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Server-side collector and aggregator for recovering data protected by the Constellation/nested STAR protocol.

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Constellation Processors

Server-side collector, aggregator and data lake sink for recovering data protected by the nested version of the STAR protocol.

Includes:

  • Server: for collecting messages protected by Constellation/STAR
  • Aggregator: for decrypting message data deemed recoverable
  • Data lake sink: for storage of decrypted message data

Data flow

Data flow

Usage

One or more modes must be selected: server (-s flag), aggregator (-a flag) and/or data lake sink (-l flag).

Run cargo run -- -h to see options.

Development environment setup

Copy .env.example to .env. Run docker-compose up -d.

Run cargo run with the desired arguments. If the aggregator is run, database migrations will be automatically applied.

Collecting measurements/sending test measurements

  1. Run a collector/server to collect measurements: cargo run -- -s
  2. Run the test client in the misc/test-client directory. This command will send k * 10 messages (10 unique measurements) with epoch 1: cargo run -- -e 1 -u 10

Running aggregation/sinking/viewing results

  1. Run data lake sink: cargo run -- -l
  2. Run the aggregator, with a test current epoch value (usually the current epoch is fetched from the randomness server directly): cargo run -- -a --test-epoch 1
  3. Use awscli-local to list and copy the jsonl files from the p3a-star-recovered bucket.

Outputting measurements to stdout

The --output-measurements-to-stdout switch can be used to output measurements to the console from the data lake sink or aggregator. If this mode is enabled in the aggregator, measurements will not be sent to the "decrypted" Kafka stream/data lake sink.

Environment variables

Name Default value Required? Description
K_THRESHOLD 50 No The selected k threshold for the Constellation application.
KAFKA_BROKERS Yes List of Kafka brokers to connect to.
DATABASE_URL Yes Postgres database URL. Used to store recovered keys, unrecovered messages and measurement counts. The database name must not be included in the URL, it must be provided in the DATABASE_NAMES variable.
TEST_DATABASE_URL Only if tests are run Database URL to use for integration tests. The database name must be included in the URL.
S3_ENDPOINT No Endpoint for connecting to S3. Optional, but useful for development purposes (i.e. connecting to LocalStack).
S3_OUTPUT_BUCKET p3a-star-recovered No Name of S3 bucket for storing recovered measurements.
DATABASE_MAX_CONN 100 No Max connections for Postgres connection pool.
DATABASE_MAX_WRITE_CONN 8 No Max connections to use for updates/inserts. A transaction will be created for each connection.
LAKE_SINK_BATCH_SIZE 1000 No Number of recovered measurements to store per data lake file.
MIN_RECV_RATE_PER_SEC 100 No The minimum consumption rate for encrypted messages. If the consumption rate is below this value, it is assumed that the consumer is near the end of the stream. Consumption will stop if the rate is below this value.
MAX_INIT_RECV_TIMEOUT_MS 30000 No The maximum amount of time to wait for an encrypted message to be received, at the beginning of consumption.
MIN_MSGS_TO_PROCESS 1000 No The minimum amount of consumed messages to process/aggregate. If the amount consumed is below this value, the process will exit.
KAFKA_ENABLE_PLAINTEXT No If set to true, TLS will not be used for Kafka connections.
KAFKA_TLS_CA_CERT_PATH No CA certificate path to use for Kafka TLS connections.
KAFKA_TLS_CERT_PATH No Certificate path to use for Kafka TLS connections.
KAFKA_TLS_KEY_PATH No Key path to use for Kafka TLS connections.
KAFKA_PRODUCE_QUEUE_TASK_COUNT 64 No Amount of tasks to use for producing Kafka records.
CHECK_SPOT_TERMINATION false No Uses AWS IMDSv2 service to periodically check for spot termination warnings. In the event of an upcoming eviction, the check will ensure that the process terminates before committing to Kafka and the database to avoid potential data inconsistencies.
IMDS_ENDPOINT http://169.254.169.254 No Endpoint to use for IMDSv2 requests.

Data channel settings

Each environment variable below can contain multiple data channels, with one value associated with each channel.

The format for an individual data channel setting is <data channel name>=<value for data channel>. Multiple channel settings can be configured for each environment variable by using a comma as a delimiter.

Name Default value Required? Description
KAFKA_ENCRYPTED_TOPICS typical=p3a-star-enc No Topics for storing protected messages.
KAFKA_OUTPUT_TOPICS typical=p3a-star-out No Topics for storing recovered measurements.
DATABASE_NAMES typical=postgres No Postgres database names for the aggregator.
EPOCH_LENGTHS typical=1w No Time periods of the epochs.
EPOCH_LIFETIMES typical=3 No The amount of current & recent previous epochs considered to be 'active'. Epochs older than this lifetime will be consider 'expired', and all partial measurements will be reported at the end of aggregation, if any.
EPOCH_DATE_FIELD_NAMES typical=wos No The name of the date fields to inject into the aggregated measurements. The injected field will include the survey date, inferred via the measurement epoch.
RANDOMNESS_INSTANCE_NAMES typical=typical No Randomness server instance names, for retrieving relevant server info.
MIN_CHANNEL_REVISIONS No The minimum Brave-P3A-Version header value for measurements submitted to the server.

The main channel name can be selected by using the --main-channel-name switch. Using this switch will have the following effects:

  • If the server is utilized, measurements sent to the / path will be sent to the Kafka topic associated with this channel.
  • If the aggregator is utilized, the Kafka topics and database name associated with this channel will be used in processing.
  • This setting has no effect on the lake sink.

Test client

A test client can be found in misc/test-client.

It can be used to generate random encrypted measurements, create encrypted messages from existing measurements in a CSV and sending the messages to the server.

To generate random measurements and send them to the server, run cargo run -- -u 10. This will send 10 random measurements that meet k to the server (1000 messages total, assuming k is set to 100).

To generate messages from existing measurements in a CSV, ensure the CSV is prepared correctly. Columns will be converted to STAR layers in the order defined in the CSV. Ensure the total number of occurences for the measurement is in last column.

Example:

question_hash,answer_index,channel,platform,country_code,woi,total
00469a48c5ec8932,0,release,winia32-bc,  ,2022-01-10,1
00469a48c5ec8932,0,release,winia32-bc,  ,2022-01-10,1
00469a48c5ec8932,0,release,winx64-bc,  ,2020-12-21,1
00469a48c5ec8932,0,release,winx64-bc,  ,2022-02-21,2

Run cargo run -- --gen-data-file data.csv. A file containing encrypted messages will be created.

Run cargo run -- --messages-file data.b64l to send the encrypted messages to the server.

See cargo run -- -h for all options.

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Server-side collector and aggregator for recovering data protected by the Constellation/nested STAR protocol.

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