This commit lays out the genral structure and provides necessary
data for the new reporting page designs.
Some of the data generated by the report domain classes (including
the mock CSP reporting class) was modified to fit new designs. This also
included removing data that was no longer necessary. Part of the newly
mocked data includes the idea of "expended" data per CLIN or task order.
This was was mocked simply by using a 75% of the obligated funds fo a
given object. Tests were also written for these new/ modifed reporting
functions.
As for the front end, this commit only focuses on the high-level markup
layout. This includes splitting the large reporting index page into
smaller component templates for each of the major sections of the report.
1. Funding duration
Returns a tuple of the earliest period of performance start date and
latest period of performance end date for all active task order in a portfolio.
2. Days to funding expiration
Returns the numbei of days between today and the lastest
period performance end date of all active task orders
3. Active task orders
Returns a list of a portfolio's active task orders a
This enables JSON logging for Celery workers if the LOG_JSON conig value
is set. It uses the same JsonFormatter class used by the Flask
applications. That class has been updated in two ways:
- It takes a `source` kwarg to define the log source for the formatter.
- The `msg` attribute of the log record is formatted with any arguments
that may have been passed. This is necessary for Celery to render task
type, completion time, etc. into the log output.
disabled env role
We were only checking to see if a role was disabled or deleted before
raising an error, so I added in a check to see if the user was trying to
update the env role before raising an error. The error should only be
raised if the role is disabled or deleted AND the user is trying to
assign a new role to the env role.
I also added in a disabled property to the EnvironmentRole model to make
things more readable.
A CRL test that relies on fixtures files was not getting a working copy
of the relevant CRL list it needed. This also adds a setup function to
the relevant test module so that we can clear and rebuild the CRL
location cache for the fixtures.
This change makes it so that when an env_role is updated to be None, the
role property on the env_role is changed to be None in addition to being
marked as deleted. This also adds in a check so that previously deleted
env_roles cannot be reassigned a role.
whitespace
The validator ListItemRequired() was only checking for None and an empty
string, not for strings that were multiple whitespace characters. This
fixes this issue by checking each item with regex to make sure it
contains non whitespace characters
The filter remove_empty_string() also was not checking for strings that
were multiple whitespace characters. This was also fixed by using regex
tomake sure that the string contains non whitespace characters, and also
clips any trailing whitespace.
The previous solution (ad-hoc stream-parsing the CRLs to obtain their
issuers and nextUpdate) was too cute. It began breaking on CRLs that had
an addition hex 0x30 byte somewhere in their header. I thought that 0x30
was a reserved character only to be used for tags in ASN1 encoded with
DER; turns out that's not true. Rather than write a full-fledged ASN1
stream-parser, the simplest solution is to just maintain the list of
issuers as a constant in the codebase. This is fine because the issuer
for a specific CRL URI should not change. If it does, we've probably got
bigger problems.
This also removes the Flask app's functionality for updating the local
CRL cache. This is being handled out-of-band by a Kubernetes CronJob
and is not a concern of the app's. This means that instances of the
CRLCache do not have to explicitly track expirations for CRLs.
Previously, the in-memory dictionary or CRL issuers and locations
included expirations; now it is flattened to not include that
information.
The CRLCache class has been updated to accept a crl_list kwargs so that
unit tests can provide their own alternative CRL lists, since we now
hard-code the expected CRLs and issuers. The nightly CRL check job has
been updated to check that the hard-coded list of issuers matches what
we get when we actually sync the CRLs.
In local development, the app will fail to start if it does not find the
directory specified by CRL_STORAGE_CONTAINER. This adds a few lines to
safely create that directory on startup and corresponding tests.
AT-AT needs to maintain a key-value CRL cache where each key is the DER
byte-string of the issuer and the value is a dictionary of the CRL file
path and expiration. This way when it checks a client certificate, it
can load the correct CRL by comparing the issuers. This is preferable to
loading all of the CRLs in-memory. However, it still requires that AT-AT
load and parse each CRL when the application boots. Because of the size
of the CRLs and their parsed, in-memory size, this leads to the
application spiking to use nearly 900MB of memory (resting usage is
around 50MB).
This change introduces a small function to ad-hoc parse the CRL and
obtain the information in the CRL we need: the issuer and the
expiration. It does this by reading the CRL byte-by-byte until it
reaches the ASN1 sequence that corresponds to the issuer, and then looks
ahead to find the nextUpdate field (i.e., the expiration date). The
CRLCache class uses this function to build its cache and JSON-serializes
the cache to disk. If another AT-AT application process finds the
serialized version, it will load that copy instead of rebuilding it. It
also entails a change to the function signature for the init method of
CRLCache: now it expects the CRL directory as its second argument,
instead of a list of locations.
The Python script invoked by `script/sync-crls` will rebuild the
location cache each time it's run. This means that when the Kubernetes
CronJob for CRLs runs, it will refresh the cache each time. When a new
application container boots, it will get the refreshed cache.
This also adds a nightly CircleCI job to sync the CRLs and test that the
ad-hoc parsing function returns the same result as a proper parsing
using the Python cryptography library. This provides extra insurance
that the function is returning correct results on real data.
The Celery worker cannot render URLs for the app without having a
SERVER_NAME value set. AT-AT's ability to send notifications when an
environment is ready is broken as a result.
This commit sets a null default value for SERVER_NAME in the default
config file. A setting must exist in the INI file in order to be
over-written by an environment variable, which is why we declare it as
null here. There is an additional kwarg, "allow_no_value", that must be
passed to ConfigParser to allow null values.
This also applies the correct domains as SERVER_NAME environment
variables in the Kubernetes ConfigMaps for the AWS and Azure Celery
workers.
