/** * beacon_chain * Copyright (c) 2023 Status Research & Development GmbH * Licensed and distributed under either of * * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT). * * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0). * at your option. This file may not be copied, modified, or distributed except according to those terms. */ #ifndef LIBNIMBUS_LC_H #define LIBNIMBUS_LC_H #include #include #ifdef __cplusplus extern "C" { #endif #ifndef __has_attribute #define __has_attribute(x) 0 #endif #ifndef __has_feature #define __has_feature(x) 0 #endif #if __has_attribute(warn_unused_result) #define ETH_RESULT_USE_CHECK __attribute__((warn_unused_result)) #else #define ETH_RESULT_USE_CHECK #endif #if __has_feature(nullability) #pragma clang assume_nonnull begin #endif #if !__has_feature(nullability) #define _Nonnull #define _Nullable #endif /** * Initializes Nim & Garbage Collector. Must be called before anything else * of the API. Also, all following calls must come from the same thread as from * which this call was done. */ void NimMain(void); /** * Cryptographically secure random number generator. */ typedef struct ETHRandomNumber ETHRandomNumber; /** * Creates a new cryptographically secure random number generator. * * - The cryptographically secure random number generator must be destroyed * with `ETHRandomNumberDestroy` once no longer needed, to release memory. * * @return Pointer to an initialized cryptographically secure random number * generator context - If successful. * @return `NULL` - If an error occurred. */ ETH_RESULT_USE_CHECK ETHRandomNumber *ETHRandomNumberCreate(void); /** * Destroys a cryptographically secure random number generator. * * - The cryptographically secure random number generator * must no longer be used after destruction. * * @param rng Cryptographically secure random number generator. */ void ETHRandomNumberDestroy(ETHRandomNumber *rng); /** * Ethereum Consensus Layer network configuration. */ typedef struct ETHConsensusConfig ETHConsensusConfig; /** * Creates a new Ethereum Consensus Layer network configuration * based on the given `config.yaml` file content from an * Ethereum network definition. * * - The Ethereum Consensus Layer network configuration must be destroyed with * `ETHConsensusConfigDestroy` once no longer needed, to release memory. * * @param configFileContent `config.yaml` file content. NULL-terminated. * * @return Pointer to an initialized Ethereum Consensus Layer network configuration * based on the given `config.yaml` file content - If successful. * @return `NULL` - If the given `config.yaml` is malformed or incompatible. * * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/configs/README.md */ ETH_RESULT_USE_CHECK ETHConsensusConfig *ETHConsensusConfigCreateFromYaml(const char *configFileContent); /** * Destroys an Ethereum Consensus Layer network configuration. * * - The Ethereum Consensus Layer network configuration * must no longer be used after destruction. * * @param cfg Ethereum Consensus Layer network configuration. */ void ETHConsensusConfigDestroy(ETHConsensusConfig *cfg); /** * Returns the expected `Eth-Consensus-Version` for a given `epoch`. * * - The returned `Eth-Consensus-Version` is statically allocated. * It must neither be released nor written to. * * @param cfg Ethereum Consensus Layer network configuration. * @param epoch Epoch number for which to obtain `Eth-Consensus-Version` * * @return Expected `Eth-Consensus-Version` for the given `epoch`. NULL-terminated. * * @see https://github.com/ethereum/beacon-APIs/blob/v2.4.1/beacon-node-oapi.yaml#L419 */ ETH_RESULT_USE_CHECK const char *ETHConsensusConfigGetConsensusVersionAtEpoch(const ETHConsensusConfig *cfg, int epoch); /** * Beacon state. */ typedef struct ETHBeaconState ETHBeaconState; /** * Creates a new beacon state based on its SSZ encoded representation. * * - The beacon state must be destroyed with `ETHBeaconStateDestroy` * once no longer needed, to release memory. * * - When loading a `genesis.ssz` file from an Ethereum network definition, * use `ETHConsensusConfigGetConsensusVersionAtEpoch` with `epoch = 0` * to determine the correct `consensusVersion`. * * @param cfg Ethereum Consensus Layer network configuration. * @param consensusVersion `Eth-Consensus-Version` for the given `sszBytes`. * @param sszBytes Buffer with SSZ encoded beacon state representation. * @param numSszBytes Length of buffer. * * @return Pointer to an initialized beacon state based on the given SSZ encoded * representation - If successful. * @return `NULL` - If the given `sszBytes` is malformed. * * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.1/specs/phase0/beacon-chain.md#beaconstate * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/altair/beacon-chain.md#beaconstate * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/bellatrix/beacon-chain.md#beaconstate * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/capella/beacon-chain.md#beaconstate * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/configs/README.md */ ETH_RESULT_USE_CHECK ETHBeaconState *ETHBeaconStateCreateFromSsz( const ETHConsensusConfig *cfg, const char *consensusVersion, const void *sszBytes, int numSszBytes); /** * Destroys a beacon state. * * - The beacon state must no longer be used after destruction. * * @param state Beacon state. */ void ETHBeaconStateDestroy(ETHBeaconState *state); /** * Merkle root. */ typedef struct { uint8_t bytes[32]; } ETHRoot; /** * Copies the `genesis_validators_root` field from a beacon state. * * - The genesis validators root must be destroyed with `ETHRootDestroy` * once no longer needed, to release memory. * * @param state Beacon state. * * @return Pointer to a copy of the given beacon state's genesis validators root. */ ETH_RESULT_USE_CHECK ETHRoot *ETHBeaconStateCopyGenesisValidatorsRoot(const ETHBeaconState *state); /** * Destroys a Merkle root. * * - The Merkle root must no longer be used after destruction. * * @param root Merkle root. * * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/phase0/beacon-chain.md#custom-types */ void ETHRootDestroy(ETHRoot *root); /** * Fork digests cache. */ typedef struct ETHForkDigests ETHForkDigests; /** * Creates a fork digests cache for a given beacon state. * * - The fork digests cache must be destroyed with `ETHForkDigestsDestroy` * once no longer needed, to release memory. * * @param cfg Ethereum Consensus Layer network configuration. * @param state Beacon state. * * @return Pointer to an initialized fork digests cache based on the beacon state. * * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/phase0/beacon-chain.md#compute_fork_digest */ ETH_RESULT_USE_CHECK ETHForkDigests *ETHForkDigestsCreateFromState( const ETHConsensusConfig *cfg, const ETHBeaconState *state); /** * Destroys a fork digests cache. * * - The fork digests cache must no longer be used after destruction. * * @param forkDigests Fork digests cache. */ void ETHForkDigestsDestroy(ETHForkDigests *forkDigests); /** * Beacon clock. */ typedef struct ETHBeaconClock ETHBeaconClock; /** * Creates a beacon clock for a given beacon state's `genesis_time` field. * * - The beacon clock must be destroyed with `ETHBeaconClockDestroy` * once no longer needed, to release memory. * * @param state Beacon state. * * @return Pointer to an initialized beacon clock based on the beacon state. */ ETH_RESULT_USE_CHECK ETHBeaconClock *ETHBeaconClockCreateFromState(const ETHBeaconState *state); /** * Destroys a beacon clock. * * - The beacon clock must no longer be used after destruction. * * @param beaconClock Beacon clock. */ void ETHBeaconClockDestroy(ETHBeaconClock *beaconClock); /** * Indicates the slot number for the current wall clock time. * * @param beaconClock Beacon clock. * * @return Slot number for the current wall clock time - If genesis has occurred. * @return `0` - If genesis is still pending. * * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/phase0/beacon-chain.md#custom-types */ ETH_RESULT_USE_CHECK int ETHBeaconClockGetSlot(const ETHBeaconClock *beaconClock); /** * Light client store. */ typedef struct ETHLightClientStore ETHLightClientStore; /** * Creates a light client store from light client bootstrap data. * The light client store is the primary object for syncing with * an Ethereum network. * * - To create a light client store, the Ethereum network definition * including the fork schedule, `genesis_time` and `genesis_validators_root` * must be known. Furthermore, a beacon block root must be assumed trusted. * The trusted block root should be within the weak subjectivity period, * and its root should be from a finalized `Checkpoint`. * * - The REST `/eth/v1/beacon/light_client/bootstrap/{block_root}` beacon API * may be used to obtain light client bootstrap data for a given * trusted block root. Setting the `Accept: application/octet-stream` * HTTP header in the request selects the more compact SSZ representation. * * - After creating a light client store, `ETHLightClientStoreGetNextSyncTask` * may be used to determine what further REST beacon API requests to perform * for keeping the light client store in sync with the Ethereum network. * * - Once synced the REST `/eth/v1/events?topics=light_client_finality_update` * `&topics=light_client_optimistic_update` beacon API provides the most * recent light client data. Data from this endpoint is always JSON encoded * and may be processed with `ETHLightClientStoreProcessFinalityUpdate` and * `ETHLightClientStoreProcessOptimisticUpdate`. * * - The light client store must be destroyed with * `ETHLightClientStoreDestroy` once no longer needed, to release memory. * * @param cfg Ethereum Consensus Layer network configuration. * @param trustedBlockRoot Trusted block root. * @param mediaType HTTP `Content-Type` associated with `bootstrapBytes`; * `application/json` for JSON, `application/octet-stream` for SSZ. * @param consensusVersion HTTP `Eth-Consensus-Version` response header * associated with `bootstrapBytes`. * @param bootstrapBytes Buffer with encoded light client bootstrap data. * @param numBootstrapBytes Length of buffer. * * @return Pointer to an initialized light client store based on the given * light client bootstrap data - If successful. * @return `NULL` - If the given `bootstrapBytes` is malformed or incompatible. * * @see https://ethereum.github.io/beacon-APIs/?urls.primaryName=v2.4.1#/Beacon/getLightClientBootstrap * @see https://ethereum.github.io/beacon-APIs/?urls.primaryName=v2.4.1#/Events/eventstream * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.1/specs/altair/light-client/light-client.md * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/phase0/weak-subjectivity.md#weak-subjectivity-period */ ETH_RESULT_USE_CHECK ETHLightClientStore *ETHLightClientStoreCreateFromBootstrap( const ETHConsensusConfig *cfg, const ETHRoot *trustedBlockRoot, const char *mediaType, const char *consensusVersion, const void *bootstrapBytes, int numBootstrapBytes); /** * Destroys a light client store. * * - The light client store must no longer be used after destruction. * * @param store Light client store. */ void ETHLightClientStoreDestroy(ETHLightClientStore *store); /** Sync task to fulfill using `/eth/v1/beacon/light_client/updates`. */ extern int kETHLcSyncKind_UpdatesByRange; /** Sync task to fulfill using `/eth/v1/beacon/light_client/finality_update`. */ extern int kETHLcSyncKind_FinalityUpdate; /** Sync task to fulfill using `/eth/v1/beacon/light_client/optimistic_update`. */ extern int kETHLcSyncKind_OptimisticUpdate; /** * Obtains the next task for keeping a light client store in sync * with the Ethereum network. * * - When using the REST beacon API to fulfill a sync task, setting the * `Accept: application/octet-stream` HTTP header in the request * selects the more compact SSZ representation. * * - After fetching the requested light client data and processing it with the * appropriate handler, `ETHLightClientStoreGetMillisecondsToNextSyncTask` * may be used to obtain a delay until a new sync task becomes available. * Once the delay is reached, call `ETHLightClientStoreGetNextSyncTask` * again to obtain the next sync task. * * - Once synced the REST `/eth/v1/events?topics=light_client_finality_update` * `&topics=light_client_optimistic_update` beacon API provides the most * recent light client data. Data from this endpoint is always JSON encoded * and may be processed with `ETHLightClientStoreProcessFinalityUpdate` and * `ETHLightClientStoreProcessOptimisticUpdate`. Events may be processed at * any time and do not require re-computing the delay until next sync task * with `ETHLightClientStoreGetMillisecondsToNextSyncTask`. * * @param store Light client store. * @param beaconClock Beacon clock. * @param[out] startPeriod `start_period` query parameter, if applicable. * @param[out] count `count` query parameter, if applicable. * * @return `kETHLcSyncKind_UpdatesByRange` - If the next sync task is fulfillable * using REST `/eth/v1/beacon/light_client/updates` beacon API. * The `startPeriod` and `count` parameters are filled, and to be passed to * `/eth/v1/beacon/light_client/updates?start_period={startPeriod}` * `&count={count}`. * Process the response with `ETHLightClientStoreProcessUpdatesByRange`. * @return `kETHLcSyncKind_FinalityUpdate` - If the next sync task is fulfillable * using REST `/eth/v1/beacon/light_client/finality_update` beacon API. * Process the response with `ETHLightClientStoreProcessFinalityUpdate`. * The `startPeriod` and `count` parameters are unused for this sync task. * @return `kETHLcSyncKind_OptimisticUpdate` - If the next sync task is fulfillable * using REST `/eth/v1/beacon/light_client/optimistic_update` beacon API. * Process the response with `ETHLightClientStoreProcessOptimisticUpdate`. * The `startPeriod` and `count` parameters are unused for this sync task. * * @see https://ethereum.github.io/beacon-APIs/?urls.primaryName=v2.4.1#/Beacon/getLightClientUpdatesByRange * @see https://ethereum.github.io/beacon-APIs/?urls.primaryName=v2.4.1#/Beacon/getLightClientFinalityUpdate * @see https://ethereum.github.io/beacon-APIs/?urls.primaryName=v2.4.1#/Beacon/getLightClientOptimisticUpdate * @see https://ethereum.github.io/beacon-APIs/?urls.primaryName=v2.4.1#/Events/eventstream */ ETH_RESULT_USE_CHECK int ETHLightClientStoreGetNextSyncTask( const ETHLightClientStore *store, const ETHBeaconClock *beaconClock, int *startPeriod, int *count); /** * Indicates the delay until a new light client sync task becomes available. * Once the delay is reached, call `ETHLightClientStoreGetNextSyncTask` * to obtain the next sync task. * * @param store Light client store. * @param rng Cryptographically secure random number generator. * @param beaconClock Beacon clock. * @param latestProcessResult Latest sync task processing result, i.e., * the return value of `ETHLightClientStoreProcessUpdatesByRange`, * `ETHLightClientStoreProcessFinalityUpdate`, or * `ETHLightClientStoreProcessOptimisticUpdate`, for latest task. * If the data for the sync task could not be fetched, set to `1`. * * @return Number of milliseconds until `ETHLightClientStoreGetNextSyncTask` * should be called again to obtain the next light client sync task. */ ETH_RESULT_USE_CHECK int ETHLightClientStoreGetMillisecondsToNextSyncTask( const ETHLightClientStore *store, ETHRandomNumber *rng, const ETHBeaconClock *beaconClock, int latestProcessResult); /** * Processes light client update data. * * - This processes the response data for a sync task of kind * `kETHLcSyncKind_UpdatesByRange`, as indicated by * `ETHLightClientStoreGetNextSyncTask`. After processing, call * `ETHLightClientStoreGetMillisecondsToNextSyncTask` to obtain a delay * until a new sync task becomes available. * * @param store Light client store. * @param cfg Ethereum Consensus Layer network configuration. * @param forkDigests Fork digests cache. * @param genesisValRoot Genesis validators root. * @param beaconClock Beacon clock. * @param startPeriod `startPeriod` parameter associated with the sync task. * @param count `count` parameter associated with the sync task. * @param mediaType HTTP `Content-Type` associated with `updatesBytes`; * `application/json` for JSON, `application/octet-stream` for SSZ. * @param updatesBytes Buffer with encoded light client update data. * @param numUpdatesBytes Length of buffer. * * @return `0` - If the given `updatesBytes` is valid and sync did progress. * @return `1` - If the given `updatesBytes` is malformed or incompatible. * @return `2` - If the given `updatesBytes` did not advance sync progress. * * @see https://ethereum.github.io/beacon-APIs/?urls.primaryName=v2.4.1#/Beacon/getLightClientUpdatesByRange */ ETH_RESULT_USE_CHECK int ETHLightClientStoreProcessUpdatesByRange( const ETHLightClientStore *store, const ETHConsensusConfig *cfg, const ETHForkDigests *forkDigests, const ETHRoot *genesisValRoot, const ETHBeaconClock *beaconClock, int startPeriod, int count, const char *mediaType, const void *updatesBytes, int numUpdatesBytes); /** * Processes light client finality update data. * * - This processes the response data for a sync task of kind * `kETHLcSyncKind_FinalityUpdate`, as indicated by * `ETHLightClientStoreGetNextSyncTask`. After processing, call * `ETHLightClientStoreGetMillisecondsToNextSyncTask` to obtain a delay * until a new sync task becomes available. * * - This also processes event data from the REST * `/eth/v1/events?topics=light_client_finality_update` beacon API. * Set `mediaType` to `application/json`, and `consensusVersion` to `NULL`. * Events may be processed at any time, it is not necessary to call * `ETHLightClientStoreGetMillisecondsToNextSyncTask`. * * @param store Light client store. * @param cfg Ethereum Consensus Layer network configuration. * @param forkDigests Fork digests cache. * @param genesisValRoot Genesis validators root. * @param beaconClock Beacon clock. * @param mediaType HTTP `Content-Type` associated with `finUpdateBytes`; * `application/json` for JSON, `application/octet-stream` for SSZ. * @param consensusVersion HTTP `Eth-Consensus-Version` response header * associated with `finUpdateBytes`. `NULL` when processing event. * @param finUpdateBytes Buffer with encoded finality update data. * @param numFinUpdateBytes Length of buffer. * * @return `0` - If the given `finUpdateBytes` is valid and sync did progress. * @return `1` - If the given `finUpdateBytes` is malformed or incompatible. * @return `2` - If the given `finUpdateBytes` did not advance sync progress. * * @see https://ethereum.github.io/beacon-APIs/?urls.primaryName=v2.4.1#/Beacon/getLightClientFinalityUpdate * @see https://ethereum.github.io/beacon-APIs/?urls.primaryName=v2.4.1#/Events/eventstream */ ETH_RESULT_USE_CHECK int ETHLightClientStoreProcessFinalityUpdate( const ETHLightClientStore *store, const ETHConsensusConfig *cfg, const ETHForkDigests *forkDigests, const ETHRoot *genesisValRoot, const ETHBeaconClock *beaconClock, const char *mediaType, const char *_Nullable consensusVersion, const void *finUpdateBytes, int numFinUpdateBytes); /** * Processes light client optimistic update data. * * - This processes the response data for a sync task of kind * `kETHLcSyncKind_OptimisticUpdate`, as indicated by * `ETHLightClientStoreGetNextSyncTask`. After processing, call * `ETHLightClientStoreGetMillisecondsToNextSyncTask` to obtain a delay * until a new sync task becomes available. * * - This also processes event data from the REST * `/eth/v1/events?topics=light_client_optimistic_update` beacon API. * Set `mediaType` to `application/json`, and `consensusVersion` to `NULL`. * Events may be processed at any time, it is not necessary to call * `ETHLightClientStoreGetMillisecondsToNextSyncTask`. * * @param store Light client store. * @param cfg Ethereum Consensus Layer network configuration. * @param forkDigests Fork digests cache. * @param genesisValRoot Genesis validators root. * @param beaconClock Beacon clock. * @param mediaType HTTP `Content-Type` associated with `optUpdateBytes`; * `application/json` for JSON, `application/octet-stream` for SSZ. * @param consensusVersion HTTP `Eth-Consensus-Version` response header * associated with `optUpdateBytes`. `NULL` when processing event. * @param optUpdateBytes Buffer with encoded optimistic update data. * @param numOptUpdateBytes Length of buffer. * * @return `0` - If the given `optUpdateBytes` is valid and sync did progress. * @return `1` - If the given `optUpdateBytes` is malformed or incompatible. * @return `2` - If the given `optUpdateBytes` did not advance sync progress. * * @see https://ethereum.github.io/beacon-APIs/?urls.primaryName=v2.4.1#/Beacon/getLightClientOptimisticUpdate * @see https://ethereum.github.io/beacon-APIs/?urls.primaryName=v2.4.1#/Events/eventstream */ ETH_RESULT_USE_CHECK int ETHLightClientStoreProcessOptimisticUpdate( const ETHLightClientStore *store, const ETHConsensusConfig *cfg, const ETHForkDigests *forkDigests, const ETHRoot *genesisValRoot, const ETHBeaconClock *beaconClock, const char *mediaType, const char *_Nullable consensusVersion, const void *optUpdateBytes, int numOptUpdateBytes); /** * Light client header. */ typedef struct ETHLightClientHeader ETHLightClientHeader; /** * Obtains the latest finalized header of a given light client store. * * - The returned value is allocated in the given light client store. * It must neither be released nor written to, and the light client store * must not be released while the returned value is in use. * * @param store Light client store. * * @return Latest finalized header. * * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/capella/light-client/sync-protocol.md#modified-lightclientheader */ ETH_RESULT_USE_CHECK const ETHLightClientHeader *ETHLightClientStoreGetFinalizedHeader( const ETHLightClientStore *store); /** * Indicates whether or not the next sync committee is currently known. * * - The light client sync process ensures that the next sync committee * is obtained in time, before it starts signing light client data. * To stay in sync, use `ETHLightClientStoreGetNextSyncTask` and * `ETHLightClientStoreGetMillisecondsToNextSyncTask`. * * @param store Light client store. * * @return Whether or not the next sync committee is currently known. * * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/altair/light-client/sync-protocol.md#is_next_sync_committee_known * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/altair/light-client/light-client.md */ ETH_RESULT_USE_CHECK bool ETHLightClientStoreIsNextSyncCommitteeKnown(const ETHLightClientStore *store); /** * Obtains the latest optimistic header of a given light client store. * * - The returned value is allocated in the given light client store. * It must neither be released nor written to, and the light client store * must not be released while the returned value is in use. * * @param store Light client store. * * @return Latest optimistic header. * * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/capella/light-client/sync-protocol.md#modified-lightclientheader */ ETH_RESULT_USE_CHECK const ETHLightClientHeader *ETHLightClientStoreGetOptimisticHeader( const ETHLightClientStore *store); /** * Calculates the safety threshold for a given light client store. * * - Light client data can only update the optimistic header if it is signed * by more sync committee participants than the safety threshold indicates. * * - The finalized header is not affected by the safety threshold; * light client data can only update the finalized header if it is signed * by a supermajority of the sync committee, regardless of safety threshold. * * @param store Light client store. * * @return Light client store safety threshold. * * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/altair/light-client/sync-protocol.md#get_safety_threshold */ ETH_RESULT_USE_CHECK int ETHLightClientStoreGetSafetyThreshold(const ETHLightClientStore *store); /** * Creates a shallow copy of a given light client header. * * - The copy must be destroyed with `ETHLightClientHeaderDestroy` * once no longer needed, to release memory. * * @param header Light client header. * * @return Pointer to a shallow copy of the given header. */ ETH_RESULT_USE_CHECK ETHLightClientHeader *ETHLightClientHeaderCreateCopy(const ETHLightClientHeader *header); /** * Destroys a light client header. * * - The light client header must no longer be used after destruction. * * @param header Light client header. */ void ETHLightClientHeaderDestroy(ETHLightClientHeader *header); /** * Computes the beacon block Merkle root for a given light client header. * * - The Merkle root must be destroyed with `ETHRootDestroy` * once no longer needed, to release memory. * * @param header Light client header. * @param cfg Ethereum Consensus Layer network configuration. * * @return Pointer to a copy of the given header's beacon block root. * * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/phase0/beacon-chain.md#hash_tree_root */ ETH_RESULT_USE_CHECK ETHRoot *ETHLightClientHeaderCopyBeaconRoot( const ETHLightClientHeader *header, const ETHConsensusConfig *cfg); /** * Beacon block header. */ typedef struct ETHBeaconBlockHeader ETHBeaconBlockHeader; /** * Obtains the beacon block header of a given light client header. * * - The returned value is allocated in the given light client header. * It must neither be released nor written to, and the light client header * must not be released while the returned value is in use. * * @param header Light client header. * * @return Beacon block header. * * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/phase0/beacon-chain.md#beaconblockheader */ ETH_RESULT_USE_CHECK const ETHBeaconBlockHeader *ETHLightClientHeaderGetBeacon( const ETHLightClientHeader *header); /** * Obtains the slot number of a given beacon block header. * * @param beacon Beacon block header. * * @return Slot number. */ ETH_RESULT_USE_CHECK int ETHBeaconBlockHeaderGetSlot(const ETHBeaconBlockHeader *beacon); /** * Obtains the proposer validator registry index * of a given beacon block header. * * @param beacon Beacon block header. * * @return Proposer validator registry index. */ ETH_RESULT_USE_CHECK int ETHBeaconBlockHeaderGetProposerIndex(const ETHBeaconBlockHeader *beacon); /** * Obtains the parent beacon block Merkle root of a given beacon block header. * * - The returned value is allocated in the given beacon block header. * It must neither be released nor written to, and the beacon block header * must not be released while the returned value is in use. * * @param beacon Beacon block header. * * @return Parent beacon block root. */ ETH_RESULT_USE_CHECK const ETHRoot *ETHBeaconBlockHeaderGetParentRoot(const ETHBeaconBlockHeader *beacon); /** * Obtains the beacon state Merkle root of a given beacon block header. * * - The returned value is allocated in the given beacon block header. * It must neither be released nor written to, and the beacon block header * must not be released while the returned value is in use. * * @param beacon Beacon block header. * * @return Beacon state root. */ ETH_RESULT_USE_CHECK const ETHRoot *ETHBeaconBlockHeaderGetStateRoot(const ETHBeaconBlockHeader *beacon); /** * Obtains the beacon block body Merkle root of a given beacon block header. * * - The returned value is allocated in the given beacon block header. * It must neither be released nor written to, and the beacon block header * must not be released while the returned value is in use. * * @param beacon Beacon block header. * * @return Beacon block body root. */ ETH_RESULT_USE_CHECK const ETHRoot *ETHBeaconBlockHeaderGetBodyRoot(const ETHBeaconBlockHeader *beacon); /** * Computes the execution block hash for a given light client header. * * - The hash must be destroyed with `ETHRootDestroy` * once no longer needed, to release memory. * * @param header Light client header. * @param cfg Ethereum Consensus Layer network configuration. * * @return Pointer to a copy of the given header's execution block hash. * * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/deneb/beacon-chain.md#executionpayloadheader */ ETH_RESULT_USE_CHECK ETHRoot *ETHLightClientHeaderCopyExecutionHash( const ETHLightClientHeader *header, const ETHConsensusConfig *cfg); /** * Execution payload header. */ typedef struct ETHExecutionPayloadHeader ETHExecutionPayloadHeader; /** * Obtains the execution payload header of a given light client header. * * - The returned value is allocated in the given light client header. * It must neither be released nor written to, and the light client header * must not be released while the returned value is in use. * * @param header Light client header. * * @return Execution payload header. * * @see https://github.com/ethereum/consensus-specs/blob/v1.4.0-beta.0/specs/deneb/beacon-chain.md#executionpayloadheader */ ETH_RESULT_USE_CHECK const ETHExecutionPayloadHeader *ETHLightClientHeaderGetExecution( const ETHLightClientHeader *header); /** * Obtains the parent execution block hash of a given * execution payload header. * * - The returned value is allocated in the given execution payload header. * It must neither be released nor written to, and the execution payload * header must not be released while the returned value is in use. * * @param execution Execution payload header. * * @return Parent execution block hash. */ ETH_RESULT_USE_CHECK const ETHRoot *ETHExecutionPayloadHeaderGetParentHash( const ETHExecutionPayloadHeader *execution); /** * Execution address. */ typedef struct { uint8_t bytes[20]; } ETHExecutionAddress; /** * Obtains the fee recipient address of a given execution payload header. * * - The returned value is allocated in the given execution payload header. * It must neither be released nor written to, and the execution payload * header must not be released while the returned value is in use. * * @param execution Execution payload header. * * @return Fee recipient execution address. */ ETH_RESULT_USE_CHECK const ETHExecutionAddress *ETHExecutionPayloadHeaderGetFeeRecipient( const ETHExecutionPayloadHeader *execution); /** * Obtains the state MPT root of a given execution payload header. * * - The returned value is allocated in the given execution payload header. * It must neither be released nor written to, and the execution payload * header must not be released while the returned value is in use. * * @param execution Execution payload header. * * @return Execution state root. */ ETH_RESULT_USE_CHECK const ETHRoot *ETHExecutionPayloadHeaderGetStateRoot( const ETHExecutionPayloadHeader *execution); /** * Obtains the receipts MPT root of a given execution payload header. * * - The returned value is allocated in the given execution payload header. * It must neither be released nor written to, and the execution payload * header must not be released while the returned value is in use. * * @param execution Execution payload header. * * @return Execution receipts root. */ ETH_RESULT_USE_CHECK const ETHRoot *ETHExecutionPayloadHeaderGetReceiptsRoot( const ETHExecutionPayloadHeader *execution); /** * Execution logs Bloom. */ typedef struct { uint8_t bytes[256]; } ETHLogsBloom; /** * Obtains the logs Bloom of a given execution payload header. * * - The returned value is allocated in the given execution payload header. * It must neither be released nor written to, and the execution payload * header must not be released while the returned value is in use. * * @param execution Execution payload header. * * @return Execution logs Bloom. */ ETH_RESULT_USE_CHECK const ETHLogsBloom *ETHExecutionPayloadHeaderGetLogsBloom( const ETHExecutionPayloadHeader *execution); /** * Obtains the previous randao mix of a given execution payload header. * * - The returned value is allocated in the given execution payload header. * It must neither be released nor written to, and the execution payload * header must not be released while the returned value is in use. * * @param execution Execution payload header. * * @return Previous randao mix. */ ETH_RESULT_USE_CHECK const ETHRoot *ETHExecutionPayloadHeaderGetPrevRandao( const ETHExecutionPayloadHeader *execution); /** * Obtains the execution block number of a given execution payload header. * * @param execution Execution payload header. * * @return Execution block number. */ ETH_RESULT_USE_CHECK int ETHExecutionPayloadHeaderGetBlockNumber( const ETHExecutionPayloadHeader *execution); /** * Obtains the gas limit of a given execution payload header. * * @param execution Execution payload header. * * @return Gas limit. */ ETH_RESULT_USE_CHECK int ETHExecutionPayloadHeaderGetGasLimit( const ETHExecutionPayloadHeader *execution); /** * Obtains the gas used of a given execution payload header. * * @param execution Execution payload header. * * @return Gas used. */ ETH_RESULT_USE_CHECK int ETHExecutionPayloadHeaderGetGasUsed( const ETHExecutionPayloadHeader *execution); /** * Obtains the timestamp of a given execution payload header. * * @param execution Execution payload header. * * @return Execution block timestamp. */ ETH_RESULT_USE_CHECK int ETHExecutionPayloadHeaderGetTimestamp( const ETHExecutionPayloadHeader *execution); /** * Obtains the extra data buffer of a given execution payload header. * * - The returned value is allocated in the given execution payload header. * It must neither be released nor written to, and the execution payload * header must not be released while the returned value is in use. * * @param execution Execution payload header. * @param[out] numBytes Length of buffer. * * @return Buffer with execution block extra data. */ ETH_RESULT_USE_CHECK const void *ETHExecutionPayloadHeaderGetExtraDataBytes( const ETHExecutionPayloadHeader *execution, int *numBytes); /** * UInt256 (little-endian) */ typedef struct { uint8_t bytes[32]; } ETHUInt256; /** * Obtains the base fee per gas of a given execution payload header. * * - The returned value is allocated in the given execution payload header. * It must neither be released nor written to, and the execution payload * header must not be released while the returned value is in use. * * @param execution Execution payload header. * * @return Base fee per gas. */ ETH_RESULT_USE_CHECK const ETHUInt256 *ETHExecutionPayloadHeaderGetBaseFeePerGas( const ETHExecutionPayloadHeader *execution); /** * Obtains the blob gas used of a given execution payload header. * * @param execution Execution payload header. * * @return Blob gas used. */ ETH_RESULT_USE_CHECK int ETHExecutionPayloadHeaderGetBlobGasUsed( const ETHExecutionPayloadHeader *execution); /** * Obtains the excess blob gas of a given execution payload header. * * @param execution Execution payload header. * * @return Excess blob gas. */ ETH_RESULT_USE_CHECK int ETHExecutionPayloadHeaderGetExcessBlobGas( const ETHExecutionPayloadHeader *execution); /** * Execution block header. */ typedef struct ETHExecutionBlockHeader ETHExecutionBlockHeader; /** * Verifies that a JSON execution block header is valid and that it matches * the given `executionHash`. * * - The JSON-RPC `eth_getBlockByHash` with params `[executionHash, false]` * may be used to obtain execution block header data for a given execution * block hash. Pass the response's `result` property as `blockHeaderJson`. * * - The execution block header must be destroyed with * `ETHExecutionBlockHeaderDestroy` once no longer needed, * to release memory. * * @param executionHash Execution block hash. * @param blockHeaderJson Buffer with JSON encoded header. NULL-terminated. * * @return Pointer to an initialized execution block header - If successful. * @return `NULL` - If the given `blockHeaderJson` is malformed or incompatible. * * @see https://ethereum.org/en/developers/docs/apis/json-rpc/#eth_getblockbyhash */ ETH_RESULT_USE_CHECK ETHExecutionBlockHeader *ETHExecutionBlockHeaderCreateFromJson( const ETHRoot *executionHash, const char *blockHeaderJson); /** * Destroys an execution block header. * * - The execution block header must no longer be used after destruction. * * @param executionBlockHeader Execution block header. */ void ETHExecutionBlockHeaderDestroy(ETHExecutionBlockHeader *executionBlockHeader); /** * Obtains the transactions MPT root of a given execution block header. * * - The returned value is allocated in the given execution block header. * It must neither be released nor written to, and the execution block * header must not be released while the returned value is in use. * * @param executionBlockHeader Execution block header. * * @return Execution transactions root. */ ETH_RESULT_USE_CHECK const ETHRoot *ETHExecutionBlockHeaderGetTransactionsRoot( const ETHExecutionBlockHeader *executionBlockHeader); /** * Obtains the withdrawals MPT root of a given execution block header. * * - The returned value is allocated in the given execution block header. * It must neither be released nor written to, and the execution block * header must not be released while the returned value is in use. * * @param executionBlockHeader Execution block header. * * @return Execution withdrawals root. */ ETH_RESULT_USE_CHECK const ETHRoot *ETHExecutionBlockHeaderGetWithdrawalsRoot( const ETHExecutionBlockHeader *executionBlockHeader); /** * Transaction sequence. */ typedef struct ETHTransactions ETHTransactions; /** * Verifies that JSON transactions data is valid and that it matches * the given `transactionsRoot`. * * - The JSON-RPC `eth_getBlockByHash` with params `[executionHash, true]` * may be used to obtain transactions data for a given execution * block hash. Pass `result.transactions` as `transactionsJson`. * * - The transaction sequence must be destroyed with * `ETHTransactionsDestroy` once no longer needed, * to release memory. * * @param transactionsRoot Execution transactions root. * @param transactionsJson Buffer with JSON transactions list. NULL-terminated. * * @return Pointer to an initialized transaction sequence - If successful. * @return `NULL` - If the given `transactionsJson` is malformed or incompatible. * * @see https://ethereum.org/en/developers/docs/apis/json-rpc/#eth_getblockbyhash */ ETH_RESULT_USE_CHECK ETHTransactions *ETHTransactionsCreateFromJson( const ETHRoot *transactionsRoot, const char *transactionsJson); /** * Destroys a transaction sequence. * * - The transaction sequence must no longer be used after destruction. * * @param transactions Transaction sequence. */ void ETHTransactionsDestroy(ETHTransactions *transactions); /** * Indicates the total number of transactions in a transaction sequence. * * - Individual transactions may be investigated using `ETHTransactionsGet`. * * @param transactions Transaction sequence. * * @return Number of available transactions. */ ETH_RESULT_USE_CHECK int ETHTransactionsGetCount(const ETHTransactions *transactions); /** * Transaction. */ typedef struct ETHTransaction ETHTransaction; /** * Obtains an individual transaction by sequential index * in a transaction sequence. * * - The returned value is allocated in the given transaction sequence. * It must neither be released nor written to, and the transaction * sequence must not be released while the returned value is in use. * * @param transactions Transaction sequence. * @param transactionIndex Sequential transaction index. * * @return Transaction. */ ETH_RESULT_USE_CHECK const ETHTransaction *ETHTransactionsGet( const ETHTransactions *transactions, int transactionIndex); /** * Obtains the transaction hash of a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * * @return Transaction hash. */ ETH_RESULT_USE_CHECK const ETHRoot *ETHTransactionGetHash(const ETHTransaction *transaction); /** * Obtains the chain ID of a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * * @return Chain ID. */ ETH_RESULT_USE_CHECK const ETHUInt256 *ETHTransactionGetChainId(const ETHTransaction *transaction); /** * Obtains the from address of a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * * @return From execution address. */ ETH_RESULT_USE_CHECK const ETHExecutionAddress *ETHTransactionGetFrom(const ETHTransaction *transaction); /** * Obtains the nonce of a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * * @return Nonce. */ ETH_RESULT_USE_CHECK const uint64_t *ETHTransactionGetNonce(const ETHTransaction *transaction); /** * Obtains the max priority fee per gas of a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * * @return Max priority fee per gas. */ ETH_RESULT_USE_CHECK const uint64_t *ETHTransactionGetMaxPriorityFeePerGas(const ETHTransaction *transaction); /** * Obtains the max fee per gas of a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * * @return Max fee per gas. */ ETH_RESULT_USE_CHECK const uint64_t *ETHTransactionGetMaxFeePerGas(const ETHTransaction *transaction); /** * Obtains the gas of a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * * @return Gas. */ ETH_RESULT_USE_CHECK const uint64_t *ETHTransactionGetGas(const ETHTransaction *transaction); /** * Indicates whether or not a transaction is creating a contract. * * @param transaction Transaction. * * @return Whether or not the transaction is creating a contract. */ ETH_RESULT_USE_CHECK bool ETHTransactionIsCreatingContract(const ETHTransaction *transaction); /** * Obtains the to address of a transaction. * * - If the transaction is creating a contract, this function returns * the address of the new contract. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * * @return To execution address. */ ETH_RESULT_USE_CHECK const ETHExecutionAddress *ETHTransactionGetTo(const ETHTransaction *transaction); /** * Obtains the value of a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * * @return Value. */ ETH_RESULT_USE_CHECK const ETHUInt256 *ETHTransactionGetValue(const ETHTransaction *transaction); /** * Obtains the input of a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * @param[out] numBytes Length of buffer. * * @return Buffer with input. */ ETH_RESULT_USE_CHECK const void *ETHTransactionGetInputBytes( const ETHTransaction *transaction, int *numBytes); /** * Transaction access list. */ typedef struct ETHAccessList ETHAccessList; /** * Obtains the access list of a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * * @return Transaction access list. */ ETH_RESULT_USE_CHECK const ETHAccessList *ETHTransactionGetAccessList(const ETHTransaction *transaction); /** * Indicates the total number of access tuples in a transaction access list. * * - Individual access tuples may be investigated using `ETHAccessListGet`. * * @param accessList Transaction access list. * * @return Number of available access tuples. */ ETH_RESULT_USE_CHECK int ETHAccessListGetCount(const ETHAccessList *accessList); /** * Access tuple. */ typedef struct ETHAccessTuple ETHAccessTuple; /** * Obtains an individual access tuple by sequential index * in a transaction access list. * * - The returned value is allocated in the given transaction access list. * It must neither be released nor written to, and the transaction * access list must not be released while the returned value is in use. * * @param accessList Transaction access list. * @param accessTupleIndex Sequential access tuple index. * * @return Access tuple. */ ETH_RESULT_USE_CHECK const ETHAccessTuple *ETHAccessListGet( const ETHAccessList *accessList, int accessTupleIndex); /** * Obtains the address of an access tuple. * * - The returned value is allocated in the given access tuple. * It must neither be released nor written to, and the access tuple * must not be released while the returned value is in use. * * @param accessTuple Access tuple. * * @return Address. */ ETH_RESULT_USE_CHECK const ETHExecutionAddress *ETHAccessTupleGetAddress(const ETHAccessTuple *accessTuple); /** * Indicates the total number of storage keys in an access tuple. * * - Individual storage keys may be investigated using * `ETHAccessTupleGetStorageKey`. * * @param accessTuple Access tuple. * * @return Number of available storage keys. */ ETH_RESULT_USE_CHECK int ETHAccessTupleGetNumStorageKeys(const ETHAccessTuple *accessTuple); /** * Obtains an individual storage key by sequential index * in an access tuple. * * - The returned value is allocated in the given transaction access tuple. * It must neither be released nor written to, and the transaction * access tuple must not be released while the returned value is in use. * * @param accessTuple Access tuple. * @param storageKeyIndex Sequential storage key index. * * @return Storage key. */ ETH_RESULT_USE_CHECK const ETHRoot *ETHAccessTupleGetStorageKey( const ETHAccessTuple *accessTuple, int storageKeyIndex); /** * Obtains the max fee per blob gas of a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * * @return Max fee per blob gas. */ ETH_RESULT_USE_CHECK const uint64_t *ETHTransactionGetMaxFeePerBlobGas(const ETHTransaction *transaction); /** * Indicates the total number of blob versioned hashes of a transaction. * * - Individual blob versioned hashes may be investigated using * `ETHTransactionGetBlobVersionedHash`. * * @param transaction Transaction. * * @return Number of available blob versioned hashes. */ ETH_RESULT_USE_CHECK int ETHTransactionGetNumBlobVersionedHashes(const ETHTransaction *transaction); /** * Obtains an individual blob versioned hash by sequential index * in a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * @param versionedHashIndex Sequential blob versioned hash index. * * @return Blob versioned hash. */ ETH_RESULT_USE_CHECK const ETHRoot *ETHTransactionGetBlobVersionedHash( const ETHTransaction *transaction, int versionedHashIndex); /** * Obtains the signature of a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * @param[out] numBytes Length of buffer. * * @return Buffer with signature. */ ETH_RESULT_USE_CHECK const void *ETHTransactionGetSignatureBytes( const ETHTransaction *transaction, int *numBytes); /** * Obtains the raw byte representation of a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * @param[out] numBytes Length of buffer. * * @return Buffer with raw transaction data. */ ETH_RESULT_USE_CHECK const void *ETHTransactionGetBytes( const ETHTransaction *transaction, int *numBytes); /** * Obtains the EIP-6404 transaction root of a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * * @return EIP-6404 transaction root. * * @see https://eips.ethereum.org/EIPS/eip-6404 */ ETH_RESULT_USE_CHECK const ETHRoot *ETHTransactionGetEip6404Root(const ETHTransaction *transaction); /** * Obtains the raw EIP-6404 byte representation of a transaction. * * - The returned value is allocated in the given transaction. * It must neither be released nor written to, and the transaction * must not be released while the returned value is in use. * * @param transaction Transaction. * @param[out] numBytes Length of buffer. * * @return Buffer with raw EIP-6404 transaction data. * * @see https://eips.ethereum.org/EIPS/eip-6404 */ ETH_RESULT_USE_CHECK const void *ETHTransactionGetEip6404Bytes( const ETHTransaction *transaction, int *numBytes); /** * Obtains the length of the Snappy compressed EIP-6404 byte representation * of a transaction. * * @param transaction Transaction. * * @return Length of Snappy compressed EIP-6404 transaction data. * * @see https://eips.ethereum.org/EIPS/eip-6404 */ ETH_RESULT_USE_CHECK int ETHTransactionGetNumEip6404SnappyBytes( const ETHTransaction *transaction); /** * Receipt sequence. */ typedef struct ETHReceipts ETHReceipts; /** * Verifies that JSON receipts data is valid and that it matches * the given `receiptsRoot`. * * - The JSON-RPC `eth_getTransactionReceipt` may be used to obtain * receipts data for a given transaction hash. For verification, it is * necessary to obtain the receipt for _all_ transactions within a block. * Pass a JSON array containing _all_ receipt's `result` as `receiptsJson`. * The receipts need to be in the same order as the `transactions`. * * - The receipt sequence must be destroyed with `ETHReceiptsDestroy` * once no longer needed, to release memory. * * @param receiptsRoot Execution receipts root. * @param receiptsJson Buffer with JSON receipts list. NULL-terminated. * @param transactions Transaction sequence. * * @return Pointer to an initialized receipt sequence - If successful. * @return `NULL` - If the given `receiptsJson` is malformed or incompatible. * * @see https://ethereum.org/en/developers/docs/apis/json-rpc/#eth_gettransactionreceipt */ ETH_RESULT_USE_CHECK ETHReceipts *ETHReceiptsCreateFromJson( const ETHRoot *receiptsRoot, const char *receiptsJson, const ETHTransactions *transactions); /** * Destroys a receipt sequence. * * - The receipt sequence must no longer be used after destruction. * * @param receipts Receipt sequence. */ void ETHReceiptsDestroy(ETHReceipts *receipts); /** * Indicates the total number of receipts in a receipt sequence. * * - Individual receipts may be investigated using `ETHReceiptsGet`. * * @param receipts Receipt sequence. * * @return Number of available receipts. */ ETH_RESULT_USE_CHECK int ETHReceiptsGetCount(const ETHReceipts *receipts); /** * Receipt. */ typedef struct ETHReceipt ETHReceipt; /** * Obtains an individual receipt by sequential index * in a receipt sequence. * * - The returned value is allocated in the given receipt sequence. * It must neither be released nor written to, and the receipt * sequence must not be released while the returned value is in use. * * @param receipts Receipt sequence. * @param receiptIndex Sequential receipt index. * * @return Receipt */ ETH_RESULT_USE_CHECK const ETHReceipt *ETHReceiptsGet( const ETHReceipts *receipts, int receiptIndex); /** * Indicates whether or not a receipt has a status code. * * @param receipt Receipt. * * @return Whether or not the receipt has a status code. * * @see https://eips.ethereum.org/EIPS/eip-658 */ ETH_RESULT_USE_CHECK bool ETHReceiptHasStatus(const ETHReceipt *receipt); /** * Obtains the intermediate post-state root of a receipt with no status code. * * - If the receipt has a status code, this function returns a zero hash. * * - The returned value is allocated in the given receipt. * It must neither be released nor written to, and the receipt * must not be released while the returned value is in use. * * @param receipt Receipt. * * @return Intermediate post-state root. */ ETH_RESULT_USE_CHECK const ETHRoot *ETHReceiptGetRoot(const ETHReceipt *receipt); /** * Obtains the status code of a receipt with a status code. * * - If the receipt has no status code, this function returns true. * * @param receipt Receipt. * * @return Status code. * * @see https://eips.ethereum.org/EIPS/eip-658 */ ETH_RESULT_USE_CHECK bool ETHReceiptGetStatus(const ETHReceipt *receipt); /** * Obtains the gas used of a receipt. * * - The returned value is allocated in the given receipt. * It must neither be released nor written to, and the receipt * must not be released while the returned value is in use. * * @param receipt Receipt. * * @return Gas used. */ ETH_RESULT_USE_CHECK const uint64_t *ETHReceiptGetGasUsed(const ETHReceipt *receipt); /** * Obtains the logs Bloom of a receipt. * * - The returned value is allocated in the given receipt. * It must neither be released nor written to, and the receipt * must not be released while the returned value is in use. * * @param receipt Receipt. * * @return Logs Bloom. */ ETH_RESULT_USE_CHECK const ETHLogsBloom *ETHReceiptGetLogsBloom(const ETHReceipt *receipt); /** * Log sequence. */ typedef struct ETHLogs ETHLogs; /** * Obtains the logs of a receipt. * * - The returned value is allocated in the given receipt. * It must neither be released nor written to, and the receipt * must not be released while the returned value is in use. * * @param receipt Receipt. * * @return Log sequence. */ ETH_RESULT_USE_CHECK const ETHLogs *ETHReceiptGetLogs(const ETHReceipt *receipt); /** * Indicates the total number of logs in a log sequence. * * - Individual logs may be investigated using `ETHLogsGet`. * * @param logs Log sequence. * * @return Number of available logs. */ ETH_RESULT_USE_CHECK int ETHLogsGetCount(const ETHLogs *logs); /** * Log. */ typedef struct ETHLog ETHLog; /** * Obtains an individual log by sequential index in a log sequence. * * - The returned value is allocated in the given log sequence. * It must neither be released nor written to, and the log sequence * must not be released while the returned value is in use. * * @param logs Log sequence. * @param logIndex Sequential log index. * * @return Log. */ ETH_RESULT_USE_CHECK const ETHLog *ETHLogsGet( const ETHLogs *logs, int logIndex); /** * Obtains the address of a log. * * - The returned value is allocated in the given log. * It must neither be released nor written to, and the log * must not be released while the returned value is in use. * * @param log Log. * * @return Address. */ ETH_RESULT_USE_CHECK const ETHExecutionAddress *ETHLogGetAddress(const ETHLog *log); /** * Indicates the total number of topics in a log. * * - Individual topics may be investigated using `ETHLogGetTopic`. * * @param log Log. * * @return Number of available topics. */ ETH_RESULT_USE_CHECK int ETHLogGetNumTopics(const ETHLog *log); /** * Obtains an individual topic by sequential index in a log. * * - The returned value is allocated in the given log. * It must neither be released nor written to, and the log * must not be released while the returned value is in use. * * @param log Log. * @param topicIndex Sequential topic index. * * @return Topic. */ ETH_RESULT_USE_CHECK const ETHRoot *ETHLogGetTopic( const ETHLog *log, int topicIndex); /** * Obtains the data of a log. * * - The returned value is allocated in the given log. * It must neither be released nor written to, and the log * must not be released while the returned value is in use. * * @param log Log. * @param[out] numBytes Length of buffer. * * @return Buffer with data. */ ETH_RESULT_USE_CHECK const void *ETHLogGetDataBytes( const ETHLog *log, int *numBytes); /** * Obtains the raw byte representation of a receipt. * * - The returned value is allocated in the given receipt. * It must neither be released nor written to, and the receipt * must not be released while the returned value is in use. * * @param receipt Receipt. * @param[out] numBytes Length of buffer. * * @return Buffer with raw receipt data. */ ETH_RESULT_USE_CHECK const void *ETHReceiptGetBytes( const ETHReceipt *receipt, int *numBytes); /** * Obtains the raw EIP-6466 byte representation of a receipt. * * - The returned value is allocated in the given receipt. * It must neither be released nor written to, and the receipt * must not be released while the returned value is in use. * * @param receipt Receipt. * @param[out] numBytes Length of buffer. * * @return Buffer with raw EIP-6466 receipt data. * * @see https://eips.ethereum.org/EIPS/eip-6466 */ ETH_RESULT_USE_CHECK const void *ETHReceiptGetEip6466Bytes( const ETHReceipt *receipt, int *numBytes); /** * Obtains the length of the Snappy compressed EIP-6466 byte representation * of a receipt. * * @param receipt Receipt. * * @return Length of Snappy compressed EIP-6466 receipt data. * * @see https://eips.ethereum.org/EIPS/eip-6466 */ ETH_RESULT_USE_CHECK int ETHReceiptGetNumEip6466SnappyBytes( const ETHReceipt *receipt); #if __has_feature(nullability) #pragma clang assume_nonnull end #endif #ifdef __cplusplus } #endif #endif