when not compileOption("threads"): {.error: "This module requires --threads:on compilation flag".} import pkg/upraises push: {.upraises: [].} import std/tables import std/locks import std/sugar import pkg/chronos import pkg/chronos/threadsync import pkg/questionable import pkg/questionable/results import pkg/taskpools import pkg/chronicles import pkg/threading/smartptrs import ../key import ../query import ../datastore import ../backend import ../sql/sqliteds import ./asyncsemaphore import ./databuffer import ./threadresult export threadresult logScope: topics = "datastore threadproxyds" type ThreadBackendKinds* = enum Sqlite # Filesystem ThreadBackend* = object case kind*: ThreadBackendKinds of Sqlite: sql*: SQLiteBackend[KeyId,DataBuffer] TaskCtxObj*[T: ThreadTypes] = object res: ThreadResult[T] signal: ThreadSignalPtr running: bool cancelled: bool TaskCtx*[T] = SharedPtr[TaskCtxObj[T]] ThreadDatastore* = ref object of Datastore tp: Taskpool backend: ThreadBackend semaphore: AsyncSemaphore # semaphore is used for backpressure \ # to avoid exhausting file descriptors var ctxLock: Lock ctxLock.initLock() proc setCancelled[T](ctx: TaskCtx[T]) = withLock(ctxLock): ctx[].cancelled = true proc setRunning[T](ctx: TaskCtx[T]): bool = withLock(ctxLock): if ctx[].cancelled: return false ctx[].running = true return true proc setDone[T](ctx: TaskCtx[T]) = withLock(ctxLock): ctx[].running = false proc acquireSignal(): ?!ThreadSignalPtr = let signal = ThreadSignalPtr.new() if signal.isErr(): failure (ref CatchableError)(msg: "failed to aquire ThreadSignalPtr: " & signal.error()) else: success signal.get() template executeTask[T](ctx: TaskCtx[T], blk: untyped) = try: echo "executeTask:start:" if not ctx.setRunning(): echo "executeTask:notRunning!" return ## run backend command echo "executeTask:run:" let res = `blk` if res.isOk(): echo "executeTask:run:ok" when T is void: ctx[].res.ok() else: ctx[].res.ok(res.get()) else: echo "executeTask:run:err" ctx[].res.err res.error().toThreadErr() echo "executeTask:run:done: ", ctx[].res.repr echo "" except CatchableError as exc: trace "Unexpected exception thrown in async task", exc = exc.msg ctx[].res.err exc.toThreadErr() except Exception as exc: trace "Unexpected defect thrown in async task", exc = exc.msg ctx[].res.err exc.toThreadErr() finally: echo "executeTask:finally:setDone" ctx.setDone() discard ctx[].signal.fireSync() echo "executeTask:finally:done\n" template dispatchTaskWrap[T](self: ThreadDatastore, signal: ThreadSignalPtr, blk: untyped ): auto = try: case self.backend.kind: of Sqlite: var ds {.used, inject.} = self.backend.sql proc runTask() = `blk` runTask() await wait(ctx[].signal) except CancelledError as exc: trace "Cancelling thread future!", exc = exc.msg ctx.setCancelled() raise exc finally: discard ctx[].signal.close() self.semaphore.release() template dispatchTask[T](self: ThreadDatastore, signal: ThreadSignalPtr, blk: untyped ): auto = let ctx {.inject.} = newSharedPtr(TaskCtxObj[T](signal: signal)) dispatchTaskWrap[T](self, signal, blk) proc hasTask[T, DB](ctx: TaskCtx[T], ds: DB, key: KeyId) {.gcsafe.} = ## run backend command executeTask(ctx): has(ds, key) method has*(self: ThreadDatastore, key: Key): Future[?!bool] {.async.} = await self.semaphore.acquire() without signal =? acquireSignal(), err: return failure err let key = KeyId.new key.id() dispatchTask[bool](self, signal): self.tp.spawn hasTask(ctx, ds, key) proc deleteTask[T, DB](ctx: TaskCtx[T], ds: DB; key: KeyId) {.gcsafe.} = ## run backend command executeTask(ctx): delete(ds, key) method delete*(self: ThreadDatastore, key: Key): Future[?!void] {.async.} = await self.semaphore.acquire() without signal =? acquireSignal(), err: return failure err let key = KeyId.new key.id() dispatchTask[void](self, signal): self.tp.spawn deleteTask(ctx, ds, key) method delete*(self: ThreadDatastore, keys: seq[Key]): Future[?!void] {.async.} = for key in keys: if err =? (await self.delete(key)).errorOption: return failure err return success() proc putTask[T, DB](ctx: TaskCtx[T], ds: DB; key: KeyId, data: DataBuffer) {.gcsafe, nimcall.} = ## run backend command executeTask(ctx): put(ds, key, data) method put*(self: ThreadDatastore, key: Key, data: seq[byte]): Future[?!void] {.async.} = await self.semaphore.acquire() without signal =? acquireSignal(), err: return failure err let key = KeyId.new key.id() let data = DataBuffer.new data dispatchTask[void](self, signal): self.tp.spawn putTask(ctx, ds, key, data) return ctx[].res.toRes() method put*( self: ThreadDatastore, batch: seq[BatchEntry]): Future[?!void] {.async.} = for entry in batch: if err =? (await self.put(entry.key, entry.data)).errorOption: return failure err proc getTask[DB](ctx: TaskCtx[DataBuffer], ds: DB; key: KeyId) {.gcsafe, nimcall.} = ## run backend command executeTask(ctx): let res = get(ds, key) static: echo "getTask:type: ", res.typeof res method get*(self: ThreadDatastore, key: Key, ): Future[?!seq[byte]] {.async.} = await self.semaphore.acquire() without signal =? acquireSignal(), err: return failure err let key = KeyId.new key.id() dispatchTask[DataBuffer](self, signal): self.tp.spawn getTask(ctx, ds, key) return ctx[].res.toRes(v => v.toSeq()) method close*(self: ThreadDatastore): Future[?!void] {.async.} = await self.semaphore.closeAll() case self.backend.kind: of Sqlite: self.backend.sql.close() type QResult = DbQueryResponse[KeyId, DataBuffer] proc queryTask[DB]( ctx: TaskCtx[QResult], ds: DB, dq: DbQuery[KeyId] ) {.gcsafe, nimcall.} = ## run query command executeTask(ctx): # we execute this all inside `executeTask` # so we need to return a final result let qh = ds.query(dq) if qh.isErr(): # set error and exit executeTask, which will fire final signal (?!QResult).err(qh.error()) else: # otherwise manually an set empty ok result ctx[].res.ok (KeyId.none, DataBuffer(), ) discard ctx[].signal.fireSync() var handle = qh.get() for item in handle.iter(): # wait for next request from async thread discard ctx[].signal.waitSync().get() if ctx[].cancelled: # cancel iter, then run next cycle so it'll finish and close handle.cancel = true continue else: ctx[].res = item.mapErr() do(exc: ref CatchableError) -> ThreadResErr: exc discard ctx[].signal.fireSync() # set final result (?!QResult).ok((KeyId.none, DataBuffer())) method query*( self: ThreadDatastore, q: Query): Future[?!QueryIter] {.async.} = await self.semaphore.acquire() without signal =? acquireSignal(), err: return failure err let dq = dbQuery( key= KeyId.new q.key.id(), value=q.value, limit=q.limit, offset=q.offset, sort=q.sort) dispatchTask[DbQueryResponse[KeyId, DataBuffer]](self, signal): self.tp.spawn queryTask(ctx, ds, dq) var lock = newAsyncLock() # serialize querying under threads iter = QueryIter.new() proc next(): Future[?!QueryResponse] {.async.} = let ctx = ctx defer: if lock.locked: lock.release() trace "About to query" if lock.locked: return failure (ref DatastoreError)(msg: "Should always await query features") if iter.finished == true: return failure (ref QueryEndedError)(msg: "Calling next on a finished query!") await lock.acquire() dispatchTaskWrap[DbQueryResponse[KeyId, DataBuffer]](self, signal): # trigger query task to iterate then wait for new result! discard ctx[].signal.fireSync() if not ctx[].running: iter.finished = true if ctx[].res.isErr(): return err(ctx[].res.error()) else: let qres = ctx[].res.get() let key = qres.key.map(proc (k: KeyId): Key = k.toKey()) let data = qres.data.toSeq() return (?!QueryResponse).ok((key: key, data: data)) iter.next = next return success iter proc new*[DB](self: type ThreadDatastore, db: DB, withLocks = static false, tp: Taskpool ): ?!ThreadDatastore = doAssert tp.numThreads > 1, "ThreadDatastore requires at least 2 threads" when DB is SQLiteBackend[KeyId,DataBuffer]: let backend = ThreadBackend(kind: Sqlite, sql: db) else: {.error: "unsupported backend: " & $typeof(db).} success ThreadDatastore( tp: tp, backend: backend, # withLocks: withLocks, # queryLock: newAsyncLock(), semaphore: AsyncSemaphore.new(tp.numThreads - 1) )