diff options
Diffstat (limited to 'testing/web-platform/tests/html/webappapis/dynamic-markup-insertion/opening-the-input-stream/abort-refresh-multisecond-meta.window.js')
-rw-r--r-- | testing/web-platform/tests/html/webappapis/dynamic-markup-insertion/opening-the-input-stream/abort-refresh-multisecond-meta.window.js | 69 |
1 files changed, 69 insertions, 0 deletions
diff --git a/testing/web-platform/tests/html/webappapis/dynamic-markup-insertion/opening-the-input-stream/abort-refresh-multisecond-meta.window.js b/testing/web-platform/tests/html/webappapis/dynamic-markup-insertion/opening-the-input-stream/abort-refresh-multisecond-meta.window.js new file mode 100644 index 0000000000..2895f959e5 --- /dev/null +++ b/testing/web-platform/tests/html/webappapis/dynamic-markup-insertion/opening-the-input-stream/abort-refresh-multisecond-meta.window.js @@ -0,0 +1,69 @@ +// The following tests deal with the <meta http-equiv=refresh> pragma and the +// `Refresh` header. The spec is still hazy on the precise behavior in those +// cases but we use https://github.com/whatwg/html/issues/4003 as a guideline. +// +// This is separate from abort-refresh-multisecond-header.window.js to avoid +// browser interventions that limit the number of connections in a tab. + +async_test(t => { + const frame = document.body.appendChild(document.createElement("iframe")); + t.add_cleanup(() => frame.remove()); + frame.onload = t.step_func(() => { + frame.onload = null; + let happened = false; + + const client = new frame.contentWindow.XMLHttpRequest(); + client.open("GET", "/common/blank.html"); + client.onload = t.step_func_done(() => { + assert_true(happened); + }); + client.onerror = t.unreached_func("XMLHttpRequest should have succeeded"); + client.onabort = t.unreached_func("XMLHttpRequest should have succeeded"); + client.ontimeout = t.unreached_func("XMLHttpRequest should have succeeded"); + client.send(); + + frame.contentDocument.open(); + happened = true; + }); + frame.src = "resources/meta-refresh.py?1"; +}, "document.open() does NOT abort documents that are queued for navigation through <meta> refresh with 1-sec timeout (XMLHttpRequest)"); + +async_test(t => { + const frame = document.body.appendChild(document.createElement("iframe")); + t.add_cleanup(() => frame.remove()); + frame.onload = t.step_func(() => { + frame.onload = null; + let happened = false; + frame.contentWindow.fetch("/common/blank.html").then( + t.step_func_done(() => { + assert_true(happened); + }), + t.unreached_func("Fetch should have succeeded") + ); + frame.contentDocument.open(); + happened = true; + }); + frame.src = "resources/meta-refresh.py?1"; +}, "document.open() does NOT abort documents that are queued for navigation through <meta> refresh with 1-sec timeout (fetch())"); + +async_test(t => { + const frame = document.body.appendChild(document.createElement("iframe")); + t.add_cleanup(() => frame.remove()); + frame.onload = t.step_func(() => { + frame.onload = null; + let happened = false; + const img = frame.contentDocument.createElement("img"); + img.src = new URL("resources/slow-png.py", document.URL); + img.onload = t.step_func_done(() => { + assert_true(happened); + }); + img.onerror = t.unreached_func("Image loading should not have errored"); + // The image fetch starts in a microtask, so let's be sure to test after + // the fetch has started. + t.step_timeout(() => { + frame.contentDocument.open(); + happened = true; + }); + }); + frame.src = "resources/meta-refresh.py?4"; +}, "document.open() does NOT abort documents that are queued for navigation through <meta> refresh with 4-sec timeout (image loading)"); |