* Upgrade of Bouncy Castle to resolve security issue
* Changed default signature scheme
* Reverted default change in draft
* Key conversion for BC with ed25519
* Initializing BC provider to use X509EdDSAEngine for Signature.Ed25519
* removed unsude imports
Co-authored-by: Nick Dunstone <nick.a.dunstone@gmail.com>
Do not let a user reattach to a flow started by another user.
Reattaching to a flow using startFlowWithClientId for a flow not
started by the current user throws a PermissionException
Reattaching to a flow using reattachFlowWithClientId for a flow not
started by the current user returns null.
finishedFlowsWithClientIds does not return flows started by other
users.
Normal rpc permissions around startFlowWithClientId and
startFlowDynamicWithClientId has also been added.
To allow admins to remove client ids as well as be able to see all the
client ids on the node, admin versions have been added that bypass the
user restrictions. These can be permitted via rpc to only provide
their usage to admins.
* INFRA-424 linux1 jenkinsfile
* INFRA-424 full run
* INFRA-424 bigger heap size
* Upgraded DJVM to handle BC - latest version of BC is a multirelease JAR.
When reading JKS keystore if a BC EdDSAPrivateKey is returned then swap for a net.i2p EdDSA private key.
* Temporary downgrade of BC
* Removed the BC EdDSA conversion
* INFRA-424 bigger heap size
* Upgrading Quasar to handle openJ9 different fields.
* INFRA-424: Handle lack of SUPPRESSED_SENTINEL in openj9.
* INFRA-424: If BCEdDSA public or private key is generated convert to net.i2p EdDSA form.
* INFRA-424 bigger heap size
* INFRA-424: On openJ9 only getting upto milli resolution.
* INFRA-424: Handle keystore returning a BCEdDSAPrivateKey.
* INFRA-424: Disable test on JDK11, as it requires the custom cordapp to generate JDK8 contract code, which we now check for.
* INFRA-424: Truncated time test to resolution of millis for openj9.
* INFRA-424 disabling log intensive tests until a fix is developed
* INFRA-424 one more test disabled
* INFRA-424: Disabled a couple of tests failing on openj9.
* INFRA-424: Disabling failing openj9 tests.
* INFRA-424: Disabling test failing on openj9.
* INFRA-424: Ignoring another flaky sleep test on openj9.
* INFRA-424 run integrationTests
* INFRA-424 set timeout to 4 hours
* INFRA-424: Cope with exception message from openj9.
* INFRA-424: Handle the coloured text characters openj9 adds.
* INFRA-424: Disabling test as it is generating JDK11 contract code under JDK11. Currently on JDK8 contract code allowed.
* INFRA-424: Commenting test out for openj9. Output of the processs thats read by the test is sometimes garbled.
* INFRA-424 switching to smoke tests
* INFRA-424 switching to slow integration tests
* INFRA-424 full run
* INFRA-424 moving jenkinsfile
* INFRA-424 removing references
* INFRA-424: Created common IS_OPENJ9 func for ignoring tests.
Co-authored-by: Schife <razvan.codreanu@r3.com>
Add `CordaRPCOps.reattachFlowWithClientId` to allow clients to reattach
to an existing flow by only providing a client id. This behaviour is the
same as calling `startFlowDynamicWithClientId` for an existing
`clientId`. Where it differs is `reattachFlowWithClientId` will return
`null` if there is no flow running or finished on the node with the same
client id.
Return `null` if record deleted from race-condition
Making statemachine not remove COMPLETED flows' checkpoints from the database
if they are started with a clientId, instead they are getting persisted and retained within
the database along with their result (`DBFlowResult`).
On flow start with a client id (`startFlowDynamicWithClientId`), if the client id maps to
a flow that was previously started with the same client id and the flow is now finished,
then fetch the `DBFlowResult` from the database to construct a
`FlowStateMachineHandle` done future and return it back to the client.
Object stored as results must abide by the storage serializer rules. If they fail to do so
the result will not be stored and an exception is thrown to the client to indicate this.
* CORDA-3717: Apply custom serializers to checkpoints
* Remove try/catch to fix TooGenericExceptionCaught detekt rule
* Rename exception
* Extract method
* Put calls to the userSerializer on their own lines to improve readability
* Remove unused constructors from exception
* Remove unused proxyType field
* Give field a descriptive name
* Explain why we are looking for two type parameters when we only use one
* Tidy up the fetching of types
* Use 0 seconds when forcing a flow checkpoint inside test
* Add test to check references are restored correctly
* Add CheckpointCustomSerializer interface
* Wire up the new CheckpointCustomSerializer interface
* Use kryo default for abstract classes
* Remove unused imports
* Remove need for external library in tests
* Make file match original to remove from diff
* Remove maySkipCheckpoint from calls to sleep
* Add newline to end of file
* Test custom serializers mapped to interfaces
* Test serializer configured with abstract class
* Move test into its own package
* Rename test
* Move flows and serializers into their own source file
* Move broken map into its own source file
* Delete comment now source file is simpler
* Rename class to have a shorter name
* Add tests that run the checkpoint serializer directly
* Check serialization of final classes
* Register as default unless the target class is final
* Test PublicKey serializer has not been overridden
* Add a broken serializer for EdDSAPublicKey to make test more robust
* Split serializer registration into default and non-default registrations. Run registrations at the right time to preserve Cordas own custom serializers.
* Check for duplicate custom checkpoint serializers
* Add doc comments
* Add doc comments to CustomSerializerCheckpointAdaptor
* Add test to check duplicate serializers are logged
* Do not log the duplicate serializer warning when the duplicate is the same class
* Update doc comment for CheckpointCustomSerializer
* Sort serializers by classname so we are not registering in an unknown or random order
* Add test to serialize a class that references itself
* Store custom serializer type in the Kryo stream so we can spot when a different serializer is being used to deserialize
* Testing has shown that registering custom serializers as default is more robust when adding new cordapps
* Remove new line character
* Remove unused imports
* Add interface net.corda.core.serialization.CheckpointCustomSerializer to api-current.txt
* Remove comment
* Update comment on exception
* Make CustomSerializerCheckpointAdaptor internal
* Revert "Add interface net.corda.core.serialization.CheckpointCustomSerializer to api-current.txt"
This reverts commit b835de79bd.
* Restore "Add interface net.corda.core.serialization.CheckpointCustomSerializer to api-current.txt""
This reverts commit 718873a4e9.
* Pass the class loader instead of the context
* Do less work in test setup
* Make the serialization context unique for CustomCheckpointSerializerTest so we get a new Kryo pool for the test
* Rebuild the Kryo pool for the given context when we change custom serializers
* Rebuild all Kryo pools on serializer change to keep serializer list consistent
* Move the custom serializer list into CheckpointSerializationContext to reduce scope from global to a serialization context
* Remove unused imports
* Make the new checkpointCustomSerializers property default to the empty list
* Delegate implementation using kotlin language feature
Introducing a new flow start method (`startFlowDynamicWithClientId`) passing in a `clientId`.
Once `startFlowDynamicWithClientId` gets called, the `clientId` gets injected into `InvocationContext` and also pushed to the logging context.
If a new flow starts with this method, then a < `clientId` to flow > pair is kept on node side, even after the flow's lifetime. If `startFlowDynamicWithClientId` is called again with the same `clientId` then the node identifies that this `clientId` refers to an existing < `clientId` to flow > pair and returns back to the rpc client a `FlowStateMachineHandle` future, created out of that pair.
`FlowStateMachineHandle` interface was introduced as a thinner `FlowStateMachine`. All `FlowStateMachine` properties used by call sites are moved into this new interface along with `clientId` and then `FlowStateMachine` extends it.
Introducing an acknowledgement method (`removeClientId`). Calling this method removes the < `clientId` to flow > pair on the node side and frees resources.
* CORDA-3769: Switched attachments class loader cache to use caffeine with original implementation used by determinstic core.
* CORDA-3769: Removed default ctor arguments.
* CORDA-3769: Switched mapping function to Function type to avoid synthetic method being generated.
* CORDA-3769: Now using a cache created from NamedCacheFactory for the attachments class loader cache.
* CORDA-3769: Making detekt happy.
* CORDA-3769: The finality tests now check for UntrustedAttachmentsException which will actually happen in reality.
* CORDA-3769: Refactored after review comments.
* CORDA-3769: Removed the AttachmentsClassLoaderSimpleCacheImpl as DJVM does not need it. Also updated due to review comments.
* CORDA-3769: Removed the generic parameters from AttachmentsClassLoader.
* CORDA-3769: Removed unused imports.
* CORDA-3769: Updates from review comments.
* CORDA-3769: Updated following review comments. MigrationServicesForResolution now uses cache factory. Ctor updated for AttachmentsClassLoaderSimpleCacheImpl.
* CORDA-3769: Reduced max class loader cache size
* CORDA-3769: Fixed the attachments class loader cache size to a fixed default
* CORDA-3769: Switched attachments class loader size to be reduced by fixed value.
Added command-line option: `--pause-all-flows` to the Node to control this.
This mode causes all checkpoints to be set to status PAUSED when the
state machine starts up (in StartMode.Safe mode).
Changed the state machine so that PAUSED checkpoints are loaded into
memory (the checkpoint is deserialised but the flow state is left serialised)
but not started.
Messages from peers are queued whilst the flow is paused and processed
once the flow is resumed.
* Bump OS release version 4.6
* CORDA-3755: Switched attachments map to a WeakHashMap
* CORDA-3755: Added explicit strong references to map key.
* CORDA-3755: Keeping detekt happy.
* CORDA-3755: Test a gc in verify.
* CORDA-3755: Making detekt happy.
* CORDA-3755: Suppress warnings for weak reference test.
* CORDA-3755: Fixing build failure with attachments.
* CORDA-3755: Rewrite based on Ricks input - now handles attachment already existing in map!
* CORDA-3755: Refactor WeakReference behaviour into AttachmentsHolderImpl and provide alternate version of this class for core-deterministic.
* CORDA-3755: Added more tests for WeakHashMap.
* CORDA-3755: Ignore the tests using System.gc keep for local testing only
* CORDA-3755: Adding comment to explain the ignored tests.
* Make AttachmentsHolderImpl package-private inside core-deterministic, just like it is inside core.
* CORDA-3755: Update assertions following review comments.
* CORDA-3755: Removing import
* CORDA-3755: Removed unused var.
* CORDA-3755: Reverting files that somehow got changed in rebase.
Co-authored-by: nargas-ritu <ritu.gupta@r3.com>
Co-authored-by: Chris Rankin <chris.rankin@r3.com>
* CORDA-3715: When loading cordapps now check that contract classes have class version between 49 and 52
* CORDA-3715: Now check class version when contract verification takes place.
* CORDA-3715: Making detekt happy with number of levels in func
* CORDA-3715: Make use of new ClassGraph release which provides class file major version number.
* CORDA-3715: Changed package name in test jars
* CORDA-3715: Use ClassGraph when loading attachments.
* CORDA-3715: Reverted file to 4.5 version
* CORDA-3715: Updating method to match non deterministic version.
* CORDA-3715: Added in default param.
* CORDA-3715: Adjusted min JDK version to 1.1
* CORDA-3715: Switching check to JDK 1.2
* CORDA-3715: Now version check SerializationWhitelist classes.
* CORDA-3715: Switched default to null for range.
* CORDA-3291 `isKilled` flag and session errors for killed flows
## Summary
Two major improvements have been worked on:
- A new flag named `isKilled` has been added to `FlowLogic` to allow
developers to break out of loops without suspension points.
- Killed flows now send session errors to their counter parties allowing
their flows to also terminate without further coordination.
Achieving these changes required a __fundamental__ change to how flows are
killed as well as how they sleep.
## `isKilled` flag
The addition of `FlowLogic.isKilled` allows flows to check if the
current flow has been killed. They can then throw an exception to lead
to the flow's termination (following the standard error pathway). They
can also perform some extra logic or not throw an exception if they
really wanted to.
No matter what, once the flag is set, the flow will terminate. Due to
timing, a killed flow might successfully process its next suspension
event, but it will then process a killed transition and terminate.
## Send session errors when killing a flow
A flow will now send session errors to all of its counter parties. They
are transferred as `UnexpectedFlowEndException`s. This allows initiated
flows to handle these errors as they see fit, although they should
probably just terminate.
## How flows are killed
### Before
Originally we were relying on Quasar to interrupt a flow's fiber, we
could then handle the resulting `InterruptedException`. The problem with
this solution is that it only worked when a flow was already suspended
or when a flow moved into suspension. Flows stuck in loops did not work.
### After
We now *do not* use Quasar to interrupt a flow's fiber. Instead, we
switch `FlowStateMachine.isKilled` to true and schedule a new event.
Any event that is processed after switching this flag will now cause a
`KilledFlowTransition`. This transition follows similar logic to how
error propagation works. Note, the extra event allows a suspended flow
to be killed without waiting for the event that it was _really_ waiting
for.
This allows a lot of the tidy up code in `StateMachineManager.killFlow`
to be removed as tidy up is executed as part of removing a flow.
Deleting a flow's checkpoint and releasing related soft locks is still
handled manually in case of infinite loops but also triggered as part
of the actions executed in a transition.
This required flow sleeping to be changed as we no longer rely on
quasar.
## How flows now sleep
The reliance on Quasar to make a flow sleep has been removed.
Instead, when a flow sleeps we create a `ScheduledFuture` that is
delayed for the requested sleep duration. When the future executes it
schedules a `WakeUpFromSleep` event that wakes up the flow... Duh.
`FlowSleepScheduler` handles the future logic. It also uses the same
scheduled thread pool that timed flows uses.
A future field was added to `StateMachineState`. This removes the
need for concurrency control around flow sleeps as the code path does
not need to touch any concurrent data structures.
To achieve this:
- `StateMachineState.future` added as a `var`
- When the `ScheduledFuture` is created to wake up the flow the passed
in `StateMachineState` has its `future` value changed
- When resumed `future` and `isWaitingForFuture` are set to `null` and
`false` respectively
- When cancelling a sleeping flow, the `future` is cancelled and nulled
out. `isWaitingForFuture` is not changed since the flow is ending anyway
so really the value of the field is not important.
* CORDA-3722 withEntityManager can rollback its session
## Summary
Improve the handling of database transactions when using
`withEntityManager` inside a flow.
Extra changes have been included to improve the safety and
correctness of Corda around handling database transactions.
This focuses on allowing flows to catch errors that occur inside an
entity manager and handle them accordingly.
Errors can be caught in two places:
- Inside `withEntityManager`
- Outside `withEntityManager`
Further changes have been included to ensure that transactions are
rolled back correctly.
## Catching errors inside `withEntityManager`
Errors caught inside `withEntityManager` require the flow to manually
`flush` the current session (the entity manager's individual session).
By manually flushing the session, a `try-catch` block can be placed
around the `flush` call, allowing possible exceptions to be caught.
Once an error is thrown from a call to `flush`, it is no longer possible
to use the same entity manager to trigger any database operations. The
only possible option is to rollback the changes from that session.
The flow can continue executing updates within the same session but they
will never be committed. What happens in this situation should be handled
by the flow. Explicitly restricting the scenario requires a lot of effort
and code. Instead, we should rely on the developer to control complex
workflows.
To continue updating the database after an error like this occurs, a new
`withEntityManager` block should be used (after catching the previous
error).
## Catching errors outside `withEntityManager`
Exceptions can be caught around `withEntityManager` blocks. This allows
errors to be handled in the same way as stated above, except the need to
manually `flush` the session is removed. `withEntityManager` will
automatically `flush` a session if it has not been marked for rollback
due to an earlier error.
A `try-catch` can then be placed around the whole of the
`withEntityManager` block, allowing the error to be caught while not
committing any changes to the underlying database transaction.
## Savepoints / Transactionality
To make `withEntityManager` blocks work like mini database transactions,
save points have been utilised. A new savepoint is created when opening
a `withEntityManager` block (along with a new session). It is then used
as a reference point to rollback to if the session errors and needs to
roll back. The savepoint is then released (independently from
completing successfully or failing).
Using save points means, that either all the statements inside the
entity manager are executed, or none of them are.
## Some implementation details
- A new session is created every time an entity manager is requested,
but this does not replace the flow's main underlying database session.
- `CordaPersistence.transaction` can now determine whether it needs
to execute its extra error handling code. This is needed to allow errors
escape `withEntityManager` blocks while allowing some of our exception
handling around subscribers (in `NodeVaultService`) to continue to work.
* [EG-503] Spent state audit tool
Fixes
* Refinements to notary query interfaces. Feature complete.
* EG-503: Introduce optional `notaryService` in `ServiceHubCoreInternal`
* Remove redundant logic following change to use extensions API
Co-authored-by: Viktor Kolomeyko <viktor.kolomeyko@r3.com>
* CORDA-3696: Temporary update to enable JDK11 build and test. Will eventually be switchable.
* CORDA-3696: Filter out the Nashorn warning.
* CORDA-3696: Add JDK11 classifier.
* CORDA-3696: Updated match string to cope with JDK11.
* CORDA-3696: Filtering out SPHINCS256_SHA256 where failing due to JDK11.
* CORDA-3696: Now remove SPHINCS256_SHA256 only if JDK11.
* CORDA-3696: Fix test failure - switch to regex matching.
* CORDA-3696: Hide the illegal access warnings.
* CORDA-3696: Check for Java11 when disabling Java11 warnings.
* CORDA-3696: Fix unneccessary non null check.
* CORDA-3696: Reverting build env to JDK8
* CORDA-3696: Revert hiding of illegal access warnings via Unsafe class.
* CORDA-3696: Remove internal access warnings and new JDK11 version checker.
* CORDA-3696: Updated build file for OS
* CORDA-3696: Removed typo
* CORDA-3696: Fixed space typo.
* CORDA-3696: Open modules to remove the illegal access warnings.
Co-authored-by: Adel El-Beik <adelel-beik@19LDN-MAC108.local>
* ENT-4967: Require no classifier for corda-node-djvm, corda-deserializers-djvm.
* Also remove classifiers from core, serialization and finance-contracts.
* Compile corda-serialization-djvm for Java 8 and remove its classifier.
