Complete unfinished sentence

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Heiko Schaefer 2023-12-18 19:36:48 +01:00
parent 819d5e6868
commit 16c6d0c265
No known key found for this signature in database
GPG key ID: DAE9A9050FCCF1EB

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@ -75,7 +75,7 @@ To produce an {term}`inline signature`, the {term}`signer` processes the entiret
For efficient {term}`verification`, an application must understand how to handle the {term}`literal data<Literal Data Packet>` prior to its reading. This requirement is addressed by the {term}`one-pass signature packets<One-pass Signature Packet>` located at the beginning of {term}`inline-signed<Inline Signature>` messages. These {term}`packets<Packet>` include essential information such as the {term}`fingerprint<OpenPGP Fingerprint>` of the {term}`signing key<OpenPGP Component Key>` and the {term}`hash<Hash Digest>` algorithm used for computing the {term}`signature<OpenPGP Signature Packet>`'s {term}`hash digest`. This setup enables the verifier to process the data correctly and efficiently.
Strictly speaking, knowing just the hash algorithm would be sufficient to begin the verification process. However, having efficient access to the signer's fingerprint or key ID upfront allows OpenPGP software to fetch the signer's certificates before processing the entirety of the - potentially large - signed data, and .
Strictly speaking, knowing just the hash algorithm would be sufficient to begin the verification process. However, having efficient access to the signer's fingerprint or key ID upfront allows OpenPGP software to fetch the signer's certificate(s) before processing the entirety of the - potentially large - signed data. This may, for example, involve downloading the certificate from a keyserver. In case fetching the signer's certificate(s) fails, or requires additional input from the user, it is better to signal the user about this before processing the data.
#### Verification