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execution.go
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execution.go
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package metrics
import (
"time"
"github.com/prometheus/client_golang/prometheus"
"github.com/prometheus/client_golang/prometheus/promauto"
"github.com/onflow/flow-go/model/flow"
"github.com/onflow/flow-go/module"
)
type ExecutionCollector struct {
tracer module.Tracer
stateReadsPerBlock prometheus.Histogram
totalExecutedBlocksCounter prometheus.Counter
totalExecutedCollectionsCounter prometheus.Counter
totalExecutedTransactionsCounter prometheus.Counter
totalExecutedScriptsCounter prometheus.Counter
totalFailedTransactionsCounter prometheus.Counter
lastExecutedBlockHeightGauge prometheus.Gauge
stateStorageDiskTotal prometheus.Gauge
storageStateCommitment prometheus.Gauge
forestApproxMemorySize prometheus.Gauge
forestNumberOfTrees prometheus.Gauge
latestTrieRegCount prometheus.Gauge
latestTrieRegCountDiff prometheus.Gauge
latestTrieRegSize prometheus.Gauge
latestTrieRegSizeDiff prometheus.Gauge
latestTrieMaxDepthTouched prometheus.Gauge
updated prometheus.Counter
proofSize prometheus.Gauge
updatedValuesNumber prometheus.Counter
updatedValuesSize prometheus.Gauge
updatedDuration prometheus.Histogram
updatedDurationPerValue prometheus.Histogram
readValuesNumber prometheus.Counter
readValuesSize prometheus.Gauge
readDuration prometheus.Histogram
readDurationPerValue prometheus.Histogram
blockComputationUsed prometheus.Histogram
blockComputationVector *prometheus.GaugeVec
blockExecutionTime prometheus.Histogram
blockTransactionCounts prometheus.Histogram
blockCollectionCounts prometheus.Histogram
collectionComputationUsed prometheus.Histogram
collectionExecutionTime prometheus.Histogram
collectionTransactionCounts prometheus.Histogram
collectionRequestSent prometheus.Counter
collectionRequestRetried prometheus.Counter
transactionParseTime prometheus.Histogram
transactionCheckTime prometheus.Histogram
transactionInterpretTime prometheus.Histogram
transactionExecutionTime prometheus.Histogram
transactionMemoryUsage prometheus.Histogram
transactionMemoryEstimate prometheus.Histogram
transactionMemoryDifference prometheus.Histogram
transactionComputationUsed prometheus.Histogram
transactionEmittedEvents prometheus.Histogram
scriptExecutionTime prometheus.Histogram
scriptComputationUsed prometheus.Histogram
scriptMemoryUsage prometheus.Histogram
scriptMemoryEstimate prometheus.Histogram
scriptMemoryDifference prometheus.Histogram
numberOfAccounts prometheus.Gauge
chunkDataPackRequestProcessedTotal prometheus.Counter
stateSyncActive prometheus.Gauge
blockDataUploadsInProgress prometheus.Gauge
blockDataUploadsDuration prometheus.Histogram
maxCollectionHeight prometheus.Gauge
computationResultUploadedCount prometheus.Counter
computationResultUploadRetriedCount prometheus.Counter
}
func NewExecutionCollector(tracer module.Tracer) *ExecutionCollector {
forestApproxMemorySize := promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "forest_approx_memory_size",
Help: "an approximate size of in-memory forest in bytes",
})
forestNumberOfTrees := promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "forest_number_of_trees",
Help: "the number of trees in memory",
})
latestTrieRegCount := promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "latest_trie_reg_count",
Help: "the number of allocated registers (latest created trie)",
})
latestTrieRegCountDiff := promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "latest_trie_reg_count_diff",
Help: "the difference between number of unique register allocated of the latest created trie and parent trie",
})
latestTrieRegSize := promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "latest_trie_reg_size",
Help: "the size of allocated registers (latest created trie)",
})
latestTrieRegSizeDiff := promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "latest_trie_reg_size_diff",
Help: "the difference between size of unique register allocated of the latest created trie and parent trie",
})
latestTrieMaxDepthTouched := promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "latest_trie_max_depth_touched",
Help: "the maximum depth touched of the latest created trie",
})
updatedCount := promauto.NewCounter(prometheus.CounterOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "updates_counted",
Help: "the number of updates",
})
proofSize := promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "average_proof_size",
Help: "the average size of a single generated proof in bytes",
})
updatedValuesNumber := promauto.NewCounter(prometheus.CounterOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "update_values_number",
Help: "the total number of values updated",
})
updatedValuesSize := promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "update_values_size",
Help: "the total size of values for single update in bytes",
})
updatedDuration := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "update_duration",
Help: "the duration of update operation",
Buckets: []float64{0.05, 0.2, 0.5, 1, 2, 5},
})
updatedDurationPerValue := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "update_duration_per_value",
Help: "the duration of update operation per value",
Buckets: []float64{0.05, 0.2, 0.5, 1, 2, 5},
})
readValuesNumber := promauto.NewCounter(prometheus.CounterOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "read_values_number",
Help: "the total number of values read",
})
readValuesSize := promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "read_values_size",
Help: "the total size of values for single read in bytes",
})
readDuration := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "read_duration",
Help: "the duration of read operation",
Buckets: []float64{0.05, 0.2, 0.5, 1, 2, 5},
})
readDurationPerValue := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemMTrie,
Name: "read_duration_per_value",
Help: "the duration of read operation per value",
Buckets: []float64{0.05, 0.2, 0.5, 1, 2, 5},
})
blockExecutionTime := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "block_execution_time_milliseconds",
Help: "the total time spent on block execution in milliseconds",
Buckets: []float64{100, 500, 1000, 1500, 2000, 2500, 3000, 6000},
})
blockComputationUsed := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "block_computation_used",
Help: "the total amount of computation used by a block",
Buckets: []float64{1000, 10000, 100000, 500000, 1000000, 5000000, 10000000},
})
blockComputationVector := promauto.NewGaugeVec(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "block_execution_effort_vector",
Help: "execution effort vector of the last executed block by computation kind",
}, []string{LabelComputationKind})
blockTransactionCounts := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "block_transaction_counts",
Help: "the total number of transactions per block",
Buckets: prometheus.ExponentialBuckets(4, 2, 10),
})
blockCollectionCounts := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "block_collection_counts",
Help: "the total number of collections per block",
Buckets: prometheus.ExponentialBuckets(1, 2, 8),
})
collectionExecutionTime := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "collection_execution_time_milliseconds",
Help: "the total time spent on collection execution in milliseconds",
Buckets: []float64{100, 200, 500, 1000, 1500, 2000},
})
collectionComputationUsed := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "collection_computation_used",
Help: "the total amount of computation used by a collection",
Buckets: []float64{1000, 10000, 50000, 100000, 500000, 1000000},
})
collectionTransactionCounts := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "collection_transaction_counts",
Help: "the total number of transactions per collection",
Buckets: prometheus.ExponentialBuckets(4, 2, 8),
})
collectionRequestsSent := promauto.NewCounter(prometheus.CounterOpts{
Namespace: namespaceExecution,
Subsystem: subsystemIngestion,
Name: "collection_requests_sent",
Help: "the number of collection requests sent",
})
collectionRequestsRetries := promauto.NewCounter(prometheus.CounterOpts{
Namespace: namespaceExecution,
Subsystem: subsystemIngestion,
Name: "collection_requests_retries",
Help: "the number of collection requests retried",
})
transactionParseTime := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "transaction_parse_time_nanoseconds",
Help: "the parse time for a transaction in nanoseconds",
Buckets: prometheus.ExponentialBuckets(10, 10, 8),
})
transactionCheckTime := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "transaction_check_time_nanoseconds",
Help: "the checking time for a transaction in nanoseconds",
Buckets: prometheus.ExponentialBuckets(10, 10, 8),
})
transactionInterpretTime := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "transaction_interpret_time_nanoseconds",
Help: "the interpretation time for a transaction in nanoseconds",
Buckets: prometheus.ExponentialBuckets(10, 10, 8),
})
transactionExecutionTime := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "transaction_execution_time_milliseconds",
Help: "the total time spent on transaction execution in milliseconds",
Buckets: []float64{2, 4, 8, 16, 32, 64, 100, 250, 500},
})
transactionComputationUsed := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "transaction_computation_used",
Help: "the total amount of computation used by a transaction",
Buckets: []float64{50, 100, 500, 1000, 5000, 10000},
})
transactionMemoryUsage := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "transaction_memory_usage",
Help: "the total amount of memory allocated by a transaction",
Buckets: []float64{100_000, 1_000_000, 10_000_000, 50_000_000, 100_000_000, 500_000_000, 1_000_000_000},
})
transactionMemoryEstimate := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "transaction_memory_estimate",
Help: "the estimated memory used by a transaction",
Buckets: []float64{1_000_000, 10_000_000, 100_000_000, 1_000_000_000, 5_000_000_000, 10_000_000_000, 50_000_000_000, 100_000_000_000},
})
transactionMemoryDifference := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "transaction_memory_difference",
Help: "the difference in actual memory usage and estimate for a transaction",
Buckets: []float64{-1, 0, 10_000_000, 100_000_000, 1_000_000_000},
})
transactionEmittedEvents := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "transaction_emitted_events",
Help: "the total number of events emitted by a transaction",
})
scriptExecutionTime := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "script_execution_time_milliseconds",
Help: "the total time spent on script execution in milliseconds",
Buckets: []float64{2, 4, 8, 16, 32, 64, 100, 250, 500},
})
scriptComputationUsed := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "script_computation_used",
Help: "the total amount of computation used by an script",
Buckets: []float64{50, 100, 500, 1000, 5000, 10000},
})
scriptMemoryUsage := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "script_memory_usage",
Help: "the total amount of memory allocated by a script",
Buckets: []float64{100_000, 1_000_000, 10_000_000, 50_000_000, 100_000_000, 500_000_000, 1_000_000_000},
})
scriptMemoryEstimate := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "script_memory_estimate",
Help: "the estimated memory used by a script",
Buckets: []float64{1_000_000, 10_000_000, 100_000_000, 1_000_000_000, 5_000_000_000, 10_000_000_000, 50_000_000_000, 100_000_000_000},
})
scriptMemoryDifference := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "script_memory_difference",
Help: "the difference in actual memory usage and estimate for a script",
Buckets: []float64{-1, 0, 10_000_000, 100_000_000, 1_000_000_000},
})
chunkDataPackRequestProcessedTotal := promauto.NewCounter(prometheus.CounterOpts{
Namespace: namespaceExecution,
Subsystem: subsystemProvider,
Name: "chunk_data_packs_requested_total",
Help: "the total number of chunk data pack requests processed by provider engine",
})
blockDataUploadsInProgress := promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemBlockDataUploader,
Name: "block_data_upload_in_progress",
Help: "number of concurrently running Block Data upload operations",
})
blockDataUploadsDuration := promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemBlockDataUploader,
Name: "block_data_upload_duration_ms",
Help: "the duration of update upload operation",
Buckets: []float64{1, 100, 500, 1000, 2000},
})
computationResultUploadedCount := promauto.NewCounter(prometheus.CounterOpts{
Namespace: namespaceExecution,
Subsystem: subsystemProvider,
Name: "computation_result_uploaded_count",
Help: "the total count of computation result uploaded",
})
computationResultUploadRetriedCount := promauto.NewCounter(prometheus.CounterOpts{
Namespace: namespaceExecution,
Subsystem: subsystemProvider,
Name: "computation_result_upload_retried_count",
Help: "the total count of computation result upload retried",
})
ec := &ExecutionCollector{
tracer: tracer,
forestApproxMemorySize: forestApproxMemorySize,
forestNumberOfTrees: forestNumberOfTrees,
latestTrieRegCount: latestTrieRegCount,
latestTrieRegCountDiff: latestTrieRegCountDiff,
latestTrieRegSize: latestTrieRegSize,
latestTrieRegSizeDiff: latestTrieRegSizeDiff,
latestTrieMaxDepthTouched: latestTrieMaxDepthTouched,
updated: updatedCount,
proofSize: proofSize,
updatedValuesNumber: updatedValuesNumber,
updatedValuesSize: updatedValuesSize,
updatedDuration: updatedDuration,
updatedDurationPerValue: updatedDurationPerValue,
readValuesNumber: readValuesNumber,
readValuesSize: readValuesSize,
readDuration: readDuration,
readDurationPerValue: readDurationPerValue,
blockExecutionTime: blockExecutionTime,
blockComputationUsed: blockComputationUsed,
blockComputationVector: blockComputationVector,
blockTransactionCounts: blockTransactionCounts,
blockCollectionCounts: blockCollectionCounts,
collectionExecutionTime: collectionExecutionTime,
collectionComputationUsed: collectionComputationUsed,
collectionTransactionCounts: collectionTransactionCounts,
collectionRequestSent: collectionRequestsSent,
collectionRequestRetried: collectionRequestsRetries,
transactionParseTime: transactionParseTime,
transactionCheckTime: transactionCheckTime,
transactionInterpretTime: transactionInterpretTime,
transactionExecutionTime: transactionExecutionTime,
transactionComputationUsed: transactionComputationUsed,
transactionMemoryUsage: transactionMemoryUsage,
transactionMemoryEstimate: transactionMemoryEstimate,
transactionMemoryDifference: transactionMemoryDifference,
transactionEmittedEvents: transactionEmittedEvents,
scriptExecutionTime: scriptExecutionTime,
scriptComputationUsed: scriptComputationUsed,
scriptMemoryUsage: scriptMemoryUsage,
scriptMemoryEstimate: scriptMemoryEstimate,
scriptMemoryDifference: scriptMemoryDifference,
chunkDataPackRequestProcessedTotal: chunkDataPackRequestProcessedTotal,
blockDataUploadsInProgress: blockDataUploadsInProgress,
blockDataUploadsDuration: blockDataUploadsDuration,
computationResultUploadedCount: computationResultUploadedCount,
computationResultUploadRetriedCount: computationResultUploadRetriedCount,
stateReadsPerBlock: promauto.NewHistogram(prometheus.HistogramOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Buckets: []float64{5, 10, 50, 100, 500},
Name: "block_state_reads",
Help: "count of state access/read operations performed per block",
}),
totalExecutedBlocksCounter: promauto.NewCounter(prometheus.CounterOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "total_executed_blocks",
Help: "the total number of blocks that have been executed",
}),
totalExecutedCollectionsCounter: promauto.NewCounter(prometheus.CounterOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "total_executed_collections",
Help: "the total number of collections that have been executed",
}),
totalExecutedTransactionsCounter: promauto.NewCounter(prometheus.CounterOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "total_executed_transactions",
Help: "the total number of transactions that have been executed",
}),
totalFailedTransactionsCounter: promauto.NewCounter(prometheus.CounterOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "total_failed_transactions",
Help: "the total number of transactions that has failed when executed",
}),
totalExecutedScriptsCounter: promauto.NewCounter(prometheus.CounterOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "total_executed_scripts",
Help: "the total number of scripts that have been executed",
}),
lastExecutedBlockHeightGauge: promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "last_executed_block_height",
Help: "the last height that was executed",
}),
stateStorageDiskTotal: promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemStateStorage,
Name: "data_size_bytes",
Help: "the execution state size on disk in bytes",
}),
storageStateCommitment: promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemStateStorage,
Name: "commitment_size_bytes",
Help: "the storage size of a state commitment in bytes",
}),
stateSyncActive: promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemIngestion,
Name: "state_sync_active",
Help: "indicates if the state sync is active",
}),
numberOfAccounts: promauto.NewGauge(prometheus.GaugeOpts{
Namespace: namespaceExecution,
Subsystem: subsystemRuntime,
Name: "number_of_accounts",
Help: "the number of existing accounts on the network",
}),
maxCollectionHeight: prometheus.NewGauge(prometheus.GaugeOpts{
Name: "max_collection_height",
Namespace: namespaceExecution,
Subsystem: subsystemIngestion,
Help: "gauge to track the maximum block height of collections received",
}),
}
return ec
}
// StartBlockReceivedToExecuted starts a span to trace the duration of a block
// from being received for execution to execution being finished
func (ec *ExecutionCollector) StartBlockReceivedToExecuted(blockID flow.Identifier) {
}
// FinishBlockReceivedToExecuted finishes a span to trace the duration of a block
// from being received for execution to execution being finished
func (ec *ExecutionCollector) FinishBlockReceivedToExecuted(blockID flow.Identifier) {
}
// ExecutionBlockExecuted reports computation and total time spent on a block computation
func (ec *ExecutionCollector) ExecutionBlockExecuted(dur time.Duration, compUsed uint64, txCounts int, colCounts int) {
ec.totalExecutedBlocksCounter.Inc()
ec.blockExecutionTime.Observe(float64(dur.Milliseconds()))
ec.blockComputationUsed.Observe(float64(compUsed))
ec.blockTransactionCounts.Observe(float64(txCounts))
ec.blockCollectionCounts.Observe(float64(colCounts))
}
func (ec *ExecutionCollector) ExecutionBlockExecutionEffortVectorComponent(compKind string, value uint) {
ec.blockComputationVector.With(prometheus.Labels{LabelComputationKind: compKind}).Set(float64(value))
}
// ExecutionCollectionExecuted reports computation and total time spent on a block computation
func (ec *ExecutionCollector) ExecutionCollectionExecuted(dur time.Duration, compUsed uint64, txCounts int) {
ec.totalExecutedCollectionsCounter.Inc()
ec.collectionExecutionTime.Observe(float64(dur.Milliseconds()))
ec.collectionComputationUsed.Observe(float64(compUsed))
ec.collectionTransactionCounts.Observe(float64(txCounts))
}
// TransactionExecuted reports the time and computation spent executing a single transaction
func (ec *ExecutionCollector) ExecutionTransactionExecuted(
dur time.Duration,
compUsed, memoryUsed, memoryEstimated uint64,
eventCounts int,
failed bool,
) {
ec.totalExecutedTransactionsCounter.Inc()
ec.transactionExecutionTime.Observe(float64(dur.Milliseconds()))
ec.transactionComputationUsed.Observe(float64(compUsed))
ec.transactionMemoryUsage.Observe(float64(memoryUsed))
ec.transactionMemoryEstimate.Observe(float64(memoryEstimated))
ec.transactionMemoryDifference.Observe(float64(memoryEstimated) - float64(memoryUsed))
ec.transactionEmittedEvents.Observe(float64(eventCounts))
if failed {
ec.totalFailedTransactionsCounter.Inc()
}
}
// ScriptExecuted reports the time spent executing a single script
func (ec *ExecutionCollector) ExecutionScriptExecuted(dur time.Duration, compUsed, memoryUsed, memoryEstimated uint64) {
ec.totalExecutedScriptsCounter.Inc()
ec.scriptExecutionTime.Observe(float64(dur.Milliseconds()))
ec.scriptComputationUsed.Observe(float64(compUsed))
ec.scriptMemoryUsage.Observe(float64(memoryUsed))
ec.scriptMemoryEstimate.Observe(float64(memoryEstimated))
ec.scriptMemoryDifference.Observe(float64(memoryEstimated) - float64(memoryUsed))
}
// ExecutionStateReadsPerBlock reports number of state access/read operations per block
func (ec *ExecutionCollector) ExecutionStateReadsPerBlock(reads uint64) {
ec.stateReadsPerBlock.Observe(float64(reads))
}
// ExecutionStateStorageDiskTotal reports the total storage size of the execution state on disk in bytes
func (ec *ExecutionCollector) ExecutionStateStorageDiskTotal(bytes int64) {
ec.stateStorageDiskTotal.Set(float64(bytes))
}
// ExecutionStorageStateCommitment reports the storage size of a state commitment
func (ec *ExecutionCollector) ExecutionStorageStateCommitment(bytes int64) {
ec.storageStateCommitment.Set(float64(bytes))
}
// ExecutionLastExecutedBlockHeight reports last executed block height
func (ec *ExecutionCollector) ExecutionLastExecutedBlockHeight(height uint64) {
ec.lastExecutedBlockHeightGauge.Set(float64(height))
}
// ForestApproxMemorySize records approximate memory usage of forest (all in-memory trees)
func (ec *ExecutionCollector) ForestApproxMemorySize(bytes uint64) {
ec.forestApproxMemorySize.Set(float64(bytes))
}
// ForestNumberOfTrees current number of trees in a forest (in memory)
func (ec *ExecutionCollector) ForestNumberOfTrees(number uint64) {
ec.forestNumberOfTrees.Set(float64(number))
}
// LatestTrieRegCount records the number of unique register allocated (the lastest created trie)
func (ec *ExecutionCollector) LatestTrieRegCount(number uint64) {
ec.latestTrieRegCount.Set(float64(number))
}
// LatestTrieRegCountDiff records the difference between the number of unique register allocated of the latest created trie and parent trie
func (ec *ExecutionCollector) LatestTrieRegCountDiff(number int64) {
ec.latestTrieRegCountDiff.Set(float64(number))
}
// LatestTrieRegSize records the size of unique register allocated (the lastest created trie)
func (ec *ExecutionCollector) LatestTrieRegSize(size uint64) {
ec.latestTrieRegSize.Set(float64(size))
}
// LatestTrieRegSizeDiff records the difference between the size of unique register allocated of the latest created trie and parent trie
func (ec *ExecutionCollector) LatestTrieRegSizeDiff(size int64) {
ec.latestTrieRegSizeDiff.Set(float64(size))
}
// LatestTrieMaxDepthTouched records the maximum depth touched of the last created trie
func (ec *ExecutionCollector) LatestTrieMaxDepthTouched(maxDepth uint16) {
ec.latestTrieMaxDepthTouched.Set(float64(maxDepth))
}
// UpdateCount increase a counter of performed updates
func (ec *ExecutionCollector) UpdateCount() {
ec.updated.Inc()
}
// ProofSize records a proof size
func (ec *ExecutionCollector) ProofSize(bytes uint32) {
ec.proofSize.Set(float64(bytes))
}
// UpdateValuesNumber accumulates number of updated values
func (ec *ExecutionCollector) UpdateValuesNumber(number uint64) {
ec.updatedValuesNumber.Add(float64(number))
}
// UpdateValuesSize total size (in bytes) of updates values
func (ec *ExecutionCollector) UpdateValuesSize(bytes uint64) {
ec.updatedValuesSize.Set(float64(bytes))
}
// UpdateDuration records absolute time for the update of a trie
func (ec *ExecutionCollector) UpdateDuration(duration time.Duration) {
ec.updatedDuration.Observe(duration.Seconds())
}
// UpdateDurationPerItem records update time for single value (total duration / number of updated values)
func (ec *ExecutionCollector) UpdateDurationPerItem(duration time.Duration) {
ec.updatedDurationPerValue.Observe(duration.Seconds())
}
// ReadValuesNumber accumulates number of read values
func (ec *ExecutionCollector) ReadValuesNumber(number uint64) {
ec.readValuesNumber.Add(float64(number))
}
// ReadValuesSize total size (in bytes) of read values
func (ec *ExecutionCollector) ReadValuesSize(bytes uint64) {
ec.readValuesSize.Set(float64(bytes))
}
// ReadDuration records absolute time for the read from a trie
func (ec *ExecutionCollector) ReadDuration(duration time.Duration) {
ec.readDuration.Observe(duration.Seconds())
}
// ReadDurationPerItem records read time for single value (total duration / number of read values)
func (ec *ExecutionCollector) ReadDurationPerItem(duration time.Duration) {
ec.readDurationPerValue.Observe(duration.Seconds())
}
func (ec *ExecutionCollector) ExecutionCollectionRequestSent() {
ec.collectionRequestSent.Inc()
}
func (ec *ExecutionCollector) ExecutionCollectionRequestRetried() {
ec.collectionRequestRetried.Inc()
}
func (ec *ExecutionCollector) ExecutionBlockDataUploadStarted() {
ec.blockDataUploadsInProgress.Inc()
}
func (ec *ExecutionCollector) ExecutionBlockDataUploadFinished(dur time.Duration) {
ec.blockDataUploadsInProgress.Dec()
ec.blockDataUploadsDuration.Observe(float64(dur.Milliseconds()))
}
// TransactionParsed reports the time spent parsing a single transaction
func (ec *ExecutionCollector) RuntimeTransactionParsed(dur time.Duration) {
ec.transactionParseTime.Observe(float64(dur))
}
// TransactionChecked reports the time spent checking a single transaction
func (ec *ExecutionCollector) RuntimeTransactionChecked(dur time.Duration) {
ec.transactionCheckTime.Observe(float64(dur))
}
// TransactionInterpreted reports the time spent interpreting a single transaction
func (ec *ExecutionCollector) RuntimeTransactionInterpreted(dur time.Duration) {
ec.transactionInterpretTime.Observe(float64(dur))
}
// ChunkDataPackRequestProcessed is executed every time a chunk data pack request is picked up for processing at execution node.
// It increases the request processed counter by one.
func (ec *ExecutionCollector) ChunkDataPackRequestProcessed() {
ec.chunkDataPackRequestProcessedTotal.Inc()
}
func (ec *ExecutionCollector) ExecutionSync(syncing bool) {
if syncing {
ec.stateSyncActive.Set(float64(1))
return
}
ec.stateSyncActive.Set(float64(0))
}
func (ec *ExecutionCollector) RuntimeSetNumberOfAccounts(count uint64) {
ec.numberOfAccounts.Set(float64(count))
}
func (ec *ExecutionCollector) UpdateCollectionMaxHeight(height uint64) {
ec.maxCollectionHeight.Set(float64(height))
}
func (ec *ExecutionCollector) ExecutionComputationResultUploaded() {
ec.computationResultUploadedCount.Inc()
}
func (ec *ExecutionCollector) ExecutionComputationResultUploadRetried() {
ec.computationResultUploadRetriedCount.Inc()
}