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crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
abci: Synchronize FinalizeBlock with the updated specification (#7983) This change set implements the most recent version of `FinalizeBlock`. # What does this change actually contain? * This change set is rather large but fear not! The majority of the files touched and changes are renaming `ResponseDeliverTx` to `ExecTxResult`. This should be a pretty inoffensive change since they're effectively the same type but with a different name. * The `execBlockOnProxyApp` was totally removed since it served as just a wrapper around the logic that is now mostly encapsulated within `FinalizeBlock` * The `updateState` helper function has been made a public method on `State`. It was being exposed as a shim through the testing infrastructure, so this seemed innocuous. * Tests already existed to ensure that the application received the `ByzantineValidators` and the `ValidatorUpdates`, but one was fixed up to ensure that `LastCommitInfo` was being sent across. * Tests were removed from the `psql` indexer that seemed to search for an event in the indexer that was not being created. # Questions for reviewers * We store this [ABCIResponses](https://github.com/tendermint/tendermint/blob/5721a13ab1f4479f9807f449f0bf5c536b9a05f2/proto/tendermint/state/types.pb.go#L37) type in the data base as the block results. This type has changed since v0.35 to contain the `FinalizeBlock` response. I'm wondering if we need to do any shimming to keep the old data retrieveable? * Similarly, this change is exposed via the RPC through [ResultBlockResults](https://github.com/tendermint/tendermint/blob/5721a13ab1f4479f9807f449f0bf5c536b9a05f2/rpc/coretypes/responses.go#L69) changing. Should we somehow shim or notify for this change? closes: #7658
3 years ago
abci: Synchronize FinalizeBlock with the updated specification (#7983) This change set implements the most recent version of `FinalizeBlock`. # What does this change actually contain? * This change set is rather large but fear not! The majority of the files touched and changes are renaming `ResponseDeliverTx` to `ExecTxResult`. This should be a pretty inoffensive change since they're effectively the same type but with a different name. * The `execBlockOnProxyApp` was totally removed since it served as just a wrapper around the logic that is now mostly encapsulated within `FinalizeBlock` * The `updateState` helper function has been made a public method on `State`. It was being exposed as a shim through the testing infrastructure, so this seemed innocuous. * Tests already existed to ensure that the application received the `ByzantineValidators` and the `ValidatorUpdates`, but one was fixed up to ensure that `LastCommitInfo` was being sent across. * Tests were removed from the `psql` indexer that seemed to search for an event in the indexer that was not being created. # Questions for reviewers * We store this [ABCIResponses](https://github.com/tendermint/tendermint/blob/5721a13ab1f4479f9807f449f0bf5c536b9a05f2/proto/tendermint/state/types.pb.go#L37) type in the data base as the block results. This type has changed since v0.35 to contain the `FinalizeBlock` response. I'm wondering if we need to do any shimming to keep the old data retrieveable? * Similarly, this change is exposed via the RPC through [ResultBlockResults](https://github.com/tendermint/tendermint/blob/5721a13ab1f4479f9807f449f0bf5c536b9a05f2/rpc/coretypes/responses.go#L69) changing. Should we somehow shim or notify for this change? closes: #7658
3 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
crypto: Use a different library for ed25519/sr25519 (#6526) At Oasis we have spend some time writing a new Ed25519/X25519/sr25519 implementation called curve25519-voi. This PR switches the import from ed25519consensus/go-schnorrkel, which should lead to performance gains on most systems. Summary of changes: * curve25519-voi is now used for Ed25519 operations, following the existing ZIP-215 semantics. * curve25519-voi's public key cache is enabled (hardcoded size of 4096 entries, should be tuned, see the code comment) to accelerate repeated Ed25519 verification with the same public key(s). * (BREAKING) curve25519-voi is now used for sr25519 operations. This is a breaking change as the current sr25519 support does something decidedly non-standard when going from a MiniSecretKey to a SecretKey and or PublicKey (The expansion routine is called twice). While I believe the new behavior (that expands once and only once) to be more "correct", this changes the semantics as implemented. * curve25519-voi is now used for merlin since the included STROBE implementation produces much less garbage on the heap. Side issues fixed: * The version of go-schnorrkel that is currently imported by tendermint has a badly broken batch verification implementation. Upstream has fixed the issue after I reported it, so the version should be bumped in the interim. Open design questions/issues: * As noted, the public key cache size should be tuned. It is currently backed by a trivial thread-safe LRU cache, which is not scan-resistant, but replacing it with something better is a matter of implementing an interface. * As far as I can tell, the only reason why serial verification on batch failure is necessary is to provide more detailed error messages (that are only used in some unit tests). If you trust the batch verification to be consistent with serial verification then the fallback can be eliminated entirely (the BatchVerifier provided by the new library supports an option that omits the fallback if this is chosen as the way forward). * curve25519-voi's sr25519 support could use more optimization and more eyes on the code. The algorithm unfortunately is woefully under-specified, and the implementation was done primarily because I got really sad when I actually looked at go-schnorrkel, and we do not use the algorithm at this time.
4 years ago
  1. package types
  2. import (
  3. "errors"
  4. "fmt"
  5. "github.com/tendermint/tendermint/crypto/batch"
  6. "github.com/tendermint/tendermint/crypto/tmhash"
  7. tmmath "github.com/tendermint/tendermint/libs/math"
  8. )
  9. const batchVerifyThreshold = 2
  10. func shouldBatchVerify(vals *ValidatorSet, commit *Commit) bool {
  11. return len(commit.Signatures) >= batchVerifyThreshold && batch.SupportsBatchVerifier(vals.GetProposer().PubKey)
  12. }
  13. // TODO(wbanfield): determine if the following comment is still true regarding Gaia.
  14. // VerifyCommit verifies +2/3 of the set had signed the given commit.
  15. //
  16. // It checks all the signatures! While it's safe to exit as soon as we have
  17. // 2/3+ signatures, doing so would impact incentivization logic in the ABCI
  18. // application that depends on the LastCommitInfo sent in FinalizeBlock, which
  19. // includes which validators signed. For instance, Gaia incentivizes proposers
  20. // with a bonus for including more than +2/3 of the signatures.
  21. func VerifyCommit(chainID string, vals *ValidatorSet, blockID BlockID,
  22. height int64, commit *Commit) error {
  23. // run a basic validation of the arguments
  24. if err := verifyBasicValsAndCommit(vals, commit, height, blockID); err != nil {
  25. return err
  26. }
  27. // calculate voting power needed. Note that total voting power is capped to
  28. // 1/8th of max int64 so this operation should never overflow
  29. votingPowerNeeded := vals.TotalVotingPower() * 2 / 3
  30. // ignore all absent signatures
  31. ignore := func(c CommitSig) bool { return c.Absent() }
  32. // only count the signatures that are for the block
  33. count := func(c CommitSig) bool { return c.ForBlock() }
  34. // attempt to batch verify
  35. if shouldBatchVerify(vals, commit) {
  36. return verifyCommitBatch(chainID, vals, commit,
  37. votingPowerNeeded, ignore, count, true, true)
  38. }
  39. // if verification failed or is not supported then fallback to single verification
  40. return verifyCommitSingle(chainID, vals, commit, votingPowerNeeded,
  41. ignore, count, true, true)
  42. }
  43. // LIGHT CLIENT VERIFICATION METHODS
  44. // VerifyCommitLight verifies +2/3 of the set had signed the given commit.
  45. //
  46. // This method is primarily used by the light client and does not check all the
  47. // signatures.
  48. func VerifyCommitLight(chainID string, vals *ValidatorSet, blockID BlockID,
  49. height int64, commit *Commit) error {
  50. // run a basic validation of the arguments
  51. if err := verifyBasicValsAndCommit(vals, commit, height, blockID); err != nil {
  52. return err
  53. }
  54. // calculate voting power needed
  55. votingPowerNeeded := vals.TotalVotingPower() * 2 / 3
  56. // ignore all commit signatures that are not for the block
  57. ignore := func(c CommitSig) bool { return !c.ForBlock() }
  58. // count all the remaining signatures
  59. count := func(c CommitSig) bool { return true }
  60. // attempt to batch verify
  61. if shouldBatchVerify(vals, commit) {
  62. return verifyCommitBatch(chainID, vals, commit,
  63. votingPowerNeeded, ignore, count, false, true)
  64. }
  65. // if verification failed or is not supported then fallback to single verification
  66. return verifyCommitSingle(chainID, vals, commit, votingPowerNeeded,
  67. ignore, count, false, true)
  68. }
  69. // VerifyCommitLightTrusting verifies that trustLevel of the validator set signed
  70. // this commit.
  71. //
  72. // NOTE the given validators do not necessarily correspond to the validator set
  73. // for this commit, but there may be some intersection.
  74. //
  75. // This method is primarily used by the light client and does not check all the
  76. // signatures.
  77. func VerifyCommitLightTrusting(chainID string, vals *ValidatorSet, commit *Commit, trustLevel tmmath.Fraction) error {
  78. // sanity checks
  79. if vals == nil {
  80. return errors.New("nil validator set")
  81. }
  82. if trustLevel.Denominator == 0 {
  83. return errors.New("trustLevel has zero Denominator")
  84. }
  85. if commit == nil {
  86. return errors.New("nil commit")
  87. }
  88. // safely calculate voting power needed.
  89. totalVotingPowerMulByNumerator, overflow := safeMul(vals.TotalVotingPower(), int64(trustLevel.Numerator))
  90. if overflow {
  91. return errors.New("int64 overflow while calculating voting power needed. please provide smaller trustLevel numerator")
  92. }
  93. votingPowerNeeded := totalVotingPowerMulByNumerator / int64(trustLevel.Denominator)
  94. // ignore all commit signatures that are not for the block
  95. ignore := func(c CommitSig) bool { return !c.ForBlock() }
  96. // count all the remaining signatures
  97. count := func(c CommitSig) bool { return true }
  98. // attempt to batch verify commit. As the validator set doesn't necessarily
  99. // correspond with the validator set that signed the block we need to look
  100. // up by address rather than index.
  101. if shouldBatchVerify(vals, commit) {
  102. return verifyCommitBatch(chainID, vals, commit,
  103. votingPowerNeeded, ignore, count, false, false)
  104. }
  105. // attempt with single verification
  106. return verifyCommitSingle(chainID, vals, commit, votingPowerNeeded,
  107. ignore, count, false, false)
  108. }
  109. // ValidateHash returns an error if the hash is not empty, but its
  110. // size != tmhash.Size.
  111. func ValidateHash(h []byte) error {
  112. if len(h) > 0 && len(h) != tmhash.Size {
  113. return fmt.Errorf("expected size to be %d bytes, got %d bytes",
  114. tmhash.Size,
  115. len(h),
  116. )
  117. }
  118. return nil
  119. }
  120. // Batch verification
  121. // verifyCommitBatch batch verifies commits. This routine is equivalent
  122. // to verifyCommitSingle in behavior, just faster iff every signature in the
  123. // batch is valid.
  124. //
  125. // Note: The caller is responsible for checking to see if this routine is
  126. // usable via `shouldVerifyBatch(vals, commit)`.
  127. func verifyCommitBatch(
  128. chainID string,
  129. vals *ValidatorSet,
  130. commit *Commit,
  131. votingPowerNeeded int64,
  132. ignoreSig func(CommitSig) bool,
  133. countSig func(CommitSig) bool,
  134. countAllSignatures bool,
  135. lookUpByIndex bool,
  136. ) error {
  137. var (
  138. val *Validator
  139. valIdx int32
  140. talliedVotingPower int64
  141. seenVals = make(map[int32]int, len(commit.Signatures))
  142. batchSigIdxs = make([]int, 0, len(commit.Signatures))
  143. )
  144. // attempt to create a batch verifier
  145. bv, ok := batch.CreateBatchVerifier(vals.GetProposer().PubKey)
  146. // re-check if batch verification is supported
  147. if !ok || len(commit.Signatures) < batchVerifyThreshold {
  148. // This should *NEVER* happen.
  149. return fmt.Errorf("unsupported signature algorithm or insufficient signatures for batch verification")
  150. }
  151. for idx, commitSig := range commit.Signatures {
  152. // skip over signatures that should be ignored
  153. if ignoreSig(commitSig) {
  154. continue
  155. }
  156. // If the vals and commit have a 1-to-1 correspondance we can retrieve
  157. // them by index else we need to retrieve them by address
  158. if lookUpByIndex {
  159. val = vals.Validators[idx]
  160. } else {
  161. valIdx, val = vals.GetByAddress(commitSig.ValidatorAddress)
  162. // if the signature doesn't belong to anyone in the validator set
  163. // then we just skip over it
  164. if val == nil {
  165. continue
  166. }
  167. // because we are getting validators by address we need to make sure
  168. // that the same validator doesn't commit twice
  169. if firstIndex, ok := seenVals[valIdx]; ok {
  170. secondIndex := idx
  171. return fmt.Errorf("double vote from %v (%d and %d)", val, firstIndex, secondIndex)
  172. }
  173. seenVals[valIdx] = idx
  174. }
  175. // Validate signature.
  176. voteSignBytes := commit.VoteSignBytes(chainID, int32(idx))
  177. // add the key, sig and message to the verifier
  178. if err := bv.Add(val.PubKey, voteSignBytes, commitSig.Signature); err != nil {
  179. return err
  180. }
  181. batchSigIdxs = append(batchSigIdxs, idx)
  182. // If this signature counts then add the voting power of the validator
  183. // to the tally
  184. if countSig(commitSig) {
  185. talliedVotingPower += val.VotingPower
  186. }
  187. // if we don't need to verify all signatures and already have sufficient
  188. // voting power we can break from batching and verify all the signatures
  189. if !countAllSignatures && talliedVotingPower > votingPowerNeeded {
  190. break
  191. }
  192. }
  193. // ensure that we have batched together enough signatures to exceed the
  194. // voting power needed else there is no need to even verify
  195. if got, needed := talliedVotingPower, votingPowerNeeded; got <= needed {
  196. return ErrNotEnoughVotingPowerSigned{Got: got, Needed: needed}
  197. }
  198. // attempt to verify the batch.
  199. ok, validSigs := bv.Verify()
  200. if ok {
  201. // success
  202. return nil
  203. }
  204. // one or more of the signatures is invalid, find and return the first
  205. // invalid signature.
  206. for i, ok := range validSigs {
  207. if !ok {
  208. // go back from the batch index to the commit.Signatures index
  209. idx := batchSigIdxs[i]
  210. sig := commit.Signatures[idx]
  211. return fmt.Errorf("wrong signature (#%d): %X", idx, sig)
  212. }
  213. }
  214. // execution reaching here is a bug, and one of the following has
  215. // happened:
  216. // * non-zero tallied voting power, empty batch (impossible?)
  217. // * bv.Verify() returned `false, []bool{true, ..., true}` (BUG)
  218. return fmt.Errorf("BUG: batch verification failed with no invalid signatures")
  219. }
  220. // Single Verification
  221. // verifyCommitSingle single verifies commits.
  222. // If a key does not support batch verification, or batch verification fails this will be used
  223. // This method is used to check all the signatures included in a commit.
  224. // It is used in consensus for validating a block LastCommit.
  225. // CONTRACT: both commit and validator set should have passed validate basic
  226. func verifyCommitSingle(
  227. chainID string,
  228. vals *ValidatorSet,
  229. commit *Commit,
  230. votingPowerNeeded int64,
  231. ignoreSig func(CommitSig) bool,
  232. countSig func(CommitSig) bool,
  233. countAllSignatures bool,
  234. lookUpByIndex bool,
  235. ) error {
  236. var (
  237. val *Validator
  238. valIdx int32
  239. talliedVotingPower int64
  240. voteSignBytes []byte
  241. seenVals = make(map[int32]int, len(commit.Signatures))
  242. )
  243. for idx, commitSig := range commit.Signatures {
  244. if ignoreSig(commitSig) {
  245. continue
  246. }
  247. // If the vals and commit have a 1-to-1 correspondance we can retrieve
  248. // them by index else we need to retrieve them by address
  249. if lookUpByIndex {
  250. val = vals.Validators[idx]
  251. } else {
  252. valIdx, val = vals.GetByAddress(commitSig.ValidatorAddress)
  253. // if the signature doesn't belong to anyone in the validator set
  254. // then we just skip over it
  255. if val == nil {
  256. continue
  257. }
  258. // because we are getting validators by address we need to make sure
  259. // that the same validator doesn't commit twice
  260. if firstIndex, ok := seenVals[valIdx]; ok {
  261. secondIndex := idx
  262. return fmt.Errorf("double vote from %v (%d and %d)", val, firstIndex, secondIndex)
  263. }
  264. seenVals[valIdx] = idx
  265. }
  266. voteSignBytes = commit.VoteSignBytes(chainID, int32(idx))
  267. if !val.PubKey.VerifySignature(voteSignBytes, commitSig.Signature) {
  268. return fmt.Errorf("wrong signature (#%d): %X", idx, commitSig.Signature)
  269. }
  270. // If this signature counts then add the voting power of the validator
  271. // to the tally
  272. if countSig(commitSig) {
  273. talliedVotingPower += val.VotingPower
  274. }
  275. // check if we have enough signatures and can thus exit early
  276. if !countAllSignatures && talliedVotingPower > votingPowerNeeded {
  277. return nil
  278. }
  279. }
  280. if got, needed := talliedVotingPower, votingPowerNeeded; got <= needed {
  281. return ErrNotEnoughVotingPowerSigned{Got: got, Needed: needed}
  282. }
  283. return nil
  284. }
  285. func verifyBasicValsAndCommit(vals *ValidatorSet, commit *Commit, height int64, blockID BlockID) error {
  286. if vals == nil {
  287. return errors.New("nil validator set")
  288. }
  289. if commit == nil {
  290. return errors.New("nil commit")
  291. }
  292. if vals.Size() != len(commit.Signatures) {
  293. return NewErrInvalidCommitSignatures(vals.Size(), len(commit.Signatures))
  294. }
  295. // Validate Height and BlockID.
  296. if height != commit.Height {
  297. return NewErrInvalidCommitHeight(height, commit.Height)
  298. }
  299. if !blockID.Equals(commit.BlockID) {
  300. return fmt.Errorf("invalid commit -- wrong block ID: want %v, got %v",
  301. blockID, commit.BlockID)
  302. }
  303. return nil
  304. }