prosody
a9dbf657c894
spec/util_rfc6724_spec.lua
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spec/util_rfc6724_spec.lua @ 12580:a9dbf657c894 0.12
util.datamapper: Improve handling of schemas with non-obvious "type"
The JSON Schema specification says that schemas are objects or booleans,
and that the 'type' property is optional and can be an array.
This module previously allowed bare type names as schemas and did not
really handle booleans.
It now handles missing 'type' properties and boolean 'true' as a schema.
Objects and arrays are guessed based on the presence of 'properties' or
'items' field.
| author | Kim Alvefur <zash@zash.se> |
|---|---|
| date | Fri, 08 Jul 2022 17:32:48 +0200 |
| parent | 8236:4878e4159e12 |
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local rfc6724 = require "util.rfc6724"; local new_ip = require"util.ip".new_ip; describe("util.rfc6724", function() describe("#source()", function() it("should work", function() assert.are.equal(rfc6724.source(new_ip("2001:db8:1::1", "IPv6"), {new_ip("2001:db8:3::1", "IPv6"), new_ip("fe80::1", "IPv6")}).addr, "2001:db8:3::1", "prefer appropriate scope"); assert.are.equal(rfc6724.source(new_ip("ff05::1", "IPv6"), {new_ip("2001:db8:3::1", "IPv6"), new_ip("fe80::1", "IPv6")}).addr, "2001:db8:3::1", "prefer appropriate scope"); assert.are.equal(rfc6724.source(new_ip("2001:db8:1::1", "IPv6"), {new_ip("2001:db8:1::1", "IPv6"), new_ip("2001:db8:2::1", "IPv6")}).addr, "2001:db8:1::1", "prefer same address"); -- "2001:db8:1::1" should be marked "deprecated" here, we don't handle that right now assert.are.equal(rfc6724.source(new_ip("fe80::1", "IPv6"), {new_ip("fe80::2", "IPv6"), new_ip("2001:db8:1::1", "IPv6")}).addr, "fe80::2", "prefer appropriate scope"); -- "fe80::2" should be marked "deprecated" here, we don't handle that right now assert.are.equal(rfc6724.source(new_ip("2001:db8:1::1", "IPv6"), {new_ip("2001:db8:1::2", "IPv6"), new_ip("2001:db8:3::2", "IPv6")}).addr, "2001:db8:1::2", "longest matching prefix"); --[[ "2001:db8:1::2" should be a care-of address and "2001:db8:3::2" a home address, we can't handle this and would fail assert.are.equal(rfc6724.source(new_ip("2001:db8:1::1", "IPv6"), {new_ip("2001:db8:1::2", "IPv6"), new_ip("2001:db8:3::2", "IPv6")}).addr, "2001:db8:3::2", "prefer home address"); ]] assert.are.equal(rfc6724.source(new_ip("2002:c633:6401::1", "IPv6"), {new_ip("2002:c633:6401::d5e3:7953:13eb:22e8", "IPv6"), new_ip("2001:db8:1::2", "IPv6")}).addr, "2002:c633:6401::d5e3:7953:13eb:22e8", "prefer matching label"); -- "2002:c633:6401::d5e3:7953:13eb:22e8" should be marked "temporary" here, we don't handle that right now assert.are.equal(rfc6724.source(new_ip("2001:db8:1::d5e3:0:0:1", "IPv6"), {new_ip("2001:db8:1::2", "IPv6"), new_ip("2001:db8:1::d5e3:7953:13eb:22e8", "IPv6")}).addr, "2001:db8:1::d5e3:7953:13eb:22e8", "prefer temporary address") -- "2001:db8:1::2" should be marked "public" and "2001:db8:1::d5e3:7953:13eb:22e8" should be marked "temporary" here, we don't handle that right now end); end); describe("#destination()", function() it("should work", function() local order; order = rfc6724.destination({new_ip("2001:db8:1::1", "IPv6"), new_ip("198.51.100.121", "IPv4")}, {new_ip("2001:db8:1::2", "IPv6"), new_ip("fe80::1", "IPv6"), new_ip("169.254.13.78", "IPv4")}) assert.are.equal(order[1].addr, "2001:db8:1::1", "prefer matching scope"); assert.are.equal(order[2].addr, "198.51.100.121", "prefer matching scope"); order = rfc6724.destination({new_ip("2001:db8:1::1", "IPv6"), new_ip("198.51.100.121", "IPv4")}, {new_ip("fe80::1", "IPv6"), new_ip("198.51.100.117", "IPv4")}) assert.are.equal(order[1].addr, "198.51.100.121", "prefer matching scope"); assert.are.equal(order[2].addr, "2001:db8:1::1", "prefer matching scope"); order = rfc6724.destination({new_ip("2001:db8:1::1", "IPv6"), new_ip("10.1.2.3", "IPv4")}, {new_ip("2001:db8:1::2", "IPv6"), new_ip("fe80::1", "IPv6"), new_ip("10.1.2.4", "IPv4")}) assert.are.equal(order[1].addr, "2001:db8:1::1", "prefer higher precedence"); assert.are.equal(order[2].addr, "10.1.2.3", "prefer higher precedence"); order = rfc6724.destination({new_ip("2001:db8:1::1", "IPv6"), new_ip("fe80::1", "IPv6")}, {new_ip("2001:db8:1::2", "IPv6"), new_ip("fe80::2", "IPv6")}) assert.are.equal(order[1].addr, "fe80::1", "prefer smaller scope"); assert.are.equal(order[2].addr, "2001:db8:1::1", "prefer smaller scope"); --[[ "2001:db8:1::2" and "fe80::2" should be marked "care-of address", while "2001:db8:3::1" should be marked "home address", we can't currently handle this and would fail the test order = rfc6724.destination({new_ip("2001:db8:1::1", "IPv6"), new_ip("fe80::1", "IPv6")}, {new_ip("2001:db8:1::2", "IPv6"), new_ip("2001:db8:3::1", "IPv6"), new_ip("fe80::2", "IPv6")}) assert.are.equal(order[1].addr, "2001:db8:1::1", "prefer home address"); assert.are.equal(order[2].addr, "fe80::1", "prefer home address"); ]] --[[ "fe80::2" should be marked "deprecated", we can't currently handle this and would fail the test order = rfc6724.destination({new_ip("2001:db8:1::1", "IPv6"), new_ip("fe80::1", "IPv6")}, {new_ip("2001:db8:1::2", "IPv6"), new_ip("fe80::2", "IPv6")}) assert.are.equal(order[1].addr, "2001:db8:1::1", "avoid deprecated addresses"); assert.are.equal(order[2].addr, "fe80::1", "avoid deprecated addresses"); ]] order = rfc6724.destination({new_ip("2001:db8:1::1", "IPv6"), new_ip("2001:db8:3ffe::1", "IPv6")}, {new_ip("2001:db8:1::2", "IPv6"), new_ip("2001:db8:3f44::2", "IPv6"), new_ip("fe80::2", "IPv6")}) assert.are.equal(order[1].addr, "2001:db8:1::1", "longest matching prefix"); assert.are.equal(order[2].addr, "2001:db8:3ffe::1", "longest matching prefix"); order = rfc6724.destination({new_ip("2002:c633:6401::1", "IPv6"), new_ip("2001:db8:1::1", "IPv6")}, {new_ip("2002:c633:6401::2", "IPv6"), new_ip("fe80::2", "IPv6")}) assert.are.equal(order[1].addr, "2002:c633:6401::1", "prefer matching label"); assert.are.equal(order[2].addr, "2001:db8:1::1", "prefer matching label"); order = rfc6724.destination({new_ip("2002:c633:6401::1", "IPv6"), new_ip("2001:db8:1::1", "IPv6")}, {new_ip("2002:c633:6401::2", "IPv6"), new_ip("2001:db8:1::2", "IPv6"), new_ip("fe80::2", "IPv6")}) assert.are.equal(order[1].addr, "2001:db8:1::1", "prefer higher precedence"); assert.are.equal(order[2].addr, "2002:c633:6401::1", "prefer higher precedence"); end); end); end);
