Most common:
- Unnecessary parentheses and operator precedence clarify (self-explanatory)
- Reference equality--there were a few instances of using == or != improperly
- Qualification of Builder (and similar) imports so that it's clear which type of Builder we're referring to
- Marking some immutable classes with @Immutable since EP desires that all enums be deeply immutable
- String.split() having "surprising behavior"
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=230971531
This eliminates the use of Objectify polymorphism for EPP resources entirely
(yay!), which makes the Registry 3.0 database migration easier.
It is unfortunate that the naming parallelism of EppResources is lost between
ContactResource, HostResource, and DomainResource, but the actual type as far as
Datastore was concerned was DomainBase all along, and it would be a much more
substantial data migration to allow us to continue using the class name
DomainResource now that we're no longer using Objectify polymorphism. This
simply isn't worth it.
This also removes the polymorphic Datastore indexes (which will no longer
function as of this change). The non-polymorphic replacement indexes were added
in []
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=230930546
Our goal is to be able to address every Action by looking at the class itself, and to make it clearer at a glance what you need to access the Action's endpoint
Currently, we can know from the @Action annotation:
- the endpoint path
- the Method needed
- the authentication level needed
This CL adds the service where the Action is hosted, which also translates to the URL.
NOTE - currently we don't have any Action hosted on multiple services. I don't think we will ever need it (since they do the same thing no matter which service they are on, so why host it twice?), but if we do we'll have to update the code to allow it.
The next step after this is to make sure all the @Parameters are defined on the Action itself, and then we will be able to craft access to the endpoint programatically (or at least verify at run-time we crafted a correct URL)
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=229375735
The link was previously being sent using a JS redirect, which doesn't work
because the endpoints that trigger mapreduces can only be hit from the command
line (because they require auth). This commit switches the link to be in
plaintext and renders the full URL instead of just the path, so that clicking it
directly from the terminal works.
This also improves how these links are sent from callsites by using a fluent
style.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=228764606
They can be inferred correctly even in Java 7, and display as
compiler warnings in IntelliJ.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=173451087
In standard DNS format, the first thing on an A, NS or DS definition line is a domain label relative to the zone, which in our case is a TLD. However, the generate_zone_files command prints out fully qualified host and domain names, resulting in a discrepancy when compared to the contents of the DNS subsystem. This CL removes the TLD suffix, which should remove one preprocessing step before file comparison.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=166103705
Previously, GenerateZoneFilesAction mapreduced its way through all domains and hosts for the specified TLD(s), emitting information for each matching domain and host (subject to constraints like not being deleted and so on). This resulted in host information (aka glue records) for all hosts subordinate to domains in the specified TLD(s). This is incorrect. DNS glue records should only be present for hosts which act as nameservers for their superordinate domains.
The new version of the mapreduce iterates only over domains. When a matching domain is found, a check is made to see whether any subordinate hosts are also nameservers for the domain, in which case host information is generated.
The test was updated to reflect the new reality, and check for a couple additional nuances.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=165766472
Attending to this old bug will improve our ability to perform zone comparisons between Datastore and the DNS provider. Right now, zone comparison finds some bogus differences, because the TTL we send to the DNS subsystem doesn't match the TTL we use when generating our local dump files.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=164635557
We want to be safer and more explicit about the authentication needed by the many actions that exist.
As such, we make the 'auth' parameter required in @Action (so it's always clear who can run a specific action) and we replace the @Auth with an enum so that only pre-approved configurations that are aptly named and documented can be used.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=162210306
The code to authenticate and authorize incoming requests (including via OAuth) has been in the system. This CL actually turns it on, since we are satisfied from logging information that it is not unjustly denying access.
Auth settings are also updated on a few commands missed earlier.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=152381820
This is the final preparatory step necessary in order to load and load
configuration from YAML in a static context and then provide it either via
Dagger (using ConfigModule) or through RegistryConfig's existing static
functions.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=143819983
This change replaces all Ref objects in the code with Key objects. These are
stored in datastore as the same object (raw datastore keys), so this is not
a model change.
Our best practices doc says to use Keys not Refs because:
* The .get() method obscures what's actually going on
- Much harder to visually audit the code for datastore loads
- Hard to distinguish Ref<T> get()'s from Optional get()'s and Supplier get()'s
* Implicit ofy().load() offers much less control
- Antipattern for ultimate goal of making Ofy injectable
- Can't control cache use or batch loading without making ofy() explicit anyway
* Serialization behavior is surprising and could be quite dangerous/incorrect
- Can lead to serialization errors. If it actually worked "as intended",
it would lead to a Ref<> on a serialized object being replaced upon
deserialization with a stale copy of the old value, which could potentially
break all kinds of transactional expectations
* Having both Ref<T> and Key<T> introduces extra boilerplate everywhere
- E.g. helper methods all need to have Ref and Key overloads, or you need to
call .key() to get the Key<T> for every Ref<T> you want to pass in
- Creating a Ref<T> is more cumbersome, since it doesn't have all the create()
overloads that Key<T> has, only create(Key<T>) and create(Entity) - no way to
create directly from kind+ID/name, raw Key, websafe key string, etc.
(Note that Refs are treated specially by Objectify's @Load method and Keys are not;
we don't use that feature, but it is the one advantage Refs have over Keys.)
The direct impetus for this change is that I am trying to audit our use of memcache,
and the implicit .get() calls to datastore were making that very hard.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=131965491
ReferenceUnion is a hack to work around the mismatch between how
we store references (by roid) and how they are represented in EPP
(by foreign key). If it ever needed to exist (not entirely clear...)
it should have remained tightly scoped within the domain commands
and resources. Instead it has leaked everywhere in the project,
causing lots of boilerplate. This CL hides all of that behind
standard Refs, and should be followed by work to remove ReferenceUnion
completely.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=122424416
The dark lord Gosling designed the Java package naming system so that
ownership flows from the DNS system. Since we own the domain name
registry.google, it seems only appropriate that we should use
google.registry as our package name.
This change renames directories in preparation for the great package
rename. The repository is now in a broken state because the code
itself hasn't been updated. However this should ensure that git
correctly preserves history for each file.
2016-05-13 18:55:08 -04:00
Renamed from java/com/google/domain/registry/tools/server/GenerateZoneFilesAction.java (Browse further)
