THIS IS A TEST INSTANCE. ALL YOUR CHANGES WILL BE LOST!!!!
Authors Mehari Beyene, Divij Vaidya
Status
Current state: Under Discussion
Discussion thread: here
JIRA: KAFKA-14991
Please keep the discussion on the mailing list rather than commenting on the wiki (wiki discussions get unwieldy fast).
Motivation
In Kafka, the introduction of the timestamp field in the message format through KIP-32 brought along two additional configurations: log.message.timestamp.type and log.message.timestamp.difference.max.ms.
By default, the configuration values are log.message.timestamp.type=CreateTime and log.message.timestamp.difference.max.ms=9223372036854775807 (java.lang.Long.MAX_VALUE). This allows Producers to send messages with timestamps as far back as the minimum representable timestamp and ahead in the future at a scale of 100s of years. (Side Note: We could potentially change the default value of log.message.timestamp.difference.max.ms to something more sensible but that is not the motivation for this KIP.)
While there can be valid use cases for messages with past timestamps for the purpose of replaying old messages, messages with future timestamps are inherently inaccurate and can lead to unexpected log rotation behavior. Kafka users have encountered problems due to misconfigured producers, such as using nanoseconds instead of milliseconds for the message timestamp. This anecdotal evidence from a Medium article highlights the challenges associated with this issue.
The motivation behind this proposal is to improve the validation logic for message timestamps by rejecting messages with future timestamps and providing a descriptive exception. This will help improve data integrity and prevent potential pitfalls caused by inaccurate timestamp handling.
Public Interfaces
There will be no change to existing public interfaces. However, when a producer's record is rejected due to this new validation, we will return error code 32 (INVALID_TIMESTAMP) with the error message "Timestamp of the message with offset [record offset] is ahead of the broker's current time."
We are also introducing two new configurations and deprecating the configuration log.message.timestamp.difference.max.ms as discussed in the Proposed Changes section.
Proposed Changes
We will introduce two new configurations: log.message.timestamp.before.max.ms and log.message.timestamp.after.max.ms. Additionally, we will deprecate the existing configuration log.message.timestamp.difference.max.ms.
log.message.timestamp.before.max.ms: This configuration defines that the message timestamp must always be earlier than or equal to the broker's timestamp, with a maximum allowable difference determined by the value of log.message.timestamp.before.max.ms.
- Type: long
- Default: 9223372036854775807
- Valid Values: [0,...]
- Update Mode: cluster-wide
Note that the default value of log.message.timestamp.before.max.ms is kept the same as log.message.timestamp.difference.max.ms to maintain backward compatibility.
log.message.timestamp.after.max.ms: This configuration defines that the message timestamp must always be later than or equal to the broker's timestamp, with a maximum allowable difference determined by the value of log.message.timestamp.after.max.ms.
- Type: long
- Default: 3600000
- Valid Values: [0,...]
- Update Mode: cluster-wide
Note that the default value for log.message.timestamp.after.max.ms is set to 3600000 milliseconds (one hour). Considering potential clock drift issues that the broker may encounter with the time synchronization service of the underlying operating system, we propose the default value of this configuration to be one hour. Time synchronization services like NTP and PTP are capable of fixing drift in the order of milliseconds. Therefore, assuming a one-hour threshold should be sufficient to accommodate all clock drift cases.
Timestamp Validation Logic
The validation occurs before appending a message to the active segment of the local log. If log.message.timestamp.type=LogAppendTime, the server overwrites the timestamp with the broker's timestamp and proceeds without further validation related to the record timestamp. Note that variations exist when the message is compressed or not compressed, but the existing logic remains unchanged. Regardless of compression, the timestamp is always overwritten with the broker's current time.
We iterate through each batch included in the write request, and the validation logic in sudo code for each record looks like the following:
New Validation Logic
if message.timestamp <= broker.timestamp:
time_difference = broker.timestamp - message.timestamp
if time_difference <= log.message.timestamp.before.max.ms:
# Validation passed for timestamp before
// Proceed with further logic
else:
# Validation failed for timestamp before
return Error code 32 (INVALID_TIMESTAMP)
else if message.timestamp > broker.timestamp:
time_difference = message.timestamp - broker.timestamp
if time_difference <= log.message.timestamp.after.max.ms:
# Validation passed for timestamp after
// Proceed with further logic
else:
# Validation failed for timestamp after
return Error code 32 (INVALID_TIMESTAMP)
For comparison, the validation logic above replaces the current validation, which is represented by the following sudo code:
Existing Validation Logic
time_difference = absolute(message.timestamp - broker.timestamp)
if time_difference > log.message.timestamp.difference.max.ms:
# Validation failed for timestamp difference
return Error code 32 (INVALID_TIMESTAMP)
else:
# Validation passed for timestamp difference
# Proceed with further logic
It is important to note that if a validation fails, even for a single record within a batch, we reject the entire batch. This behavior remains consistent for both timestamp validation scenarios: records with future timestamps and records with past timestamps.
Please note that the description above omits details of other orthogonal validations such as key verification in compacted topics, offset contiguity verification, and batch record count verification.
Compatibility, Deprecation, and Migration Plan
The semantics of configuration log.message.timestamp.difference.max.ms is modified. Prior to this KIP, the config allowed for accommodating arbitrary time difference in future, whereas after this KIP messages with future timestamps that were previously accepted by the broker will now be rejected. We consider this an acceptable breaking change. The semantics of the configuration about time difference in the past remain same.
There are no other changes to public interfaces that will impact clients.
Test Plan
- This change will be tested via unit test.
- Additional verification will be done by recreating the issue manually and verifying that the correct error message is returned.
Future Work: Update Message format to include both Client Timestamp and LogAppend Timestamp
In the current message format (v2), a single Timestamp field is used, qualified by the timestamp type (0 for CreateTime, 1 for LogAppendTime). However, this design limits our selection to either the client timestamp or the broker's append time for log retention logic.
Nevertheless, both the client and broker timestamps are relevant as they capture different information and can be used to evaluate retention logic differently. The client timestamp closely represents the actual event timestamp as assigned by the producer. On the other hand, the broker's timestamp only indicates the time of log append, which can be considered an implementation detail.
To address this limitation, we have considered a modification that captures both the CreateTime and LogAppendTime, allowing for a more nuanced representation and validation of timestamps. However, the proposed change in this KIP does not involve updating the message format and incrementing the message version to v3. Such an update is a major undertaking that requires modifications across multiple components. We maintain a wiki entry that tracks the motivations for updating the message format, and it has been updated to include the proposal of capturing both timestamps.
Rejected Alternatives
Add a broker-level configuration for TIME_DRIFT_TOLERANCE instead of a hardcoded constant.
Pros:
- Configuration Flexibility: Having the time drift tolerance as a configuration would allow Kafka users to adjust this value according to their specific requirements.
Cons:
- Unusable configuration: Users typically resolve clock drift issues by fixing the clock drift on the broker or producer side, rather than adjusting the time drift tolerance configuration. Therefore, introducing a new configuration specifically for this purpose would likely result in an unused or disregarded configuration.
- Increased complexity: Kafka already has a significant number of configurations and adjustable parameters. Adding a new configuration would contribute to the overall complexity of the system, requiring users to understand, manage, and adjust yet another parameter.
- One-way door decision: Introducing this configuration would be an irreversible decision, and it would need to be supported in all future Kafka versions. However, if the decision is made to add the configuration in the future, instead of hardcoding the value, it could be implemented without causing disruptions or breaking existing functionalities.