Signal-iOS/SignalServiceKit/Messages/Stickers/KnownStickerPack+SDS.swift

611 lines
22 KiB
Swift

//
// Copyright 2022 Signal Messenger, LLC
// SPDX-License-Identifier: AGPL-3.0-only
//
import Foundation
import GRDB
import SignalCoreKit
// NOTE: This file is generated by /Scripts/sds_codegen/sds_generate.py.
// Do not manually edit it, instead run `sds_codegen.sh`.
// MARK: - Record
public struct KnownStickerPackRecord: SDSRecord {
public weak var delegate: SDSRecordDelegate?
public var tableMetadata: SDSTableMetadata {
KnownStickerPackSerializer.table
}
public static var databaseTableName: String {
KnownStickerPackSerializer.table.tableName
}
public var id: Int64?
// This defines all of the columns used in the table
// where this model (and any subclasses) are persisted.
public let recordType: SDSRecordType
public let uniqueId: String
// Properties
public let dateCreated: Double
public let info: Data
public let referenceCount: Int
public enum CodingKeys: String, CodingKey, ColumnExpression, CaseIterable {
case id
case recordType
case uniqueId
case dateCreated
case info
case referenceCount
}
public static func columnName(_ column: KnownStickerPackRecord.CodingKeys, fullyQualified: Bool = false) -> String {
fullyQualified ? "\(databaseTableName).\(column.rawValue)" : column.rawValue
}
public func didInsert(with rowID: Int64, for column: String?) {
guard let delegate = delegate else {
owsFailDebug("Missing delegate.")
return
}
delegate.updateRowId(rowID)
}
}
// MARK: - Row Initializer
public extension KnownStickerPackRecord {
static var databaseSelection: [SQLSelectable] {
CodingKeys.allCases
}
init(row: Row) {
id = row[0]
recordType = row[1]
uniqueId = row[2]
dateCreated = row[3]
info = row[4]
referenceCount = row[5]
}
}
// MARK: - StringInterpolation
public extension String.StringInterpolation {
mutating func appendInterpolation(knownStickerPackColumn column: KnownStickerPackRecord.CodingKeys) {
appendLiteral(KnownStickerPackRecord.columnName(column))
}
mutating func appendInterpolation(knownStickerPackColumnFullyQualified column: KnownStickerPackRecord.CodingKeys) {
appendLiteral(KnownStickerPackRecord.columnName(column, fullyQualified: true))
}
}
// MARK: - Deserialization
extension KnownStickerPack {
// This method defines how to deserialize a model, given a
// database row. The recordType column is used to determine
// the corresponding model class.
class func fromRecord(_ record: KnownStickerPackRecord) throws -> KnownStickerPack {
guard let recordId = record.id else {
throw SDSError.invalidValue()
}
switch record.recordType {
case .knownStickerPack:
let uniqueId: String = record.uniqueId
let dateCreatedInterval: Double = record.dateCreated
let dateCreated: Date = SDSDeserialization.requiredDoubleAsDate(dateCreatedInterval, name: "dateCreated")
let infoSerialized: Data = record.info
let info: StickerPackInfo = try SDSDeserialization.unarchive(infoSerialized, name: "info")
let referenceCount: Int = record.referenceCount
return KnownStickerPack(grdbId: recordId,
uniqueId: uniqueId,
dateCreated: dateCreated,
info: info,
referenceCount: referenceCount)
default:
owsFailDebug("Unexpected record type: \(record.recordType)")
throw SDSError.invalidValue()
}
}
}
// MARK: - SDSModel
extension KnownStickerPack: SDSModel {
public var serializer: SDSSerializer {
// Any subclass can be cast to it's superclass,
// so the order of this switch statement matters.
// We need to do a "depth first" search by type.
switch self {
default:
return KnownStickerPackSerializer(model: self)
}
}
public func asRecord() throws -> SDSRecord {
try serializer.asRecord()
}
public var sdsTableName: String {
KnownStickerPackRecord.databaseTableName
}
public static var table: SDSTableMetadata {
KnownStickerPackSerializer.table
}
}
// MARK: - DeepCopyable
extension KnownStickerPack: DeepCopyable {
public func deepCopy() throws -> AnyObject {
// Any subclass can be cast to it's superclass,
// so the order of this switch statement matters.
// We need to do a "depth first" search by type.
guard let id = self.grdbId?.int64Value else {
throw OWSAssertionError("Model missing grdbId.")
}
do {
let modelToCopy = self
assert(type(of: modelToCopy) == KnownStickerPack.self)
let uniqueId: String = modelToCopy.uniqueId
let dateCreated: Date = modelToCopy.dateCreated
// NOTE: If this generates build errors, you made need to
// implement DeepCopyable for this type in DeepCopy.swift.
let info: StickerPackInfo = try DeepCopies.deepCopy(modelToCopy.info)
let referenceCount: Int = modelToCopy.referenceCount
return KnownStickerPack(grdbId: id,
uniqueId: uniqueId,
dateCreated: dateCreated,
info: info,
referenceCount: referenceCount)
}
}
}
// MARK: - Table Metadata
extension KnownStickerPackSerializer {
// This defines all of the columns used in the table
// where this model (and any subclasses) are persisted.
static var idColumn: SDSColumnMetadata { SDSColumnMetadata(columnName: "id", columnType: .primaryKey) }
static var recordTypeColumn: SDSColumnMetadata { SDSColumnMetadata(columnName: "recordType", columnType: .int64) }
static var uniqueIdColumn: SDSColumnMetadata { SDSColumnMetadata(columnName: "uniqueId", columnType: .unicodeString, isUnique: true) }
// Properties
static var dateCreatedColumn: SDSColumnMetadata { SDSColumnMetadata(columnName: "dateCreated", columnType: .double) }
static var infoColumn: SDSColumnMetadata { SDSColumnMetadata(columnName: "info", columnType: .blob) }
static var referenceCountColumn: SDSColumnMetadata { SDSColumnMetadata(columnName: "referenceCount", columnType: .int64) }
public static var table: SDSTableMetadata {
SDSTableMetadata(collection: KnownStickerPack.collection(),
tableName: "model_KnownStickerPack",
columns: [
idColumn,
recordTypeColumn,
uniqueIdColumn,
dateCreatedColumn,
infoColumn,
referenceCountColumn
])
}
}
// MARK: - Save/Remove/Update
@objc
public extension KnownStickerPack {
func anyInsert(transaction: SDSAnyWriteTransaction) {
sdsSave(saveMode: .insert, transaction: transaction)
}
// Avoid this method whenever feasible.
//
// If the record has previously been saved, this method does an overwriting
// update of the corresponding row, otherwise if it's a new record, this
// method inserts a new row.
//
// For performance, when possible, you should explicitly specify whether
// you are inserting or updating rather than calling this method.
func anyUpsert(transaction: SDSAnyWriteTransaction) {
let isInserting: Bool
if KnownStickerPack.anyFetch(uniqueId: uniqueId, transaction: transaction) != nil {
isInserting = false
} else {
isInserting = true
}
sdsSave(saveMode: isInserting ? .insert : .update, transaction: transaction)
}
// This method is used by "updateWith..." methods.
//
// This model may be updated from many threads. We don't want to save
// our local copy (this instance) since it may be out of date. We also
// want to avoid re-saving a model that has been deleted. Therefore, we
// use "updateWith..." methods to:
//
// a) Update a property of this instance.
// b) If a copy of this model exists in the database, load an up-to-date copy,
// and update and save that copy.
// b) If a copy of this model _DOES NOT_ exist in the database, do _NOT_ save
// this local instance.
//
// After "updateWith...":
//
// a) Any copy of this model in the database will have been updated.
// b) The local property on this instance will always have been updated.
// c) Other properties on this instance may be out of date.
//
// All mutable properties of this class have been made read-only to
// prevent accidentally modifying them directly.
//
// This isn't a perfect arrangement, but in practice this will prevent
// data loss and will resolve all known issues.
func anyUpdate(transaction: SDSAnyWriteTransaction, block: (KnownStickerPack) -> Void) {
block(self)
guard let dbCopy = type(of: self).anyFetch(uniqueId: uniqueId,
transaction: transaction) else {
return
}
// Don't apply the block twice to the same instance.
// It's at least unnecessary and actually wrong for some blocks.
// e.g. `block: { $0 in $0.someField++ }`
if dbCopy !== self {
block(dbCopy)
}
dbCopy.sdsSave(saveMode: .update, transaction: transaction)
}
// This method is an alternative to `anyUpdate(transaction:block:)` methods.
//
// We should generally use `anyUpdate` to ensure we're not unintentionally
// clobbering other columns in the database when another concurrent update
// has occurred.
//
// There are cases when this doesn't make sense, e.g. when we know we've
// just loaded the model in the same transaction. In those cases it is
// safe and faster to do a "overwriting" update
func anyOverwritingUpdate(transaction: SDSAnyWriteTransaction) {
sdsSave(saveMode: .update, transaction: transaction)
}
func anyRemove(transaction: SDSAnyWriteTransaction) {
sdsRemove(transaction: transaction)
}
func anyReload(transaction: SDSAnyReadTransaction) {
anyReload(transaction: transaction, ignoreMissing: false)
}
func anyReload(transaction: SDSAnyReadTransaction, ignoreMissing: Bool) {
guard let latestVersion = type(of: self).anyFetch(uniqueId: uniqueId, transaction: transaction) else {
if !ignoreMissing {
owsFailDebug("`latest` was unexpectedly nil")
}
return
}
setValuesForKeys(latestVersion.dictionaryValue)
}
}
// MARK: - KnownStickerPackCursor
@objc
public class KnownStickerPackCursor: NSObject, SDSCursor {
private let transaction: GRDBReadTransaction
private let cursor: RecordCursor<KnownStickerPackRecord>?
init(transaction: GRDBReadTransaction, cursor: RecordCursor<KnownStickerPackRecord>?) {
self.transaction = transaction
self.cursor = cursor
}
public func next() throws -> KnownStickerPack? {
guard let cursor = cursor else {
return nil
}
guard let record = try cursor.next() else {
return nil
}
return try KnownStickerPack.fromRecord(record)
}
public func all() throws -> [KnownStickerPack] {
var result = [KnownStickerPack]()
while true {
guard let model = try next() else {
break
}
result.append(model)
}
return result
}
}
// MARK: - Obj-C Fetch
@objc
public extension KnownStickerPack {
class func grdbFetchCursor(transaction: GRDBReadTransaction) -> KnownStickerPackCursor {
let database = transaction.database
do {
let cursor = try KnownStickerPackRecord.fetchCursor(database)
return KnownStickerPackCursor(transaction: transaction, cursor: cursor)
} catch {
DatabaseCorruptionState.flagDatabaseReadCorruptionIfNecessary(
userDefaults: CurrentAppContext().appUserDefaults(),
error: error
)
owsFailDebug("Read failed: \(error)")
return KnownStickerPackCursor(transaction: transaction, cursor: nil)
}
}
// Fetches a single model by "unique id".
class func anyFetch(uniqueId: String,
transaction: SDSAnyReadTransaction) -> KnownStickerPack? {
assert(!uniqueId.isEmpty)
switch transaction.readTransaction {
case .grdbRead(let grdbTransaction):
let sql = "SELECT * FROM \(KnownStickerPackRecord.databaseTableName) WHERE \(knownStickerPackColumn: .uniqueId) = ?"
return grdbFetchOne(sql: sql, arguments: [uniqueId], transaction: grdbTransaction)
}
}
// Traverses all records.
// Records are not visited in any particular order.
class func anyEnumerate(
transaction: SDSAnyReadTransaction,
block: (KnownStickerPack, UnsafeMutablePointer<ObjCBool>) -> Void
) {
anyEnumerate(transaction: transaction, batched: false, block: block)
}
// Traverses all records.
// Records are not visited in any particular order.
class func anyEnumerate(
transaction: SDSAnyReadTransaction,
batched: Bool = false,
block: (KnownStickerPack, UnsafeMutablePointer<ObjCBool>) -> Void
) {
let batchSize = batched ? Batching.kDefaultBatchSize : 0
anyEnumerate(transaction: transaction, batchSize: batchSize, block: block)
}
// Traverses all records.
// Records are not visited in any particular order.
//
// If batchSize > 0, the enumeration is performed in autoreleased batches.
class func anyEnumerate(
transaction: SDSAnyReadTransaction,
batchSize: UInt,
block: (KnownStickerPack, UnsafeMutablePointer<ObjCBool>) -> Void
) {
switch transaction.readTransaction {
case .grdbRead(let grdbTransaction):
let cursor = KnownStickerPack.grdbFetchCursor(transaction: grdbTransaction)
Batching.loop(batchSize: batchSize,
loopBlock: { stop in
do {
guard let value = try cursor.next() else {
stop.pointee = true
return
}
block(value, stop)
} catch let error {
owsFailDebug("Couldn't fetch model: \(error)")
}
})
}
}
// Traverses all records' unique ids.
// Records are not visited in any particular order.
class func anyEnumerateUniqueIds(
transaction: SDSAnyReadTransaction,
block: (String, UnsafeMutablePointer<ObjCBool>) -> Void
) {
anyEnumerateUniqueIds(transaction: transaction, batched: false, block: block)
}
// Traverses all records' unique ids.
// Records are not visited in any particular order.
class func anyEnumerateUniqueIds(
transaction: SDSAnyReadTransaction,
batched: Bool = false,
block: (String, UnsafeMutablePointer<ObjCBool>) -> Void
) {
let batchSize = batched ? Batching.kDefaultBatchSize : 0
anyEnumerateUniqueIds(transaction: transaction, batchSize: batchSize, block: block)
}
// Traverses all records' unique ids.
// Records are not visited in any particular order.
//
// If batchSize > 0, the enumeration is performed in autoreleased batches.
class func anyEnumerateUniqueIds(
transaction: SDSAnyReadTransaction,
batchSize: UInt,
block: (String, UnsafeMutablePointer<ObjCBool>) -> Void
) {
switch transaction.readTransaction {
case .grdbRead(let grdbTransaction):
grdbEnumerateUniqueIds(transaction: grdbTransaction,
sql: """
SELECT \(knownStickerPackColumn: .uniqueId)
FROM \(KnownStickerPackRecord.databaseTableName)
""",
batchSize: batchSize,
block: block)
}
}
// Does not order the results.
class func anyFetchAll(transaction: SDSAnyReadTransaction) -> [KnownStickerPack] {
var result = [KnownStickerPack]()
anyEnumerate(transaction: transaction) { (model, _) in
result.append(model)
}
return result
}
// Does not order the results.
class func anyAllUniqueIds(transaction: SDSAnyReadTransaction) -> [String] {
var result = [String]()
anyEnumerateUniqueIds(transaction: transaction) { (uniqueId, _) in
result.append(uniqueId)
}
return result
}
class func anyCount(transaction: SDSAnyReadTransaction) -> UInt {
switch transaction.readTransaction {
case .grdbRead(let grdbTransaction):
return KnownStickerPackRecord.ows_fetchCount(grdbTransaction.database)
}
}
class func anyRemoveAllWithInstantiation(transaction: SDSAnyWriteTransaction) {
// To avoid mutationDuringEnumerationException, we need to remove the
// instances outside the enumeration.
let uniqueIds = anyAllUniqueIds(transaction: transaction)
for uniqueId in uniqueIds {
autoreleasepool {
guard let instance = anyFetch(uniqueId: uniqueId, transaction: transaction) else {
owsFailDebug("Missing instance.")
return
}
instance.anyRemove(transaction: transaction)
}
}
}
class func anyExists(
uniqueId: String,
transaction: SDSAnyReadTransaction
) -> Bool {
assert(!uniqueId.isEmpty)
switch transaction.readTransaction {
case .grdbRead(let grdbTransaction):
let sql = "SELECT EXISTS ( SELECT 1 FROM \(KnownStickerPackRecord.databaseTableName) WHERE \(knownStickerPackColumn: .uniqueId) = ? )"
let arguments: StatementArguments = [uniqueId]
do {
return try Bool.fetchOne(grdbTransaction.database, sql: sql, arguments: arguments) ?? false
} catch {
DatabaseCorruptionState.flagDatabaseReadCorruptionIfNecessary(
userDefaults: CurrentAppContext().appUserDefaults(),
error: error
)
owsFail("Missing instance.")
}
}
}
}
// MARK: - Swift Fetch
public extension KnownStickerPack {
class func grdbFetchCursor(sql: String,
arguments: StatementArguments = StatementArguments(),
transaction: GRDBReadTransaction) -> KnownStickerPackCursor {
do {
let sqlRequest = SQLRequest<Void>(sql: sql, arguments: arguments, cached: true)
let cursor = try KnownStickerPackRecord.fetchCursor(transaction.database, sqlRequest)
return KnownStickerPackCursor(transaction: transaction, cursor: cursor)
} catch {
DatabaseCorruptionState.flagDatabaseReadCorruptionIfNecessary(
userDefaults: CurrentAppContext().appUserDefaults(),
error: error
)
owsFailDebug("Read failed: \(error)")
return KnownStickerPackCursor(transaction: transaction, cursor: nil)
}
}
class func grdbFetchOne(sql: String,
arguments: StatementArguments = StatementArguments(),
transaction: GRDBReadTransaction) -> KnownStickerPack? {
assert(!sql.isEmpty)
do {
let sqlRequest = SQLRequest<Void>(sql: sql, arguments: arguments, cached: true)
guard let record = try KnownStickerPackRecord.fetchOne(transaction.database, sqlRequest) else {
return nil
}
return try KnownStickerPack.fromRecord(record)
} catch {
owsFailDebug("error: \(error)")
return nil
}
}
}
// MARK: - SDSSerializer
// The SDSSerializer protocol specifies how to insert and update the
// row that corresponds to this model.
class KnownStickerPackSerializer: SDSSerializer {
private let model: KnownStickerPack
public init(model: KnownStickerPack) {
self.model = model
}
// MARK: - Record
func asRecord() throws -> SDSRecord {
let id: Int64? = model.grdbId?.int64Value
let recordType: SDSRecordType = .knownStickerPack
let uniqueId: String = model.uniqueId
// Properties
let dateCreated: Double = archiveDate(model.dateCreated)
let info: Data = requiredArchive(model.info)
let referenceCount: Int = model.referenceCount
return KnownStickerPackRecord(delegate: model, id: id, recordType: recordType, uniqueId: uniqueId, dateCreated: dateCreated, info: info, referenceCount: referenceCount)
}
}
// MARK: - Deep Copy
#if TESTABLE_BUILD
@objc
public extension KnownStickerPack {
// We're not using this method at the moment,
// but we might use it for validation of
// other deep copy methods.
func deepCopyUsingRecord() throws -> KnownStickerPack {
guard let record = try asRecord() as? KnownStickerPackRecord else {
throw OWSAssertionError("Could not convert to record.")
}
return try KnownStickerPack.fromRecord(record)
}
}
#endif