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@deno/kv-utils

Utilities for working with Deno KV.

Working with JSON

Deno.Kv stores are able to store values that are serializable using the structured clone algorithm. The challenge is that supports a lot of types that are not serializable using JSON. To work around this, you can use the the utilities to convert values which can be safely serialized to JSON as well as deserialize them back. This makes it possible to fully represent entries and values in a browser, or communicate them between Deno processes.

The JSON utilities are:

  • entryMaybeToJSON - Convert a Deno.KvEntryMaybe to JSON.
  • entryToJSON - Convert a Deno.KvEntry to JSON.
  • keyToJSON - Convert a Deno.KvKey to JSON.
  • keyPartToJSON - Convert a Deno.KvKeyPart to JSON.
  • valueToJSON - Convert a value which can be stored in Deno KV to JSON.
  • toEntry - Convert a JSON object to a Deno.KvEntry.
  • toEntryMaybe - Convert a JSON object to a Deno.KvEntryMaybe.
  • toKey - Convert a JSON object to a Deno.KvKey.
  • toKeyPart - Convert a JSON object to a Deno.KvKeyPart.
  • toValue - Convert a JSON object to a value which can be stored in Deno KV.

Examples

Taking a maybe entry from Deno.Kv and converting it to JSON and sending it as a response:

import { entryMaybeToJSON } from "@deno/kv-utils";

const db = await Deno.openKv();

Deno.serve(async (_req) => {
  const maybeEntry = await db.get(["a"]);
  const json = entryMaybeToJSON(maybeEntry);
  return Response.json(json);
});

Taking a value that was serialized to JSON in a browser and storing it in Deno KV:

import { toValue } from "@deno/kv-utils";

const db = await Deno.openKv();

Deno.serve(async (req) => {
  const json = await req.json();
  const value = toValue(json);
  await db.set(["a"], value);
  return new Response(null, { status: 204 });
});

Estimating the size of a value

When working with Deno KV and there is a need to have transactions be infallible, it is helpful to be able to estimate the size of a value before storing it. This is because there are limits on the size of values that can be stored in Deno KV, as well as the size of atomic operations.

Deno KV stores values by using the V8 serialization format, which converts objects to a binary format and then that value is stored in the KV store.

The `estimateSize} function can be used to estimate the size of a value in bytes. While it is not 100% accurate, it is 10x faster than using the V8 serialize function, which is not available in some environments.

Example

import { estimateSize } from "@deno/kv-utils";
import { assertEquals } from "@std/assert";

const value = { a: new Map([[{ a: 1 }, { b: /234/ }]]), b: false };
assertEquals(estimateSize(value), 36);

License

MIT