The recommended way to handle your scenario in Amazon Glacier (and Amazon S3 as well btw.) is to Upload archives in parts via Multipart Upload, see Uploading an Archive in Amazon Glacier:
Depending on the size of the data you are uploading, Amazon Glacier
offers the following options:
Uploading Large Archives in Parts (Multipart Upload) — In a single operation, you can upload archives from 1 byte to up to 4 GB in size. However, we
encourage Amazon Glacier customers to use Multipart Upload to upload
archives greater than 100 MB. [...] [emphasis mine]
Upload archives in parts — Using the Multipart upload API you can upload large archives, up to about 40,000 GB (10,000 * 4 GB).
Uploading Large Archives in Parts (Multipart Upload) provides the details on the latter, specifically regarding Complete (or Abort) Multipart Upload:
After uploading all the archive parts, you use the complete operation.
If you abort a multipart upload, you cannot upload any more parts
using that multipart upload ID. All storage consumed by any parts
associated with the aborted multipart upload is freed. If any part
uploads were in-progress, they can still succeed or fail even after
you abort. [emphasis mine]
So you still can't abort the uploads of parts that are in progress as such, thus the key for the desired user experience and/or network bandwidth reduction is choosing a small enough part size.
Depending on your use case you might also want to check into List Multipart Uploads (GET multipart-uploads):
This multipart upload operation lists in-progress multipart uploads
for the specified vault. An in-progress multipart upload is a
multipart upload that has been initiated by an Initiate Multipart
Upload (POST multipart-uploads) request, but has not yet been
completed or aborted. [...]