// Copyright 2017 The Prometheus Authors // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package bcache import ( "bufio" "fmt" "io/ioutil" "os" "path" "path/filepath" "strconv" "strings" ) // ParsePseudoFloat parses the peculiar format produced by bcache's bch_hprint. func parsePseudoFloat(str string) (float64, error) { ss := strings.Split(str, ".") intPart, err := strconv.ParseFloat(ss[0], 64) if err != nil { return 0, err } if len(ss) == 1 { // Pure integers are fine. return intPart, nil } fracPart, err := strconv.ParseFloat(ss[1], 64) if err != nil { return 0, err } // fracPart is a number between 0 and 1023 divided by 100; it is off // by a small amount. Unexpected bumps in time lines may occur because // for bch_hprint .1 != .10 and .10 > .9 (at least up to Linux // v4.12-rc3). // Restore the proper order: fracPart = fracPart / 10.24 return intPart + fracPart, nil } // Dehumanize converts a human-readable byte slice into a uint64. func dehumanize(hbytes []byte) (uint64, error) { ll := len(hbytes) if ll == 0 { return 0, fmt.Errorf("zero-length reply") } lastByte := hbytes[ll-1] mul := float64(1) var ( mant float64 err error ) // If lastByte is beyond the range of ASCII digits, it must be a // multiplier. if lastByte > 57 { // Remove multiplier from slice. hbytes = hbytes[:len(hbytes)-1] const ( _ = 1 << (10 * iota) KiB MiB GiB TiB PiB EiB ZiB YiB ) multipliers := map[rune]float64{ // Source for conversion rules: // linux-kernel/drivers/md/bcache/util.c:bch_hprint() 'k': KiB, 'M': MiB, 'G': GiB, 'T': TiB, 'P': PiB, 'E': EiB, 'Z': ZiB, 'Y': YiB, } mul = multipliers[rune(lastByte)] mant, err = parsePseudoFloat(string(hbytes)) if err != nil { return 0, err } } else { // Not humanized by bch_hprint mant, err = strconv.ParseFloat(string(hbytes), 64) if err != nil { return 0, err } } res := uint64(mant * mul) return res, nil } type parser struct { uuidPath string subDir string currentDir string err error } func (p *parser) setSubDir(pathElements ...string) { p.subDir = path.Join(pathElements...) p.currentDir = path.Join(p.uuidPath, p.subDir) } func (p *parser) readValue(fileName string) uint64 { if p.err != nil { return 0 } path := path.Join(p.currentDir, fileName) byt, err := ioutil.ReadFile(path) if err != nil { p.err = fmt.Errorf("failed to read: %s", path) return 0 } // Remove trailing newline. byt = byt[:len(byt)-1] res, err := dehumanize(byt) p.err = err return res } // ParsePriorityStats parses lines from the priority_stats file. func parsePriorityStats(line string, ps *PriorityStats) error { var ( value uint64 err error ) switch { case strings.HasPrefix(line, "Unused:"): fields := strings.Fields(line) rawValue := fields[len(fields)-1] valueStr := strings.TrimSuffix(rawValue, "%") value, err = strconv.ParseUint(valueStr, 10, 64) if err != nil { return err } ps.UnusedPercent = value case strings.HasPrefix(line, "Metadata:"): fields := strings.Fields(line) rawValue := fields[len(fields)-1] valueStr := strings.TrimSuffix(rawValue, "%") value, err = strconv.ParseUint(valueStr, 10, 64) if err != nil { return err } ps.MetadataPercent = value } return nil } func (p *parser) getPriorityStats() PriorityStats { var res PriorityStats if p.err != nil { return res } path := path.Join(p.currentDir, "priority_stats") file, err := os.Open(path) if err != nil { p.err = fmt.Errorf("failed to read: %s", path) return res } defer file.Close() scanner := bufio.NewScanner(file) for scanner.Scan() { err = parsePriorityStats(scanner.Text(), &res) if err != nil { p.err = fmt.Errorf("failed to parse: %s (%s)", path, err) return res } } if err := scanner.Err(); err != nil { p.err = fmt.Errorf("failed to parse: %s (%s)", path, err) return res } return res } // GetStats collects from sysfs files data tied to one bcache ID. func GetStats(uuidPath string) (*Stats, error) { var bs Stats par := parser{uuidPath: uuidPath} // bcache stats // dir par.setSubDir("") bs.Bcache.AverageKeySize = par.readValue("average_key_size") bs.Bcache.BtreeCacheSize = par.readValue("btree_cache_size") bs.Bcache.CacheAvailablePercent = par.readValue("cache_available_percent") bs.Bcache.Congested = par.readValue("congested") bs.Bcache.RootUsagePercent = par.readValue("root_usage_percent") bs.Bcache.TreeDepth = par.readValue("tree_depth") // bcache stats (internal) // dir /internal par.setSubDir("internal") bs.Bcache.Internal.ActiveJournalEntries = par.readValue("active_journal_entries") bs.Bcache.Internal.BtreeNodes = par.readValue("btree_nodes") bs.Bcache.Internal.BtreeReadAverageDurationNanoSeconds = par.readValue("btree_read_average_duration_us") bs.Bcache.Internal.CacheReadRaces = par.readValue("cache_read_races") // bcache stats (period) // dir /stats_five_minute par.setSubDir("stats_five_minute") bs.Bcache.FiveMin.Bypassed = par.readValue("bypassed") bs.Bcache.FiveMin.CacheHits = par.readValue("cache_hits") bs.Bcache.FiveMin.Bypassed = par.readValue("bypassed") bs.Bcache.FiveMin.CacheBypassHits = par.readValue("cache_bypass_hits") bs.Bcache.FiveMin.CacheBypassMisses = par.readValue("cache_bypass_misses") bs.Bcache.FiveMin.CacheHits = par.readValue("cache_hits") bs.Bcache.FiveMin.CacheMissCollisions = par.readValue("cache_miss_collisions") bs.Bcache.FiveMin.CacheMisses = par.readValue("cache_misses") bs.Bcache.FiveMin.CacheReadaheads = par.readValue("cache_readaheads") // dir /stats_total par.setSubDir("stats_total") bs.Bcache.Total.Bypassed = par.readValue("bypassed") bs.Bcache.Total.CacheHits = par.readValue("cache_hits") bs.Bcache.Total.Bypassed = par.readValue("bypassed") bs.Bcache.Total.CacheBypassHits = par.readValue("cache_bypass_hits") bs.Bcache.Total.CacheBypassMisses = par.readValue("cache_bypass_misses") bs.Bcache.Total.CacheHits = par.readValue("cache_hits") bs.Bcache.Total.CacheMissCollisions = par.readValue("cache_miss_collisions") bs.Bcache.Total.CacheMisses = par.readValue("cache_misses") bs.Bcache.Total.CacheReadaheads = par.readValue("cache_readaheads") if par.err != nil { return nil, par.err } // bdev stats reg := path.Join(uuidPath, "bdev[0-9]*") bdevDirs, err := filepath.Glob(reg) if err != nil { return nil, err } bs.Bdevs = make([]BdevStats, len(bdevDirs)) for ii, bdevDir := range bdevDirs { var bds = &bs.Bdevs[ii] bds.Name = filepath.Base(bdevDir) par.setSubDir(bds.Name) bds.DirtyData = par.readValue("dirty_data") // dir //stats_five_minute par.setSubDir(bds.Name, "stats_five_minute") bds.FiveMin.Bypassed = par.readValue("bypassed") bds.FiveMin.CacheBypassHits = par.readValue("cache_bypass_hits") bds.FiveMin.CacheBypassMisses = par.readValue("cache_bypass_misses") bds.FiveMin.CacheHits = par.readValue("cache_hits") bds.FiveMin.CacheMissCollisions = par.readValue("cache_miss_collisions") bds.FiveMin.CacheMisses = par.readValue("cache_misses") bds.FiveMin.CacheReadaheads = par.readValue("cache_readaheads") // dir //stats_total par.setSubDir("stats_total") bds.Total.Bypassed = par.readValue("bypassed") bds.Total.CacheBypassHits = par.readValue("cache_bypass_hits") bds.Total.CacheBypassMisses = par.readValue("cache_bypass_misses") bds.Total.CacheHits = par.readValue("cache_hits") bds.Total.CacheMissCollisions = par.readValue("cache_miss_collisions") bds.Total.CacheMisses = par.readValue("cache_misses") bds.Total.CacheReadaheads = par.readValue("cache_readaheads") } if par.err != nil { return nil, par.err } // cache stats reg = path.Join(uuidPath, "cache[0-9]*") cacheDirs, err := filepath.Glob(reg) if err != nil { return nil, err } bs.Caches = make([]CacheStats, len(cacheDirs)) for ii, cacheDir := range cacheDirs { var cs = &bs.Caches[ii] cs.Name = filepath.Base(cacheDir) // dir is / par.setSubDir(cs.Name) cs.IOErrors = par.readValue("io_errors") cs.MetadataWritten = par.readValue("metadata_written") cs.Written = par.readValue("written") ps := par.getPriorityStats() cs.Priority = ps } if par.err != nil { return nil, par.err } return &bs, nil }