google-nomulus/docs/operational-procedures.md

Operational procedures

This document covers procedures that are typically used when running a production registry system.

[TOC]

OT&E onboarding

Managing static premium price lists

Premium list file format

Nomulus comes with a StaticPremiumListPricingEngine that determines premium prices of domain labels (i.e. the part of the domain name without the TLD) by checking for their presence on a list of prices in Datastore. nomulus is used to load and update these lists from flat text files. The format of this list is simple: It is a newline-delimited CSV text file with each line containing the label and its price (including currency specifier in ISO-4217 format). As an example:

premium,USD 100
superpremium,USD 500

By convention, premium lists are named after the TLD they apply to (with one premium list per TLD). If the above example applied to the exampletld example, then the file would be saved as exampletld.txt and the domain name premium.exampletld would cost $100. It is also possible to have a single premium list that is used on multiple TLDs, for which a different naming convention would be used.

It is recommended that you store your premium list .txt files in a backed-up location that is accessible to all members of your team (ideally in a source control system for revision tracking). These files should be thought of as the canonical versions of your premium lists. Note that there is no provided way to reconstruct a premium list .txt file from the premium list that is loaded into Datastore (though in principle it would be easy to do by writing a tool to do so), so don't lose those .txt files.

Creating a premium list

Once the file containing the premium prices is ready, run the create_premium_list command to load it into Datastore as follows:

$ nomulus -e {ENVIRONMENT} create_premium_list -n exampletld -i exampletld.txt

You are about to save the premium list exampletld with 2 items:
Perform this command? (y/N): y
Successfully saved premium list exampletld

-n is the name of the list to be created, and -i is the input filename. Note that the convention of naming premium lists after the TLD they are intended to be used for to is enforced unless the override parameter -o is passed, which allows premium lists to be created with any name.

Updating a premium list

If the premium list already exists and you want to update it with new prices from a text file, the procedure is exactly the same, except using the update_premium_list command as follows:

$ nomulus -e {ENVIRONMENT} update_premium_list -n exampletld -i exampletld.txt

You are about to save the premium list exampletld with 2 items:
Perform this command? (y/N): y
Successfully saved premium list exampletld

Applying a premium list to a TLD

Separate from the management of the contents of individual premium lists, a premium list must first be applied to a TLD before it will take effect. You will only need to do this when first creating a premium list; once it has been applied, it stays applied, and updates to the list are effective automatically. Note that each TLD can have no more than one premium list applied to it. To apply a premium list to a TLD, run the update_tld command with the following parameter:

$ nomulus -e {ENVIRONMENT} update_tld exampletld --premium_list exampletld
Update Registry@exampletld
premiumList -> [null, Key<?>(EntityGroupRoot("cross-tld")/PremiumList("exampletld"))]

Perform this command? (y/N): y
Updated 1 entities.

Checking which premium list is applied to a TLD

The get_tld command shows which premium list is applied to a TLD (along with all other information about a TLD). It is used as follows:

$ nomulus -e {ENVIRONMENT} get_tld exampletld
[ ... snip ... ]
premiumList=Key<?>(EntityGroupRoot("cross-tld")/PremiumList("exampletld"))
[ ... snip ... ]

Listing all available premium lists

The list_premium_lists command is used to list all premium lists in Datastore. It takes no arguments and displays a simple list of premium lists as follows:

$ nomulus -e {ENVIRONMENT} list_premium_lists
exampletld
someotherlist

Managing reserved lists

Reserved lists are static lists of labels that are blocked from being registered for various reasons, usually because of potential abuse.

Reserved list file format

Reserved lists are handled in a similar way to premium lists (see above), except that rather than each label having a price, it has a reservation type. The valid values for reservation types are:

• UNRESERVED - The default value for any label that isn't reserved. Labels that aren't explictly under any other status implictly have this value.
• ALLOWED_IN_SUNRISE - The label can be registered during the sunrise period by a registrant with a valid claim but it is reserved thereafter.
• MISTAKEN_PREMIUM - The label is reserved because it was mistakenly put on a premium list. It may be registered during sunrise by a registrant with a valid claim but is reserved thereafter.
• RESERVED_FOR_ANCHOR_TENANT - The label is reserved for the use of an anchor tenant, and can only be registered by someone sending along the EPP passcode specified here at time of registration.
• NAME_COLLISION - The label is reserved because it is on an ICANN collision list. It may be registered during sunrise by a registrant with a valid claim but is reserved thereafter.
• FULLY_BLOCKED - The label is fully reserved, no further reason specified.

The reservation types are listed in order of increasing precedence, so if a label is included on the same list multiple lists, or on different lists that are applied to a single TLD, whichever reservation type is later in the list takes precedence. E.g. a label being fully blocked in one list always supersedes it being allowed in sunrise from another list. In general FULLY_BLOCKED is by far the most widely used reservation type for typical TLD use cases.

Here's an example of a small reserved list. Note that RESERVED_FOR_ANCHOR_TENANT is the only reservation type that has a third entry on the line, that entry being the EPP passcode required to register the domain (hunter2 in this case):

reserveddomain,FULLY_BLOCKED
availableinga,ALLOWED_IN_SUNRISE
fourletterword,FULLY_BLOCKED
acmecorp,RESERVED_FOR_ANCHOR_TENANT,hunter2

There are two types of reserved lists: Those that are intended to apply to a specifc TLD, and are thus prefixed with the name of the TLD followed by an underscore, and those that can be applied to any TLD, and are prefixed with common_. For example, a list of reserved labels on the TLD exampletld might be named exampletld_blocked-names.txt, whereas a similar list intended to apply to multiple TLDs might be named common_blocked-names.txt. Note that these naming conventions are enforced by the tooling used to create and apply reserved lists (see subsequent sections).

Creating a reserved list

Once the file containing the list of reserved terms is created, run the create_reserved_list command to load it into Datastore as follows. For the purposes of this example, we are creating a common reserved list named "common_bad-words".

$ nomulus -e {ENVIRONMENT} create_reserved_list -n common_bad-words \
    -i common_bad-words.txt
[ ... snip long confirmation prompt ... ]
Perform this command? (y/N): y
Updated 1 entities.

-n is the name of the reserved list to create, and -i is the input file containing the list. Note that if -n is omitted, the list name is inferred from the input of the filename minus its file extension. It is recommended to store all lists such that the filename and list name are identical.

Updating a reserved list

To update the contents of an existing reserved list, make changes to the .txt file containing the reserved list entries, then pass it as input to the update_reserved_list command as follows:

$ nomulus -e {ENVIRONMENT} update_reserved_list -n common_bad-words \
    -i common_bad-words.txt
[ ... snip diff of changes to list entries ... ]
Perform this command? (y/N): y
Updated 1 entities.

Note that, like the create command, the name of the list is inferred from the filename if the -n parameter is omitted.

Applying a reserved list to a TLD

Separate from the management of the contents of individual reserved lists, reserved lists must also be applied to a TLD. Unlike premium lists, for which each TLD may only have a single list applied, a TLD can have any number of reserved lists applied. The list of reserved labels for a TLD is the union of all applied reserved lists, using the precedence rules described earlier when a label appears in more than one list.

To add a reserved list to a TLD, run the update_tld command with the following parameter:

$ nomulus -e {ENVIRONMENT} update_tld exampletld \
    --add_reserved_lists common_bad-words
Update Registry@exampletld
reservedLists -> [null, [Key<?>(EntityGroupRoot("cross-tld")/ReservedList("common_bad-words"))]]
Perform this command? (y/N): y
Updated 1 entities.

The --add_reserved_lists parameter can take a comma-delimited list of reserved list names if you are applying multiple reserved lists to a TLD. There is also a --remove_reserved_lists parameter that functions as you might expect.

Naming rules are enforced: reserved lists that start with common_ can be applied to any TLD (though they don't automatically apply to all TLDs), whereas reserved lists that start with the name of a TLD can only be applied to the TLD with that name.

Checking which reserved lists are applied to a TLD

The get_tld command shows which reserved lists (if any) are applied to a TLD, along with lots of other information about that TLD which is not relevant to our purposes here. It is used as follows:

$ nomulus -e {ENVIRONMENT} get_tld exampletld
[ ... snip ... ]
reservedLists=[Key<?>(EntityGroupRoot("cross-tld")/ReservedList("common_bad-words"))]
[ ... snip ... ]

Listing all available reserved lists

The list_reserved_lists command is used to list all reserved lists in Datastore. It takes no arguments and displays a simple list of reserved lists in newline-delimited format as follows:

$ nomulus -e {ENVIRONMENT} list_reserved_lists
common_bad-words
exampletld_some-other-list

StackDriver monitoring

Updating cursors

In most cases, cursors will not advance if a task that utilizes a cursor fails (so that the task can be retried for that given timestamp). However, there are some cases where a cursor is updated at the end of a job that produces bad output (for example, RDE export), and in order to re-run a job, the cursor will need to be rolled back.

In rare cases it might be useful to roll a cursor forward if there is some bad data at a given time that prevents a task from completing successfully, and an acceptable solution is to simply skip the bad data.

Cursors can be updated as follows:

$ nomulus -e {ENVIRONMENT} update_cursors exampletld --type RDE_STAGING \
    --timestamp 2016-09-01T00:00:00Z
Update Cursor@ahFzfmRvbWFpbi1yZWdpc3RyeXIzCxIPRW50aXR5R3JvdXBSb290Igljcm9zcy10bGQMCxIIUmVnaXN0cnkiB3lvdXR1YmUM_RDE_STAGING
cursorTime -> [2016-09-23T00:00:00.000Z, 2016-09-01T00:00:00.000Z]

Perform this command? (y/N): Y
Updated 1 entities.