- The jwt token was declared as using HS256 as algorithm, but was using HS512.
- No need to base64-encode then remove the padding when we can simply encode
without padding.
- Factorize the header+payload concatenation as data
Odds are that this integration was broken from the start (HS512 vs HS256), so
I'm not sure if it's better to add tests or to simply get rid of it.
- re-use ProxifiedUrl to implement AbsoluteProxifyURL, reducing the copy-pasta
- reduce the internal indentation of ProxifiedUrl by inverting some conditions
- Don't use lambdas to return a function, use directly the function instead.
- Remove a hack for "Chrome 67 and earlier" since it was released in 2018.
There is no need to detect the format and then the version when both can be
done at the same time.
Add a benchmark as well, on large and small atom and rss files.
- replace a lot of `let` with `const`
- inline some `querySelectorAll` calls
- reduce the scope of some variables
- use some ternaries where it makes sense
- inline one-line functions
Refactor away some trival usages of `.innerHTML`. Unfortunately, there is no way to
enabled trusted-types in report-only mode via `<meta>` tags, see
https://github.com/w3c/webappsec-csp/issues/277
The variable `triggers` is only used to check if in contains a particular
value. Given that the number of keyboard shortcuts is starting to be
significant, let's future-proof the performances and use a `Set` instead of an
`Array` instead.
This will allow to make use of func (*Reader) Seek, instead of re-recreating a
new reader. It's a large commit for a small change, but anything to simply the
reader/buffer/ReadAll/… mess is a step in the right direction I think, and it
should enable more follow-up simplifications.
- allow youtube urls to start with `www`
- use `strings.Builder` instead of a `bytes.Buffer`
- use a `strings.NewReader` instead of a `bytes.NewBufferString`
- sprinkles a couple of `continue` to make the code-flow more obvious
- inline calls to `inList`, and put their parameters in the right order
- simplify isPixelTracker
- simplify `isValidIframeSource`, by extracting the hostname and comparing it
directly, instead of using the full url and checking if it starts with
multiple variations of the same one (`//`, `http:`, `https://` multiplied by
``/`www.`)
- add a benchmark
There is no need to do extra work like creating a session and its associated
view until the user has been properly identified and as many possibly-failing sql request have been successfully run.
- Reduce the amount of nested loops: it's preferable to search the whole page
once and filter on it (even with filters that should always be false),
than searching it again for every element we're looking for.
- Factorize the proxying conditions into a `shouldProxy` function to reduce the
copy-pasta.
- Refactorise the tests and add some
- Use 250 signs instead of the whole text
- Only check for Korean, Chinese and Japanese script
- Add a benchmark
- Use a more idiomatic control flow
```console
$ # main branch
$ go test -bench=.
goos: linux
goarch: amd64
pkg: miniflux.app/v2/internal/reader/readingtime
BenchmarkEstimateReadingTime-12 267 4821268 ns/op
PASS
ok miniflux.app/v2/internal/reader/readingtime 1.754s
$ # speed_up_reading_time branch
$ go test -bench=.
goos: linux
goarch: amd64
pkg: miniflux.app/v2/internal/reader/readingtime
cpu: 12th Gen Intel(R) Core(TM) i7-1265U
BenchmarkEstimateReadingTime-12 1941 653312 ns/op
PASS
ok miniflux.app/v2/internal/reader/readingtime 1.342s
$
```
If the user doesn't display reading times, there is no need to compute them.
This should speed things up a bit, since `whatlanggo.Detect` is abysmally slow.
Instead of having to allocate a ~100 keys map containing possibly dynamic
values (at least to the go compiler), allocate it once in a global variable.
This significantly speeds things up, by reducing the garbage
collector/allocator involvements.
Local synthetic benchmarks have shown a improvements from 38% of wall time to only
12%.
- `make([]a, b)` create a slice of `b` elements `a`
- `make([]a, b, c)` create a slice of `0` elements `a`, but reserve space for `c` of them
When using `append` on the former, it will result on a slice with `b` leading
elements, which is unlikely to be what we want. This commit replaces the two
instances where this happens with the latter construct.
Go 1.22 introduced a new [for-range](https://go.dev/ref/spec#For_range)
construct that looks a tad better than the usual `for i := 0; i < N; i++`
construct. I also tool the liberty of replacing some
`for i := 0; i < len(myitemsarray); i++ { … myitemsarray[i] …}`
with `for item := range myitemsarray` when `myitemsarray` contains only pointers.