prosody
27a72982e331
spec/util_queue_spec.lua
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spec/util_queue_spec.lua @ 12696:27a72982e331
util.jwt: Add support/tests for ES256 via improved API and using util.crypto
In many cases code will be either signing or verifying. With asymmetric
algorithms it's clearer and more efficient to just state that once, instead of
passing keys (and possibly other parameters) with every sign/verify call.
This also allows earlier validation of the key used.
The previous (HS256-only) sign/verify methods continue to be exposed for
backwards-compatibility.
| author | Matthew Wild <mwild1@gmail.com> |
|---|---|
| date | Fri, 01 Jul 2022 18:51:15 +0100 |
| parent | 9901:c8b75239846c |
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local queue = require "util.queue"; describe("util.queue", function() describe("#new()", function() it("should work", function() do local q = queue.new(10); assert.are.equal(q.size, 10); assert.are.equal(q:count(), 0); assert.is_true(q:push("one")); assert.is_true(q:push("two")); assert.is_true(q:push("three")); for i = 4, 10 do assert.is_true(q:push("hello")); assert.are.equal(q:count(), i, "count is not "..i.."("..q:count()..")"); end assert.are.equal(q:push("hello"), nil, "queue overfull!"); assert.are.equal(q:push("hello"), nil, "queue overfull!"); assert.are.equal(q:pop(), "one", "queue item incorrect"); assert.are.equal(q:pop(), "two", "queue item incorrect"); assert.is_true(q:push("hello")); assert.is_true(q:push("hello")); assert.are.equal(q:pop(), "three", "queue item incorrect"); assert.is_true(q:push("hello")); assert.are.equal(q:push("hello"), nil, "queue overfull!"); assert.are.equal(q:push("hello"), nil, "queue overfull!"); assert.are.equal(q:count(), 10, "queue count incorrect"); for _ = 1, 10 do assert.are.equal(q:pop(), "hello", "queue item incorrect"); end assert.are.equal(q:count(), 0, "queue count incorrect"); assert.are.equal(q:pop(), nil, "empty queue pops non-nil result"); assert.are.equal(q:count(), 0, "popping empty queue affects count"); assert.are.equal(q:peek(), nil, "empty queue peeks non-nil result"); assert.are.equal(q:count(), 0, "peeking empty queue affects count"); assert.is_true(q:push(1)); for i = 1, 1001 do assert.are.equal(q:pop(), i); assert.are.equal(q:count(), 0); assert.is_true(q:push(i+1)); assert.are.equal(q:count(), 1); end assert.are.equal(q:pop(), 1002); assert.is_true(q:push(1)); for i = 1, 1000 do assert.are.equal(q:pop(), i); assert.is_true(q:push(i+1)); end assert.are.equal(q:pop(), 1001); assert.are.equal(q:count(), 0); end do -- Test queues that purge old items when pushing to a full queue local q = queue.new(10, true); for i = 1, 10 do q:push(i); end assert.are.equal(q:count(), 10); assert.is_true(q:push(11)); assert.are.equal(q:count(), 10); assert.are.equal(q:pop(), 2); -- First item should have been purged assert.are.equal(q:peek(), 3); for i = 12, 32 do assert.is_true(q:push(i)); end assert.are.equal(q:count(), 10); assert.are.equal(q:pop(), 23); end do -- Test iterator local q = queue.new(10, true); for i = 1, 10 do q:push(i); end local i = 0; for item in q:items() do i = i + 1; assert.are.equal(item, i, "unexpected item returned by iterator") end end end); end); describe("consume()", function () it("should work", function () local q = queue.new(10); for i = 1, 5 do q:push(i); end local c = 0; for i in q:consume() do assert(i == c + 1); assert(q:count() == (5-i)); c = i; end end); it("should work even if items are pushed in the loop", function () local q = queue.new(10); for i = 1, 5 do q:push(i); end local c = 0; for i in q:consume() do assert(i == c + 1); if c < 3 then assert(q:count() == (5-i)); else assert(q:count() == (6-i)); end c = i; if c == 3 then q:push(6); end end assert.equal(c, 6); end); end); end);
