mirror of https://github.com/waku-org/nwaku.git
342 lines
9.7 KiB
Nim
342 lines
9.7 KiB
Nim
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{.push raises: [].}
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# The code in this file is an adaptation of the Sqlite KV Store found in nim-eth.
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# https://github.com/status-im/nim-eth/blob/master/eth/db/kvstore_sqlite3.nim
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#
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# Most of it is a direct copy, the only unique functions being `get` and `put`.
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import
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std/os,
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stew/results,
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chronicles,
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sqlite3_abi
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logScope:
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topics = "sqlite"
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type
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Sqlite = ptr sqlite3
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NoParams* = tuple
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RawStmtPtr* = ptr sqlite3_stmt
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SqliteStmt*[Params; Result] = distinct RawStmtPtr
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AutoDisposed[T: ptr|ref] = object
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val: T
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template dispose(db: Sqlite) =
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discard sqlite3_close(db)
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template dispose(rawStmt: RawStmtPtr) =
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discard sqlite3_finalize(rawStmt)
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template dispose*(sqliteStmt: SqliteStmt) =
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discard sqlite3_finalize(RawStmtPtr sqliteStmt)
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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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type
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DatabaseResult*[T] = Result[T, string]
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SqliteDatabase* = ref object of RootObj
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env*: Sqlite
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type DataProc* = proc(s: RawStmtPtr) {.closure.} # the nim-eth definition is different; one more indirection
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const NoopRowHandler* = proc(s: RawStmtPtr) {.closure.} = discard
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proc new*(T: type SqliteDatabase, path: string, readOnly=false): DatabaseResult[T] =
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var env: AutoDisposed[ptr sqlite3]
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defer: disposeIfUnreleased(env)
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let flags = if readOnly: SQLITE_OPEN_READONLY
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else: SQLITE_OPEN_READWRITE or SQLITE_OPEN_CREATE
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if path != ":memory:":
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try:
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createDir(parentDir(path))
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except OSError, IOError:
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return err("sqlite: cannot create database directory")
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checkErr sqlite3_open_v2(path, addr env.val, flags.cint, nil)
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template prepare(q: string, cleanup: untyped): ptr sqlite3_stmt =
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var s: ptr sqlite3_stmt
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checkErr sqlite3_prepare_v2(env.val, q, q.len.cint, addr s, nil):
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cleanup
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s
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template checkExec(s: ptr sqlite3_stmt) =
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if (let x = sqlite3_step(s); x != SQLITE_DONE):
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discard sqlite3_finalize(s)
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return err($sqlite3_errstr(x))
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if (let x = sqlite3_finalize(s); x != SQLITE_OK):
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return err($sqlite3_errstr(x))
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template checkExec(q: string) =
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let s = prepare(q): discard
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checkExec(s)
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template checkWalPragmaResult(journalModePragma: ptr sqlite3_stmt) =
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if (let x = sqlite3_step(journalModePragma); x != SQLITE_ROW):
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discard sqlite3_finalize(journalModePragma)
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return err($sqlite3_errstr(x))
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if (let x = sqlite3_column_type(journalModePragma, 0); x != SQLITE3_TEXT):
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discard sqlite3_finalize(journalModePragma)
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return err($sqlite3_errstr(x))
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if (let x = sqlite3_column_text(journalModePragma, 0);
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x != "memory" and x != "wal"):
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discard sqlite3_finalize(journalModePragma)
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return err("Invalid pragma result: " & $x)
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let journalModePragma = prepare("PRAGMA journal_mode = WAL;"): discard
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checkWalPragmaResult(journalModePragma)
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checkExec(journalModePragma)
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ok(SqliteDatabase(env: env.release))
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template prepare*(env: Sqlite, q: string, cleanup: untyped): ptr sqlite3_stmt =
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var s: ptr sqlite3_stmt
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checkErr sqlite3_prepare_v2(env, q, q.len.cint, addr s, nil):
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cleanup
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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 int32:
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sqlite3_bind_int(s, n.cint, val)
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elif val is uint32:
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sqlite3_bind_int64(s, n.cint, val)
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elif val is int64:
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sqlite3_bind_int64(s, n.cint, val)
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elif val is float64:
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sqlite3_bind_double(s, n.cint, val)
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# Note: bind_text not yet supported in sqlite3_abi wrapper
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# elif val is string:
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# sqlite3_bind_text(s, n.cint, val.cstring, -1, nil) # `-1` implies string length is the number of bytes up to the first null-terminator
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else:
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{.fatal: "Please add support for the '" & $typeof(val) & "' type".}
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template bindParams(s: RawStmtPtr, params: auto) =
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when params is tuple:
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var i = 1
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for param in fields(params):
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checkErr bindParam(s, i, param)
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inc i
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else:
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checkErr bindParam(s, 1, params)
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proc exec*[P](s: SqliteStmt[P, void], params: P): DatabaseResult[void] =
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let s = RawStmtPtr s
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bindParams(s, params)
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let res =
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if (let v = sqlite3_step(s); v != SQLITE_DONE):
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err($sqlite3_errstr(v))
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else:
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ok()
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# release implict 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 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: DataProc): DatabaseResult[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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onData(s)
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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($sqlite3_errstr(v))
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return ok gotResults
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finally:
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# release implicit transaction
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discard sqlite3_reset(s) # same return information as step
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discard sqlite3_clear_bindings(s) # no errors possible
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proc query*(db: SqliteDatabase, query: string, onData: DataProc): DatabaseResult[bool] =
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var s = prepare(db.env, query): discard
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try:
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var gotResults = false
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while true:
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let v = sqlite3_step(s)
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case v
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of SQLITE_ROW:
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onData(s)
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gotResults = true
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of SQLITE_DONE:
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break
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else:
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return err($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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discard sqlite3_finalize(s) # NB: dispose of the prepared query statement and free associated memory
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proc prepareStmt*(
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db: SqliteDatabase,
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stmt: string,
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Params: type,
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Res: type
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): DatabaseResult[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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ok SqliteStmt[Params, Res](s)
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proc close*(db: SqliteDatabase) =
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discard sqlite3_close(db.env)
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db[] = SqliteDatabase()[]
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## Maintenance procedures
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# TODO: Cache this value in the SqliteDatabase object.
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# Page size should not change during the node execution time
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proc getPageSize*(db: SqliteDatabase): DatabaseResult[int64] =
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## Query or set the page size of the database. The page size must be a power of
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## two between 512 and 65536 inclusive.
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var size: int64
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proc handler(s: RawStmtPtr) =
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size = sqlite3_column_int64(s, 0)
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let res = db.query("PRAGMA page_size;", handler)
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if res.isErr():
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return err("failed to get page_size")
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ok(size)
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proc getFreelistCount*(db: SqliteDatabase): DatabaseResult[int64] =
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## Return the number of unused pages in the database file.
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var count: int64
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proc handler(s: RawStmtPtr) =
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count = sqlite3_column_int64(s, 0)
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let res = db.query("PRAGMA freelist_count;", handler)
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if res.isErr():
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return err("failed to get freelist_count")
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ok(count)
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proc getPageCount*(db: SqliteDatabase): DatabaseResult[int64] =
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## Return the total number of pages in the database file.
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var count: int64
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proc handler(s: RawStmtPtr) =
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count = sqlite3_column_int64(s, 0)
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let res = db.query("PRAGMA page_count;", handler)
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if res.isErr():
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return err("failed to get page_count")
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ok(count)
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proc vacuum*(db: SqliteDatabase): DatabaseResult[void] =
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## The VACUUM command rebuilds the database file, repacking it into a minimal amount of disk space.
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let res = db.query("VACUUM;", NoopRowHandler)
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if res.isErr():
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return err("vacuum failed")
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ok()
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## Database scheme versioning
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proc getUserVersion*(database: SqliteDatabase): DatabaseResult[int64] =
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## Get the value of the user-version integer.
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##
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## The user-version is an integer that is available to applications to use however they want.
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## SQLite makes no use of the user-version itself. This integer is stored at offset 60 in
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## the database header.
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##
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## For more info check: https://www.sqlite.org/pragma.html#pragma_user_version
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var version: int64
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proc handler(s: ptr sqlite3_stmt) =
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version = sqlite3_column_int64(s, 0)
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let res = database.query("PRAGMA user_version;", handler)
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if res.isErr():
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return err("failed to get user_version")
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ok(version)
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proc setUserVersion*(database: SqliteDatabase, version: int64): DatabaseResult[void] =
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## Set the value of the user-version integer.
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##
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## The user-version is an integer that is available to applications to use however they want.
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## SQLite makes no use of the user-version itself. This integer is stored at offset 60 in
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## the database header.
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##
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## For more info check: https://www.sqlite.org/pragma.html#pragma_user_version
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let query = "PRAGMA user_version=" & $version & ";"
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let res = database.query(query, NoopRowHandler)
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if res.isErr():
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return err("failed to set user_version")
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ok()
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