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processing.go
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processing.go
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package timeliner
import (
"bytes"
"crypto/sha256"
"database/sql"
"encoding/base64"
"fmt"
"io"
"log"
"os"
"sync"
"time"
)
// beginProcessing starts workers to process items that are
// obtained from ac. It returns a WaitGroup which blocks until
// all workers have finished, and a channel into which the
// service should pipe its items.
func (wc *WrappedClient) beginProcessing(cc concurrentCuckoo, po ProcessingOptions) (*sync.WaitGroup, chan<- *ItemGraph) {
wg := new(sync.WaitGroup)
ch := make(chan *ItemGraph)
const workers = 2 // TODO: Make configurable?
for i := 0; i < workers; i++ {
wg.Add(1)
go func(i int) {
defer wg.Done()
for ig := range ch {
_, err := wc.processItemGraph(ig, &recursiveState{
timestamp: time.Now(),
procOpt: po,
seen: make(map[*ItemGraph]int64),
idmap: make(map[string]int64),
cuckoo: cc,
})
if err != nil {
log.Printf("[ERROR] %s: processing item graph: %v", wc.acc, err)
}
}
}(i)
}
return wg, ch
}
type recursiveState struct {
timestamp time.Time
procOpt ProcessingOptions
seen map[*ItemGraph]int64 // value is the item's row ID
idmap map[string]int64 // map an item's service ID to the row ID -- TODO: I don't love this... any better way?
// the cuckoo filter pointer lives for
// the duration of the entire operation;
// it is often nil, but if it is set,
// then the service-produced ID of each
// item should be added to the filter so
// that a prune can take place when the
// entire operation is complete
cuckoo concurrentCuckoo
}
func (wc *WrappedClient) processItemGraph(ig *ItemGraph, state *recursiveState) (int64, error) {
if ig == nil {
return 0, nil
}
// don't visit a node twice
if igID, ok := state.seen[ig]; ok {
if state.procOpt.Verbose {
log.Printf("[DEBUG] %s: item graph already visited: %p", wc.acc, ig)
}
return igID, nil
}
if state.procOpt.Verbose {
var nodeItemID string
if ig.Node != nil {
nodeItemID = ig.Node.ID()
}
log.Printf("[DEBUG] %s: visiting item graph %p (node_item_id=%s edges=%d collections=%d relations=%d)",
wc.acc, ig, nodeItemID, len(ig.Edges), len(ig.Collections), len(ig.Relations))
}
var igRowID int64
if ig.Node == nil {
// mark this node as visited (no ID)
state.seen[ig] = 0
} else {
// process root node
var err error
igRowID, err = wc.processSingleItemGraphNode(ig.Node, state)
if err != nil {
return 0, fmt.Errorf("processing node of item graph: %v", err)
}
// mark this node as visited
state.seen[ig] = igRowID
// map individual items to their row IDs
state.idmap[ig.Node.ID()] = igRowID
// process all connected nodes
if ig.Edges != nil {
for connectedIG, relations := range ig.Edges {
// if node not yet visited, process it now
connectedIGRowID, visited := state.seen[connectedIG]
if !visited {
connectedIGRowID, err = wc.processItemGraph(connectedIG, state)
if err != nil {
return igRowID, fmt.Errorf("processing node of item graph: %v", err)
}
state.seen[connectedIG] = connectedIGRowID
}
// store this item's ID for later
state.idmap[connectedIG.Node.ID()] = connectedIGRowID
// insert relations to this connected node into DB
for _, rel := range relations {
_, err = wc.tl.db.Exec(`INSERT OR IGNORE INTO relationships
(from_item_id, to_item_id, directed, label)
VALUES (?, ?, ?, ?)`,
igRowID, connectedIGRowID, !rel.Bidirectional, rel.Label)
if err != nil {
return igRowID, fmt.Errorf("storing item relationship: %v (from_item=%d to_item=%d directed=%t label=%v)",
err, igRowID, connectedIGRowID, !rel.Bidirectional, rel.Label)
}
}
}
}
}
// process collections, if any
for _, coll := range ig.Collections {
// attach the item's row ID to each item in the collection
// to speed up processing; we won't have to query the database
// again for items that were already processed from the graph
for i, it := range coll.Items {
coll.Items[i].itemRowID = state.idmap[it.Item.ID()]
}
err := wc.processCollection(coll, state.timestamp, state.procOpt)
if err != nil {
return 0, fmt.Errorf("processing collection: %v (original_id=%s)", err, coll.OriginalID)
}
}
// process raw relations, if any
for _, rr := range ig.Relations {
var fromItemRowID, toItemRowID, fromPersonRowID, toPersonRowID *int64
var err error
if rr.FromItemID != "" {
// get each item's row ID from their data source item ID
fromItemRowID, err = wc.itemRowIDFromOriginalID(rr.FromItemID)
if err == sql.ErrNoRows {
continue // item does not exist in timeline; skip this relation
}
if err != nil {
return 0, fmt.Errorf("querying 'from' item row ID: %v", err)
}
}
if rr.ToItemID != "" {
toItemRowID, err = wc.itemRowIDFromOriginalID(rr.ToItemID)
if err == sql.ErrNoRows {
continue // item does not exist in timeline; skip this relation
}
if err != nil {
return 0, fmt.Errorf("querying 'to' item row ID: %v", err)
}
}
if rr.FromPersonUserID != "" {
fromPersonRowID, err = wc.personRowIDFromUserID(rr.FromPersonUserID)
if err == sql.ErrNoRows {
continue // person does not exist in timeline; skip this relation
}
if err != nil {
return 0, fmt.Errorf("querying 'from' person row ID: %v", err)
}
}
if rr.ToPersonUserID != "" {
toPersonRowID, err = wc.personRowIDFromUserID(rr.ToPersonUserID)
if err == sql.ErrNoRows {
continue // person does not exist in timeline; skip this relation
}
if err != nil {
return 0, fmt.Errorf("querying 'to' person row ID: %v", err)
}
}
// store the relation
_, err = wc.tl.db.Exec(`INSERT OR IGNORE INTO relationships
(from_person_id, from_item_id, to_person_id, to_item_id, directed, label)
VALUES (?, ?, ?, ?, ?, ?)`,
fromPersonRowID, fromItemRowID, toPersonRowID, toItemRowID, !rr.Bidirectional, rr.Label)
if err != nil {
return 0, fmt.Errorf("storing raw item relationship: %v (from_person=%d from_item=%d to_person=%d to_item=%d directed=%t label=%v)",
err, fromPersonRowID, fromItemRowID, toPersonRowID, toItemRowID, !rr.Bidirectional, rr.Label)
}
}
return igRowID, nil
}
func (wc *WrappedClient) processSingleItemGraphNode(it Item, state *recursiveState) (int64, error) {
if itemID := it.ID(); itemID != "" && state.cuckoo.Filter != nil {
state.cuckoo.Lock()
state.cuckoo.InsertUnique([]byte(itemID))
state.cuckoo.Unlock()
}
itemRowID, err := wc.storeItemFromService(it, state.timestamp, state.procOpt)
if err != nil {
return itemRowID, err
}
// item was stored successfully, so now keep track of the item with the highest
// (latest, last, etc.) timestamp, so that get-latest operations can be resumed
// after interruption without creating gaps in the data that would never be
// filled in otherwise except with a get-all...
itemTS := it.Timestamp()
wc.lastItemMu.Lock()
if wc.lastItemTimestamp.IsZero() || wc.lastItemTimestamp.Before(itemTS) {
wc.lastItemRowID = itemRowID
wc.lastItemTimestamp = itemTS
}
wc.lastItemMu.Unlock()
return itemRowID, nil
}
func (wc *WrappedClient) storeItemFromService(it Item, timestamp time.Time, procOpt ProcessingOptions) (int64, error) {
if it == nil {
return 0, nil
}
itemOriginalID := it.ID()
// if enabled, prepare a "soft merge" - this operation finds an existing row that
// matches properties of an item that are LIKELY unique if they are, in fact, the
// same item, without relying on the item's original_id alone (which might not be
// consistent depending on the method used, for example importing from Google
// Takeout for Google Photos has different IDs than using their API) -- and sets
// the original_id field of the candidate row to that of the incoming row; this
// will trigger a conflict in the query below that will cause a graceful update
var doingSoftMerge bool
if procOpt.Merge.SoftMerge {
var err error
itemOriginalID, doingSoftMerge, err = wc.softMerge(it, procOpt)
if err != nil {
return 0, fmt.Errorf("soft merge: %v", err)
}
}
// process this item only one at a time
itemLockID := fmt.Sprintf("%s_%d_%s", wc.ds.ID, wc.acc.ID, itemOriginalID)
itemLocks.Lock(itemLockID)
defer itemLocks.Unlock(itemLockID)
// if there is a data file, prepare to download it
// and get its file name; but don't actually begin
// downloading it until after it is in the DB, since
// we need to know, if we encounter this item later,
// whether it was downloaded successfully; if not,
// like if the download was interrupted and we didn't
// have a chance to clean up, we can overwrite any
// existing file by that name.
rc, err := it.DataFileReader()
if err != nil {
return 0, fmt.Errorf("getting item's data file content stream: %v", err)
}
if rc != nil {
defer rc.Close()
}
// as we go, we'll decide whether we are to process and store this item's data
// file or not, as it depends on a few factors; our default behavior is that
// data in a new item is preferred and thus assimilated into the timeline,
// so we begin by deciding simply based on whether this item has a file reader
processDataFile := rc != nil
// if the item is already in our DB, load it
var ir ItemRow
if itemOriginalID != "" {
ir, err = wc.loadItemRow(wc.acc.ID, itemOriginalID)
if err != nil {
return 0, fmt.Errorf("checking for item in database: %v", err)
}
if ir.ID > 0 {
// already have it
if !wc.shouldProcessExistingItem(it, ir, doingSoftMerge, procOpt) {
if procOpt.Verbose {
log.Printf("[DEBUG] %s: skipping processing of existing item (item_id=%s item_row_id=%d soft_merge=%t)",
wc.acc, itemOriginalID, ir.ID, doingSoftMerge)
}
return ir.ID, nil
}
// update our decision to process the data file; we know we already have this item, so only keep the
// new data file if this item has a data file and either: the old item does not have one; we are
// reprocessing (meaning replacing old items, not merging); or we are merging and the user prefers
// new data files over old ones
processDataFile = processDataFile && (ir.DataFile == nil || !doingSoftMerge || procOpt.Merge.PreferNewDataFile)
// if we are in fact processing this data file, move any old one out of the way temporarily
// as a safe measure, and also because our filename-generator will not allow a file to be
// overwritten, but we want to replace the existing file in this case...
if processDataFile {
origFile := wc.tl.fullpath(*ir.DataFile)
bakFile := wc.tl.fullpath(*ir.DataFile + ".bak")
err = os.Rename(origFile, bakFile)
if err != nil && !os.IsNotExist(err) {
return 0, fmt.Errorf("temporarily moving data file: %v", err)
}
// if this function returns with an error,
// restore the original file in case it was
// partially written or something; otherwise
// delete the old file altogether
defer func() {
if err == nil {
err := os.Remove(bakFile)
if err != nil && !os.IsNotExist(err) {
log.Printf("[ERROR] deleting data file backup: %v", err)
}
} else {
err := os.Rename(bakFile, origFile)
if err != nil && !os.IsNotExist(err) {
log.Printf("[ERROR] restoring original data file from backup: %v", err)
}
}
}()
}
}
}
// get the filename for the data file if we are processing it
var dataFileName *string
var datafile *os.File
if processDataFile {
datafile, dataFileName, err = wc.tl.openUniqueCanonicalItemDataFile(it, wc.ds.ID)
if err != nil {
return 0, fmt.Errorf("opening output data file: %v", err)
}
defer datafile.Close()
}
// prepare the item's DB row values
err = wc.fillItemRow(&ir, it, itemOriginalID, timestamp, dataFileName)
if err != nil {
return 0, fmt.Errorf("assembling item for storage: %v", err)
}
// run the database query to insert or update the item
err = wc.insertOrUpdateItem(ir, doingSoftMerge, procOpt)
if err != nil {
return 0, fmt.Errorf("storing item in database: %v (item_id=%v)", err, ir.OriginalID)
}
// get the item's row ID (this works regardless of whether the last query was an insert or an update)
var itemRowID int64
err = wc.tl.db.QueryRow(`SELECT id FROM items
WHERE account_id=? AND original_id=? LIMIT 1`,
ir.AccountID, ir.OriginalID).Scan(&itemRowID)
if err != nil && err != sql.ErrNoRows {
return 0, fmt.Errorf("getting item row ID: %v", err)
}
if procOpt.Verbose {
log.Printf("[DEBUG] %s: stored or updated item in database (item_id=%s item_row_id=%d soft_merge=%t)",
wc.acc, itemOriginalID, itemRowID, doingSoftMerge)
}
// if there is a data file, download it and compute its checksum;
// then update the item's row in the DB with its name and checksum
if processDataFile {
h := sha256.New()
dataFileSize, err := wc.tl.downloadItemFile(rc, datafile, h)
if err != nil {
return 0, fmt.Errorf("downloading data file: %v (item_id=%v)", err, itemRowID)
}
// now that download is complete, compute its hash
dfHash := h.Sum(nil)
b64hash := base64.StdEncoding.EncodeToString(dfHash)
// if the exact same file (byte-for-byte) already exists,
// delete this copy and reuse the existing one
err = wc.tl.replaceWithExisting(dataFileName, b64hash, itemRowID)
if err != nil {
return 0, fmt.Errorf("replacing data file with identical existing file: %v", err)
}
// save the file's name and hash to confirm it was downloaded successfully
_, err = wc.tl.db.Exec(`UPDATE items SET data_hash=? WHERE id=?`, // TODO: LIMIT 1... (see https://github.com/mattn/go-sqlite3/pull/802)
b64hash, itemRowID)
if err != nil {
log.Printf("[ERROR] %s: updating item's data file hash in DB: %v; cleaning up data file: %s (item_id=%d)",
wc.acc, err, datafile.Name(), itemRowID)
os.Remove(wc.tl.fullpath(*dataFileName))
}
if procOpt.Verbose {
log.Printf("[DEBUG] %s: downloaded data file (item_id=%s filename=%s size=%d)",
wc.acc, itemOriginalID, *dataFileName, dataFileSize)
}
}
return itemRowID, nil
}
func (wc *WrappedClient) shouldProcessExistingItem(it Item, dbItem ItemRow, doingSoftMerge bool, procOpt ProcessingOptions) bool {
// if integrity check is enabled and checksum mismatches, always reprocess
if procOpt.Integrity && dbItem.DataFile != nil && dbItem.DataHash != nil {
datafile, err := os.Open(wc.tl.fullpath(*dbItem.DataFile))
if err != nil {
log.Printf("[ERROR] %s: integrity check: opening existing data file: %v; reprocessing (item_id=%d)",
wc.acc, err, dbItem.ID)
return true
}
defer datafile.Close()
h := sha256.New()
_, err = io.Copy(h, datafile)
if err != nil {
log.Printf("[ERROR] %s: integrity check: reading existing data file: %v; reprocessing (item_id=%d)",
wc.acc, err, dbItem.ID)
return true
}
b64hash := base64.StdEncoding.EncodeToString(h.Sum(nil))
if b64hash != *dbItem.DataHash {
log.Printf("[ERROR] %s: integrity check: checksum mismatch: expected %s, got %s; reprocessing (item_id=%d)",
wc.acc, *dbItem.DataHash, b64hash, dbItem.ID)
return true
}
}
// if modified locally, do not overwrite changes
if dbItem.Modified != nil {
return false
}
// if a data file is expected, but no completed file exists
// (i.e. its hash is missing), then reprocess to allow download
// to complete successfully this time
if dbItem.DataFile != nil && dbItem.DataHash == nil {
return true
}
// if service reports hashes/etags and we see that it
// has changed, reprocess
if serviceHash := it.DataFileHash(); serviceHash != nil &&
dbItem.Metadata != nil &&
dbItem.Metadata.ServiceHash != nil &&
!bytes.Equal(serviceHash, dbItem.Metadata.ServiceHash) {
return true
}
// finally, if the user wants to reprocess anyway, then do so;
// or if we are doing a soft merge (merging one identical item
// into an existing one), always return true so that the merge
// will actually take place
return procOpt.Reprocess || doingSoftMerge
}
func (wc *WrappedClient) fillItemRow(ir *ItemRow, it Item, itemOriginalID string, timestamp time.Time, canonicalDataFileName *string) error {
// unpack the item's information into values to use in the row
ownerID, ownerName := it.Owner()
if ownerID == nil {
ownerID = &wc.acc.UserID // assume current account
}
if ownerName == nil {
empty := ""
ownerName = &empty
}
person, err := wc.tl.getPerson(wc.ds.ID, *ownerID, *ownerName)
if err != nil {
return fmt.Errorf("getting person associated with item: %v", err)
}
txt, err := it.DataText()
if err != nil {
return fmt.Errorf("getting item text: %v", err)
}
loc, err := it.Location()
if err != nil {
return fmt.Errorf("getting item location data: %v", err)
}
if loc == nil {
loc = new(Location) // avoid nil pointer dereference below
}
// metadata (optional) needs to be gob-encoded
metadata, err := it.Metadata()
if err != nil {
return fmt.Errorf("getting item metadata: %v", err)
}
if serviceHash := it.DataFileHash(); serviceHash != nil {
metadata.ServiceHash = serviceHash
}
var metaGob []byte
if metadata != nil {
metaGob, err = metadata.encode() // use special encoding method for massive space savings
if err != nil {
return fmt.Errorf("gob-encoding metadata: %v", err)
}
}
ir.AccountID = wc.acc.ID
ir.OriginalID = itemOriginalID
ir.PersonID = person.ID
ir.Timestamp = it.Timestamp()
ir.Stored = timestamp
ir.Class = it.Class()
ir.MIMEType = it.DataFileMIMEType()
ir.DataText = txt
ir.DataFile = canonicalDataFileName
ir.Metadata = metadata
ir.metaGob = metaGob
ir.Location = *loc
// not used in the DB, but if we need to get the item's
// original file name, for example, rather than the
// unique filename to be used on disk...
ir.item = it
return nil
}
// softMerge finds a candidate row that already exists in the DB that is likely to be identical
// to it, even if the original_id does not match, and updates the original_id field to that of it
// if there is exactly 1 matching row and if procOpt permits. This will allow the existing row
// to be merged with the incoming row even though their original_ids do not match. This is a
// best-guess effort based on timestamp and data_text/data_file/data_hash (the hash must be one
// that is offered by the data source, as the post-download hashing is not known until after
// downloading the file, obviously; since most data sources don't offer one, in practice soft
// merges happen over timestamp plus filename or text data only). It returns the ID that must
// be used when processing the item, and whether a soft merge is being performed or not.
func (wc *WrappedClient) softMerge(it Item, procOpt ProcessingOptions) (string, bool, error) {
var filenameLikePattern *string
if dataFileName := it.DataFileName(); dataFileName != nil {
temp := "%/" + *dataFileName
filenameLikePattern = &temp
}
newOriginalID := it.ID()
dataText, err := it.DataText()
if err != nil {
return newOriginalID, false, fmt.Errorf("getting item text: %v", err)
}
dataHash := it.DataFileHash()
if err != nil {
return newOriginalID, false, fmt.Errorf("getting item data hash: %v", err)
}
// make sure there is exactly 1 matching row; any more is ambiguous and too risky to merge
// (also make sure the existing original_id does not match the new one; that would be a regular merge)
var numMatches int
var rowID *int
var oldOriginalID *string
err = wc.tl.db.QueryRow(`SELECT COUNT(1), id, original_id
FROM items
WHERE account_id=? AND timestamp=? AND (data_text=? OR data_file LIKE ? OR data_hash=?) AND original_id != ?
LIMIT 1`,
wc.acc.ID, it.Timestamp().Unix(), dataText, filenameLikePattern, dataHash, newOriginalID).Scan(&numMatches, &rowID, &oldOriginalID)
if err == sql.ErrNoRows || numMatches == 0 {
return newOriginalID, false, nil
}
if err != nil {
return newOriginalID, false, fmt.Errorf("querying for candidate row: %v", err)
}
if numMatches > 1 {
return newOriginalID, false, fmt.Errorf("ambiguous match with %d existing items (account_id=%d timestamp=%d data_text=%p data_file=%p) - unable to merge, skipping item with ID: %s",
numMatches, wc.acc.ID, it.Timestamp().Unix(), dataText, filenameLikePattern, newOriginalID)
}
// now we know there is exactly one match, so we are to perform a soft merge;
// we must honor the configured merge preferences especially regarding ID
// if configured to keep existing ID, make sure the caller knows to use the
// existing/old ID rather than the ID associated with the current/new item
if !procOpt.Merge.PreferNewID {
log.Printf("[INFO] Soft merging new item with id=%s into row %d with existing item id=%s (using existing item ID)", newOriginalID, rowID, *oldOriginalID)
return *oldOriginalID, true, nil
}
// now we know there is exactly 1 match and we are to use the new item's ID; set up merge by
// updating the item's original_id to the incoming item's ID value; this will cause the
// imminent INSERT query to find a conflict and perform a graceful merge with the incoming data
_, err = wc.tl.db.Exec(`UPDATE items SET original_id=? WHERE id=?`, newOriginalID, rowID) // TODO: limit 1 (see https://github.com/mattn/go-sqlite3/pull/802)
if err != nil && err != sql.ErrNoRows {
return newOriginalID, false, fmt.Errorf("updating candidate row's original_id in DB: %v (id=%d old_original_id=%s new_original_id=%s)",
err, rowID, *oldOriginalID, newOriginalID)
}
log.Printf("[INFO] Soft merging new item with id=%s into row %d with existing item id=%s (changed item ID)", newOriginalID, rowID, *oldOriginalID)
return newOriginalID, true, nil
}
func (wc *WrappedClient) processCollection(coll Collection, timestamp time.Time, procOpt ProcessingOptions) error {
// never reprocess or check integrity when storing items in collections since the main processing handles that
procOpt.Reprocess = false
procOpt.Integrity = false
// TODO: support soft merge (based on name, I guess)
_, err := wc.tl.db.Exec(`INSERT INTO collections
(account_id, original_id, name) VALUES (?, ?, ?)
ON CONFLICT (account_id, original_id)
DO UPDATE SET name=?`,
wc.acc.ID, coll.OriginalID, coll.Name,
coll.Name)
if err != nil {
return fmt.Errorf("inserting collection: %v", err)
}
// get the collection's row ID, regardless of whether it was inserted or updated
var collID int64
err = wc.tl.db.QueryRow(`SELECT id FROM collections
WHERE account_id=? AND original_id=? LIMIT 1`,
wc.acc.ID, coll.OriginalID).Scan(&collID)
if err != nil {
return fmt.Errorf("getting existing collection's row ID: %v", err)
}
// now add all the items
// (TODO: could batch this for faster inserts)
for _, cit := range coll.Items {
if cit.itemRowID == 0 {
itID, err := wc.storeItemFromService(cit.Item, timestamp, procOpt)
if err != nil {
return fmt.Errorf("adding item from collection to storage: %v", err)
}
cit.itemRowID = itID
}
_, err = wc.tl.db.Exec(`INSERT OR IGNORE INTO collection_items
(item_id, collection_id, position)
VALUES (?, ?, ?)`,
cit.itemRowID, collID, cit.Position, cit.Position)
if err != nil {
return fmt.Errorf("adding item to collection: %v", err)
}
}
return nil
}
func (wc *WrappedClient) loadItemRow(accountID int64, originalID string) (ItemRow, error) {
var ir ItemRow
var metadataGob []byte
var ts, stored int64 // will convert from Unix timestamp
var modified *int64
err := wc.tl.db.QueryRow(`SELECT
id, account_id, original_id, person_id, timestamp, stored,
modified, class, mime_type, data_text, data_file, data_hash,
metadata, latitude, longitude
FROM items WHERE account_id=? AND original_id=? LIMIT 1`, accountID, originalID).Scan(
&ir.ID, &ir.AccountID, &ir.OriginalID, &ir.PersonID, &ts, &stored,
&modified, &ir.Class, &ir.MIMEType, &ir.DataText, &ir.DataFile, &ir.DataHash,
&metadataGob, &ir.Latitude, &ir.Longitude)
if err == sql.ErrNoRows {
return ItemRow{}, nil
}
if err != nil {
return ItemRow{}, fmt.Errorf("loading item: %v", err)
}
// the metadata is gob-encoded; decode it into the struct
ir.Metadata = new(Metadata)
err = ir.Metadata.decode(metadataGob)
if err != nil {
return ItemRow{}, fmt.Errorf("gob-decoding metadata: %v", err)
}
ir.Timestamp = time.Unix(ts, 0)
ir.Stored = time.Unix(stored, 0)
if modified != nil {
modTime := time.Unix(*modified, 0)
ir.Modified = &modTime
}
return ir, nil
}
// insertOrUpdateItem inserts the fully-populated ir into the database or, if there is a conflict on
// the item's account_id and original_id, it updates the existing row. If softMerge is true, the
// update is an additive merge defined by procOpt; otherwise, updates always replace the old values.
func (wc *WrappedClient) insertOrUpdateItem(ir ItemRow, softMerge bool, procOpt ProcessingOptions) error {
fieldPersonID, fieldTimestamp, fieldStored, fieldClass,
fieldMimeType, fieldDataText, fieldDataFile, fieldDataHash,
fieldMetadata, fieldLatitude, fieldLongitude := "?", "?", "?", "?", "?", "?", "?", "?", "?", "?", "?"
if softMerge {
// when merging, prefer existing value by default (i.e. by
// default, merging is only additive with new values and does
// not replace existing fields when there are conflicts);
// this seems safer (user must opt-in to overwrite data)
fieldPersonID = "COALESCE(person_id, ?)"
fieldTimestamp = "COALESCE(timestamp, ?)"
fieldClass = "COALESCE(class, ?)"
fieldMimeType = "COALESCE(mime_type, ?)"
fieldDataText = "COALESCE(data_text, ?)"
fieldDataFile = "COALESCE(data_file, ?)"
fieldDataHash = "COALESCE(data_hash, ?)"
fieldMetadata = "COALESCE(metadata, ?)"
fieldLatitude = "COALESCE(latitude, ?)"
fieldLongitude = "COALESCE(longitude, ?)"
if procOpt.Merge.PreferNewDataText {
fieldDataText = "COALESCE(?, data_text)"
}
if procOpt.Merge.PreferNewMetadata {
fieldMetadata = "COALESCE(?, metadata)"
}
}
// insert into the DB if it does not exist, and if it does, we update the existing
// row such that we usually prefer the new value, but if the new value is nil, keep
// the existing value (this is mostly an additive "merge" of the stored row with
// the incoming row, except that if both values are not null, we overwrite existing
// value with the new one); 'coalesce(?, field)' means "store new value if not null,
// otherwise keep existing value"; i.e. the incoming data is authoritative unless it
// is missing, in which case we keep what we have
_, err := wc.tl.db.Exec(`INSERT INTO items
(account_id, original_id, person_id, timestamp, stored,
class, mime_type, data_text, data_file, data_hash, metadata,
latitude, longitude)
VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)
ON CONFLICT (account_id, original_id) DO UPDATE
SET person_id=`+fieldPersonID+`,
timestamp=`+fieldTimestamp+`,
stored=`+fieldStored+`,
class=`+fieldClass+`,
mime_type=`+fieldMimeType+`,
data_text=`+fieldDataText+`,
data_file=`+fieldDataFile+`,
data_hash=`+fieldDataHash+`,
metadata=`+fieldMetadata+`,
latitude=`+fieldLatitude+`,
longitude=`+fieldLongitude,
ir.AccountID, ir.OriginalID, ir.PersonID, ir.Timestamp.Unix(), ir.Stored.Unix(),
ir.Class, ir.MIMEType, ir.DataText, ir.DataFile, ir.DataHash, ir.metaGob,
ir.Latitude, ir.Longitude,
ir.PersonID, ir.Timestamp.Unix(), ir.Stored.Unix(), ir.Class, ir.MIMEType, ir.DataText,
ir.DataFile, ir.DataHash, ir.metaGob, ir.Latitude, ir.Longitude)
return err
}
// itemRowIDFromOriginalID returns an item's row ID from the ID
// associated with the data source of wc, along with its original
// item ID from that data source. If the item does not exist,
// sql.ErrNoRows will be returned. A pointer is returned because
// the column is nullable in the DB.
func (wc *WrappedClient) itemRowIDFromOriginalID(originalID string) (*int64, error) {
var rowID int64
err := wc.tl.db.QueryRow(`SELECT items.id
FROM items, accounts
WHERE items.original_id=?
AND accounts.data_source_id=?
AND items.account_id = accounts.id
LIMIT 1`, originalID, wc.ds.ID).Scan(&rowID)
return &rowID, err
}
// personRowIDFromUserID returns a person's row ID from the user ID
// associated with the data source of wc. If the person does not exist,
// sql.ErrNoRows will be returned. A pointer is returned because the
// column is nullable in the DB.
func (wc *WrappedClient) personRowIDFromUserID(userID string) (*int64, error) {
var rowID int64
err := wc.tl.db.QueryRow(`SELECT person_id FROM person_identities
WHERE data_source_id=? AND user_id=? LIMIT 1`,
wc.ds.ID, userID).Scan(&rowID)
return &rowID, err
}
// itemLocks is used to ensure that an item
// is not processed twice at the same time.
var itemLocks = newMapMutex()