Stream.concat only accepts 2 parameters. Streams.concat on the other hand
accepts any number of parameters.
Moving to Streams.concat for all uses (2 or more) makes sense for uniformity
and convenience reasons.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=179716648
This is in preparation for running the automatic refactoring script that
will replace all ExpectedExceptions with use of JUnit 4.13's assertThrows/
expectThrows.
Note that I have recorded the callsites of assertions about EppExceptions
being marshallable and will edit those specific assertions back in after
running the automatic refactoring script (which do not understand these).
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=178812403
The only remaining methods on ExceptionRule after this are methods that
also exist on ExpectedException, which will allow us to, in the next CL,
swap out the one for the other and then run the automated refactoring to
turn it all into assertThrows/expectThrows.
Note that there were some assertions about root causes that couldn't
easily be turned into ExpectedException invocations, so I simply
converted them directly to usages of assertThrows/expectThrows.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=178623431
This was a surprisingly involved change. Some of the difficulties included
java.util.Optional purposely not being Serializable (so I had to move a
few Optionals in mapreduce classes to @Nullable) and having to add the Truth
Java8 extension library for assertion support.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=171863777
This CL adds transferredRegistrationExpirationTime as a TransferData field
persisted to Datastore. It's only relevant for domains, and it represents the
registration expiration time resulting from the approval of the most recent
transfer request. For pending transfers, we assume the transfer will be
server-approved, and thus in DomainTransferRequestFlow we set this field to the
existing computed value serverApproveNewExpirationTime, which is what we use
for setting up the server-approve autorenew billing event and poll message.
In DomainTransferApproveFlow we overwrite this field with the freshly computed
newExpirationTime, whereas in DomainTransferCancel/RejectFlow (and in the
implicit cancel of DomainDeleteFlow during a pending transfer) we null it out.
There are two key benefits to having this field, which are described in more
detail in b/36405140.
1) b/25084229 - it allows storage of a frozen value to back the "exDate" field
of DomainTransferResponse, which we can use to fix various errors with how
exDate display currently works.
2) b/36354434 - it allows DomainResource.cloneProjectedAtTime() to just directly
set the registrationExpirationTime to this value, without computing it de
novo, which reduces duplicated logic and ensures that the new expiration time
matches the autorenew child objects.
This CL only starts writing the field on TransferData as persisted directly on
the DomainResource itself. We'll then want to backfill the field for at
least pending transfers, whether expired or not (so we can do (2) above), but
I think we might as well backfill it for all pending and approved transfers
so that we also fix (1) even for historical transfers. And then we can start
actually reading the field for both purposes. (Note that for (1), this will
only fix synchronous transfer responses served via DomainTransferQueryFlow,
not async transfer responses served via poll messages, since these have already
been persisted with a potentially bad exDate, but I don't think it's worth a
backfill for those).
One last naming note: I chose the verbose transferredRegistrationExpirationTime
rather than the extendedRegistrationExpirationTime of DomainTransferResponse
because (as is the case in autorenew grace, or for a superuser transfer) the
new registration time isn't necessarily extended at all; it may be the same as
the pre-transfer expiration time. Also, including "registration" helps clarify
w.r.t. pendingTransferExpirationTime which refers confusingly to the expiry of
the transfer itself, rather than the domain registration.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=171858083
Now that transfers are always restricted to 1 year, it's unnecessary to store
extendedRegistrationYears on TransferData - it will always be equal to 1. This
simplifies logic in a few other places, e.g. RdeDomainImportAction.
I verified in BigQuery that no DomainBases exist with extendedRegistrationYears
values that aren't either null or equal to 1. At some point we should remove
the persisted fields from datastore via e.g. resaving all those domains, but
it's low priority and can wait until we have some more pressing migration.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=150373897
In fact, completely eviscerate cloneProjectedAtTime (to be removed in
a followup CL) in favor of doing the projection of transfers and the
loading of values from the superordinate domain at call sites. This
is one of the issues that blocked the memcache audit work, since the
load inside of cloneProjectedAtTime could not be controlled by the
caller.
Note: fixed a minor bug where a subordinate host created after its superordinate domain was last transferred should have lastTransferTime==null but was previously reporting the domain's lastTransferTime.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=149769125
This adds a new method which will be used in an upcoming CL affecting domain
transfer logic. It also removes two older methods that are unused (they were
originally going to be used for TLD-specific logic which is now obsolete).
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=148928965
All domain/host names should be stored in their canonical forms (puny-
coded and lower-cased). This validation is already in the flows, but
this adds protection against bad data from other sources, e.g. admin
consoles or RDE imports.
This also removes an old work-around that temporarily suspended this
validation for superusers, because we used to have non-canonicalized
data in the system. The non-canonicalized data has since all been
cleaned up, so this work-around is no longer necessary.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=146799558
This is probably best from a code-cleanliness perspective anyways,
but the rationale is that tightly coupling the resources to the
info responses was a straightjacket that required all status
values and fields to be directly available on the resource. With
this change, I already was able to get rid of the preMarshal()
hackery, and I will be able to get rid of cloneWithLinkedStatus()
and most of the contents of cloneProjectedAtTime() for non-domains.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=144252924
I'm setting it to three buckets across all tests, because the default one bucket
wasn't realistic enough, and allowed some tests to pass that shouldn't have,
essentially by accident.
This also changes RegistryConfig from being an interface to being an abstract
base class. The medium term goal here is to have it be a static class so that it
can provide fields from the YAML-derived POJO in situations where Dagger
injection isn't feasible.
The expected end state is as follows:
default-config.yaml -- The master config file that provides defaults for all
values.
nomulus-config.yaml -- A per-environment config file that overrides the defaults
from the previous file.
YamlConfig.java -- The POJO that the aforementioned YAML files are deserialized
into.
RegistryConfig.java -- Contains a static, memoized instance of YamlConfig and
provides static methods for getting some of those values.
ConfigModule -- Will become a static inner class of RegistryConfig, using Dagger
to provide most of the fields from the memoized YamlConfig instance. This way,
all configuration will be coming from a single place: RegistryConfig.java.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=143567288
HostResource and DomainApplication are not transferable, (or at
least, not directly in the case of hosts) and have no need for
the TransferData field. In a flat-flow world, we can push it down
to where it's actually used.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=139201423
This is the third and final phase in the migration away from ReferenceUnions.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=138778148
This is the second phase of a three phase migration to remove
ReferenceUnions. As of the end of this phase, ReferenceUnions are no longer read
from in any active code paths, but are still written to in case a rollback to
the previous version is necessary. The third and final phase will remove the
ReferenceUnions entirely.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=137951076
This concludes your flow flattening experience. Please
fill out a flow flattening satisfaction survey before
exiting.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=137903095
*** Reason for rollback ***
This code is fine, and I will be resurrecting it unaltered next week. It's only being rolled back for operational reasons related to the timing of our internal pushes.
*** Original change description ***
Switch over to non-ReferenceUnion fields on DomainBase
This is the second phase of a three phase migration to remove
ReferenceUnions. As of the end of this phase, ReferenceUnions are no longer read
from in any active code paths, but are still written to in case a rollback to
the previous version is necessary. The third and final phase will remove the
ReferenceUnions entirely.
***
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=136642759
This is the second phase of a three phase migration to remove
ReferenceUnions. As of the end of this phase, ReferenceUnions are no longer read
from in any active code paths, but are still written to in case a rollback to
the previous version is necessary. The third and final phase will remove the
ReferenceUnions entirely.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=136388057
It is important to get at least this one commit in before the public Nomulus
release so that none of our public users will have to go through this data
migration (although we will have to).
The migration strategy is as follows:
1. Dual-write to non-ReferenceUnion fields in addition to the current
ReferenceUnion fields in use, and add new indexes (this commit). Deploy.
2. Run the ResaveAllEppResourcesAction backfill [].
3. Switch all code over to using the new fields. Dual-write is still in effect,
except it is now copying over the values of the new fields to the old
fields. Switch over all BigQuery reporting scripts to use the new
fields. Deploy.
4. Remove all of the old code and indexes. Deploy.
5. (Optional, at our leisure) Re-run the ResaveAllEppResourcesAction backfill
[] to delete the old obsolete fields.
Note that this migration strategy is rollback-safe at every step -- new data is
not read until it has already been written out in the previous step, and old
data is not removed immediately following a step in which it was still being
read, so the previous step is safe to roll back to.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=136196988
There was a circular reference when hydrating a domain with a
subordinate host, since the host references the domain. To fix
this, I redid @DoNotHydrate to be the way it should have been,
rather than the hack I had originally submitted. I also beefed
up the unit tests of the epp resource types to check for cycles.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=135792416
It is replaced by loadByForeignKey(), which does the same thing that
loadByUniqueId() did for contacts, hosts, and domains, and also
loadDomainApplication(), which loads domain application by ROID. This eliminates
the ugly mode-switching of attemping to load by other foreign key or ROID.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=133980156
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
This will improve error messages and allow for easier debugging
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=123893831
This is true even though the domain has three fields (a contact,
a host, and the registrant) whose foreign keys need to be loaded.
This CL also adds the generic ability to do these sort of tests
elsewhere in the code, by instrumenting the datastore instance
used by Objectify to store static counts of method calls.
TESTED=patched in a rollback of [] and confirmed that the
test failed because there were three reads.
-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=123885768
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 javatests/com/google/domain/registry/model/domain/DomainResourceTest.java (Browse further)
