root or subordinate private certificate authority (CA). You must specify the CA configuration, the certificate revocation list (CRL) configuration, the CA type, and an optional idempotency token to avoid accidental creation of multiple CAs. The CA configuration specifies the name of the algorithm and key size to be used to create the CA private key, the type of signing algorithm that the CA uses, and X.500 subject information. The CRL configuration specifies the CRL expiration period in days (the validity period of the CRL), the Amazon S3 bucket that will contain the CRL, and a CNAME alias for the S3 bucket that is included in certificates issued by the CA. If successful, this action returns the Amazon Resource Name (ARN) of the CA.
ACM Private CAA assets that are stored in Amazon S3 can be protected with encryption. For more information, see Encrypting Your CRLs .
Note
Both PCA and the IAM principal must have permission to write to the S3 bucket that you specify. If the IAM principal making the call does not have permission to write to the bucket, then an exception is thrown. For more information, see Configure Access to ACM Private CA .
See also: AWS API Documentation
See ‘aws help’ for descriptions of global parameters.
create-certificate-authority
--certificate-authority-configuration <value>
[--revocation-configuration <value>]
--certificate-authority-type <value>
[--idempotency-token <value>]
[--tags <value>]
[--cli-input-json | --cli-input-yaml]
[--generate-cli-skeleton <value>]
--certificate-authority-configuration
(structure)
Name and bit size of the private key algorithm, the name of the signing algorithm, and X.500 certificate subject information.
KeyAlgorithm -> (string)
Type of the public key algorithm and size, in bits, of the key pair that your CA creates when it issues a certificate. When you create a subordinate CA, you must use a key algorithm supported by the parent CA.
SigningAlgorithm -> (string)
Name of the algorithm your private CA uses to sign certificate requests.
This parameter should not be confused with the
SigningAlgorithm
parameter used to sign certificates when they are issued.Subject -> (structure)
Structure that contains X.500 distinguished name information for your private CA.
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.
CsrExtensions -> (structure)
Specifies information to be added to the extension section of the certificate signing request (CSR).
KeyUsage -> (structure)
Indicates the purpose of the certificate and of the key contained in the certificate.
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.
SubjectInformationAccess -> (list)
For CA certificates, provides a path to additional information pertaining to the CA, such as revocation and policy. For more information, see Subject Information Access in RFC 5280.
(structure)
Provides access information used by the
authorityInfoAccess
andsubjectInfoAccess
extensions described in RFC 5280 .AccessMethod -> (structure)
The type and format of
AccessDescription
information.CustomObjectIdentifier -> (string)
An object identifier (OID) specifying the
AccessMethod
. The OID must satisfy the regular expression shown below. For more information, see NIST’s definition of Object Identifier (OID) .AccessMethodType -> (string)
Specifies the
AccessMethod
.AccessLocation -> (structure)
The location of
AccessDescription
information.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).
JSON Syntax:
{
"KeyAlgorithm": "RSA_2048"|"RSA_4096"|"EC_prime256v1"|"EC_secp384r1",
"SigningAlgorithm": "SHA256WITHECDSA"|"SHA384WITHECDSA"|"SHA512WITHECDSA"|"SHA256WITHRSA"|"SHA384WITHRSA"|"SHA512WITHRSA",
"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"
},
"CsrExtensions": {
"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
},
"SubjectInformationAccess": [
{
"AccessMethod": {
"CustomObjectIdentifier": "string",
"AccessMethodType": "CA_REPOSITORY"|"RESOURCE_PKI_MANIFEST"|"RESOURCE_PKI_NOTIFY"
},
"AccessLocation": {
"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"
}
}
...
]
}
}
--revocation-configuration
(structure)
Contains a Boolean value that you can use to enable a certification revocation list (CRL) for the CA, the name of the S3 bucket to which ACM Private CA will write the CRL, and an optional CNAME alias that you can use to hide the name of your bucket in the CRL Distribution Points extension of your CA certificate. For more information, see the CrlConfiguration structure.
CrlConfiguration -> (structure)
Configuration of the certificate revocation list (CRL), if any, maintained by your private CA.
Enabled -> (boolean)
Boolean value that specifies whether certificate revocation lists (CRLs) are enabled. You can use this value to enable certificate revocation for a new CA when you call the CreateCertificateAuthority action or for an existing CA when you call the UpdateCertificateAuthority action.
ExpirationInDays -> (integer)
Validity period of the CRL in days.
CustomCname -> (string)
Name inserted into the certificate CRL Distribution Points extension that enables the use of an alias for the CRL distribution point. Use this value if you don’t want the name of your S3 bucket to be public.
S3BucketName -> (string)
Name of the S3 bucket that contains the CRL. If you do not provide a value for the CustomCname argument, the name of your S3 bucket is placed into the CRL Distribution Points extension of the issued certificate. You can change the name of your bucket by calling the UpdateCertificateAuthority action. You must specify a bucket policy that allows ACM Private CA to write the CRL to your bucket.
Shorthand Syntax:
CrlConfiguration={Enabled=boolean,ExpirationInDays=integer,CustomCname=string,S3BucketName=string}
JSON Syntax:
{
"CrlConfiguration": {
"Enabled": true|false,
"ExpirationInDays": integer,
"CustomCname": "string",
"S3BucketName": "string"
}
}
--certificate-authority-type
(string)
The type of the certificate authority.
Possible values:
ROOT
SUBORDINATE
--idempotency-token
(string)
Custom string that can be used to distinguish between calls to the CreateCertificateAuthority action. Idempotency tokens for CreateCertificateAuthority time out after five minutes. Therefore, if you call CreateCertificateAuthority multiple times with the same idempotency token within five minutes, ACM Private CA recognizes that you are requesting only certificate authority and will issue only one. If you change the idempotency token for each call, PCA recognizes that you are requesting multiple certificate authorities.
--tags
(list)
Key-value pairs that will be attached to the new private CA. You can associate up to 50 tags with a private CA. For information using tags with IAM to manage permissions, see Controlling Access Using IAM Tags .
(structure)
Tags are labels that you can use to identify and organize your private CAs. Each tag consists of a key and an optional value. You can associate up to 50 tags with a private CA. To add one or more tags to a private CA, call the TagCertificateAuthority action. To remove a tag, call the UntagCertificateAuthority action.
Key -> (string)
Key (name) of the tag.
Value -> (string)
Value of the tag.
Shorthand Syntax:
Key=string,Value=string ...
JSON Syntax:
[
{
"Key": "string",
"Value": "string"
}
...
]
--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 create a private certificate authority
The following create-certificate-authority
command creates a private certificate authority in your AWS account.
aws acm-pca create-certificate-authority --certificate-authority-configuration file://C:\ca_config.txt --revocation-configuration file://C:\revoke_config.txt --certificate-authority-type "SUBORDINATE" --idempotency-token 98256344