From 885cc00eb0c103bc57d7ba8044076fc4836b3295 Mon Sep 17 00:00:00 2001 From: Thomas E Lackey Date: Fri, 6 Oct 2023 18:16:58 -0500 Subject: [PATCH] Restore previous scheme for estimating progress. --- pkg/prom/tracker.go | 119 +++++++++++++++++++++++++++++--------------- 1 file changed, 80 insertions(+), 39 deletions(-) diff --git a/pkg/prom/tracker.go b/pkg/prom/tracker.go index 74bf6c6..3a95d70 100644 --- a/pkg/prom/tracker.go +++ b/pkg/prom/tracker.go @@ -1,6 +1,7 @@ package prom import ( + "bytes" "fmt" "sync" "sync/atomic" @@ -32,30 +33,33 @@ func NewTracker(file string, bufsize uint) *MetricsTracker { func (t *MetricsTracker) wrap(tracked *tracker.Iterator) *metricsIterator { startPath, endPath := tracked.Bounds() - startDepth := max(len(startPath), len(endPath)) + pathDepth := max(max(len(startPath), len(endPath)), 1) + totalSteps := estimateSteps(startPath, endPath, pathDepth) + ret := &metricsIterator{ NodeIterator: tracked, id: trackedIterCount.Add(1), } + RegisterGaugeFunc( fmt.Sprintf("tracked_iterator_%d", ret.id), func() float64 { ret.RLock() - if ret.done { - return 1 - } + done := ret.done lastPath := ret.lastPath ret.RUnlock() - if lastPath == nil { - return 0 + + if done { + return 100.0 } + + if lastPath == nil { + return 0.0 + } + // estimate remaining distance based on current position and node count - depth := max(startDepth, len(lastPath)) - startPath := normalizePath(startPath, depth) - endPath := normalizePath(endPath, depth) - progressed := subtractPaths(lastPath, startPath) - total := subtractPaths(endPath, startPath) - return float64(countSteps(progressed, depth)) / float64(countSteps(total, depth)) + remainingSteps := estimateSteps(lastPath, endPath, pathDepth) + return (float64(totalSteps) - float64(remainingSteps)) / float64(totalSteps) * 100.0 }) return ret } @@ -91,38 +95,75 @@ func (it *metricsIterator) Next(descend bool) bool { return ret } -func normalizePath(path []byte, depth int) []byte { - normalized := make([]byte, depth) - for i := 0; i < depth; i++ { - if i < len(path) { - normalized[i] = path[i] +// Estimate the number of iterations necessary to step from start to end. +func estimateSteps(start []byte, end []byte, depth int) uint64 { + // We see paths in several forms (nil, 0600, 06, etc.). We need to adjust them to a comparable form. + // For nil, start and end indicate the extremes of 0x0 and 0x10. For differences in depth, we often see a + // start/end range on a bounded iterator specified like 0500:0600, while the value returned by it.Path() may + // be shorter, like 06. Since our goal is to estimate how many steps it would take to move from start to end, + // we want to perform the comparison at a stable depth, since to move from 05 to 06 is only 1 step, but + // to move from 0500:06 is 16. + normalizePathRange := func(start []byte, end []byte, depth int) ([]byte, []byte) { + if 0 == len(start) { + start = []byte{0x0} } - } - return normalized -} - -// Subtract each component, right to left, carrying over if necessary. -func subtractPaths(a, b []byte) []byte { - diff := make([]byte, len(a)) - carry := false - for i := len(a) - 1; i >= 0; i-- { - diff[i] = a[i] - b[i] - if carry { - diff[i]-- + if 0 == len(end) { + end = []byte{0x10} } - carry = a[i] < b[i] + normalizedStart := make([]byte, depth) + normalizedEnd := make([]byte, depth) + for i := 0; i < depth; i++ { + if i < len(start) { + normalizedStart[i] = start[i] + } + if i < len(end) { + normalizedEnd[i] = end[i] + } + } + return normalizedStart, normalizedEnd } - return diff -} -// count total steps in a path according to its depth (length) -func countSteps(path []byte, depth int) uint { - var steps uint - for _, b := range path { - steps *= 16 - steps += uint(b) + // We have no need to handle negative exponents, so uints are fine. + pow := func(x uint64, y uint) uint64 { + if 0 == y { + return 1 + } + ret := x + for i := uint(0); i < y; i++ { + ret *= x + } + return x } - return steps + + // Fix the paths. + start, end = normalizePathRange(start, end, depth) + + // No negative distances, if the start is already >= end, the distance is 0. + if bytes.Compare(start, end) >= 0 { + return 0 + } + + // Subtract each component, right to left, carrying over if necessary. + difference := make([]byte, len(start)) + var carry byte = 0 + for i := len(start) - 1; i >= 0; i-- { + result := end[i] - start[i] - carry + if result > 0xf && i > 0 { + result &= 0xf + carry = 1 + } else { + carry = 0 + } + difference[i] = result + } + + // Calculate the result. + var ret uint64 = 0 + for i := 0; i < len(difference); i++ { + ret += uint64(difference[i]) * pow(16, uint(len(difference)-i-1)) + } + + return ret } func max(a int, b int) int { -- 2.45.2