本文整理匯總了Golang中github.com/elastic/beats/filebeat/harvester.FileStat類的典型用法代碼示例。如果您正苦於以下問題:Golang FileStat類的具體用法?Golang FileStat怎麽用?Golang FileStat使用的例子?那麽, 這裏精選的類代碼示例或許可以為您提供幫助。
在下文中一共展示了FileStat類的2個代碼示例,這些例子默認根據受歡迎程度排序。您可以為喜歡或者感覺有用的代碼點讚,您的評價將有助於係統推薦出更棒的Golang代碼示例。
示例1: checkNewFile
// Check if harvester for new file has to be started
// For a new file the following options exist:
func (p *Prospector) checkNewFile(newinfo *harvester.FileStat, file string, output chan *input.FileEvent) {
logp.Debug("prospector", "Start harvesting unknown file: %s", file)
// Init harvester with info
h, err := harvester.NewHarvester(
p.ProspectorConfig, &p.ProspectorConfig.Harvester, file, newinfo, output)
if err != nil {
logp.Err("Error initializing harvester: %v", err)
return
}
// Check for unmodified time, but only if the file modification time is before the last scan started
// This ensures we don't skip genuine creations with dead times less than 10s
if newinfo.Fileinfo.ModTime().Before(p.lastscan) &&
time.Since(newinfo.Fileinfo.ModTime()) > p.ProspectorConfig.IgnoreOlderDuration {
logp.Debug("prospector", "Fetching old state of file to resume: %s", file)
// Call crawler if there if there exists a state for the given file
offset, resuming := p.registrar.fetchState(file, newinfo.Fileinfo)
// Are we resuming a dead file? We have to resume even if dead so we catch any old updates to the file
// This is safe as the harvester, once it hits the EOF and a timeout, will stop harvesting
// Once we detect changes again we can resume another harvester again - this keeps number of go routines to a minimum
if resuming {
logp.Debug("prospector", "Resuming harvester on a previously harvested file: %s", file)
h.Offset = offset
h.Start()
} else {
// Old file, skip it, but push offset of file size so we start from the end if this file changes and needs picking up
logp.Debug("prospector", "Skipping file (older than ignore older of %v, %v): %s",
p.ProspectorConfig.IgnoreOlderDuration,
time.Since(newinfo.Fileinfo.ModTime()),
file)
newinfo.Skip(newinfo.Fileinfo.Size())
}
} else if previousFile, err := p.getPreviousFile(file, newinfo.Fileinfo); err == nil {
// This file was simply renamed (known inode+dev) - link the same harvester channel as the old file
logp.Debug("prospector", "File rename was detected: %s -> %s", previousFile, file)
lastinfo := p.prospectorList[previousFile]
newinfo.Continue(&lastinfo)
} else {
// Call crawler if there if there exists a state for the given file
offset, resuming := p.registrar.fetchState(file, newinfo.Fileinfo)
// Are we resuming a file or is this a completely new file?
if resuming {
logp.Debug("prospector", "Resuming harvester on a previously harvested file: %s", file)
} else {
logp.Debug("prospector", "Launching harvester on new file: %s", file)
}
// Launch the harvester
h.Offset = offset
h.Start()
}
}示例2: checkExistingFile
// checkExistingFile checks if a harvester has to be started for a already known file
// For existing files the following options exist:
// * Last reading position is 0, no harvester has to be started as old harvester probably still busy
// * The old known modification time is older then the current one. Start at last known position
// * The new file is not the same as the old file, means file was renamed
// ** New file is actually really a new file, start a new harvester
// ** Renamed file has a state, continue there
func (p *Prospector) checkExistingFile(newinfo *harvester.FileStat, newFile *input.File, oldFile *input.File, file string, output chan *input.FileEvent, oldState oldState) {
logp.Debug("prospector", "Update existing file for harvesting: %s", file)
h, err := harvester.NewHarvester(
p.ProspectorConfig, &p.ProspectorConfig.Harvester,
file, newinfo, output)
if err != nil {
logp.Err("Error initializing harvester: %v", err)
return
}
if !oldFile.IsSameFile(newFile) {
if previousFile, err := p.getPreviousFile(file, newinfo.Fileinfo); err == nil {
// This file was renamed from another file we know - link the same harvester channel as the old file
logp.Debug("prospector", "File rename was detected, existing file: %s -> %s", previousFile, file)
logp.Debug("prospector", "Launching harvester on renamed file: %s", file)
h.SetOffset(oldState.offset)
h.SetPath(file)
p.registrar.Persist <- h.GetState()
} else {
// File is not the same file we saw previously, it must have rotated and is a new file
logp.Debug("prospector", "Launching harvester on new file: %s. Old file was probably rotated", file)
// Forget about the previous harvester and let it continue on the old file - so start a new channel to use with the new harvester
newinfo.Ignore()
// Start a new harvester on the path
h.Start()
p.registrar.Persist <- h.GetState()
}
// Keep the old file in missingFiles so we don't rescan it if it was renamed and we've not yet reached the new filename
// We only need to keep it for the remainder of this iteration then we can assume it was deleted and forget about it
p.missingFiles[file] = oldFile.FileInfo
} else if newinfo.Finished() && oldFile.FileInfo.ModTime() != newinfo.Fileinfo.ModTime() {
// Resume harvesting of an old file we've stopped harvesting from
logp.Debug("prospector", "Resuming harvester on an old file that was just modified: %s", file)
// Start a harvester on the path; an old file was just modified and it doesn't have a harvester
// The offset to continue from will be stored in the harvester channel - so take that to use and also clear the channel
h.SetOffset(<-newinfo.Return)
h.Start()
p.registrar.Persist <- h.GetState()
} else {
logp.Debug("prospector", "Not harvesting, file didn't change: %s", file)
}
}