feat(fci.confirmation_code): add confirmation code to france_connect_informations
feat(user_mailer.france_connect_confirmation_code): add confirmation by email mail method/preview/spec, pointing to merge_mail_with_existing_account (reuse existing method)
feat(mail_merge): mail merge
feat(merge.cannot_use_france_connect): same behaviour as callback
clean(fci.confirmation_code): use same token for mail validation as merge
feat(resend_france_connect/particulier/merge_confirmation): resend email with link. also enhance some trads, cleanup halfy finished refacto
clean(tech): finalize story by plugging merge_with_new_account to email validation
fix(deadspec): was removed
fix(spec): broken after last refactoring
lint(rubocop): space before parenthesis
lint(haml-lint): yoohoooo space before =
fix(lint): scss now :D
Update app/assets/stylesheets/buttons.scss
cleanup
feat(france_connect): re-add confirm by email, with an option for confirmation by email instead of only confirmation by email
fixup! Add confirmation by email when merging DC/FC accounts
fix(lint): haml_spec failure
Deep-cloned objects have all their relationships stale. Thus, for a
newly deep-cloned revision, `revision.types_de_champs` returns `[]`,
even when it actually has associated types de champ.
This causes consecutive champs creations and re-ordering to fail in
subtle ways, like:
```
procedure.draft_revision.add_type_de_champ(…)
procedure.publish_revision!
procedure.draft_revision.add_type_de_champ(…)
procedure.draft_revision.move_type_de_champ(…) # this will fail
```
As `publish_revision!` created a new stale revision, moving the type
de champ fails because not all existing champs are found until the
object is refreshed.
We don't hit this path in production, because usually only a single
operation is made in a request.
To fix this, save the new revision before associating it as the draft
procedure.
(Another option would be to `reload` the revision after creation, but
this seems better contained and matches the name of the method.)
It seems better to create associations in an declarative fashion, rather
than using imperative code. This also makes the attribute compatible
with build_stubbed.
Calling business logic in a factory is a code-smell, because it
usually requires the object to be saved into database, and may have
unintended consequences when the business logic is changed.
Also, this allows to just build a published procedure, without saving it
to the database.
This fix prevent repetition children types de champ from being pulled from cloned procedures. stable_id is stable across revisions but also across cloned procedures.
Creating dossiers is faster than creating a procedure, but still slow.
We can create a single dossier in the default case, and only create
several others when the example requires it.
Speeds up this spec from 0m 57s to 0m 49s.
Creating a procedure with all available types de champ is slow. We can
create a simpler procedure in the default case, and only create all
types de champs when the example requires it.
Speeds up this spec from 1m 55s to 0m 57s.
Creating a dossier with available champs populated is slow. We can
create simpler dossiers in the default case, and only populate all
champs when the example requires it.
Speeds up this spec from 2mn 20s to 1m 55s.
Before, every time a password was tested, the dictionaries were parsed
again by zxcvbn.
Parsing dictionaries is slow: it may take up to ~1s. This doesn't matter
that much in production, but it makes tests very slow (because we tend
to create a lot of User records).
With this changes, the initializer tester is shared between calls, class
instances and threads. It is lazily loaded on first use, in order not to
slow down the application boot sequence.
This uses ~20 Mo of memory (only once for all threads), but makes tests
more that twice faster.
For instance, model tests go from **8m 21s** to **3m 26s**.
NB:
An additionnal optimization could be to preload the tester on
boot, before workers are forked, to take advantage of Puma copy-on-write
mechanism. In this way all forked workers would use the same cached
instance.
But:
- We're not actually sure this would work properly. What if Ruby updates
an interval ivar on the class, and this forces the OS to copy the
whole data structure in each fork?
- Puma phased restarts are not compatible with copy-on-write anyway.
So we're avoiding this optimisation for now, and take the extra 20 Mo
per worker.
instead of looking linked user by email because :
- follows FC recommendation to fetch ds account by openid
- the email is not a valid key as many user can share the same FCI email.
The following scenario is now working
A user A (email: 1@mail.com) uses FC to connect to DS
=> It is connected as 1@mail.com
Another user B (email: generic@mail.com) uses FC to connect
=> It is connected as generic@mail.com
The first user A change its FC email to generic@mail.com and connect to DS
=> It is still connected as 1@mail.com