* This commit abstracts access to the object `rootInterface()?.config?` into a single accessor,
`authentikConfig`, that can be mixed into any AKElement object that requires access to it.
Since access to `rootInterface()?.config?` is _universally_ used for a single (and repetitive)
boolean check, a separate accessor has been provided that converts all calls of the form:
``` javascript
rootInterface()?.config?.capabilities.includes(CapabilitiesEnum.CanImpersonate)
```
into:
``` javascript
this.can(CapabilitiesEnum.CanImpersonate)
```
It does this via a Mixin, `WithCapabilitiesConfig`, which understands that these calls only make
sense in the context of a running, fully configured authentik instance, and that their purpose is to
inform authentik components of a user’s capabilities. The latter is why I don’t feel uncomfortable
turning a function call into a method; we should make it explicit that this is a relationship
between components.
The mixin has a single single field, `[WCC.capabilitiesConfig]`, where its association with the
upper-level configuration is made. If that syntax looks peculiar to you, good! I’ve used an explict
unique symbol as the field name; it is inaccessable an innumerable in the object list. The debugger
shows it only as:
Symbol(): {
cacheTimeout: 300
cacheTimeoutFlows: 300
cacheTimeoutPolicies: 300
cacheTimeoutReputation: 300
capabilities: (5) ['can_save_media', 'can_geo_ip', 'can_impersonate', 'can_debug', 'is_enterprise']
}
Since you can’t reference it by identity, you can’t write to it. Until every browser supports actual
private fields, this is the best we can do; it does guarantee that field name collisions are
impossible, which is a win.
The mixin takes a second optional boolean; setting this to true will cause any web component using
the mixin to automatically schedule a re-render if the capabilities list changes.
The mixin is also generic; despite the "...into a Lit-Context" in the title, the internals of the
Mixin can be replaced with anything so long as the signature of `.can()` is preserved.
Because this work builds off the work I did to give the Sidebar access to the configuration without
ad-hoc retrieval or prop-drilling, it wasn’t necessary to create a new context for it. That will be
necessary for the following:
TODO:
``` javascript
rootInterface()?.uiConfig;
rootInterface()?.tenant;
me();
```
* This commit abstracts access to the object `rootInterface()?.tenant?` into a single accessor,
`tenant`, that can be mixed into any AKElement object that requires access to it.
Like `WithCapabilitiesConfig` and `WithAuthentikConfig`, this one is named `WithTenantConfig`.
TODO:
``` javascript
rootInterface()?.uiConfig;
me();
```
* web: Added a README with a description of the applications' "mental model," essentially an architectural description.
* web: prettier did a thing
* web: prettier had opinions about the README
* web: Jens requested that subscription be by default, and it's the right call.
* web: Jens requested that the default subscription state for contexts be , and it's the right call.
* web: prettier having opinions after merging with dependent branch
* web: prettier still having opinions.
* This commit abstracts access to the object `rootInterface()?.config?` into a single accessor,
`authentikConfig`, that can be mixed into any AKElement object that requires access to it.
Since access to `rootInterface()?.config?` is _universally_ used for a single (and repetitive)
boolean check, a separate accessor has been provided that converts all calls of the form:
``` javascript
rootInterface()?.config?.capabilities.includes(CapabilitiesEnum.CanImpersonate)
```
into:
``` javascript
this.can(CapabilitiesEnum.CanImpersonate)
```
It does this via a Mixin, `WithCapabilitiesConfig`, which understands that these calls only make
sense in the context of a running, fully configured authentik instance, and that their purpose is to
inform authentik components of a user’s capabilities. The latter is why I don’t feel uncomfortable
turning a function call into a method; we should make it explicit that this is a relationship
between components.
The mixin has a single single field, `[WCC.capabilitiesConfig]`, where its association with the
upper-level configuration is made. If that syntax looks peculiar to you, good! I’ve used an explict
unique symbol as the field name; it is inaccessable an innumerable in the object list. The debugger
shows it only as:
Symbol(): {
cacheTimeout: 300
cacheTimeoutFlows: 300
cacheTimeoutPolicies: 300
cacheTimeoutReputation: 300
capabilities: (5) ['can_save_media', 'can_geo_ip', 'can_impersonate', 'can_debug', 'is_enterprise']
}
Since you can’t reference it by identity, you can’t write to it. Until every browser supports actual
private fields, this is the best we can do; it does guarantee that field name collisions are
impossible, which is a win.
The mixin takes a second optional boolean; setting this to true will cause any web component using
the mixin to automatically schedule a re-render if the capabilities list changes.
The mixin is also generic; despite the "...into a Lit-Context" in the title, the internals of the
Mixin can be replaced with anything so long as the signature of `.can()` is preserved.
Because this work builds off the work I did to give the Sidebar access to the configuration without
ad-hoc retrieval or prop-drilling, it wasn’t necessary to create a new context for it. That will be
necessary for the following:
TODO:
``` javascript
rootInterface()?.uiConfig;
rootInterface()?.tenant;
me();
```
* web: Added a README with a description of the applications' "mental model," essentially an architectural description.
* web: prettier had opinions about the README
* web: Jens requested that subscription be by default, and it's the right call.
* This commit abstracts access to the object `rootInterface()?.config?` into a single accessor,
`authentikConfig`, that can be mixed into any AKElement object that requires access to it.
Since access to `rootInterface()?.config?` is _universally_ used for a single (and repetitive)
boolean check, a separate accessor has been provided that converts all calls of the form:
``` javascript
rootInterface()?.config?.capabilities.includes(CapabilitiesEnum.CanImpersonate)
```
into:
``` javascript
this.can(CapabilitiesEnum.CanImpersonate)
```
It does this via a Mixin, `WithCapabilitiesConfig`, which understands that these calls only make
sense in the context of a running, fully configured authentik instance, and that their purpose is to
inform authentik components of a user’s capabilities. The latter is why I don’t feel uncomfortable
turning a function call into a method; we should make it explicit that this is a relationship
between components.
The mixin has a single single field, `[WCC.capabilitiesConfig]`, where its association with the
upper-level configuration is made. If that syntax looks peculiar to you, good! I’ve used an explict
unique symbol as the field name; it is inaccessable an innumerable in the object list. The debugger
shows it only as:
Symbol(): {
cacheTimeout: 300
cacheTimeoutFlows: 300
cacheTimeoutPolicies: 300
cacheTimeoutReputation: 300
capabilities: (5) ['can_save_media', 'can_geo_ip', 'can_impersonate', 'can_debug', 'is_enterprise']
}
Since you can’t reference it by identity, you can’t write to it. Until every browser supports actual
private fields, this is the best we can do; it does guarantee that field name collisions are
impossible, which is a win.
The mixin takes a second optional boolean; setting this to true will cause any web component using
the mixin to automatically schedule a re-render if the capabilities list changes.
The mixin is also generic; despite the "...into a Lit-Context" in the title, the internals of the
Mixin can be replaced with anything so long as the signature of `.can()` is preserved.
Because this work builds off the work I did to give the Sidebar access to the configuration without
ad-hoc retrieval or prop-drilling, it wasn’t necessary to create a new context for it. That will be
necessary for the following:
TODO:
``` javascript
rootInterface()?.uiConfig;
rootInterface()?.tenant;
me();
```
* web: Added a README with a description of the applications' "mental model," essentially an architectural description.
* web: prettier had opinions about the README
* web: Jens requested that subscription be by default, and it's the right call.
* web: adjust RAC to point to the (now independent) Interface.
- Also, removed redundant check.
This commit adds "Polish" and "Korean" to the list of languages recognized by the
web-UI, and updates the XLIFF files to include a few new strings from the RAC
project.
By adding 'grow' but not 'shrink' to the header section, the page was allowed to allocate
as much width as was available when the window opened, but not allowed to resize the width
if it was pushed closed by zoom, page resize, or summon sidebar.
This commit adds 'shrink' to the capabilities of the header.
* web: break circular dependency between AKElement & Interface.
This commit changes the way the root node of the web application shell is
discovered by child components, such that the base class shared by both
no longer results in a circular dependency between the two models.
I've run this in isolation and have seen no failures of discovery; the identity
token exists as soon as the Interface is constructed and is found by every item
on the page.
* web: fix broken typescript references
This built... and then it didn't? Anyway, the current fix is to
provide type information the AkInterface for the data that consumers
require.
* web: description lists as functions
One thing I hate is clutter. Just tell me what you're going to do. "Description Lists" in our code are
renderings of Patternfly's DescriptionList; we use only four of
their idioms: horizontal, compact, 2col, and 3col. With that in mind, I've stripped out the DescriptionList
rendering code from UserViewPage and replaced it with a list of "Here's what to render" and a function call
to render them. The calling code is still responsible for having the right styles available, as this is
not a component or an attempt at isolation; it is *just* a function (at this point).
* web: fix issue that prevented the classMap from being rendered properly
* web: added comments to the description list.
* web: analyze & prettier had opinions
* web: Fix description-list demo
This commit re-instals the demo for the "description list" of user fields.
* web: prettier had opinions.
* any -> unknown
Signed-off-by: Jens Langhammer <jens@goauthentik.io>
---------
Signed-off-by: Jens Langhammer <jens@goauthentik.io>
Co-authored-by: Jens Langhammer <jens@goauthentik.io>
* web: expressing success
Ever see an idiom that just, I dunno, *annoyed* you?
Automated tools for the win.
* web: repetition, repetition, repetition! [throws chair]
* web: giving the de-duplication treatment to policy mappings.
* Created a BaseStageForm with success message and canonical primary key type for for Providers, Sources, and Stages.
* web: fix turnstile types after update
After running 'npm update' on the dev tree, the build started to
fail with these options and types no longer being set correctly in
the source tree.
I have explicitly included the Turnstile object as a sub-component
of Window, and modified the CaptchaStage to understand the
TurnstileObject and TurnstileOptions, and the build now completes.
* eslint says to prefer this format
* Google recaptcha (aka Turnstile) doesn't understand the "invisible" setting; that's purely
an HCaptcha thing.
* web: removing the typecast means I no longer need the type.
* Locking pyright to 1.1.338 and maintaining it.
* web: locking down hard
After reading [this
guide](https://medium.com/@anjusha.khandavalli/decoding-commonly-used-symbols-in-package-json-file-e08f3939c9e4),
I've locked down the version of pyright to a specific and immovable
version until we can get a better read on how the Pyright upgrade
breaks things.
* Update is specific to package-lock.json.
Signed-off-by: Jens Langhammer <jens@goauthentik.io>
---------
Signed-off-by: Jens Langhammer <jens@goauthentik.io>
* web: break circular dependency between AKElement & Interface.
This commit changes the way the root node of the web application shell is
discovered by child components, such that the base class shared by both
no longer results in a circular dependency between the two models.
I've run this in isolation and have seen no failures of discovery; the identity
token exists as soon as the Interface is constructed and is found by every item
on the page.
* web: fix broken typescript references
This built... and then it didn't? Anyway, the current fix is to
provide type information the AkInterface for the data that consumers
require.
* Refactor the Table component for legiibility.
This commit does not change the functionality of the Table, nor does it require any changes to
existing uses of the Table.
It will probably be easier to review this by looking at the `View Code` in the upper-right-hand
corner of GitHub's reviewer; that or side-by-side, if your monitor is wide-enough.
The existing Table component is used 49 times (at last count) in authentik, and those uses are
wide-ranging and complex, but they all come down to a couple of entries:
- Displaying a row of summary information
- Permitting the display of more complex ("expanded") information
- Displaying a collection of rows
- Displaying a collection of rows grouped by some header
- Pagination of many rows
- Permitting an action on the visible rows
- *Not* blocking events that may happen on a cell or expansion
- Providing a toolbar
- Providing a display of "selected items" when using the table as a multi-select with many pages of
items (chips display)
- Providing sort functionality on columns
- Providing the ability to filter the table from the back-end
This commit changes none of that.
What this commit does is re-arrange the innards of Table.ts into smaller units:
- The RowGroup's "checkbox" and "expansion" segments are pulled out into their own functions, which
makes the RowGroup's actual functionality much easier to see and understand. The same is true of
the rowGroup's selection and expansion handlers.
- Almost all in-line decisions and event handlers have been extracted and named, to make it easier
to see and understand what's happening inside what is otherwise a jumble of HTML.
- The TablePagination code was duplicated-- and one of the duplicates was wrong! So I've
deduplicated it and fixed the bug.
- In many cases, the conditional code grew organically, resulting in some pretty hard-to-understand
conditions.
- A really good example is the `itemSelectHandler`; there are two possible events that result in a
change, and the consequences of that change may be that *all* checkboxes are unchecked. In all
cases where there's an add/remove option, I've opted to remove the specific object always (even
if it's not present!), and then add it if it's actually an add. Logically coherent as long as
the accessors are not also mutators.
It was not possible to redefine the `columns()` function to take anything other than a TableColumn
object; I wanted to be able to replace all of the `new TableColumn("Foo")` with just `"Foo"`,
building the TableColumn dynamically at construction time. Unfortunately, some of our most complex
tables dynamically re-arrange the columns (RBAC, for example, draws an empty table, fetches the
content, then redraws with the columns based on what was retrieved), and detecting that change and
rebuilding those columns proved more difficult than anticipated. I may contemplate an alternative
column specification if I find myself building a lot of tables.
Likewise, it was not possible to replace all of our uses of the empty `html` declaration with the
Lit-preferred `nothing` sigil; hard-coded `TemplateResult` entries scattered throughout the code
caused massive type inconsistencies, since a type of `TemplateResult | nothing` is unique thanks to
`nothing`'s underlying Symbol. It is for this issue that Typescript itself recommends you "prefer
allowing Typescript infer the return type." I may revisit this issue later.
I've added a `prequick` command to `package.json`; this one runs *only* the Typescript type checker,
lit-analyse, and `eslint:precommit`, the last of which lints only the files touched since the last
commit. This is fast, intended to support quick checks of code quality not normally displayed in the
IDE.
* web: refactor table
After talking to Jens, I've put back the positional variable and eslint escape; it's better
to document existing practices than try to force something.
I also misunderstood the role of `inner` in one bit of code, and have restored its functionality.
Looking through the code, though, I can see a case where it will fail; it's expecting `inner` to
be either undefined or a TemplateResult; if there's no error message, the error message defaults
to a blank TemplateResult, which is _not_ undefined, and will result in a blank table.
This will only happen under very weird network failures, but...
web/user: fix app not updating
so when using two classes in a classMap directive, the update fails (basically saying that each class must be separated), however this error only shows when directly calling requestUpdate and is swallowed somewhere when relying on the default render cycle
Signed-off-by: Jens Langhammer <jens@goauthentik.io>
* web: break circular dependency between AKElement & Interface.
This commit changes the way the root node of the web application shell is
discovered by child components, such that the base class shared by both
no longer results in a circular dependency between the two models.
I've run this in isolation and have seen no failures of discovery; the identity
token exists as soon as the Interface is constructed and is found by every item
on the page.
* web: fix broken typescript references
This built... and then it didn't? Anyway, the current fix is to
provide type information the AkInterface for the data that consumers
require.
* web: extract the form processing from the form submission process
Our forms have a lot of customized value handling, and the function `serializeForm` takes
our input structures and creates a JSON object ready for submission across the wire for
the various models provided by the API.
That function was embedded in the `ak-form` object, but it has no actual dependencies on
the state of that object; aside from identifying the input elements, which is done at the
very start of processing, this large block of code stands alone. Separating out the
"processing the form" from "identifying the form" allows us to customize our form handling
and preserve form information on the client for transactional purposes such as our wizard.
w
* web: multi-select, but there's a styling issue.
* web: provide a closed control for multi-select
This commit creates a new control, using the ak-form-element-horizontal as a *CLOSED*
object, for our multi-select. This control right now is limited to what we expect to
be using in the wizard, but that doesn't mean it can't be smarter in the future.
* web: hung up by a silly spelling error
* web: update the form-handling method
With the `serializeForm` method extracted, it's much easier to examine and parse
every *form* with every keystroke, preserving them against the changes that
happen as the customer navigates the Wizard. With that in place, it became
straightforward to retrofit the "handle changes to the application, to the provider, and to the providerType"
into the three pages of the wizard, and to provide *all* of the form elements in a base class
such that no specialized handling needs to happen to any of the child pages.
Fixed an ugly typo in the oauth2 provider, as well.
* web: wizard should work with multi-select and should reflect default values
(Note: This commit is predicated on both the "Extract serializeForm function from Form.ts" and
"Provide a controlled multi-select input control" PRs.)
The initial attempt at the wizard was woefully naive in its implementation, missing some critical
details along the way. This revision starts off with one stronger assumption: trust that Jens knows
what he's doing, and knew what he was building when he wrote the initial `Form` handler.
The problem with the `Form` handler, and the reason I avoided it, was simply that it does too many
things, especially in its ModelForm variant: it receives a model from the back-end, renders a
(hand-written) form for that model, allows the user to interact with that model, and facilitates
saving it to the back-end again, complete with on-page notifications of success or failure.
The Wizard could not use all of that. It needs to gather the information for *two* models (an
Application and a Provider, plus the ProviderType) and has a new and specialized end-point for a
transaction that allows the committing or roll back of both models to happen simultaneously,
predicated on success or failure respectively.
With "Extract `serializeForm` completed, it was possible to repurpose the forms that already
existed, stripping them down to just their input components, and eventing the entire thing in a
single event loop of "events flow up, data flows down." In this case, the *entire form* is
serialized on a per-event basis and pushed up the to the orchestration layer, which saves them off.
Writing a parent `BasePanel` class that has accessors for `formValues` and `valid` means that the
state of every page is accessible with a simple query. This simplified the `BaseProviderPanel` class
to just specialize the `dispatchUpdate` method to send the wizard update with the new provider
information filled out.
Because the *form* is being treated as the source of truth about the state of a `Partial<Application>`
or `Partial<*Provider>` object, the defaults are now being captured as expected.
Likewise, this simplified the `providerCache` layer which preserves customer input in the event that
the customer starts filling out the wrong provider to a simple conditional clause in the
orchestrator. The Wizard has much fewer smarts because it doesn't (and probably never did) need
them.
Along with the above changes, the following has also been done:
For SAML and SCIM, the providerMappings now works. They weren't being managed as `state` objects,
so they weren't receiving updates when the update event retrieved the information from the back-end.
In order to make clear what's happening, I have extracted the loops from the original definition and
built them as named objects: `propertyMappings`, `pmUserValues`, `pmGroupValues` and so on, which I
then pass into the new multi-select component.
I fixed a really embarrassing typo in Oauth2's "advanced settings" block.
I have extracted the CoreGroup search-select into a custom component.
I deleted the `merge` function. That was a faulty experiment with non-deterministic outcomes, and I
was never happy with it. I'm glad its gone.
I've added a title header to each of the providers, so the user can be sure that they're looking
at the right provider type when they start filling out the form.
I've created a new token, `data-ak-control`, with which we can mark all objects that we can treat as
Authentik value-producing components, the form value of which is available through a `json()`
method. I've added this bit of intelligence to the `serializeForm` function, short-circuiting the
complex processing and putting the "this is the shape of the value we expect from this input" *onto
the input itself*. Which is where it belongs.
* web: add error handling to wizard.
* web: improve error handling in light components
Rather than reproduce the error handling across all of the LightComponents,
I've made a parent class that takes the common fields to distribute between
the ak-form-element-horizontal and the input object itself. This made it
much easier to properly display errors in freeform input fields in the
wizard, as well as working with the routine error handling in Form.ts
* Added the radio control to the list of LightComponents.
* Fix bug where event was recorded twice.
* Fixed merge bug (?) that somehow deleted the Authorization Select block in OAuth2.
* web: prettier had opinions
* web: added error handling and display
* web: bump @lit-labs/context from 0.4.1 to 0.5.1 in /web
Bumps [@lit-labs/context](https://github.com/lit/lit/tree/HEAD/packages/labs/context) from 0.4.1 to 0.5.1.
- [Release notes](https://github.com/lit/lit/releases)
- [Changelog](https://github.com/lit/lit/blob/main/packages/labs/context/CHANGELOG.md)
- [Commits](https://github.com/lit/lit/commits/@lit-labs/context@0.5.1/packages/labs/context)
---
updated-dependencies:
- dependency-name: "@lit-labs/context"
dependency-type: direct:production
update-type: version-update:semver-minor
...
Signed-off-by: dependabot[bot] <support@github.com>
* web: updated wizard to run with latest package.json configuration
Apparently, there were stale dependencies in package-lock.json that were conflicting
with the requests in our package.json. By running `npm update`, I was able to resolve
the conflict.
I have also removed the default names from the context names collection; they weren't doing
any good, and they permit frictionless renaming of dependencies, which is never a good
idea.
* web: schlepping on the errors messages
During testing, I realized I was unhappy with the error messages. They're not very helpful.
By adding links to navigate back to the place where the error occurred, and providing better
context for what the error could have been, I hope to help the use correct their errors.
* make package the same as main
Signed-off-by: Jens Langhammer <jens@goauthentik.io>
---------
Signed-off-by: dependabot[bot] <support@github.com>
Signed-off-by: Jens Langhammer <jens@goauthentik.io>
Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com>
Co-authored-by: Jens Langhammer <jens@goauthentik.io>
* web: break circular dependency between AKElement & Interface.
This commit changes the way the root node of the web application shell is
discovered by child components, such that the base class shared by both
no longer results in a circular dependency between the two models.
I've run this in isolation and have seen no failures of discovery; the identity
token exists as soon as the Interface is constructed and is found by every item
on the page.
* web: fix broken typescript references
This built... and then it didn't? Anyway, the current fix is to
provide type information the AkInterface for the data that consumers
require.
* web: rollback dependabot's upgrade of context
The most frustrating part of this is that I RAN THIS, dammit, with the updated
context and the current Wizard, and it finished the End-to-End tests without
complaint.
* web: fix labels on group view page
This is a wild bug, because what caused it and how it manifested are seemingly
unrelated as to be hallcinatory.
* web: break circular dependency between AKElement & Interface.
This commit changes the way the root node of the web application shell is
discovered by child components, such that the base class shared by both
no longer results in a circular dependency between the two models.
I've run this in isolation and have seen no failures of discovery; the identity
token exists as soon as the Interface is constructed and is found by every item
on the page.
* web: fix broken typescript references
This built... and then it didn't? Anyway, the current fix is to
provide type information the AkInterface for the data that consumers
require.
* A quality of life thing: `<ak-status-label good>`
There's an idiom throughout the UI:
``` HTML
<ak-label color=${item.enabled ? PFColor.Green : PFColor.Red}>
${item.enabled ? msg("Yes") : msg("No")}
</ak-label>
```
There are two problems with this.
- Repeating the conditional multiple times is error-prone
- The color scheme doesn't communicate much.
There are uses for ak-label that aren't like this, but I'm focusing on this particular use case,
which occurs about 20 times throughout the UI.
Since it's so common, let's isolate the most common case: `<ak-status-label good />` gives you the
"good" status, and `<ak-status-label/>` gives you the "bad" status, which is the default (no
arguments to the function).
There wasn't much clarity in the system for when to use orange vs red vs grey, but looking through
the use cases, it became clear that Red meant fail/inaccessible, Orange meant "Warning, but not
blocking," and Grey just means "info: this thing is off".
So let's define that with meaning: there are three types, error, warning, and info. Which
corresponds to debugging levels, but whatever, nerds grok that stuff.
So that example at the top becomes
```<ak-status-label ?good=${item.enabled}></ak-status-label>```
... and we can now more clearly understand what that conveys.
There is some heavy tension in this case: this is an easier and quicker-to-write solution to
informing the user of a binary status in an iconic way, but the developer has to remember that it
exists.
Story provided, and changes to the existing uses of the existing idiom provided.
* Added the 'compact label' story to storybook.
* web: break circular dependency between AKElement & Interface.
This commit changes the way the root node of the web application shell is
discovered by child components, such that the base class shared by both
no longer results in a circular dependency between the two models.
I've run this in isolation and have seen no failures of discovery; the identity
token exists as soon as the Interface is constructed and is found by every item
on the page.
* web: fix broken typescript references
This built... and then it didn't? Anyway, the current fix is to
provide type information the AkInterface for the data that consumers
require.
* web: rollback dependabot's upgrade of context
The most frustrating part of this is that I RAN THIS, dammit, with the updated
context and the current Wizard, and it finished the End-to-End tests without
complaint.
* Due for amendment
* Revert "Due for amendment"
This reverts commit 829ad5d3f2.
* web: refactor sidebar capabilities for categorical subsections
The project "Change Admin UI lists to have sublists per type" requires some initial changes to the
UI to facilitate this request. The AdminSidebar is the principle target of this project, and it is
embedded in the AdminInterface. To facilitate editing the AdminSidebar as an independent entity,
AdminInterface has been moved into its own folder and the AdminSidebar extracted as a standalone Web
Component. This removes, oh, about half the code from AdminInterface. A little cleanup with
`classMap` was also committed.
The rollup config was adjusted to find the new AdminInterface location.
The Sidebar uses the global `config: Config` object to check for Enterprise capabilities. Rather
than plumb all the way down through the Interface => AdminInterface -> AdminSidebar, I chose to make
provide an alternative way of reaching the `config` object, as a *context*. Other configuration
objects (Me, UiConfig, Tenant) interfaces will be contextualized as demand warrants.
Demand will warrant. Just not yet. <sup>1</sup>
The Sidebar has been refactored only slightly; the renderers are entirely the same as they were
prior to extraction. What has been changed is the source of information: when we retrieve the
current version we story *only* the information, and use type information to ensure that the version
we store is the version we care about. The same is true of `impersonation`; we care only about the
name of the person being impersonated being present, so we don't store anything else.
Fetches have been moved from `firstUpdated` to the constructor. No reason to have the sidebar
render twice if the network returns before the render is scheduled.
Because the path used to identify the user being impersonated has changed, the `str()` references in
the XLIFF files had to be adjusted. **This change is to a variable only and does not require
translation.**
---
<sup>1</sup> The code is littered with checks to `me()?`, `uiConfig?`, `config?`, etc. In the
*context* of being logged in as an administrator those should never be in doubt. I intend to make
our interfaces not have any doubt.
* Function to help generate sizing solutions across Javascript and CSS.
* web: refactor sidebar capabilities for categorical subsections
Move open/close logic into the ak-admin-sidebar itself.
This commit removes the responsibility for opening/closing the sidebar from the interface parent
code and places it inside the sidebar entirely. Since the Django invocation passes none of the
properties ak-interface-admin is capable of receiving, this seems like a safe operation.
The sidebar now assumes the responsibility for hooking up the window event listeners for open/close
and resize.
On connection to the DOM, and on resize, the sidebar checks to see if the viewport width meets the
criteria for a behavioral change (slide-overlay vs slide-push), and on slide-push automatically
opens the sidebar on the assumption that there's plenty of room. In order to support more dynamic
styling going forward, I've substituted the 1280px with 80rem, which is the same, but allows for
some better styling if someone with older eyes needs to "zoom in" on the whole thing with a larger
font size.
The hide/show code involves "reaching up" to touch the host's classList. There's a comment
indicating that this is a slightly fragile thing to do, but in a well-known way.
* move related user list to group folder
Signed-off-by: Jens Langhammer <jens@goauthentik.io>
* contextually add user to group when created from group view page
Signed-off-by: Jens Langhammer <jens@goauthentik.io>
* add banner
Signed-off-by: Jens Langhammer <jens@goauthentik.io>
* format
Signed-off-by: Jens Langhammer <jens@goauthentik.io>
---------
Signed-off-by: Jens Langhammer <jens@goauthentik.io>
* web: break circular dependency between AKElement & Interface.
This commit changes the way the root node of the web application shell is
discovered by child components, such that the base class shared by both
no longer results in a circular dependency between the two models.
I've run this in isolation and have seen no failures of discovery; the identity
token exists as soon as the Interface is constructed and is found by every item
on the page.
* web: fix broken typescript references
This built... and then it didn't? Anyway, the current fix is to
provide type information the AkInterface for the data that consumers
require.
* web: rollback dependabot's upgrade of context
The most frustrating part of this is that I RAN THIS, dammit, with the updated
context and the current Wizard, and it finished the End-to-End tests without
complaint.
* web: bugfix: broken backchannel selector
There were two bugs here, both of them introduced by me because I didn't understand the
system well enough the first time through, and because I didn't test thoroughly enough.
The first is that I was calling the wrong confirmation code; the resulting syntax survived
because `confirm()` is actually a legitimate function call in the context of the DOM Window,
a legacy survivor similar to `alert()` but with a yes/no return value. Bleah.
The second is that the confirm code doesn't appear to pass back a dictionary with the
`{ items: Array<Provider> }` list, it passes back just the `items` as an Array.