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https://github.com/zrepl/zrepl.git
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bc5e1ede04
This PR adds a Prometheus counter called `zrepl_zfs_list_unmatched_user_specified_dataset_count`. Monitor for increases of the counter to detect filesystem filter rules that have no effect because they don't match any local filesystem. An example use case for this is the following story: 1. Someone sets up zrepl with `filesystems` filter for `zroot/pg14<`. 2. During the upgrade to Postgres 15, they rename the dataset to `zroot/pg15`, but forget to update the zrepl `filesystems` filter. 3. zrepl will not snapshot / replicate the `zroot/pg15<` datasets. Since `filesystems` rules are always evaluated on the side that has the datasets, we can smuggle this functionality into the `zfs` module's `ZFSList` function that is used by all jobs with a `filesystems` filter. Dashboard changes: - histogram with increase in $__interval, one row per job - table with increase in $__range - explainer text box, so, people know what the previous two are about We had to re-arrange some panels, hence the Git diff isn't great. closes https://github.com/zrepl/zrepl/pull/653 Co-authored-by: Christian Schwarz <me@cschwarz.com> Co-authored-by: Goran Mekić <meka@tilda.center>
284 lines
6.6 KiB
Go
284 lines
6.6 KiB
Go
package filters
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import (
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"fmt"
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"strings"
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"github.com/pkg/errors"
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"github.com/zrepl/zrepl/endpoint"
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"github.com/zrepl/zrepl/zfs"
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)
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type DatasetMapFilter struct {
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entries []datasetMapFilterEntry
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// if set, only valid filter entries can be added using Add()
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// and Map() will always return an error
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filterMode bool
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}
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type datasetMapFilterEntry struct {
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path *zfs.DatasetPath
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// the mapping. since this datastructure acts as both mapping and filter
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// we have to convert it to the desired rep dynamically
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mapping string
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subtreeMatch bool
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}
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func NewDatasetMapFilter(capacity int, filterMode bool) *DatasetMapFilter {
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return &DatasetMapFilter{
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entries: make([]datasetMapFilterEntry, 0, capacity),
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filterMode: filterMode,
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}
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}
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func (m *DatasetMapFilter) Add(pathPattern, mapping string) (err error) {
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if m.filterMode {
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if _, err = m.parseDatasetFilterResult(mapping); err != nil {
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return
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}
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}
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// assert path glob adheres to spec
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const SUBTREE_PATTERN string = "<"
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patternCount := strings.Count(pathPattern, SUBTREE_PATTERN)
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switch {
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case patternCount > 1:
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case patternCount == 1 && !strings.HasSuffix(pathPattern, SUBTREE_PATTERN):
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err = fmt.Errorf("pattern invalid: only one '<' at end of string allowed")
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return
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}
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pathStr := strings.TrimSuffix(pathPattern, SUBTREE_PATTERN)
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path, err := zfs.NewDatasetPath(pathStr)
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if err != nil {
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return fmt.Errorf("pattern is not a dataset path: %s", err)
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}
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entry := datasetMapFilterEntry{
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path: path,
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mapping: mapping,
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subtreeMatch: patternCount > 0,
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}
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m.entries = append(m.entries, entry)
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return
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}
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// find the most specific prefix mapping we have
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//
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// longer prefix wins over shorter prefix, direct wins over glob
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func (m DatasetMapFilter) mostSpecificPrefixMapping(path *zfs.DatasetPath) (idx int, found bool) {
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lcp, lcp_entry_idx := -1, -1
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direct_idx := -1
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for e := range m.entries {
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entry := m.entries[e]
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ep := m.entries[e].path
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lep := ep.Length()
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switch {
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case !entry.subtreeMatch && ep.Equal(path):
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direct_idx = e
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continue
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case entry.subtreeMatch && path.HasPrefix(ep) && lep > lcp:
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lcp = lep
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lcp_entry_idx = e
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default:
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continue
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}
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}
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if lcp_entry_idx >= 0 || direct_idx >= 0 {
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found = true
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switch {
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case direct_idx >= 0:
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idx = direct_idx
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case lcp_entry_idx >= 0:
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idx = lcp_entry_idx
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}
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}
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return
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}
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// Returns target == nil if there is no mapping
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func (m DatasetMapFilter) Map(source *zfs.DatasetPath) (target *zfs.DatasetPath, err error) {
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if m.filterMode {
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err = fmt.Errorf("using a filter for mapping simply does not work")
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return
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}
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mi, hasMapping := m.mostSpecificPrefixMapping(source)
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if !hasMapping {
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return nil, nil
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}
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me := m.entries[mi]
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if me.mapping == "" {
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// Special case treatment: 'foo/bar<' => ''
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if !me.subtreeMatch {
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return nil, fmt.Errorf("mapping to '' must be a subtree match")
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}
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// ok...
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} else {
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if strings.HasPrefix("!", me.mapping) {
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// reject mapping
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return nil, nil
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}
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}
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target, err = zfs.NewDatasetPath(me.mapping)
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if err != nil {
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err = fmt.Errorf("mapping target is not a dataset path: %s", err)
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return
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}
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if me.subtreeMatch {
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// strip common prefix ('<' wildcards are no special case here)
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extendComps := source.Copy()
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extendComps.TrimPrefix(me.path)
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target.Extend(extendComps)
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}
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return
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}
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func (m DatasetMapFilter) Filter(p *zfs.DatasetPath) (pass bool, err error) {
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if !m.filterMode {
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err = fmt.Errorf("using a mapping as a filter does not work")
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return
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}
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mi, hasMapping := m.mostSpecificPrefixMapping(p)
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if !hasMapping {
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pass = false
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return
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}
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me := m.entries[mi]
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pass, err = m.parseDatasetFilterResult(me.mapping)
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return
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}
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func (m DatasetMapFilter) UserSpecifiedDatasets() (datasets zfs.UserSpecifiedDatasetsSet) {
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datasets = make(zfs.UserSpecifiedDatasetsSet)
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for i := range m.entries {
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datasets[m.entries[i].path.ToString()] = true
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}
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return
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}
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// Construct a new filter-only DatasetMapFilter from a mapping
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// The new filter allows exactly those paths that were not forbidden by the mapping.
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func (m DatasetMapFilter) InvertedFilter() (inv *DatasetMapFilter, err error) {
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if m.filterMode {
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err = errors.Errorf("can only invert mappings")
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return
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}
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inv = &DatasetMapFilter{
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make([]datasetMapFilterEntry, len(m.entries)),
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true,
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}
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for i, e := range m.entries {
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inv.entries[i].path, err = zfs.NewDatasetPath(e.mapping)
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if err != nil {
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err = errors.Wrapf(err, "mapping cannot be inverted: '%s' is not a dataset path", e.mapping)
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return
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}
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inv.entries[i].mapping = MapFilterResultOk
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inv.entries[i].subtreeMatch = e.subtreeMatch
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}
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return inv, nil
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}
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// FIXME investigate whether we can support more...
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func (m DatasetMapFilter) Invert() (endpoint.FSMap, error) {
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if m.filterMode {
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return nil, errors.Errorf("can only invert mappings")
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}
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if len(m.entries) != 1 {
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return nil, errors.Errorf("inversion of complicated mappings is not implemented") // FIXME
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}
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e := m.entries[0]
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inv := &DatasetMapFilter{
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make([]datasetMapFilterEntry, len(m.entries)),
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false,
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}
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mp, err := zfs.NewDatasetPath(e.mapping)
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if err != nil {
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return nil, err
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}
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inv.entries[0] = datasetMapFilterEntry{
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path: mp,
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mapping: e.path.ToString(),
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subtreeMatch: e.subtreeMatch,
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}
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return inv, nil
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}
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// Creates a new DatasetMapFilter in filter mode from a mapping
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// All accepting mapping results are mapped to accepting filter results
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// All rejecting mapping results are mapped to rejecting filter results
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func (m DatasetMapFilter) AsFilter() endpoint.FSFilter {
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f := &DatasetMapFilter{
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make([]datasetMapFilterEntry, len(m.entries)),
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true,
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}
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for i, e := range m.entries {
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var newe datasetMapFilterEntry = e
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if strings.HasPrefix(newe.mapping, "!") {
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newe.mapping = MapFilterResultOmit
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} else {
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newe.mapping = MapFilterResultOk
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}
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f.entries[i] = newe
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}
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return f
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}
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const (
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MapFilterResultOk string = "ok"
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MapFilterResultOmit string = "!"
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)
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// Parse a dataset filter result
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func (m DatasetMapFilter) parseDatasetFilterResult(result string) (pass bool, err error) {
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l := strings.ToLower(result)
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if l == MapFilterResultOk {
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return true, nil
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}
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if l == MapFilterResultOmit {
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return false, nil
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}
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return false, fmt.Errorf("'%s' is not a valid filter result", result)
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}
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func DatasetMapFilterFromConfig(in map[string]bool) (f *DatasetMapFilter, err error) {
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f = NewDatasetMapFilter(len(in), true)
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for pathPattern, accept := range in {
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mapping := MapFilterResultOmit
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if accept {
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mapping = MapFilterResultOk
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}
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if err = f.Add(pathPattern, mapping); err != nil {
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err = fmt.Errorf("invalid mapping entry ['%s':'%s']: %s", pathPattern, mapping, err)
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return
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}
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}
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return
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}
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