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58 lines
3.8 KiB
ReStructuredText
58 lines
3.8 KiB
ReStructuredText
Identity
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========
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.. topic:: Summary
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* *Identities in Corda can represent legal identities or service identities*
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* *Identities are attested to by X.509 certificate signed by the Doorman or a well known identity*
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* *Well known identities are published in the network map*
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* *Confidential identities are only shared on a need to know basis*
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Identities in Corda can represent:
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* Legal identity of an organisation
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* Service identity of a network service
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Legal identities are used for parties in a transaction, such as the owner of a cash state. Service identities are used
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for those providing transaction-related services, such as notary, or oracle. Service identities are distinct to legal
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identities so that distributed services can exist on nodes owned by different organisations. Such distributed service
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identities are based on ``CompositeKeys``, which describe the valid sets of signers for a signature from the service.
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See :doc:`api-core-types` for more technical detail on composite keys.
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Identities are either well known or confidential, depending on whether their X.509 certificate (and corresponding
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certificate path to a trusted root certificate) is published:
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* Well known identities are the generally identifiable public key of a legal entity or service, which makes them
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ill-suited to transactions where confidentiality of participants is required. This certificate is published in the
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network map service for anyone to access.
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* Confidential identities are only published to those who are involved in transactions with the identity. The public
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key may be exposed to third parties (for example to the notary service), but distribution of the name and X.509
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certificate is limited.
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Although there are several elements to the Corda transaction privacy model, including ensuring that transactions are
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only shared with those who need to see them, and planned use of Intel SGX, it is important to provide defense in depth against
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privacy breaches. Confidential identities are used to ensure that even if a third party gets access to an unencrypted
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transaction, they cannot identify the participants without additional information.
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Certificates
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------------
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Nodes must be able to verify the identity of the owner of a public key, which is achieved using X.509 certificates.
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When first run a node generates a key pair and submits a certificate signing request to the network Doorman service
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(see :doc:`permissioning`).
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The Doorman service applies appropriate identity checks then issues a certificate to the node, which is used as the
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node certificate authority (CA). From this initial CA certificate the node automatically creates and signs two further
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certificates, a TLS certificate and a signing certificate for the node's well known identity. Finally the node
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builds a node info record containing its address and well known identity, and registers it with the network map service.
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From the signing certificate the organisation can create both well known and confidential identities. Use-cases for
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well known identities include clusters of nodes representing a single identity for redundancy purposes, or creating
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identities for organisational units.
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It is up to organisations to decide which identities they wish to publish in the network map service, making them
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well known, and which they wish to keep as confidential identities for privacy reasons (typically to avoid exposing
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business sensitive details of transactions). In some cases nodes may also use private network map services in addition
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to the main network map service, for operational reasons. Identities registered with such network maps must be
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considered well known, and it is never appropriate to store confidential identities in a central directory without
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controls applied at the record level to ensure only those who require access to an identity can retrieve its
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certificate. |