Each Firestore document can contain
1,048,576 bytes of data, a limit which includes not only the number of characters in each field name but in the name of the document itself. Therefore, it's impossible for a single document to contain an array with millions of items because there are barely a million available bytes in the document. An array named
"array" with two items (
18 bytes and if each item in that array was a string about that long, the array would max out at about a quarter-million items.
At this point, you could distribute the array, which would simply be other arrays in other documents that spread the load (like a distributed counter described in Firestore documentation). You could randomly choose an array/document before writing to it or keep a counter that determines which array/document you write to next.
But at this point, you may be better off rethinking your data architecture because Firestore is purpose built for large collections with small documents. And—as far as the writing of this answer—there is no known limit to the size of a collection.
Whatever you choose, just be aware that Firestore charges ($) per document read and write, so fetching an array with 1,000 items will cost you 1 read, whereas fetching 1,000 documents will cost you 1,000 reads.