mirror of https://github.com/status-im/nim-eth.git
735 lines
24 KiB
Nim
735 lines
24 KiB
Nim
## Implementation of KvStore based on sqlite3
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{.push raises: [].}
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{.pragma: callback, gcsafe, raises: [].}
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import
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std/[os, options, strformat, typetraits],
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sqlite3_abi,
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./kvstore
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export kvstore, typetraits
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type
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RawStmtPtr = ptr sqlite3_stmt
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AutoDisposed[T: ptr|ref] = object
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val: T
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# TODO: These should become AutoDisposed
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# This is currently considered risky due to the destructor
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# problem found in FastStreams (triggered when objects in
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# the GC heap have destructors)
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Sqlite* = ptr sqlite3
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SqliteStmt*[Params; Result] = distinct RawStmtPtr
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NoParams* = tuple # this is the empty tuple
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ResultHandler*[T] = proc(val: T) {.callback.}
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SqStoreRef* = ref object
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# Handle for a single database - from here, keyspaces and statements
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# can be created
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env: Sqlite
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managedStmts: seq[RawStmtPtr]
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readOnly*: bool
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SqStoreCheckpointKind* {.pure.} = enum
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passive, full, restart, truncate
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SqKeyspace* = object of RootObj
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# A Keyspace is a single key-value table - it is generally efficient to
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# create separate keyspaces for each type of data stored
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open: bool
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env: Sqlite
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getStmt, putStmt, delStmt, clearStmt, containsStmt,
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findStmt0, findStmt1, findStmt2: RawStmtPtr
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SqKeyspaceRef* = ref SqKeyspace
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CustomFunction* =
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proc (
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a: openArray[byte],
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b: openArray[byte]
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): Result[seq[byte], cstring] {.noSideEffect, cdecl, callback.}
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template dispose(db: Sqlite) =
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discard sqlite3_close(db)
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template dispose(db: RawStmtPtr) =
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discard sqlite3_finalize(db)
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template dispose*(db: SqliteStmt) =
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discard sqlite3_finalize(RawStmtPtr db)
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func isInsideTransaction*(db: SqStoreRef): bool =
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sqlite3_get_autocommit(db.env) == 0
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proc release[T](x: var AutoDisposed[T]): T =
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result = x.val
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x.val = nil
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proc disposeIfUnreleased[T](x: var AutoDisposed[T]) =
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mixin dispose
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if x.val != nil:
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dispose(x.release)
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template checkErr(op, cleanup: untyped) =
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if (let v = (op); v != SQLITE_OK):
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cleanup
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return err($sqlite3_errstr(v))
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template checkErr(op) =
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checkErr(op): discard
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proc prepareStmt*(db: SqStoreRef,
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stmt: string,
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Params: type,
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Res: type,
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managed = true): KvResult[SqliteStmt[Params, Res]] =
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var s: RawStmtPtr
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checkErr sqlite3_prepare_v2(db.env, stmt, stmt.len.cint, addr s, nil)
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if managed: db.managedStmts.add s
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ok SqliteStmt[Params, Res](s)
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proc bindParam(s: RawStmtPtr, n: int, val: auto): cint =
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when val is openArray[byte]|seq[byte]:
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if val.len > 0:
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sqlite3_bind_blob(s, n.cint, unsafeAddr val[0], val.len.cint, nil)
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else:
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sqlite3_bind_blob(s, n.cint, nil, 0.cint, nil)
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elif val is array:
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when val.items.typeof is byte:
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# Prior to Nim 1.4 and view types array[N, byte] in tuples
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# don't match with openArray[byte]
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if val.len > 0:
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sqlite3_bind_blob(s, n.cint, unsafeAddr val[0], val.len.cint, nil)
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else:
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sqlite3_bind_blob(s, n.cint, nil, 0.cint, nil)
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else:
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{.fatal: "Please add support for the '" & $typeof(val) & "' type".}
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elif val is SomeInteger:
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sqlite3_bind_int64(s, n.cint, val.clong)
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elif val is Option:
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if val.isNone():
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sqlite3_bind_null(s, n.cint)
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else:
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bindParam(s, n, val.get())
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else:
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{.fatal: "Please add support for the '" & $typeof(val) & "' type".}
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template bindParams(s: RawStmtPtr, params: auto) =
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when params is tuple:
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when params.type.arity > 0:
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var i = 1
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for param in fields(params):
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checkErr bindParam(s, i, param)
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inc i
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else:
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checkErr bindParam(s, 1, params)
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proc exec*[P](s: SqliteStmt[P, void], params: P): KvResult[void] =
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let s = RawStmtPtr s
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bindParams(s, params)
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let res =
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if (let v = sqlite3_step(s); v != SQLITE_DONE):
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err($sqlite3_errstr(v))
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else:
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ok()
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# release implicit transaction
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discard sqlite3_reset(s) # same return information as step
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discard sqlite3_clear_bindings(s) # no errors possible
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res
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template readSimpleResult(s: RawStmtPtr, column: cint, T: type): auto =
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when T is int64:
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sqlite3_column_int64(s, column)
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elif T is SomeInteger:
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# sqlite integers are "up to" 8 bytes in size, so rather than silently
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# truncate them, we support only 64-bit integers when reading and let the
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# calling code deal with it - careful though, anything that is not an
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# integer (ie TEXT) is returned as 0
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{.fatal: "Use int64 for reading integers".}
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elif T is openArray[byte]:
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let
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p = cast[ptr UncheckedArray[byte]](sqlite3_column_blob(s, column))
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l = sqlite3_column_bytes(s, column)
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toOpenArray(p, 0, l-1)
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elif T is seq[byte]:
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var res: seq[byte]
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let len = sqlite3_column_bytes(s, column)
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if len > 0:
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res.setLen(len)
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copyMem(addr res[0], sqlite3_column_blob(s, column), len)
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res
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elif T is array:
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# array[N, byte]. "genericParams(T)[1]" requires 1.4 to handle nnkTypeOfExpr
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when typeof(default(T)[0]) is byte:
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var res: T
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let colLen = sqlite3_column_bytes(s, column)
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# truncate if the type is too small
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# TODO: warning/error? We assume that users always properly dimension buffers
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let copyLen = min(colLen, res.len)
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if copyLen > 0:
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copyMem(addr res[0], sqlite3_column_blob(s, column), copyLen)
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res
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else:
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{.fatal: "Please add support for the '" & $(T) & "' type".}
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else:
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{.fatal: "Please add support for the '" & $(T) & "' type".}
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template readResult(s: RawStmtPtr, column: cint, T: type): auto =
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when T is Option:
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if sqlite3_column_type(s, column) == SQLITE_NULL:
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none(typeof(default(T).get()))
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else:
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some(readSimpleResult(s, column, typeof(default(T).get())))
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else:
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readSimpleResult(s, column, T)
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template readResult(s: RawStmtPtr, T: type): auto =
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when T is tuple:
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var res: T
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var i = cint 0
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for field in fields(res):
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field = readResult(s, i, typeof(field))
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inc i
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res
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else:
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readResult(s, 0.cint, T)
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proc exec*[Params, Res](s: SqliteStmt[Params, Res],
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params: Params,
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onData: ResultHandler[Res]): KvResult[bool] =
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let s = RawStmtPtr s
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bindParams(s, params)
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try:
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var gotResults = false
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while true:
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let v = sqlite3_step(s)
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case v
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of SQLITE_ROW:
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if onData != nil:
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onData(readResult(s, Res))
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gotResults = true
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of SQLITE_DONE:
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break
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else:
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return err($sqlite3_errstr(v))
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return ok gotResults
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finally:
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# release implicit transaction
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discard sqlite3_reset(s) # same return information as step
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discard sqlite3_clear_bindings(s) # no errors possible
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iterator exec*[Params, Res](s: SqliteStmt[Params, Res],
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params: Params, item: var Res): KvResult[void] =
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let s = RawStmtPtr s
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# we use a mutable `res` variable here to avoid the code bloat that multiple
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# `yield` statements cause when inlining the loop body
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var res = KvResult[void].ok()
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when params is tuple:
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var i = 1
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for param in fields(params):
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if (let v = bindParam(s, i, param); v != SQLITE_OK):
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res = KvResult[void].err($sqlite3_errstr(v))
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break
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inc i
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else:
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if (let v = bindParam(s, 1, params); v != SQLITE_OK):
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res = KvResult[void].err($sqlite3_errstr(v))
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defer:
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# release implicit transaction
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discard sqlite3_reset(s) # same return information as step
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discard sqlite3_clear_bindings(s) # no errors possible
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while res.isOk():
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let v = sqlite3_step(s)
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case v
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of SQLITE_ROW:
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item = readResult(s, Res)
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yield KvResult[void].ok()
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of SQLITE_DONE:
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break
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else:
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res = KvResult[void].err($sqlite3_errstr(v))
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if not res.isOk():
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yield res
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iterator exec*[Res](s: SqliteStmt[NoParams, Res], item: var Res): KvResult[void] =
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for r in exec(s, (), item):
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yield r
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template exec*(s: SqliteStmt[NoParams, void]): KvResult[void] =
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exec(s, ())
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template exec*[Res](s: SqliteStmt[NoParams, Res],
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onData: ResultHandler[Res]): KvResult[bool] =
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exec(s, (), onData)
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proc exec*[Params: tuple](db: SqStoreRef,
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stmt: string,
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params: Params): KvResult[void] =
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let stmt = ? db.prepareStmt(stmt, Params, void, managed = false)
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result = exec(stmt, params)
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let finalizeStatus = sqlite3_finalize(RawStmtPtr stmt)
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if finalizeStatus != SQLITE_OK and result.isOk:
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return err($sqlite3_errstr(finalizeStatus))
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proc exec*[Params: tuple, Res](db: SqStoreRef,
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stmt: string,
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params: Params,
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onData: ResultHandler[Res]): KvResult[bool] =
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let stmt = ? db.prepareStmt(stmt, Params, Res, managed = false)
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result = exec(stmt, params, onData)
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let finalizeStatus = sqlite3_finalize(RawStmtPtr stmt)
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if finalizeStatus != SQLITE_OK and result.isOk:
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return err($sqlite3_errstr(finalizeStatus))
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template exec*(db: SqStoreRef, stmt: string): KvResult[void] =
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exec(db, stmt, ())
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proc get*(db: SqKeyspaceRef,
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key: openArray[byte],
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onData: DataProc): KvResult[bool] =
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if not db.open: return err("sqlite: database closed")
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let getStmt = db.getStmt
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if getStmt == nil: return ok(false) # no such table
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checkErr bindParam(getStmt, 1, key)
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let
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v = sqlite3_step(getStmt)
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res = case v
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of SQLITE_ROW:
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let
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p = cast[ptr UncheckedArray[byte]](sqlite3_column_blob(getStmt, 0))
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l = sqlite3_column_bytes(getStmt, 0)
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onData(toOpenArray(p, 0, l-1))
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ok(true)
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of SQLITE_DONE:
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ok(false)
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else:
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err($sqlite3_errstr(v))
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# release implicit transaction
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discard sqlite3_reset(getStmt) # same return information as step
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discard sqlite3_clear_bindings(getStmt) # no errors possible
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res
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func nextPrefix(prefix: openArray[byte], next: var seq[byte]): bool =
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# Return a seq that is greater than all strings starting with `prefix` when
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# doing a lexicographical compare - we're looking for the string that
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# increments the last byte by 1, removing any bytes from the back that
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# cannot be incremented (0xff)
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for i in 0..<prefix.len():
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if prefix[^(i+1)] == high(byte):
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if i == 0:
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return false
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else:
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next = prefix[0..<i]
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next[^1] += 1'u8
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return true
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false # Empty
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proc find*(
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db: SqKeyspaceRef,
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prefix: openArray[byte],
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onFind: KeyValueProc): KvResult[int] =
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if not db.open: return err("sqlite: database closed")
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var next: seq[byte] # extended lifetime of bound param
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let findStmt =
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if prefix.len == 0:
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if db.findStmt0 == nil: return ok(0) # no such table
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db.findStmt0 # all rows
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else:
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if not nextPrefix(prefix, next):
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# For example when looking for the prefix [byte 255], there are no
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# prefixes that lexicographically are greater, thus we use the
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# query that only does the >= comparison
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if db.findStmt1 == nil: return ok(0) # no such table
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checkErr bindParam(db.findStmt1, 1, prefix)
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db.findStmt1
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else:
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if db.findStmt2 == nil: return ok(0) # no such table
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checkErr bindParam(db.findStmt2, 1, prefix)
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checkErr bindParam(db.findStmt2, 2, next)
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db.findStmt2
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var
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total = 0
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while true:
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let
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v = sqlite3_step(findStmt)
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case v
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of SQLITE_ROW:
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let
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kp = cast[ptr UncheckedArray[byte]](sqlite3_column_blob(findStmt, 0))
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kl = sqlite3_column_bytes(findStmt, 0)
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vp = cast[ptr UncheckedArray[byte]](sqlite3_column_blob(findStmt, 1))
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vl = sqlite3_column_bytes(findStmt, 1)
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if onFind != nil:
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onFind(kp.toOpenArray(0, kl - 1), vp.toOpenArray(0, vl - 1))
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total += 1
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of SQLITE_DONE:
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break
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else:
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# release implicit transaction (could use a defer, but it's slow)
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discard sqlite3_reset(findStmt) # same return information as step
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discard sqlite3_clear_bindings(findStmt) # no errors possible
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return err($sqlite3_errstr(v))
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# release implicit transaction
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discard sqlite3_reset(findStmt) # same return information as step
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discard sqlite3_clear_bindings(findStmt) # no errors possible
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ok(total)
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proc put*(db: SqKeyspaceRef, key, value: openArray[byte]): KvResult[void] =
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if not db.open: return err("sqlite: database closed")
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let putStmt = db.putStmt
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if putStmt == nil: return err("sqlite: cannot write to read-only database")
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checkErr bindParam(putStmt, 1, key)
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checkErr bindParam(putStmt, 2, value)
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let res =
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if (let v = sqlite3_step(putStmt); v != SQLITE_DONE):
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err($sqlite3_errstr(v))
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else:
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ok()
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# release implict transaction
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discard sqlite3_reset(putStmt) # same return information as step
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discard sqlite3_clear_bindings(putStmt) # no errors possible
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res
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proc contains*(db: SqKeyspaceRef, key: openArray[byte]): KvResult[bool] =
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if not db.open: return err("sqlite: database closed")
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let containsStmt = db.containsStmt
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if containsStmt == nil: return ok(false) # no such table
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checkErr bindParam(containsStmt, 1, key)
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let
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v = sqlite3_step(containsStmt)
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res = case v
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of SQLITE_ROW: ok(true)
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of SQLITE_DONE: ok(false)
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else: err($sqlite3_errstr(v))
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# release implicit transaction
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discard sqlite3_reset(containsStmt) # same return information as step
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discard sqlite3_clear_bindings(containsStmt) # no errors possible
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res
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proc del*(db: SqKeyspaceRef, key: openArray[byte]): KvResult[bool] =
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if not db.open: return err("sqlite: database closed")
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let delStmt = db.delStmt
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if delStmt == nil: return ok(false) # no such table
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checkErr bindParam(delStmt, 1, key)
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let res =
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if (let v = sqlite3_step(delStmt); v != SQLITE_DONE):
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err($sqlite3_errstr(v))
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else:
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ok(sqlite3_changes(db.env) > 0)
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# release implict transaction
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discard sqlite3_reset(delStmt) # same return information as step
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discard sqlite3_clear_bindings(delStmt) # no errors possible
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res
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proc clear*(db: SqKeyspaceRef): KvResult[bool] =
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if not db.open: return err("sqlite: database closed")
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let clearStmt = db.clearStmt
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if clearStmt == nil: return ok(false) # no such table
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let res =
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if (let v = sqlite3_step(clearStmt); v != SQLITE_DONE):
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err($sqlite3_errstr(v))
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else:
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ok(sqlite3_changes(db.env) > 0)
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# release implicit transaction
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discard sqlite3_reset(clearStmt) # same return information as step
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res
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proc close*(db: var SqKeyspace) =
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# Calling with null stmt is harmless
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discard sqlite3_finalize(db.putStmt)
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discard sqlite3_finalize(db.getStmt)
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discard sqlite3_finalize(db.delStmt)
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discard sqlite3_finalize(db.clearStmt)
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discard sqlite3_finalize(db.containsStmt)
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discard sqlite3_finalize(db.findStmt0)
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discard sqlite3_finalize(db.findStmt1)
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discard sqlite3_finalize(db.findStmt2)
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db = SqKeyspace()
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proc close*(db: SqKeyspaceRef) =
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close(db[])
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proc close*(db: SqStoreRef) =
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for stmt in db.managedStmts:
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discard sqlite3_finalize(stmt)
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# Lazy-v2-close allows closing the keyspaces in any order
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discard sqlite3_close_v2(db.env)
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db[] = SqStoreRef()[]
|
|
|
|
proc checkpoint*(db: SqStoreRef, kind = SqStoreCheckpointKind.passive) =
|
|
let mode: cint = case kind
|
|
of SqStoreCheckpointKind.passive: SQLITE_CHECKPOINT_PASSIVE
|
|
of SqStoreCheckpointKind.full: SQLITE_CHECKPOINT_FULL
|
|
of SqStoreCheckpointKind.restart: SQLITE_CHECKPOINT_RESTART
|
|
of SqStoreCheckpointKind.truncate: SQLITE_CHECKPOINT_TRUNCATE
|
|
discard sqlite3_wal_checkpoint_v2(db.env, nil, mode, nil, nil)
|
|
|
|
template prepare(env: ptr sqlite3, q: string): ptr sqlite3_stmt =
|
|
block:
|
|
var s: ptr sqlite3_stmt
|
|
checkErr sqlite3_prepare_v2(env, cstring(q), q.len.cint, addr s, nil):
|
|
discard
|
|
s
|
|
|
|
template prepare(env: ptr sqlite3, q: string, cleanup: untyped): ptr sqlite3_stmt =
|
|
block:
|
|
var s: ptr sqlite3_stmt
|
|
checkErr sqlite3_prepare_v2(env, cstring(q), q.len.cint, addr s, nil)
|
|
s
|
|
|
|
template checkExec(s: ptr sqlite3_stmt) =
|
|
if (let x = sqlite3_step(s); x != SQLITE_DONE):
|
|
discard sqlite3_finalize(s)
|
|
return err($sqlite3_errstr(x))
|
|
|
|
if (let x = sqlite3_finalize(s); x != SQLITE_OK):
|
|
return err($sqlite3_errstr(x))
|
|
|
|
template checkExec(env: ptr sqlite3, q: string) =
|
|
block:
|
|
let s = prepare(env, q): discard
|
|
checkExec(s)
|
|
|
|
proc isClosed*(db: SqStoreRef): bool =
|
|
db.env != nil
|
|
|
|
proc init*(
|
|
T: type SqStoreRef,
|
|
basePath: string,
|
|
name: string,
|
|
readOnly = false,
|
|
inMemory = false,
|
|
manualCheckpoint = false): KvResult[T] =
|
|
var env: AutoDisposed[ptr sqlite3]
|
|
defer: disposeIfUnreleased(env)
|
|
|
|
let
|
|
name =
|
|
if inMemory: ":memory:"
|
|
else: basePath / name & ".sqlite3"
|
|
flags =
|
|
# For some reason, opening multiple in-memory databases doesn't work if
|
|
# one of them is read-only - for now, disable read-only mode for them
|
|
if readOnly and not inMemory: SQLITE_OPEN_READONLY
|
|
else: SQLITE_OPEN_READWRITE or SQLITE_OPEN_CREATE
|
|
|
|
if not inMemory:
|
|
try:
|
|
createDir(basePath)
|
|
except OSError, IOError:
|
|
return err("sqlite: cannot create database directory")
|
|
|
|
checkErr sqlite3_open_v2(cstring name, addr env.val, flags.cint, nil)
|
|
|
|
template checkWalPragmaResult(journalModePragma: ptr sqlite3_stmt) =
|
|
if (let x = sqlite3_step(journalModePragma); x != SQLITE_ROW):
|
|
discard sqlite3_finalize(journalModePragma)
|
|
return err($sqlite3_errstr(x))
|
|
|
|
if (let x = sqlite3_column_type(journalModePragma, 0); x != SQLITE3_TEXT):
|
|
discard sqlite3_finalize(journalModePragma)
|
|
return err($sqlite3_errstr(x))
|
|
|
|
if (let x = cstring sqlite3_column_text(journalModePragma, 0);
|
|
x != "memory" and x != "wal"):
|
|
discard sqlite3_finalize(journalModePragma)
|
|
return err("Invalid pragma result: " & $x)
|
|
|
|
if not readOnly:
|
|
# user_version = 1: single kvstore table without rowid
|
|
# user_version = 2: single kvstore table with rowid
|
|
# user_version = 3: multiple named kvstore tables via openKvStore
|
|
checkExec env.val, "PRAGMA user_version = 3;"
|
|
|
|
let journalModePragma = prepare(env.val, "PRAGMA journal_mode = WAL;")
|
|
checkWalPragmaResult(journalModePragma)
|
|
checkExec journalModePragma
|
|
|
|
if manualCheckpoint:
|
|
checkErr sqlite3_wal_autocheckpoint(env.val, 0)
|
|
# In manual checkpointing mode, we relax synchronization to NORMAL -
|
|
# this is safe in WAL mode leaving us with a consistent database at all
|
|
# times, though potentially losing any data written between checkpoints.
|
|
# http://www3.sqlite.org/wal.html#performance_considerations
|
|
checkExec env.val, "PRAGMA synchronous = NORMAL;"
|
|
|
|
ok(SqStoreRef(
|
|
env: env.release,
|
|
readOnly: readOnly
|
|
))
|
|
|
|
proc hasTable*(db: SqStoreRef, name: string): KvResult[bool] =
|
|
let
|
|
sql = "SELECT name FROM sqlite_master WHERE type='table' AND name='" &
|
|
name & "';"
|
|
db.exec(sql, (), proc(_: openArray[byte]) {.callback.} = discard)
|
|
|
|
proc openKvStore*(
|
|
db: SqStoreRef, name = "kvstore", withoutRowid = false,
|
|
readOnly = false): KvResult[SqKeyspaceRef] =
|
|
## Open a new Key-Value store in the SQLite database
|
|
##
|
|
## withoutRowid: Create the table without rowid - this is more efficient when
|
|
## rows are small (<200 bytes) but very inefficient with larger
|
|
## rows (the row being the sum of key and value) - see
|
|
## https://www.sqlite.org/withoutrowid.html
|
|
##
|
|
let hasTable = if db.readOnly or readOnly:
|
|
? db.hasTable(name)
|
|
else:
|
|
let createSql = """
|
|
CREATE TABLE IF NOT EXISTS '""" & name & """' (
|
|
key BLOB PRIMARY KEY,
|
|
value BLOB
|
|
)"""
|
|
checkExec db.env,
|
|
if withoutRowid: createSql & " WITHOUT ROWID;" else: createSql & ";"
|
|
true
|
|
var
|
|
tmp = SqKeyspace(env: db.env)
|
|
defer:
|
|
# We'll "move" ownership to the return value, effectively disabling "close"
|
|
close(tmp)
|
|
tmp.open = true
|
|
if hasTable:
|
|
tmp.getStmt =
|
|
prepare(db.env, "SELECT value FROM '" & name & "' WHERE key = ?;")
|
|
tmp.putStmt =
|
|
prepare(db.env, "INSERT OR REPLACE INTO '" & name & "'(key, value) VALUES (?, ?);")
|
|
tmp.delStmt = prepare(db.env, "DELETE FROM '" & name & "' WHERE key = ?;")
|
|
tmp.clearStmt = prepare(db.env, "DELETE FROM '" & name & "';")
|
|
tmp.containsStmt = prepare(db.env, "SELECT 1 FROM '" & name & "' WHERE key = ?;")
|
|
tmp.findStmt0 = prepare(db.env, "SELECT key, value FROM '" & name & "';")
|
|
tmp.findStmt1 = prepare(db.env, "SELECT key, value FROM '" & name & "' WHERE key >= ?;")
|
|
tmp.findStmt2 = prepare(db.env, "SELECT key, value FROM '" & name & "' WHERE key >= ? and key < ?;")
|
|
|
|
var res = SqKeyspaceRef()
|
|
res[] = tmp
|
|
tmp = SqKeyspace() # make close harmless
|
|
ok res
|
|
|
|
proc customScalarBlobFunction(ctx: ptr sqlite3_context, n: cint, v: ptr ptr sqlite3_value) {.cdecl, callback.} =
|
|
let ptrs = cast[ptr UncheckedArray[ptr sqlite3_value]](v)
|
|
let blob1 = cast[ptr UncheckedArray[byte]](sqlite3_value_blob(ptrs[][0]))
|
|
let blob2 = cast[ptr UncheckedArray[byte]](sqlite3_value_blob(ptrs[][1]))
|
|
let blob1Len = sqlite3_value_bytes(ptrs[][0])
|
|
let blob2Len = sqlite3_value_bytes(ptrs[][1])
|
|
# sqlite3_user_data retrieves data which was pointed by 5th param to
|
|
# sqlite3_create_function functions, which in our case is custom function
|
|
# provided by user
|
|
let usrFun = cast[CustomFunction](sqlite3_user_data(ctx))
|
|
let s = usrFun(
|
|
toOpenArray(blob1, 0, blob1Len - 1),
|
|
toOpenArray(blob2, 0, blob2Len - 1)
|
|
)
|
|
|
|
if s.isOk():
|
|
let bytes = s.unsafeGet()
|
|
# try is necessary as otherwise nim marks SQLITE_TRANSIENT as throwing
|
|
# unlisted exception.
|
|
# Using SQLITE_TRANSIENT destructor type, as it inform sqlite that data
|
|
# under provided pointer may be deleted at any moment, which is the case
|
|
# for seq[byte] as it is managed by nim gc. With this flag sqlite copy bytes
|
|
# under pointer and then releases them itself.
|
|
sqlite3_result_blob(ctx, unsafeAddr bytes[0], bytes.len.cint, SQLITE_TRANSIENT)
|
|
else:
|
|
let errMsg = s.error
|
|
sqlite3_result_error(ctx, errMsg, -1)
|
|
|
|
proc registerCustomScalarFunction*(db: SqStoreRef, name: string, fun: CustomFunction): KvResult[void] =
|
|
## Register custom function inside sqlite engine. Registered function can
|
|
## be used in further queries by its name. Function should be side-effect
|
|
## free and depends only on provided arguments.
|
|
## Name of the function should be valid utf8 string.
|
|
|
|
# Using SQLITE_DETERMINISTIC flag to inform sqlite that provided function
|
|
# won't have any side effect this may enable additional optimisations.
|
|
let deterministicUtf8Func = cint(SQLITE_UTF8 or SQLITE_DETERMINISTIC)
|
|
|
|
let res = sqlite3_create_function(
|
|
db.env,
|
|
name,
|
|
cint(2),
|
|
deterministicUtf8Func,
|
|
cast[pointer](fun),
|
|
customScalarBlobFunction,
|
|
nil,
|
|
nil
|
|
)
|
|
|
|
if res != SQLITE_OK:
|
|
return err($sqlite3_errstr(res))
|
|
else:
|
|
return ok()
|
|
|
|
when defined(metrics):
|
|
import locks, tables, times,
|
|
chronicles, metrics
|
|
|
|
type Sqlite3Info = ref object of Gauge
|
|
|
|
proc newSqlite3Info*(name: string, help: string, registry = defaultRegistry): Sqlite3Info {.raises: [Exception].} =
|
|
validateName(name)
|
|
result = Sqlite3Info(name: name,
|
|
help: help,
|
|
typ: "gauge",
|
|
creationThreadId: getThreadId())
|
|
result.lock.initLock()
|
|
result.register(registry)
|
|
|
|
var sqlite3Info* {.global.} = newSqlite3Info("sqlite3_info", "SQLite3 info")
|
|
|
|
method collect*(collector: Sqlite3Info): Metrics =
|
|
result = initOrderedTable[Labels, seq[Metric]]()
|
|
result[@[]] = @[]
|
|
let timestamp = getTime().toMilliseconds()
|
|
var currentMem, highwaterMem: int64
|
|
|
|
if (let res = sqlite3_status64(SQLITE_STATUS_MEMORY_USED, currentMem.addr, highwaterMem.addr, 0); res != SQLITE_OK):
|
|
error "SQLite3 error", msg = sqlite3_errstr(res)
|
|
else:
|
|
result[@[]] = @[
|
|
Metric(
|
|
name: "sqlite3_memory_used_bytes",
|
|
value: currentMem.float64,
|
|
timestamp: timestamp,
|
|
),
|
|
]
|