/** _libmdbx_ is an extremely fast, compact, powerful, embedded, transactional [key-value store](https://en.wikipedia.org/wiki/Key-value_database) database, with [permissive license](./LICENSE). _MDBX_ has a specific set of properties and capabilities, focused on creating unique lightweight solutions with extraordinary performance. _libmdbx_ is superior to [LMDB](https://bit.ly/26ts7tL) in terms of features and reliability, not inferior in performance. In comparison to LMDB, _libmdbx_ makes many things just work perfectly, not silently and catastrophically break down. _libmdbx_ supports Linux, Windows, MacOS, OSX, iOS, Android, FreeBSD, DragonFly, Solaris, OpenSolaris, OpenIndiana, NetBSD, OpenBSD and other systems compliant with POSIX.1-2008. _The Future will (be) [Positive](https://www.ptsecurity.com). Всё будет хорошо._ \section copyright LICENSE & COPYRIGHT \authors Copyright (c) 2015-2021, Leonid Yuriev and other _libmdbx_ authors: please see [AUTHORS](./AUTHORS) file. \copyright Redistribution and use in source and binary forms, with or without modification, are permitted only as authorized by the OpenLDAP Public License. A copy of this license is available in the file LICENSE in the top-level directory of the distribution or, alternatively, at . --- This code is derived from "LMDB engine" written by Howard Chu (Symas Corporation), which itself derived from btree.c written by Martin Hedenfalk. --- Portions Copyright 2011-2015 Howard Chu, Symas Corp. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted only as authorized by the OpenLDAP Public License. A copy of this license is available in the file LICENSE in the top-level directory of the distribution or, alternatively, at . --- Portions Copyright (c) 2009, 2010 Martin Hedenfalk Permission to use, copy, modify, and distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. *******************************************************************************/ #pragma once #ifndef LIBMDBX_H #define LIBMDBX_H #ifdef _MSC_VER #pragma warning(push, 1) #pragma warning(disable : 4548) /* expression before comma has no effect; \ expected expression with side - effect */ #pragma warning(disable : 4530) /* C++ exception handler used, but unwind \ * semantics are not enabled. Specify /EHsc */ #pragma warning(disable : 4577) /* 'noexcept' used with no exception handling \ * mode specified; termination on exception is \ * not guaranteed. Specify /EHsc */ #endif /* _MSC_VER (warnings) */ /* *INDENT-OFF* */ /* clang-format off */ /** \file mdbx.h \brief The libmdbx C API header file \defgroup c_api C API @{ \defgroup c_err Error handling \defgroup c_opening Opening & Closing \defgroup c_transactions Transactions \defgroup c_dbi Databases \defgroup c_crud Create/Read/Update/Delete (see Quick Reference in details) \details \anchor c_crud_hints # Quick Reference for Insert/Update/Delete operations Historically, libmdbx inherits the API basis from LMDB, where it is often difficult to select flags/options and functions for the desired operation. So it is recommend using this hints. ## Databases with UNIQUE keys In databases created without the \ref MDBX_DUPSORT option, keys are always unique. Thus always a single value corresponds to the each key, and so there are only a few cases of changing data. | Case | Flags to use | Result | |---------------------------------------------|---------------------|------------------------| | _INSERTING_||| |Key is absent → Insertion |\ref MDBX_NOOVERWRITE|Insertion | |Key exist → Error since key present |\ref MDBX_NOOVERWRITE|Error \ref MDBX_KEYEXIST and return Present value| | _UPSERTING_||| |Key is absent → Insertion |\ref MDBX_UPSERT |Insertion | |Key exist → Update |\ref MDBX_UPSERT |Update | | _UPDATING_||| |Key is absent → Error since no such key |\ref MDBX_CURRENT |Error \ref MDBX_NOTFOUND| |Key exist → Update |\ref MDBX_CURRENT |Update value | | _DELETING_||| |Key is absent → Error since no such key |\ref mdbx_del() or \ref mdbx_replace()|Error \ref MDBX_NOTFOUND| |Key exist → Delete by key |\ref mdbx_del() with the parameter `data = NULL`|Deletion| |Key exist → Delete by key with with data matching check|\ref mdbx_del() with the parameter `data` filled with the value which should be match for deletion|Deletion or \ref MDBX_NOTFOUND if the value does not match| |Delete at the current cursor position |\ref mdbx_cursor_del() with \ref MDBX_CURRENT flag|Deletion| |Extract (read & delete) value by the key |\ref mdbx_replace() with zero flag and parameter `new_data = NULL`|Returning a deleted value| ## Databases with NON-UNIQUE keys In databases created with the \ref MDBX_DUPSORT (Sorted Duplicates) option, keys may be non unique. Such non-unique keys in a key-value database may be treated as a duplicates or as like a multiple values corresponds to keys. | Case | Flags to use | Result | |---------------------------------------------|---------------------|------------------------| | _INSERTING_||| |Key is absent → Insertion |\ref MDBX_NOOVERWRITE|Insertion| |Key exist → Needn't to add new values |\ref MDBX_NOOVERWRITE|Error \ref MDBX_KEYEXIST with returning the first value from those already present| | _UPSERTING_||| |Key is absent → Insertion |\ref MDBX_UPSERT |Insertion| |Key exist → Wanna to add new values |\ref MDBX_UPSERT |Add one more value to the key| |Key exist → Replace all values with a new one|\ref MDBX_UPSERT + \ref MDBX_ALLDUPS|Overwrite by single new value| | _UPDATING_||| |Key is absent → Error since no such key |\ref MDBX_CURRENT |Error \ref MDBX_NOTFOUND| |Key exist, Single value → Update |\ref MDBX_CURRENT |Update single value | |Key exist, Multiple values → Replace all values with a new one|\ref MDBX_CURRENT + \ref MDBX_ALLDUPS|Overwrite by single new value| |Key exist, Multiple values → Error since it is unclear which of the values should be updated|\ref mdbx_put() with \ref MDBX_CURRENT|Error \ref MDBX_EMULTIVAL| |Key exist, Multiple values → Update particular entry of multi-value|\ref mdbx_replace() with \ref MDBX_CURRENT + \ref MDBX_NOOVERWRITE and the parameter `old_value` filled with the value that wanna to update|Update one multi-value entry| |Key exist, Multiple values → Update the current entry of multi-value|\ref mdbx_cursor_put() with \ref MDBX_CURRENT|Update one multi-value entry| | _DELETING_||| |Key is absent → Error since no such key |\ref mdbx_del() or \ref mdbx_replace()|Error \ref MDBX_NOTFOUND| |Key exist → Delete all values corresponds given key|\ref mdbx_del() with the parameter `data = NULL`|Deletion| |Key exist → Delete particular value corresponds given key|\ref mdbx_del() with the parameter `data` filled with the value that wanna to delete, or \ref mdbx_replace() with \ref MDBX_CURRENT + \ref MDBX_NOOVERWRITE and the `old_value` parameter filled with the value that wanna to delete and `new_data = NULL`| Deletion or \ref MDBX_NOTFOUND if no such key-value pair| |Delete one value at the current cursor position|\ref mdbx_cursor_del() with \ref MDBX_CURRENT flag|Deletion only the current entry| |Delete all values of key at the current cursor position|\ref mdbx_cursor_del() with with \ref MDBX_ALLDUPS flag|Deletion all duplicates of key (all multi-values) at the current cursor position| \defgroup c_cursors Cursors \defgroup c_statinfo Statistics & Information \defgroup c_settings Settings \defgroup c_debug Logging and runtime debug \defgroup c_rqest Range query estimation \defgroup c_extra Extra operations */ /* *INDENT-ON* */ /* clang-format on */ #include #include #include #if defined(_WIN32) || defined(_WIN64) #include #include #ifndef __mode_t_defined typedef unsigned short mdbx_mode_t; #else typedef mode_t mdbx_mode_t; #endif /* __mode_t_defined */ typedef HANDLE mdbx_filehandle_t; typedef DWORD mdbx_pid_t; typedef DWORD mdbx_tid_t; #else /* Windows */ #include /* for error codes */ #include /* for pthread_t */ #include /* for pid_t */ #include /* for struct iovec */ #define HAVE_STRUCT_IOVEC 1 typedef int mdbx_filehandle_t; typedef pid_t mdbx_pid_t; typedef pthread_t mdbx_tid_t; typedef mode_t mdbx_mode_t; #endif /* !Windows */ #ifdef _MSC_VER #pragma warning(pop) #endif /** @} close c_api * \defgroup api_macros Common Macros * @{ */ /*----------------------------------------------------------------------------*/ #ifndef __has_attribute #define __has_attribute(x) (0) #endif /* __has_attribute */ #ifndef __has_cpp_attribute #define __has_cpp_attribute(x) 0 #endif /* __has_cpp_attribute */ #ifndef __has_feature #define __has_feature(x) (0) #endif /* __has_feature */ #ifndef __has_extension #define __has_extension(x) (0) #endif /* __has_extension */ #ifndef __has_builtin #define __has_builtin(x) (0) #endif /* __has_builtin */ /** Many functions have no effects except the return value and their * return value depends only on the parameters and/or global variables. * Such a function can be subject to common subexpression elimination * and loop optimization just as an arithmetic operator would be. * These functions should be declared with the attribute pure. */ #if (defined(__GNUC__) || __has_attribute(__pure__)) && \ (!defined(__clang__) /* https://bugs.llvm.org/show_bug.cgi?id=43275 */ \ || !defined(__cplusplus) || !__has_feature(cxx_exceptions)) #define MDBX_PURE_FUNCTION __attribute__((__pure__)) #elif defined(_MSC_VER) && !defined(__clang__) && _MSC_VER >= 1920 #define MDBX_PURE_FUNCTION #elif defined(__cplusplus) && __has_cpp_attribute(gnu::pure) && \ (!defined(__clang__) || !__has_feature(cxx_exceptions)) #define MDBX_PURE_FUNCTION [[gnu::pure]] #else #define MDBX_PURE_FUNCTION #endif /* MDBX_PURE_FUNCTION */ /** Like \ref MDBX_PURE_FUNCTION with addition `noexcept` restriction * that is compatible to CLANG and proposed [[pure]]. */ #if defined(__GNUC__) || \ (__has_attribute(__pure__) && __has_attribute(__nothrow__)) #define MDBX_NOTHROW_PURE_FUNCTION __attribute__((__pure__, __nothrow__)) #elif defined(_MSC_VER) && !defined(__clang__) && _MSC_VER >= 1920 #if __has_cpp_attribute(pure) #define MDBX_NOTHROW_PURE_FUNCTION [[pure]] #else #define MDBX_NOTHROW_PURE_FUNCTION #endif #elif defined(__cplusplus) && __has_cpp_attribute(gnu::pure) #if __has_cpp_attribute(gnu::nothrow) #define MDBX_NOTHROW_PURE_FUNCTION [[gnu::pure, gnu::nothrow]] #else #define MDBX_NOTHROW_PURE_FUNCTION [[gnu::pure]] #endif #elif defined(__cplusplus) && __has_cpp_attribute(pure) #define MDBX_NOTHROW_PURE_FUNCTION [[pure]] #else #define MDBX_NOTHROW_PURE_FUNCTION #endif /* MDBX_NOTHROW_PURE_FUNCTION */ /** Many functions do not examine any values except their arguments, * and have no effects except the return value. Basically this is just * slightly more strict class than the PURE attribute, since function * is not allowed to read global memory. * * Note that a function that has pointer arguments and examines the * data pointed to must not be declared const. Likewise, a function * that calls a non-const function usually must not be const. * It does not make sense for a const function to return void. */ #if (defined(__GNUC__) || __has_attribute(__pure__)) && \ (!defined(__clang__) /* https://bugs.llvm.org/show_bug.cgi?id=43275 */ \ || !defined(__cplusplus) || !__has_feature(cxx_exceptions)) #define MDBX_CONST_FUNCTION __attribute__((__const__)) #elif defined(_MSC_VER) && !defined(__clang__) && _MSC_VER >= 1920 #define MDBX_CONST_FUNCTION MDBX_PURE_FUNCTION #elif defined(__cplusplus) && __has_cpp_attribute(gnu::const) && \ (!defined(__clang__) || !__has_feature(cxx_exceptions)) #define MDBX_CONST_FUNCTION [[gnu::const]] #else #define MDBX_CONST_FUNCTION MDBX_PURE_FUNCTION #endif /* MDBX_CONST_FUNCTION */ /** Like \ref MDBX_CONST_FUNCTION with addition `noexcept` restriction * that is compatible to CLANG and future [[const]]. */ #if defined(__GNUC__) || \ (__has_attribute(__const__) && __has_attribute(__nothrow__)) #define MDBX_NOTHROW_CONST_FUNCTION __attribute__((__const__, __nothrow__)) #elif defined(_MSC_VER) && !defined(__clang__) && _MSC_VER >= 1920 #define MDBX_NOTHROW_CONST_FUNCTION MDBX_NOTHROW_PURE_FUNCTION #elif defined(__cplusplus) && __has_cpp_attribute(gnu::const) #if __has_cpp_attribute(gnu::nothrow) #define MDBX_NOTHROW_PURE_FUNCTION [[gnu::const, gnu::nothrow]] #else #define MDBX_NOTHROW_PURE_FUNCTION [[gnu::const]] #endif #elif defined(__cplusplus) && __has_cpp_attribute(const) #define MDBX_NOTHROW_CONST_FUNCTION [[const]] #else #define MDBX_NOTHROW_CONST_FUNCTION MDBX_NOTHROW_PURE_FUNCTION #endif /* MDBX_NOTHROW_CONST_FUNCTION */ #ifndef MDBX_DEPRECATED /* may be predefined to avoid warnings "deprecated" */ #ifdef __deprecated #define MDBX_DEPRECATED __deprecated #elif defined(__GNUC__) || __has_attribute(__deprecated__) #define MDBX_DEPRECATED __attribute__((__deprecated__)) #elif defined(_MSC_VER) #define MDBX_DEPRECATED __declspec(deprecated) #else #define MDBX_DEPRECATED #endif #endif /* MDBX_DEPRECATED */ #ifndef __dll_export #if defined(_WIN32) || defined(__CYGWIN__) #if defined(__GNUC__) || __has_attribute(__dllexport__) #define __dll_export __attribute__((__dllexport__)) #elif defined(_MSC_VER) #define __dll_export __declspec(dllexport) #else #define __dll_export #endif #elif defined(__GNUC__) || __has_attribute(__visibility__) #define __dll_export __attribute__((__visibility__("default"))) #else #define __dll_export #endif #endif /* __dll_export */ #ifndef __dll_import #if defined(_WIN32) || defined(__CYGWIN__) #if defined(__GNUC__) || __has_attribute(__dllimport__) #define __dll_import __attribute__((__dllimport__)) #elif defined(_MSC_VER) #define __dll_import __declspec(dllimport) #else #define __dll_import #endif #else #define __dll_import #endif #endif /* __dll_import */ /** \brief Auxiliary macro for robustly define the both inline version of API * function and non-inline fallback dll-exported version for applications linked * with old version of libmdbx, with a strictly ODR-common implementation. */ #if !defined(LIBMDBX_INTERNALS) #define LIBMDBX_INLINE_API(TYPE, NAME, ARGS) static __inline TYPE NAME ARGS #else #define LIBMDBX_INLINE_API(TYPE, NAME, ARGS) \ /* proto of exported which uses common impl */ LIBMDBX_API TYPE NAME ARGS; \ /* definition of common impl */ static __inline TYPE __inline_##NAME ARGS #endif /* LIBMDBX_INLINE_API */ /*----------------------------------------------------------------------------*/ #ifndef __cplusplus #ifndef bool #define bool _Bool #endif #ifndef true #define true (1) #endif #ifndef false #define false (0) #endif #endif /* bool without __cplusplus */ #if !defined(DOXYGEN) && (!defined(__cpp_noexcept_function_type) || \ __cpp_noexcept_function_type < 201510L) #define MDBX_CXX17_NOEXCEPT #else #define MDBX_CXX17_NOEXCEPT noexcept #endif /* MDBX_CXX17_NOEXCEPT */ /* Workaround for old compilers without properly support for constexpr. */ #if !defined(__cplusplus) #define MDBX_CXX01_CONSTEXPR __inline #define MDBX_CXX01_CONSTEXPR_VAR const #elif !defined(DOXYGEN) && \ (!defined(__cpp_constexpr) || __cpp_constexpr < 200704L || \ (defined(__LCC__) && __LCC__ < 124) || \ (defined(__GNUC__) && (__GNUC__ * 100 + __GNUC_MINOR__ < 407) && \ !defined(__clang__) && !defined(__LCC__)) || \ (defined(_MSC_VER) && _MSC_VER < 1910) || \ (defined(__clang__) && __clang_major__ < 4)) #define MDBX_CXX01_CONSTEXPR inline #define MDBX_CXX01_CONSTEXPR_VAR const #else #define MDBX_CXX01_CONSTEXPR constexpr #define MDBX_CXX01_CONSTEXPR_VAR constexpr #endif /* MDBX_CXX01_CONSTEXPR */ #if !defined(__cplusplus) #define MDBX_CXX11_CONSTEXPR __inline #define MDBX_CXX11_CONSTEXPR_VAR const #elif !defined(DOXYGEN) && \ (!defined(__cpp_constexpr) || __cpp_constexpr < 201304 || \ (defined(__LCC__) && __LCC__ < 124) || \ (defined(__GNUC__) && __GNUC__ < 6 && !defined(__clang__) && \ !defined(__LCC__)) || \ (defined(_MSC_VER) && _MSC_VER < 1910) || \ (defined(__clang__) && __clang_major__ < 5)) #define MDBX_CXX11_CONSTEXPR inline #define MDBX_CXX11_CONSTEXPR_VAR const #else #define MDBX_CXX11_CONSTEXPR constexpr #define MDBX_CXX11_CONSTEXPR_VAR constexpr #endif /* MDBX_CXX11_CONSTEXPR */ #if !defined(__cplusplus) #define MDBX_CXX14_CONSTEXPR __inline #define MDBX_CXX14_CONSTEXPR_VAR const #elif defined(DOXYGEN) || \ defined(__cpp_constexpr) && __cpp_constexpr >= 201304L && \ ((defined(_MSC_VER) && _MSC_VER >= 1910) || \ (defined(__clang__) && __clang_major__ > 4) || \ (defined(__GNUC__) && __GNUC__ > 6) || \ (!defined(__GNUC__) && !defined(__clang__) && !defined(_MSC_VER))) #define MDBX_CXX14_CONSTEXPR constexpr #define MDBX_CXX14_CONSTEXPR_VAR constexpr #else #define MDBX_CXX14_CONSTEXPR inline #define MDBX_CXX14_CONSTEXPR_VAR const #endif /* MDBX_CXX14_CONSTEXPR */ #if defined(__noreturn) #define MDBX_NORETURN __noreturn #elif defined(_Noreturn) #define MDBX_NORETURN _Noreturn #elif defined(__GNUC__) || __has_attribute(__noreturn__) #define MDBX_NORETURN __attribute__((__noreturn__)) #elif defined(_MSC_VER) && !defined(__clang__) #define MDBX_NORETURN __declspec(noreturn) #else #define MDBX_NORETURN #endif /* MDBX_NORETURN */ #ifndef MDBX_PRINTF_ARGS #if defined(__GNUC__) || __has_attribute(__format__) #define MDBX_PRINTF_ARGS(format_index, first_arg) \ __attribute__((__format__(__printf__, format_index, first_arg))) #else #define MDBX_PRINTF_ARGS(format_index, first_arg) #endif #endif /* MDBX_PRINTF_ARGS */ /* Oh, below are some songs and dances since: * - C++ requires explicit definition of the necessary operators. * - the proper implementation of DEFINE_ENUM_FLAG_OPERATORS for C++ required * the constexpr feature which is broken in most old compilers; * - DEFINE_ENUM_FLAG_OPERATORS may be defined broken as in the Windows SDK. */ #ifndef DEFINE_ENUM_FLAG_OPERATORS #ifdef __cplusplus #if !defined(__cpp_constexpr) || __cpp_constexpr < 200704L || \ (defined(__LCC__) && __LCC__ < 124) || \ (defined(__GNUC__) && (__GNUC__ * 100 + __GNUC_MINOR__ < 407) && \ !defined(__clang__) && !defined(__LCC__)) || \ (defined(_MSC_VER) && _MSC_VER < 1910) || \ (defined(__clang__) && __clang_major__ < 4) /* The constexpr feature is not available or (may be) broken */ #define CONSTEXPR_ENUM_FLAGS_OPERATIONS 0 #else /* C always allows these operators for enums */ #define CONSTEXPR_ENUM_FLAGS_OPERATIONS 1 #endif /* __cpp_constexpr */ /// Define operator overloads to enable bit operations on enum values that are /// used to define flags (based on Microsoft's DEFINE_ENUM_FLAG_OPERATORS). #define DEFINE_ENUM_FLAG_OPERATORS(ENUM) \ extern "C++" { \ MDBX_CXX01_CONSTEXPR ENUM operator|(ENUM a, ENUM b) { \ return ENUM(unsigned(a) | unsigned(b)); \ } \ MDBX_CXX14_CONSTEXPR ENUM &operator|=(ENUM &a, ENUM b) { return a = a | b; } \ MDBX_CXX01_CONSTEXPR ENUM operator&(ENUM a, ENUM b) { \ return ENUM(unsigned(a) & unsigned(b)); \ } \ MDBX_CXX01_CONSTEXPR ENUM operator&(ENUM a, unsigned b) { \ return ENUM(unsigned(a) & b); \ } \ MDBX_CXX01_CONSTEXPR ENUM operator&(unsigned a, ENUM b) { \ return ENUM(a & unsigned(b)); \ } \ MDBX_CXX14_CONSTEXPR ENUM &operator&=(ENUM &a, ENUM b) { return a = a & b; } \ MDBX_CXX14_CONSTEXPR ENUM &operator&=(ENUM &a, unsigned b) { \ return a = a & b; \ } \ MDBX_CXX01_CONSTEXPR unsigned operator~(ENUM a) { return ~unsigned(a); } \ MDBX_CXX01_CONSTEXPR ENUM operator^(ENUM a, ENUM b) { \ return ENUM(unsigned(a) ^ unsigned(b)); \ } \ MDBX_CXX14_CONSTEXPR ENUM &operator^=(ENUM &a, ENUM b) { return a = a ^ b; } \ } #else /* __cplusplus */ /* nope for C since it always allows these operators for enums */ #define DEFINE_ENUM_FLAG_OPERATORS(ENUM) #define CONSTEXPR_ENUM_FLAGS_OPERATIONS 1 #endif /* !__cplusplus */ #elif !defined(CONSTEXPR_ENUM_FLAGS_OPERATIONS) #ifdef __cplusplus /* DEFINE_ENUM_FLAG_OPERATORS may be defined broken as in the Windows SDK */ #define CONSTEXPR_ENUM_FLAGS_OPERATIONS 0 #else /* C always allows these operators for enums */ #define CONSTEXPR_ENUM_FLAGS_OPERATIONS 1 #endif #endif /* DEFINE_ENUM_FLAG_OPERATORS */ /** @} end of Common Macros */ /*----------------------------------------------------------------------------*/ /** \addtogroup c_api * @{ */ #ifdef __cplusplus extern "C" { #endif /* MDBX version 0.9.x */ #define MDBX_VERSION_MAJOR 0 #define MDBX_VERSION_MINOR 9 #ifndef LIBMDBX_API #if defined(LIBMDBX_EXPORTS) #define LIBMDBX_API __dll_export #elif defined(LIBMDBX_IMPORTS) #define LIBMDBX_API __dll_import #else #define LIBMDBX_API #endif #endif /* LIBMDBX_API */ #ifdef __cplusplus #if defined(__clang__) || __has_attribute(type_visibility) #define LIBMDBX_API_TYPE LIBMDBX_API __attribute__((type_visibility("default"))) #else #define LIBMDBX_API_TYPE LIBMDBX_API #endif #else #define LIBMDBX_API_TYPE #endif /* LIBMDBX_API_TYPE */ #if defined(LIBMDBX_IMPORTS) #define LIBMDBX_VERINFO_API __dll_import #else #define LIBMDBX_VERINFO_API __dll_export #endif /* LIBMDBX_VERINFO_API */ /** \brief libmdbx version information */ extern LIBMDBX_VERINFO_API const struct MDBX_version_info { uint8_t major; /**< Major version number */ uint8_t minor; /**< Minor version number */ uint16_t release; /**< Release number of Major.Minor */ uint32_t revision; /**< Revision number of Release */ struct { const char *datetime; /**< committer date, strict ISO-8601 format */ const char *tree; /**< commit hash (hexadecimal digits) */ const char *commit; /**< tree hash, i.e. digest of the source code */ const char *describe; /**< git-describe string */ } git; /**< source information from git */ const char *sourcery; /**< sourcery anchor for pinning */ } /** \brief libmdbx version information */ mdbx_version; /** \brief libmdbx build information * \attention Some strings could be NULL in case no corresponding information * was provided at build time (i.e. flags). */ extern LIBMDBX_VERINFO_API const struct MDBX_build_info { const char *datetime; /**< build timestamp (ISO-8601 or __DATE__ __TIME__) */ const char *target; /**< cpu/arch-system-config triplet */ const char *options; /**< mdbx-related options */ const char *compiler; /**< compiler */ const char *flags; /**< CFLAGS and CXXFLAGS */ } /** \brief libmdbx build information */ mdbx_build; #if defined(_WIN32) || defined(_WIN64) #if !MDBX_BUILD_SHARED_LIBRARY /* MDBX internally uses global and thread local storage destructors to * automatically (de)initialization, releasing reader lock table slots * and so on. * * If MDBX builded as a DLL this is done out-of-the-box by DllEntry() function, * which called automatically by Windows core with passing corresponding reason * argument. * * Otherwise, if MDBX was builded not as a DLL, some black magic * may be required depending of Windows version: * - Modern Windows versions, including Windows Vista and later, provides * support for "TLS Directory" (e.g .CRT$XL[A-Z] sections in executable * or dll file). In this case, MDBX capable of doing all automatically, * and you do not need to call mdbx_dll_handler(). * - Obsolete versions of Windows, prior to Windows Vista, REQUIRES calling * mdbx_dll_handler() manually from corresponding DllMain() or WinMain() * of your DLL or application. * - This behavior is under control of the MODX_CONFIG_MANUAL_TLS_CALLBACK * option, which is determined by default according to the target version * of Windows at build time. * But you may override MODX_CONFIG_MANUAL_TLS_CALLBACK in special cases. * * Therefore, building MDBX as a DLL is recommended for all version of Windows. * So, if you doubt, just build MDBX as the separate DLL and don't worry. */ #ifndef MDBX_CONFIG_MANUAL_TLS_CALLBACK #if defined(_WIN32_WINNT_VISTA) && WINVER >= _WIN32_WINNT_VISTA /* As described above mdbx_dll_handler() is NOT needed forWindows Vista * and later. */ #define MDBX_CONFIG_MANUAL_TLS_CALLBACK 0 #else /* As described above mdbx_dll_handler() IS REQUIRED for Windows versions * prior to Windows Vista. */ #define MDBX_CONFIG_MANUAL_TLS_CALLBACK 1 #endif #endif /* MDBX_CONFIG_MANUAL_TLS_CALLBACK */ #if MDBX_CONFIG_MANUAL_TLS_CALLBACK void LIBMDBX_API NTAPI mdbx_dll_handler(PVOID module, DWORD reason, PVOID reserved); #endif /* MDBX_CONFIG_MANUAL_TLS_CALLBACK */ #endif /* !MDBX_BUILD_SHARED_LIBRARY */ #endif /* Windows */ /* OPACITY STRUCTURES *********************************************************/ /** \brief Opaque structure for a database environment. * \details An environment supports multiple key-value sub-databases (aka * key-value spaces or tables), all residing in the same shared-memory map. * \see mdbx_env_create() \see mdbx_env_close() */ #ifndef __cplusplus typedef struct MDBX_env MDBX_env; #else struct MDBX_env; #endif /** \brief Opaque structure for a transaction handle. * \ingroup c_transactions * \details All database operations require a transaction handle. Transactions * may be read-only or read-write. * \see mdbx_txn_begin() \see mdbx_txn_commit() \see mdbx_txn_abort() */ #ifndef __cplusplus typedef struct MDBX_txn MDBX_txn; #else struct MDBX_txn; #endif /** \brief A handle for an individual database (key-value spaces) in the * environment. \ingroup c_dbi \details Zero handle is used internally (hidden * Garbage Collection DB). So, any valid DBI-handle great than 0 and less than * or equal \ref MDBX_MAX_DBI. \see mdbx_dbi_open() \see mdbx_dbi_close() */ typedef uint32_t MDBX_dbi; /** \brief Opaque structure for navigating through a database * \ingroup c_cursors * \see mdbx_cursor_create() \see mdbx_cursor_bind() \see mdbx_cursor_close() */ #ifndef __cplusplus typedef struct MDBX_cursor MDBX_cursor; #else struct MDBX_cursor; #endif /** \brief Generic structure used for passing keys and data in and out of the * database. * \anchor MDBX_val \see mdbx::slice \see mdbx::buffer * * \details Values returned from the database are valid only until a subsequent * update operation, or the end of the transaction. Do not modify or * free them, they commonly point into the database itself. * * Key sizes must be between 0 and \ref mdbx_env_get_maxkeysize() inclusive. * The same applies to data sizes in databases with the \ref MDBX_DUPSORT flag. * Other data items can in theory be from 0 to \ref MDBX_MAXDATASIZE bytes long. * * \note The notable difference between MDBX and LMDB is that MDBX support zero * length keys. */ #ifndef HAVE_STRUCT_IOVEC struct iovec { void *iov_base; /**< pointer to some data */ size_t iov_len; /**< the length of data in bytes */ }; #define HAVE_STRUCT_IOVEC #endif /* HAVE_STRUCT_IOVEC */ #if defined(__sun) || defined(__SVR4) || defined(__svr4__) /* The `iov_len` is signed on Sun/Solaris. * So define custom MDBX_val to avoid a lot of warnings. */ struct MDBX_val { void *iov_base; /**< pointer to some data */ size_t iov_len; /**< the length of data in bytes */ }; #ifndef __cplusplus typedef struct MDBX_val MDBX_val; #endif #else /* SunOS */ typedef struct iovec MDBX_val; #endif /* ! SunOS */ enum MDBX_constants { /** The hard limit for DBI handles */ MDBX_MAX_DBI = UINT32_C(32765), /** The maximum size of a data item. */ MDBX_MAXDATASIZE = UINT32_C(0x7fff0000), /** The minimal database page size in bytes. */ MDBX_MIN_PAGESIZE = 256, /** The maximal database page size in bytes. */ MDBX_MAX_PAGESIZE = 65536, }; /* THE FILES ******************************************************************* * At the file system level, the environment corresponds to a pair of files. */ /** \brief The name of the lock file in the environment */ #define MDBX_LOCKNAME "/mdbx.lck" /** \brief The name of the data file in the environment */ #define MDBX_DATANAME "/mdbx.dat" /** \brief The suffix of the lock file when \ref MDBX_NOSUBDIR is used */ #define MDBX_LOCK_SUFFIX "-lck" /* DEBUG & LOGGING ************************************************************/ /** \addtogroup c_debug * \note Most of debug feature enabled only when libmdbx builded with * \ref MDBX_DEBUG build option. @{ */ /** Log level (requires build libmdbx with \ref MDBX_DEBUG option) */ enum MDBX_log_level_t { /** Critical conditions, i.e. assertion failures */ MDBX_LOG_FATAL = 0, /** Enables logging for error conditions and \ref MDBX_LOG_FATAL */ MDBX_LOG_ERROR = 1, /** Enables logging for warning conditions and \ref MDBX_LOG_ERROR ... \ref MDBX_LOG_FATAL */ MDBX_LOG_WARN = 2, /** Enables logging for normal but significant condition and \ref MDBX_LOG_WARN ... \ref MDBX_LOG_FATAL */ MDBX_LOG_NOTICE = 3, /** Enables logging for verbose informational and \ref MDBX_LOG_NOTICE ... \ref MDBX_LOG_FATAL */ MDBX_LOG_VERBOSE = 4, /** Enables logging for debug-level messages and \ref MDBX_LOG_VERBOSE ... \ref MDBX_LOG_FATAL */ MDBX_LOG_DEBUG = 5, /** Enables logging for trace debug-level messages and \ref MDBX_LOG_DEBUG ... \ref MDBX_LOG_FATAL */ MDBX_LOG_TRACE = 6, /** Enables extra debug-level messages (dump pgno lists) and all other log-messages */ MDBX_LOG_EXTRA = 7, /** for \ref mdbx_setup_debug() only: Don't change current settings */ MDBX_LOG_DONTCHANGE = -1 }; #ifndef __cplusplus typedef enum MDBX_log_level_t MDBX_log_level_t; #endif /** \brief Runtime debug flags * * \details `MDBX_DBG_DUMP` and `MDBX_DBG_LEGACY_MULTIOPEN` always have an * effect, but `MDBX_DBG_ASSERT`, `MDBX_DBG_AUDIT` and `MDBX_DBG_JITTER` only if * libmdbx builded with \ref MDBX_DEBUG. */ enum MDBX_debug_flags_t { /** Enable assertion checks. * Requires build with \ref MDBX_DEBUG > 0 */ MDBX_DBG_ASSERT = 1, /** Enable pages usage audit at commit transactions. * Requires build with \ref MDBX_DEBUG > 0 */ MDBX_DBG_AUDIT = 2, /** Enable small random delays in critical points. * Requires build with \ref MDBX_DEBUG > 0 */ MDBX_DBG_JITTER = 4, /** Include or not meta-pages in coredump files. * May affect performance in \ref MDBX_WRITEMAP mode */ MDBX_DBG_DUMP = 8, /** Allow multi-opening environment(s) */ MDBX_DBG_LEGACY_MULTIOPEN = 16, /** Allow read and write transactions overlapping for the same thread */ MDBX_DBG_LEGACY_OVERLAP = 32, /** for mdbx_setup_debug() only: Don't change current settings */ MDBX_DBG_DONTCHANGE = -1 }; #ifndef __cplusplus typedef enum MDBX_debug_flags_t MDBX_debug_flags_t; #else DEFINE_ENUM_FLAG_OPERATORS(MDBX_debug_flags_t) #endif /** \brief A debug-logger callback function, * called before printing the message and aborting. * \see mdbx_setup_debug() * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * \param [in] msg The assertion message, not including newline. */ typedef void MDBX_debug_func(MDBX_log_level_t loglevel, const char *function, int line, const char *fmt, va_list args) MDBX_CXX17_NOEXCEPT; /** \brief The "don't change `logger`" value for mdbx_setup_debug() */ #define MDBX_LOGGER_DONTCHANGE ((MDBX_debug_func *)(intptr_t)-1) /** \brief Setup global log-level, debug options and debug logger. * \returns The previously `debug_flags` in the 0-15 bits * and `log_level` in the 16-31 bits. */ LIBMDBX_API int mdbx_setup_debug(MDBX_log_level_t log_level, MDBX_debug_flags_t debug_flags, MDBX_debug_func *logger); /** \brief A callback function for most MDBX assert() failures, * called before printing the message and aborting. * \see mdbx_env_set_assert() * * \param [in] env An environment handle returned by mdbx_env_create(). * \param [in] msg The assertion message, not including newline. */ typedef void MDBX_assert_func(const MDBX_env *env, const char *msg, const char *function, unsigned line) MDBX_CXX17_NOEXCEPT; /** \brief Set or reset the assert() callback of the environment. * * Does nothing if libmdbx was built with MDBX_DEBUG=0 or with NDEBUG, * and will return `MDBX_ENOSYS` in such case. * * \param [in] env An environment handle returned by mdbx_env_create(). * \param [in] func An MDBX_assert_func function, or 0. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_env_set_assert(MDBX_env *env, MDBX_assert_func *func); /** \brief Dump given MDBX_val to the buffer * * Dumps it as string if value is printable (all bytes in the range 0x20..0x7E), * otherwise made hexadecimal dump. Requires at least 4 byte length buffer. * * \returns One of: * - NULL if given buffer size less than 4 bytes; * - pointer to constant string if given value NULL or empty; * - otherwise pointer to given buffer. */ LIBMDBX_API const char *mdbx_dump_val(const MDBX_val *key, char *const buf, const size_t bufsize); /** \brief Panics with message and causes abnormal process termination. */ LIBMDBX_API void mdbx_panic(const char *fmt, ...) MDBX_PRINTF_ARGS(1, 2); /** @} end of logging & debug */ /** \brief Environment flags * \ingroup c_opening * \anchor env_flags * \see mdbx_env_open() \see mdbx_env_set_flags() */ enum MDBX_env_flags_t { MDBX_ENV_DEFAULTS = 0, /** No environment directory. * * By default, MDBX creates its environment in a directory whose pathname is * given in path, and creates its data and lock files under that directory. * With this option, path is used as-is for the database main data file. * The database lock file is the path with "-lck" appended. * * - with `MDBX_NOSUBDIR` = in a filesystem we have the pair of MDBX-files * which names derived from given pathname by appending predefined suffixes. * * - without `MDBX_NOSUBDIR` = in a filesystem we have the MDBX-directory with * given pathname, within that a pair of MDBX-files with predefined names. * * This flag affects only at new environment creating by \ref mdbx_env_open(), * otherwise at opening an existing environment libmdbx will choice this * automatically. */ MDBX_NOSUBDIR = UINT32_C(0x4000), /** Read only mode. * * Open the environment in read-only mode. No write operations will be * allowed. MDBX will still modify the lock file - except on read-only * filesystems, where MDBX does not use locks. * * - with `MDBX_RDONLY` = open environment in read-only mode. * MDBX supports pure read-only mode (i.e. without opening LCK-file) only * when environment directory and/or both files are not writable (and the * LCK-file may be missing). In such case allowing file(s) to be placed * on a network read-only share. * * - without `MDBX_RDONLY` = open environment in read-write mode. * * This flag affects only at environment opening but can't be changed after. */ MDBX_RDONLY = UINT32_C(0x20000), /** Open environment in exclusive/monopolistic mode. * * `MDBX_EXCLUSIVE` flag can be used as a replacement for `MDB_NOLOCK`, * which don't supported by MDBX. * In this way, you can get the minimal overhead, but with the correct * multi-process and multi-thread locking. * * - with `MDBX_EXCLUSIVE` = open environment in exclusive/monopolistic mode * or return \ref MDBX_BUSY if environment already used by other process. * The main feature of the exclusive mode is the ability to open the * environment placed on a network share. * * - without `MDBX_EXCLUSIVE` = open environment in cooperative mode, * i.e. for multi-process access/interaction/cooperation. * The main requirements of the cooperative mode are: * * 1. data files MUST be placed in the LOCAL file system, * but NOT on a network share. * 2. environment MUST be opened only by LOCAL processes, * but NOT over a network. * 3. OS kernel (i.e. file system and memory mapping implementation) and * all processes that open the given environment MUST be running * in the physically single RAM with cache-coherency. The only * exception for cache-consistency requirement is Linux on MIPS * architecture, but this case has not been tested for a long time). * * This flag affects only at environment opening but can't be changed after. */ MDBX_EXCLUSIVE = UINT32_C(0x400000), /** Using database/environment which already opened by another process(es). * * The `MDBX_ACCEDE` flag is useful to avoid \ref MDBX_INCOMPATIBLE error * while opening the database/environment which is already used by another * process(es) with unknown mode/flags. In such cases, if there is a * difference in the specified flags (\ref MDBX_NOMETASYNC, * \ref MDBX_SAFE_NOSYNC, \ref MDBX_UTTERLY_NOSYNC, \ref MDBX_LIFORECLAIM, * \ref MDBX_COALESCE and \ref MDBX_NORDAHEAD), instead of returning an error, * the database will be opened in a compatibility with the already used mode. * * `MDBX_ACCEDE` has no effect if the current process is the only one either * opening the DB in read-only mode or other process(es) uses the DB in * read-only mode. */ MDBX_ACCEDE = UINT32_C(0x40000000), /** Map data into memory with write permission. * * Use a writeable memory map unless \ref MDBX_RDONLY is set. This uses fewer * mallocs and requires much less work for tracking database pages, but * loses protection from application bugs like wild pointer writes and other * bad updates into the database. This may be slightly faster for DBs that * fit entirely in RAM, but is slower for DBs larger than RAM. Also adds the * possibility for stray application writes thru pointers to silently * corrupt the database. * * - with `MDBX_WRITEMAP` = all data will be mapped into memory in the * read-write mode. This offers a significant performance benefit, since the * data will be modified directly in mapped memory and then flushed to disk * by single system call, without any memory management nor copying. * * - without `MDBX_WRITEMAP` = data will be mapped into memory in the * read-only mode. This requires stocking all modified database pages in * memory and then writing them to disk through file operations. * * \warning On the other hand, `MDBX_WRITEMAP` adds the possibility for stray * application writes thru pointers to silently corrupt the database. * * \note The `MDBX_WRITEMAP` mode is incompatible with nested transactions, * since this is unreasonable. I.e. nested transactions requires mallocation * of database pages and more work for tracking ones, which neuters a * performance boost caused by the `MDBX_WRITEMAP` mode. * * This flag affects only at environment opening but can't be changed after. */ MDBX_WRITEMAP = UINT32_C(0x80000), /** Tie reader locktable slots to read-only transactions * instead of to threads. * * Don't use Thread-Local Storage, instead tie reader locktable slots to * \ref MDBX_txn objects instead of to threads. So, \ref mdbx_txn_reset() * keeps the slot reserved for the \ref MDBX_txn object. A thread may use * parallel read-only transactions. And a read-only transaction may span * threads if you synchronizes its use. * * Applications that multiplex many user threads over individual OS threads * need this option. Such an application must also serialize the write * transactions in an OS thread, since MDBX's write locking is unaware of * the user threads. * * \note Regardless to `MDBX_NOTLS` flag a write transaction entirely should * always be used in one thread from start to finish. MDBX checks this in a * reasonable manner and return the \ref MDBX_THREAD_MISMATCH error in rules * violation. * * This flag affects only at environment opening but can't be changed after. */ MDBX_NOTLS = UINT32_C(0x200000), /** Don't do readahead. * * Turn off readahead. Most operating systems perform readahead on read * requests by default. This option turns it off if the OS supports it. * Turning it off may help random read performance when the DB is larger * than RAM and system RAM is full. * * By default libmdbx dynamically enables/disables readahead depending on * the actual database size and currently available memory. On the other * hand, such automation has some limitation, i.e. could be performed only * when DB size changing but can't tracks and reacts changing a free RAM * availability, since it changes independently and asynchronously. * * \note The mdbx_is_readahead_reasonable() function allows to quickly find * out whether to use readahead or not based on the size of the data and the * amount of available memory. * * This flag affects only at environment opening and can't be changed after. */ MDBX_NORDAHEAD = UINT32_C(0x800000), /** Don't initialize malloc'd memory before writing to datafile. * * Don't initialize malloc'd memory before writing to unused spaces in the * data file. By default, memory for pages written to the data file is * obtained using malloc. While these pages may be reused in subsequent * transactions, freshly malloc'd pages will be initialized to zeroes before * use. This avoids persisting leftover data from other code (that used the * heap and subsequently freed the memory) into the data file. * * Note that many other system libraries may allocate and free memory from * the heap for arbitrary uses. E.g., stdio may use the heap for file I/O * buffers. This initialization step has a modest performance cost so some * applications may want to disable it using this flag. This option can be a * problem for applications which handle sensitive data like passwords, and * it makes memory checkers like Valgrind noisy. This flag is not needed * with \ref MDBX_WRITEMAP, which writes directly to the mmap instead of using * malloc for pages. The initialization is also skipped if \ref MDBX_RESERVE * is used; the caller is expected to overwrite all of the memory that was * reserved in that case. * * This flag may be changed at any time using `mdbx_env_set_flags()`. */ MDBX_NOMEMINIT = UINT32_C(0x1000000), /** Aims to coalesce a Garbage Collection items. * * With `MDBX_COALESCE` flag MDBX will aims to coalesce items while recycling * a Garbage Collection. Technically, when possible short lists of pages * will be combined into longer ones, but to fit on one database page. As a * result, there will be fewer items in Garbage Collection and a page lists * are longer, which slightly increases the likelihood of returning pages to * Unallocated space and reducing the database file. * * This flag may be changed at any time using mdbx_env_set_flags(). */ MDBX_COALESCE = UINT32_C(0x2000000), /** LIFO policy for recycling a Garbage Collection items. * * `MDBX_LIFORECLAIM` flag turns on LIFO policy for recycling a Garbage * Collection items, instead of FIFO by default. On systems with a disk * write-back cache, this can significantly increase write performance, up * to several times in a best case scenario. * * LIFO recycling policy means that for reuse pages will be taken which became * unused the lastest (i.e. just now or most recently). Therefore the loop of * database pages circulation becomes as short as possible. In other words, * the number of pages, that are overwritten in memory and on disk during a * series of write transactions, will be as small as possible. Thus creates * ideal conditions for the efficient operation of the disk write-back cache. * * \ref MDBX_LIFORECLAIM is compatible with all no-sync flags, but gives NO * noticeable impact in combination with \ref MDBX_SAFE_NOSYNC or * \ref MDBX_UTTERLY_NOSYNC. Because MDBX will reused pages only before the * last "steady" MVCC-snapshot, i.e. the loop length of database pages * circulation will be mostly defined by frequency of calling * \ref mdbx_env_sync() rather than LIFO and FIFO difference. * * This flag may be changed at any time using mdbx_env_set_flags(). */ MDBX_LIFORECLAIM = UINT32_C(0x4000000), /** Debugging option, fill/perturb released pages. */ MDBX_PAGEPERTURB = UINT32_C(0x8000000), /* SYNC MODES****************************************************************/ /** \defgroup sync_modes SYNC MODES * * \attention Using any combination of \ref MDBX_SAFE_NOSYNC, \ref * MDBX_NOMETASYNC and especially \ref MDBX_UTTERLY_NOSYNC is always a deal to * reduce durability for gain write performance. You must know exactly what * you are doing and what risks you are taking! * * \note for LMDB users: \ref MDBX_SAFE_NOSYNC is NOT similar to LMDB_NOSYNC, * but \ref MDBX_UTTERLY_NOSYNC is exactly match LMDB_NOSYNC. See details * below. * * THE SCENE: * - The DAT-file contains several MVCC-snapshots of B-tree at same time, * each of those B-tree has its own root page. * - Each of meta pages at the beginning of the DAT file contains a * pointer to the root page of B-tree which is the result of the particular * transaction, and a number of this transaction. * - For data durability, MDBX must first write all MVCC-snapshot data * pages and ensure that are written to the disk, then update a meta page * with the new transaction number and a pointer to the corresponding new * root page, and flush any buffers yet again. * - Thus during commit a I/O buffers should be flushed to the disk twice; * i.e. fdatasync(), FlushFileBuffers() or similar syscall should be * called twice for each commit. This is very expensive for performance, * but guaranteed durability even on unexpected system failure or power * outage. Of course, provided that the operating system and the * underlying hardware (e.g. disk) work correctly. * * TRADE-OFF: * By skipping some stages described above, you can significantly benefit in * speed, while partially or completely losing in the guarantee of data * durability and/or consistency in the event of system or power failure. * Moreover, if for any reason disk write order is not preserved, then at * moment of a system crash, a meta-page with a pointer to the new B-tree may * be written to disk, while the itself B-tree not yet. In that case, the * database will be corrupted! * * \see MDBX_SYNC_DURABLE \see MDBX_NOMETASYNC \see MDBX_SAFE_NOSYNC * \see MDBX_UTTERLY_NOSYNC * * @{ */ /** Default robust and durable sync mode. * * Metadata is written and flushed to disk after a data is written and * flushed, which guarantees the integrity of the database in the event * of a crash at any time. * * \attention Please do not use other modes until you have studied all the * details and are sure. Otherwise, you may lose your users' data, as happens * in [Miranda NG](https://www.miranda-ng.org/) messenger. */ MDBX_SYNC_DURABLE = 0, /** Don't sync the meta-page after commit. * * Flush system buffers to disk only once per transaction commit, omit the * metadata flush. Defer that until the system flushes files to disk, * or next non-\ref MDBX_RDONLY commit or \ref mdbx_env_sync(). Depending on * the platform and hardware, with \ref MDBX_NOMETASYNC you may get a doubling * of write performance. * * This trade-off maintains database integrity, but a system crash may * undo the last committed transaction. I.e. it preserves the ACI * (atomicity, consistency, isolation) but not D (durability) database * property. * * `MDBX_NOMETASYNC` flag may be changed at any time using * \ref mdbx_env_set_flags() or by passing to \ref mdbx_txn_begin() for * particular write transaction. \see sync_modes */ MDBX_NOMETASYNC = UINT32_C(0x40000), /** Don't sync anything but keep previous steady commits. * * Like \ref MDBX_UTTERLY_NOSYNC the `MDBX_SAFE_NOSYNC` flag disable similarly * flush system buffers to disk when committing a transaction. But there is a * huge difference in how are recycled the MVCC snapshots corresponding to * previous "steady" transactions (see below). * * With \ref MDBX_WRITEMAP the `MDBX_SAFE_NOSYNC` instructs MDBX to use * asynchronous mmap-flushes to disk. Asynchronous mmap-flushes means that * actually all writes will scheduled and performed by operation system on it * own manner, i.e. unordered. MDBX itself just notify operating system that * it would be nice to write data to disk, but no more. * * Depending on the platform and hardware, with `MDBX_SAFE_NOSYNC` you may get * a multiple increase of write performance, even 10 times or more. * * In contrast to \ref MDBX_UTTERLY_NOSYNC mode, with `MDBX_SAFE_NOSYNC` flag * MDBX will keeps untouched pages within B-tree of the last transaction * "steady" which was synced to disk completely. This has big implications for * both data durability and (unfortunately) performance: * - a system crash can't corrupt the database, but you will lose the last * transactions; because MDBX will rollback to last steady commit since it * kept explicitly. * - the last steady transaction makes an effect similar to "long-lived" read * transaction (see above in the \ref restrictions section) since prevents * reuse of pages freed by newer write transactions, thus the any data * changes will be placed in newly allocated pages. * - to avoid rapid database growth, the system will sync data and issue * a steady commit-point to resume reuse pages, each time there is * insufficient space and before increasing the size of the file on disk. * * In other words, with `MDBX_SAFE_NOSYNC` flag MDBX insures you from the * whole database corruption, at the cost increasing database size and/or * number of disk IOPs. So, `MDBX_SAFE_NOSYNC` flag could be used with * \ref mdbx_env_sync() as alternatively for batch committing or nested * transaction (in some cases). As well, auto-sync feature exposed by * \ref mdbx_env_set_syncbytes() and \ref mdbx_env_set_syncperiod() functions * could be very useful with `MDBX_SAFE_NOSYNC` flag. * * The number and volume of of disk IOPs with MDBX_SAFE_NOSYNC flag will * exactly the as without any no-sync flags. However, you should expect a * larger process's [work set](https://bit.ly/2kA2tFX) and significantly worse * a [locality of reference](https://bit.ly/2mbYq2J), due to the more * intensive allocation of previously unused pages and increase the size of * the database. * * `MDBX_SAFE_NOSYNC` flag may be changed at any time using * \ref mdbx_env_set_flags() or by passing to \ref mdbx_txn_begin() for * particular write transaction. */ MDBX_SAFE_NOSYNC = UINT32_C(0x10000), /** \deprecated Please use \ref MDBX_SAFE_NOSYNC instead of `MDBX_MAPASYNC`. * * Since version 0.9.x the `MDBX_MAPASYNC` is deprecated and has the same * effect as \ref MDBX_SAFE_NOSYNC with \ref MDBX_WRITEMAP. This just API * simplification is for convenience and clarity. */ MDBX_MAPASYNC = MDBX_SAFE_NOSYNC, /** Don't sync anything and wipe previous steady commits. * * Don't flush system buffers to disk when committing a transaction. This * optimization means a system crash can corrupt the database, if buffers are * not yet flushed to disk. Depending on the platform and hardware, with * `MDBX_UTTERLY_NOSYNC` you may get a multiple increase of write performance, * even 100 times or more. * * If the filesystem preserves write order (which is rare and never provided * unless explicitly noted) and the \ref MDBX_WRITEMAP and \ref * MDBX_LIFORECLAIM flags are not used, then a system crash can't corrupt the * database, but you can lose the last transactions, if at least one buffer is * not yet flushed to disk. The risk is governed by how often the system * flushes dirty buffers to disk and how often \ref mdbx_env_sync() is called. * So, transactions exhibit ACI (atomicity, consistency, isolation) properties * and only lose `D` (durability). I.e. database integrity is maintained, but * a system crash may undo the final transactions. * * Otherwise, if the filesystem not preserves write order (which is * typically) or \ref MDBX_WRITEMAP or \ref MDBX_LIFORECLAIM flags are used, * you should expect the corrupted database after a system crash. * * So, most important thing about `MDBX_UTTERLY_NOSYNC`: * - a system crash immediately after commit the write transaction * high likely lead to database corruption. * - successful completion of mdbx_env_sync(force = true) after one or * more committed transactions guarantees consistency and durability. * - BUT by committing two or more transactions you back database into * a weak state, in which a system crash may lead to database corruption! * In case single transaction after mdbx_env_sync, you may lose transaction * itself, but not a whole database. * * Nevertheless, `MDBX_UTTERLY_NOSYNC` provides "weak" durability in case * of an application crash (but no durability on system failure), and * therefore may be very useful in scenarios where data durability is * not required over a system failure (e.g for short-lived data), or if you * can take such risk. * * `MDBX_UTTERLY_NOSYNC` flag may be changed at any time using * \ref mdbx_env_set_flags(), but don't has effect if passed to * \ref mdbx_txn_begin() for particular write transaction. \see sync_modes */ MDBX_UTTERLY_NOSYNC = MDBX_SAFE_NOSYNC | UINT32_C(0x100000), /** @} end of SYNC MODES */ }; #ifndef __cplusplus /** \ingroup c_opening */ typedef enum MDBX_env_flags_t MDBX_env_flags_t; #else DEFINE_ENUM_FLAG_OPERATORS(MDBX_env_flags_t) #endif /** Transaction flags * \ingroup c_transactions * \anchor txn_flags * \see mdbx_txn_begin() \see mdbx_txn_flags() */ enum MDBX_txn_flags_t { /** Start read-write transaction. * * Only one write transaction may be active at a time. Writes are fully * serialized, which guarantees that writers can never deadlock. */ MDBX_TXN_READWRITE = 0, /** Start read-only transaction. * * There can be multiple read-only transactions simultaneously that do not * block each other and a write transactions. */ MDBX_TXN_RDONLY = MDBX_RDONLY, /** Prepare but not start read-only transaction. * * Transaction will not be started immediately, but created transaction handle * will be ready for use with \ref mdbx_txn_renew(). This flag allows to * preallocate memory and assign a reader slot, thus avoiding these operations * at the next start of the transaction. */ #if CONSTEXPR_ENUM_FLAGS_OPERATIONS || defined(DOXYGEN) MDBX_TXN_RDONLY_PREPARE = MDBX_RDONLY | MDBX_NOMEMINIT, #else MDBX_TXN_RDONLY_PREPARE = uint32_t(MDBX_RDONLY) | uint32_t(MDBX_NOMEMINIT), #endif /** Do not block when starting a write transaction. */ MDBX_TXN_TRY = UINT32_C(0x10000000), /** Exactly the same as \ref MDBX_NOMETASYNC, * but for this transaction only */ MDBX_TXN_NOMETASYNC = MDBX_NOMETASYNC, /** Exactly the same as \ref MDBX_SAFE_NOSYNC, * but for this transaction only */ MDBX_TXN_NOSYNC = MDBX_SAFE_NOSYNC }; #ifndef __cplusplus typedef enum MDBX_txn_flags_t MDBX_txn_flags_t; #else DEFINE_ENUM_FLAG_OPERATORS(MDBX_txn_flags_t) #endif /** \brief Database flags * \ingroup c_dbi * \anchor db_flags * \see mdbx_dbi_open() */ enum MDBX_db_flags_t { MDBX_DB_DEFAULTS = 0, /** Use reverse string keys */ MDBX_REVERSEKEY = UINT32_C(0x02), /** Use sorted duplicates, i.e. allow multi-values */ MDBX_DUPSORT = UINT32_C(0x04), /** Numeric keys in native byte order either uint32_t or uint64_t. The keys * must all be of the same size and must be aligned while passing as * arguments. */ MDBX_INTEGERKEY = UINT32_C(0x08), /** With \ref MDBX_DUPSORT; sorted dup items have fixed size */ MDBX_DUPFIXED = UINT32_C(0x10), /** With \ref MDBX_DUPSORT and with \ref MDBX_DUPFIXED; dups are fixed size * \ref MDBX_INTEGERKEY -style integers. The data values must all be of the * same size and must be aligned while passing as arguments. */ MDBX_INTEGERDUP = UINT32_C(0x20), /** With \ref MDBX_DUPSORT; use reverse string comparison */ MDBX_REVERSEDUP = UINT32_C(0x40), /** Create DB if not already existing */ MDBX_CREATE = UINT32_C(0x40000), /** Opens an existing sub-database created with unknown flags. * * The `MDBX_DB_ACCEDE` flag is intend to open a existing sub-database which * was created with unknown flags (\ref MDBX_REVERSEKEY, \ref MDBX_DUPSORT, * \ref MDBX_INTEGERKEY, \ref MDBX_DUPFIXED, \ref MDBX_INTEGERDUP and * \ref MDBX_REVERSEDUP). * * In such cases, instead of returning the \ref MDBX_INCOMPATIBLE error, the * sub-database will be opened with flags which it was created, and then an * application could determine the actual flags by \ref mdbx_dbi_flags(). */ MDBX_DB_ACCEDE = MDBX_ACCEDE }; #ifndef __cplusplus /** \ingroup c_dbi */ typedef enum MDBX_db_flags_t MDBX_db_flags_t; #else DEFINE_ENUM_FLAG_OPERATORS(MDBX_db_flags_t) #endif /** \brief Data changing flags * \ingroup c_crud * \see \ref c_crud_hints "Quick reference for Insert/Update/Delete operations" * \see mdbx_put() \see mdbx_cursor_put() \see mdbx_replace() */ enum MDBX_put_flags_t { /** Upsertion by default (without any other flags) */ MDBX_UPSERT = 0, /** For insertion: Don't write if the key already exists. */ MDBX_NOOVERWRITE = UINT32_C(0x10), /** Has effect only for \ref MDBX_DUPSORT databases. * For upsertion: don't write if the key-value pair already exist. * For deletion: remove all values for key. */ MDBX_NODUPDATA = UINT32_C(0x20), /** For upsertion: overwrite the current key/data pair. * MDBX allows this flag for \ref mdbx_put() for explicit overwrite/update * without insertion. * For deletion: remove only single entry at the current cursor position. */ MDBX_CURRENT = UINT32_C(0x40), /** Has effect only for \ref MDBX_DUPSORT databases. * For deletion: remove all multi-values (aka duplicates) for given key. * For upsertion: replace all multi-values for given key with a new one. */ MDBX_ALLDUPS = UINT32_C(0x80), /** For upsertion: Just reserve space for data, don't copy it. * Return a pointer to the reserved space. */ MDBX_RESERVE = UINT32_C(0x10000), /** Data is being appended. * Don't split full pages, continue on a new instead. */ MDBX_APPEND = UINT32_C(0x20000), /** Has effect only for \ref MDBX_DUPSORT databases. * Duplicate data is being appended. * Don't split full pages, continue on a new instead. */ MDBX_APPENDDUP = UINT32_C(0x40000), /** Only for \ref MDBX_DUPFIXED. * Store multiple data items in one call. */ MDBX_MULTIPLE = UINT32_C(0x80000) }; #ifndef __cplusplus /** \ingroup c_crud */ typedef enum MDBX_put_flags_t MDBX_put_flags_t; #else DEFINE_ENUM_FLAG_OPERATORS(MDBX_put_flags_t) #endif /** \brief Environment copy flags * \ingroup c_extra * \see mdbx_env_copy() \see mdbx_env_copy2fd() */ enum MDBX_copy_flags_t { MDBX_CP_DEFAULTS = 0, /** Copy with compactification: Omit free space from copy and renumber all * pages sequentially */ MDBX_CP_COMPACT = 1u, /** Force to make resizeable copy, i.e. dynamic size instead of fixed */ MDBX_CP_FORCE_DYNAMIC_SIZE = 2u }; #ifndef __cplusplus /** \ingroup c_extra */ typedef enum MDBX_copy_flags_t MDBX_copy_flags_t; #else DEFINE_ENUM_FLAG_OPERATORS(MDBX_copy_flags_t) #endif /** \brief Cursor operations * \ingroup c_cursors * This is the set of all operations for retrieving data using a cursor. * \see mdbx_cursor_set() */ enum MDBX_cursor_op { /** Position at first key/data item */ MDBX_FIRST, /** \ref MDBX_DUPSORT -only: Position at first data item of current key. */ MDBX_FIRST_DUP, /** \ref MDBX_DUPSORT -only: Position at key/data pair. */ MDBX_GET_BOTH, /** \ref MDBX_DUPSORT -only: Position at given key and at first data greater * than or equal to specified data. */ MDBX_GET_BOTH_RANGE, /** Return key/data at current cursor position */ MDBX_GET_CURRENT, /** \ref MDBX_DUPFIXED -only: Return up to a page of duplicate data items * from current cursor position. Move cursor to prepare * for \ref MDBX_NEXT_MULTIPLE. */ MDBX_GET_MULTIPLE, /** Position at last key/data item */ MDBX_LAST, /** \ref MDBX_DUPSORT -only: Position at last data item of current key. */ MDBX_LAST_DUP, /** Position at next data item */ MDBX_NEXT, /** \ref MDBX_DUPSORT -only: Position at next data item of current key. */ MDBX_NEXT_DUP, /** \ref MDBX_DUPFIXED -only: Return up to a page of duplicate data items * from next cursor position. Move cursor to prepare * for `MDBX_NEXT_MULTIPLE`. */ MDBX_NEXT_MULTIPLE, /** Position at first data item of next key */ MDBX_NEXT_NODUP, /** Position at previous data item */ MDBX_PREV, /** \ref MDBX_DUPSORT -only: Position at previous data item of current key. */ MDBX_PREV_DUP, /** Position at last data item of previous key */ MDBX_PREV_NODUP, /** Position at specified key */ MDBX_SET, /** Position at specified key, return both key and data */ MDBX_SET_KEY, /** Position at first key greater than or equal to specified key. */ MDBX_SET_RANGE, /** \ref MDBX_DUPFIXED -only: Position at previous page and return up to * a page of duplicate data items. */ MDBX_PREV_MULTIPLE, /** Position at first key-value pair greater than or equal to specified, * return both key and data, and the return code depends on a exact match. * * For non DUPSORT-ed collections this work the same to \ref MDBX_SET_RANGE, * but returns \ref MDBX_SUCCESS if key found exactly and * \ref MDBX_RESULT_TRUE if greater key was found. * * For DUPSORT-ed a data value is taken into account for duplicates, * i.e. for a pairs/tuples of a key and an each data value of duplicates. * Returns \ref MDBX_SUCCESS if key-value pair found exactly and * \ref MDBX_RESULT_TRUE if the next pair was returned. */ MDBX_SET_LOWERBOUND }; #ifndef __cplusplus /** \ingroup c_cursors */ typedef enum MDBX_cursor_op MDBX_cursor_op; #endif /** \brief Errors and return codes * \ingroup c_err * * BerkeleyDB uses -30800 to -30999, we'll go under them * \see mdbx_strerror() \see mdbx_strerror_r() \see mdbx_liberr2str() */ enum MDBX_error_t { /** Successful result */ MDBX_SUCCESS = 0, /** Alias for \ref MDBX_SUCCESS */ MDBX_RESULT_FALSE = MDBX_SUCCESS, /** Successful result with special meaning or a flag */ MDBX_RESULT_TRUE = -1, /** key/data pair already exists */ MDBX_KEYEXIST = -30799, /** The first LMDB-compatible defined error code */ MDBX_FIRST_LMDB_ERRCODE = MDBX_KEYEXIST, /** key/data pair not found (EOF) */ MDBX_NOTFOUND = -30798, /** Requested page not found - this usually indicates corruption */ MDBX_PAGE_NOTFOUND = -30797, /** Database is corrupted (page was wrong type and so on) */ MDBX_CORRUPTED = -30796, /** Environment had fatal error, * i.e. update of meta page failed and so on. */ MDBX_PANIC = -30795, /** DB file version mismatch with libmdbx */ MDBX_VERSION_MISMATCH = -30794, /** File is not a valid MDBX file */ MDBX_INVALID = -30793, /** Environment mapsize reached */ MDBX_MAP_FULL = -30792, /** Environment maxdbs reached */ MDBX_DBS_FULL = -30791, /** Environment maxreaders reached */ MDBX_READERS_FULL = -30790, /** Transaction has too many dirty pages, i.e transaction too big */ MDBX_TXN_FULL = -30788, /** Cursor stack too deep - this usually indicates corruption, * i.e branch-pages loop */ MDBX_CURSOR_FULL = -30787, /** Page has not enough space - internal error */ MDBX_PAGE_FULL = -30786, /** Database engine was unable to extend mapping, e.g. since address space * is unavailable or busy. This can mean: * - Database size extended by other process beyond to environment mapsize * and engine was unable to extend mapping while starting read * transaction. Environment should be reopened to continue. * - Engine was unable to extend mapping during write transaction * or explicit call of \ref mdbx_env_set_geometry(). */ MDBX_UNABLE_EXTEND_MAPSIZE = -30785, /** Environment or database is not compatible with the requested operation * or the specified flags. This can mean: * - The operation expects an \ref MDBX_DUPSORT / \ref MDBX_DUPFIXED * database. * - Opening a named DB when the unnamed DB has \ref MDBX_DUPSORT / * \ref MDBX_INTEGERKEY. * - Accessing a data record as a database, or vice versa. * - The database was dropped and recreated with different flags. */ MDBX_INCOMPATIBLE = -30784, /** Invalid reuse of reader locktable slot, * e.g. read-transaction already run for current thread */ MDBX_BAD_RSLOT = -30783, /** Transaction is not valid for requested operation, * e.g. had errored and be must aborted, has a child, or is invalid */ MDBX_BAD_TXN = -30782, /** Invalid size or alignment of key or data for target database, * either invalid subDB name */ MDBX_BAD_VALSIZE = -30781, /** The specified DBI-handle is invalid * or changed by another thread/transaction */ MDBX_BAD_DBI = -30780, /** Unexpected internal error, transaction should be aborted */ MDBX_PROBLEM = -30779, /** The last LMDB-compatible defined error code */ MDBX_LAST_LMDB_ERRCODE = MDBX_PROBLEM, /** Another write transaction is running or environment is already used while * opening with \ref MDBX_EXCLUSIVE flag */ MDBX_BUSY = -30778, /** The first of MDBX-added error codes */ MDBX_FIRST_ADDED_ERRCODE = MDBX_BUSY, /** The specified key has more than one associated value */ MDBX_EMULTIVAL = -30421, /** Bad signature of a runtime object(s), this can mean: * - memory corruption or double-free; * - ABI version mismatch (rare case); */ MDBX_EBADSIGN = -30420, /** Database should be recovered, but this could NOT be done for now * since it opened in read-only mode */ MDBX_WANNA_RECOVERY = -30419, /** The given key value is mismatched to the current cursor position */ MDBX_EKEYMISMATCH = -30418, /** Database is too large for current system, * e.g. could NOT be mapped into RAM. */ MDBX_TOO_LARGE = -30417, /** A thread has attempted to use a not owned object, * e.g. a transaction that started by another thread. */ MDBX_THREAD_MISMATCH = -30416, /** Overlapping read and write transactions for the current thread */ MDBX_TXN_OVERLAPPING = -30415, /* The last of MDBX-added error codes */ MDBX_LAST_ADDED_ERRCODE = MDBX_TXN_OVERLAPPING, #if defined(_WIN32) || defined(_WIN64) MDBX_ENODATA = ERROR_HANDLE_EOF, MDBX_EINVAL = ERROR_INVALID_PARAMETER, MDBX_EACCESS = ERROR_ACCESS_DENIED, MDBX_ENOMEM = ERROR_OUTOFMEMORY, MDBX_EROFS = ERROR_FILE_READ_ONLY, MDBX_ENOSYS = ERROR_NOT_SUPPORTED, MDBX_EIO = ERROR_WRITE_FAULT, MDBX_EPERM = ERROR_INVALID_FUNCTION, MDBX_EINTR = ERROR_CANCELLED, MDBX_ENOFILE = ERROR_FILE_NOT_FOUND, MDBX_EREMOTE = ERROR_REMOTE_STORAGE_MEDIA_ERROR #else /* Windows */ #ifdef ENODATA MDBX_ENODATA = ENODATA, #else MDBX_ENODATA = -1, #endif /* ENODATA */ MDBX_EINVAL = EINVAL, MDBX_EACCESS = EACCES, MDBX_ENOMEM = ENOMEM, MDBX_EROFS = EROFS, MDBX_ENOSYS = ENOSYS, MDBX_EIO = EIO, MDBX_EPERM = EPERM, MDBX_EINTR = EINTR, MDBX_ENOFILE = ENOENT, MDBX_EREMOTE = ENOTBLK #endif /* !Windows */ }; #ifndef __cplusplus /** \ingroup c_err */ typedef enum MDBX_error_t MDBX_error_t; #endif /** MDBX_MAP_RESIZED * \ingroup c_err * \deprecated Please review your code to use MDBX_UNABLE_EXTEND_MAPSIZE * instead. */ MDBX_DEPRECATED static __inline int MDBX_MAP_RESIZED_is_deprecated() { return MDBX_UNABLE_EXTEND_MAPSIZE; } #define MDBX_MAP_RESIZED MDBX_MAP_RESIZED_is_deprecated() /** \brief Return a string describing a given error code. * \ingroup c_err * * This function is a superset of the ANSI C X3.159-1989 (ANSI C) `strerror()` * function. If the error code is greater than or equal to 0, then the string * returned by the system function `strerror()` is returned. If the error code * is less than 0, an error string corresponding to the MDBX library error is * returned. See errors for a list of MDBX-specific error codes. * * `mdbx_strerror()` is NOT thread-safe because may share common internal buffer * for system messages. The returned string must NOT be modified by the * application, but MAY be modified by a subsequent call to * \ref mdbx_strerror(), `strerror()` and other related functions. * \see mdbx_strerror_r() * * \param [in] errnum The error code. * * \returns "error message" The description of the error. */ LIBMDBX_API const char *mdbx_strerror(int errnum); /** \brief Return a string describing a given error code. * \ingroup c_err * * This function is a superset of the ANSI C X3.159-1989 (ANSI C) `strerror()` * function. If the error code is greater than or equal to 0, then the string * returned by the system function `strerror()` is returned. If the error code * is less than 0, an error string corresponding to the MDBX library error is * returned. See errors for a list of MDBX-specific error codes. * * `mdbx_strerror_r()` is thread-safe since uses user-supplied buffer where * appropriate. The returned string must NOT be modified by the application, * since it may be pointer to internal constant string. However, there is no * restriction if the returned string points to the supplied buffer. * \see mdbx_strerror() * * mdbx_liberr2str() returns string describing only MDBX error numbers but NULL * for non-MDBX error codes. This function is thread-safe since return pointer * to constant non-localized strings. * * \param [in] errnum The error code. * \param [in,out] buf Buffer to store the error message. * \param [in] buflen The size of buffer to store the message. * * \returns "error message" The description of the error. */ LIBMDBX_API const char *mdbx_strerror_r(int errnum, char *buf, size_t buflen); MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API const char *mdbx_liberr2str(int errnum); #if defined(_WIN32) || defined(_WIN64) || defined(DOXYGEN) /** Bit of Windows' madness. The similar to \ref mdbx_strerror() but returns * Windows error-messages in the OEM-encoding for console utilities. * \ingroup c_err * \see mdbx_strerror_r_ANSI2OEM() */ LIBMDBX_API const char *mdbx_strerror_ANSI2OEM(int errnum); /** Bit of Windows' madness. The similar to \ref mdbx_strerror_r() but returns * Windows error-messages in the OEM-encoding for console utilities. * \ingroup c_err * \see mdbx_strerror_ANSI2OEM() */ LIBMDBX_API const char *mdbx_strerror_r_ANSI2OEM(int errnum, char *buf, size_t buflen); #endif /* Bit of Windows' madness */ /** \brief Create an MDBX environment instance. * \ingroup c_opening * * This function allocates memory for a \ref MDBX_env structure. To release * the allocated memory and discard the handle, call \ref mdbx_env_close(). * Before the handle may be used, it must be opened using \ref mdbx_env_open(). * * Various other options may also need to be set before opening the handle, * e.g. \ref mdbx_env_set_geometry(), \ref mdbx_env_set_maxreaders(), * \ref mdbx_env_set_maxdbs(), depending on usage requirements. * * \param [out] penv The address where the new handle will be stored. * * \returns a non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_env_create(MDBX_env **penv); /** \brief MDBX environment options. */ enum MDBX_option_t { /** \brief Controls the maximum number of named databases for the environment. * * \details By default only unnamed key-value database could used and * appropriate value should set by `MDBX_opt_max_db` to using any more named * subDB(s). To reduce overhead, use the minimum sufficient value. This option * may only set after \ref mdbx_env_create() and before \ref mdbx_env_open(). * * \see mdbx_env_set_maxdbs() \see mdbx_env_get_maxdbs() */ MDBX_opt_max_db, /** \brief Defines the maximum number of threads/reader slots * for all processes interacting with the database. * * \details This defines the number of slots in the lock table that is used to * track readers in the the environment. The default is about 100 for 4K * system page size. Starting a read-only transaction normally ties a lock * table slot to the current thread until the environment closes or the thread * exits. If \ref MDBX_NOTLS is in use, \ref mdbx_txn_begin() instead ties the * slot to the \ref MDBX_txn object until it or the \ref MDBX_env object is * destroyed. This option may only set after \ref mdbx_env_create() and before * \ref mdbx_env_open(), and has an effect only when the database is opened by * the first process interacts with the database. * * \see mdbx_env_set_maxreaders() \see mdbx_env_get_maxreaders() */ MDBX_opt_max_readers, /** \brief Controls interprocess/shared threshold to force flush the data * buffers to disk, if \ref MDBX_SAFE_NOSYNC is used. * * \see mdbx_env_set_syncbytes() \see mdbx_env_get_syncbytes() */ MDBX_opt_sync_bytes, /** \brief Controls interprocess/shared relative period since the last * unsteady commit to force flush the data buffers to disk, * if \ref MDBX_SAFE_NOSYNC is used. * \see mdbx_env_set_syncperiod() \see mdbx_env_get_syncperiod() */ MDBX_opt_sync_period, /** \brief Controls the in-process limit to grow a list of reclaimed/recycled * page's numbers for finding a sequence of contiguous pages for large data * items. * * \details A long values requires allocation of contiguous database pages. * To find such sequences, it may be necessary to accumulate very large lists, * especially when placing very long values (more than a megabyte) in a large * databases (several tens of gigabytes), which is much expensive in extreme * cases. This threshold allows you to avoid such costs by allocating new * pages at the end of the database (with its possible growth on disk), * instead of further accumulating/reclaiming Garbage Collection records. * * On the other hand, too small threshold will lead to unreasonable database * growth, or/and to the inability of put long values. * * The `MDBX_opt_rp_augment_limit` controls described limit for the current * process. Default is 262144, it is usually enough for most cases. */ MDBX_opt_rp_augment_limit, /** \brief Controls the in-process limit to grow a cache of dirty * pages for reuse in the current transaction. * * \details A 'dirty page' refers to a page that has been updated in memory * only, the changes to a dirty page are not yet stored on disk. * To reduce overhead, it is reasonable to release not all such pages * immediately, but to leave some ones in cache for reuse in the current * transaction. * * The `MDBX_opt_loose_limit` allows you to set a limit for such cache inside * the current process. Should be in the range 0..255, default is 64. */ MDBX_opt_loose_limit, /** \brief Controls the in-process limit of a pre-allocated memory items * for dirty pages. * * \details A 'dirty page' refers to a page that has been updated in memory * only, the changes to a dirty page are not yet stored on disk. * Without \ref MDBX_WRITEMAP dirty pages are allocated from memory and * released when a transaction is committed. To reduce overhead, it is * reasonable to release not all ones, but to leave some allocations in * reserve for reuse in the next transaction(s). * * The `MDBX_opt_dp_reserve_limit` allows you to set a limit for such reserve * inside the current process. Default is 1024. */ MDBX_opt_dp_reserve_limit, /** \brief Controls the in-process limit of dirty pages * for a write transaction. * * \details A 'dirty page' refers to a page that has been updated in memory * only, the changes to a dirty page are not yet stored on disk. * Without \ref MDBX_WRITEMAP dirty pages are allocated from memory and will * be busy until are written to disk. Therefore for a large transactions is * reasonable to limit dirty pages collecting above an some threshold but * spill to disk instead. * * The `MDBX_opt_txn_dp_limit` controls described threshold for the current * process. Default is 65536, it is usually enough for most cases. */ MDBX_opt_txn_dp_limit, /** \brief Controls the in-process initial allocation size for dirty pages * list of a write transaction. Default is 1024. */ MDBX_opt_txn_dp_initial, /** \brief Controls the in-process how maximal part of the dirty pages may be * spilled when necessary. * * \details The `MDBX_opt_spill_max_denominator` defines the denominator for * limiting from the top for part of the current dirty pages may be spilled * when the free room for a new dirty pages (i.e. distance to the * `MDBX_opt_txn_dp_limit` threshold) is not enough to perform requested * operation. * Exactly `max_pages_to_spill = dirty_pages - dirty_pages / N`, * where `N` is the value set by `MDBX_opt_spill_max_denominator`. * * Should be in the range 0..255, where zero means no limit, i.e. all dirty * pages could be spilled. Default is 8, i.e. no more than 7/8 of the current * dirty pages may be spilled when reached the condition described above. */ MDBX_opt_spill_max_denominator, /** \brief Controls the in-process how minimal part of the dirty pages should * be spilled when necessary. * * \details The `MDBX_opt_spill_min_denominator` defines the denominator for * limiting from the bottom for part of the current dirty pages should be * spilled when the free room for a new dirty pages (i.e. distance to the * `MDBX_opt_txn_dp_limit` threshold) is not enough to perform requested * operation. * Exactly `min_pages_to_spill = dirty_pages / N`, * where `N` is the value set by `MDBX_opt_spill_min_denominator`. * * Should be in the range 0..255, where zero means no restriction at the * bottom. Default is 8, i.e. at least the 1/8 of the current dirty pages * should be spilled when reached the condition described above. */ MDBX_opt_spill_min_denominator, /** \brief Controls the in-process how much of the parent transaction dirty * pages will be spilled while start each child transaction. * * \details The `MDBX_opt_spill_parent4child_denominator` defines the * denominator to determine how much of parent transaction dirty pages will be * spilled explicitly while start each child transaction. * Exactly `pages_to_spill = dirty_pages / N`, * where `N` is the value set by `MDBX_opt_spill_parent4child_denominator`. * * For a stack of nested transactions each dirty page could be spilled only * once, and parent's dirty pages couldn't be spilled while child * transaction(s) are running. Therefore a child transaction could reach * \ref MDBX_TXN_FULL when parent(s) transaction has spilled too less (and * child reach the limit of dirty pages), either when parent(s) has spilled * too more (since child can't spill already spilled pages). So there is no * universal golden ratio. * * Should be in the range 0..255, where zero means no explicit spilling will * be performed during starting nested transactions. * Default is 0, i.e. by default no spilling performed during starting nested * transactions, that correspond historically behaviour. */ MDBX_opt_spill_parent4child_denominator, }; #ifndef __cplusplus /** \ingroup c_settings */ typedef enum MDBX_option_t MDBX_option_t; #endif LIBMDBX_API int mdbx_env_set_option(MDBX_env *env, const MDBX_option_t option, const uint64_t value); LIBMDBX_API int mdbx_env_get_option(const MDBX_env *env, const MDBX_option_t option, uint64_t *value); /** \brief Open an environment instance. * \ingroup c_opening * * Indifferently this function will fails or not, the \ref mdbx_env_close() must * be called later to discard the \ref MDBX_env handle and release associated * resources. * * \param [in] env An environment handle returned * by \ref mdbx_env_create() * * \param [in] pathname The pathname for the database or the directory in which * the database files reside. In the case of directory it * must already exist and be writable. * * \param [in] flags Special options for this environment. This parameter * must be set to 0 or by bitwise OR'ing together one * or more of the values described above in the * \ref env_flags and \ref sync_modes sections. * * Flags set by mdbx_env_set_flags() are also used: * - \ref MDBX_NOSUBDIR, \ref MDBX_RDONLY, \ref MDBX_EXCLUSIVE, * \ref MDBX_WRITEMAP, \ref MDBX_NOTLS, \ref MDBX_NORDAHEAD, * \ref MDBX_NOMEMINIT, \ref MDBX_COALESCE, \ref MDBX_LIFORECLAIM. * See \ref env_flags section. * * - \ref MDBX_NOMETASYNC, \ref MDBX_SAFE_NOSYNC, \ref MDBX_UTTERLY_NOSYNC. * See \ref sync_modes section. * * \note `MDB_NOLOCK` flag don't supported by MDBX, * try use \ref MDBX_EXCLUSIVE as a replacement. * * \note MDBX don't allow to mix processes with different \ref MDBX_SAFE_NOSYNC * flags on the same environment. * In such case \ref MDBX_INCOMPATIBLE will be returned. * * If the database is already exist and parameters specified early by * \ref mdbx_env_set_geometry() are incompatible (i.e. for instance, different * page size) then \ref mdbx_env_open() will return \ref MDBX_INCOMPATIBLE * error. * * \param [in] mode The UNIX permissions to set on created files. * Zero value means to open existing, but do not create. * * \return A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_VERSION_MISMATCH The version of the MDBX library doesn't match * the version that created the database environment. * \retval MDBX_INVALID The environment file headers are corrupted. * \retval MDBX_ENOENT The directory specified by the path parameter * doesn't exist. * \retval MDBX_EACCES The user didn't have permission to access * the environment files. * \retval MDBX_EAGAIN The environment was locked by another process. * \retval MDBX_BUSY The \ref MDBX_EXCLUSIVE flag was specified and the * environment is in use by another process, * or the current process tries to open environment * more than once. * \retval MDBX_INCOMPATIBLE Environment is already opened by another process, * but with different set of \ref MDBX_SAFE_NOSYNC, * \ref MDBX_UTTERLY_NOSYNC flags. * Or if the database is already exist and parameters * specified early by \ref mdbx_env_set_geometry() * are incompatible (i.e. different pagesize, etc). * * \retval MDBX_WANNA_RECOVERY The \ref MDBX_RDONLY flag was specified but * read-write access is required to rollback * inconsistent state after a system crash. * * \retval MDBX_TOO_LARGE Database is too large for this process, * i.e. 32-bit process tries to open >4Gb database. */ LIBMDBX_API int mdbx_env_open(MDBX_env *env, const char *pathname, MDBX_env_flags_t flags, mdbx_mode_t mode); /** \brief Deletion modes for \ref mdbx_env_delete(). * \ingroup c_extra * \see mdbx_env_delete() */ enum MDBX_env_delete_mode_t { /** \brief Just delete the environment's files and directory if any. * \note On POSIX systems, processes already working with the database will * continue to work without interference until it close the environment. * \note On Windows, the behavior of `MDB_ENV_JUST_DELETE` is different * because the system does not support deleting files that are currently * memory mapped. */ MDBX_ENV_JUST_DELETE = 0, /** \brief Make sure that the environment is not being used by other * processes, or return an error otherwise. */ MDBX_ENV_ENSURE_UNUSED = 1, /** \brief Wait until other processes closes the environment before deletion. */ MDBX_ENV_WAIT_FOR_UNUSED = 2, }; #ifndef __cplusplus /** \ingroup c_extra */ typedef enum MDBX_env_delete_mode_t MDBX_env_delete_mode_t; #endif /** \brief Delete the environment's files in a proper and multiprocess-safe way. * \ingroup c_extra * * \param [in] pathname The pathname for the database or the directory in which * the database files reside. * * \param [in] mode Special deletion mode for the environment. This * parameter must be set to one of the values described * above in the \ref MDBX_env_delete_mode_t section. * * \note The \ref MDBX_ENV_JUST_DELETE don't supported on Windows since system * unable to delete a memory-mapped files. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_RESULT_TRUE No corresponding files or directories were found, * so no deletion was performed. */ LIBMDBX_API int mdbx_env_delete(const char *pathname, MDBX_env_delete_mode_t mode); /** \brief Copy an MDBX environment to the specified path, with options. * \ingroup c_extra * * This function may be used to make a backup of an existing environment. * No lockfile is created, since it gets recreated at need. * \note This call can trigger significant file size growth if run in * parallel with write transactions, because it employs a read-only * transaction. See long-lived transactions under \ref restrictions section. * * \param [in] env An environment handle returned by mdbx_env_create(). * It must have already been opened successfully. * \param [in] dest The pathname of a file in which the copy will reside. * This file must not be already exist, but parent directory * must be writable. * \param [in] flags Special options for this operation. This parameter must * be set to 0 or by bitwise OR'ing together one or more * of the values described here: * * - \ref MDBX_CP_COMPACT * Perform compaction while copying: omit free pages and sequentially * renumber all pages in output. This option consumes little bit more * CPU for processing, but may running quickly than the default, on * account skipping free pages. * * - \ref MDBX_CP_FORCE_DYNAMIC_SIZE * Force to make resizeable copy, i.e. dynamic size instead of fixed. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_env_copy(MDBX_env *env, const char *dest, MDBX_copy_flags_t flags); /** \brief Copy an environment to the specified file descriptor, with * options. \ingroup c_extra * * This function may be used to make a backup of an existing environment. * No lockfile is created, since it gets recreated at need. * \see mdbx_env_copy() * * \note This call can trigger significant file size growth if run in * parallel with write transactions, because it employs a read-only * transaction. See long-lived transactions under \ref restrictions * section. * * \note Fails if the environment has suffered a page leak and the destination * file descriptor is associated with a pipe, socket, or FIFO. * * \param [in] env An environment handle returned by mdbx_env_create(). * It must have already been opened successfully. * \param [in] fd The file descriptor to write the copy to. It must have * already been opened for Write access. * \param [in] flags Special options for this operation. \see mdbx_env_copy() * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_env_copy2fd(MDBX_env *env, mdbx_filehandle_t fd, MDBX_copy_flags_t flags); /** \brief Statistics for a database in the environment * \ingroup c_statinfo * \see mdbx_env_stat_ex() \see mdbx_dbi_stat() */ struct MDBX_stat { uint32_t ms_psize; /**< Size of a database page. This is the same for all databases. */ uint32_t ms_depth; /**< Depth (height) of the B-tree */ uint64_t ms_branch_pages; /**< Number of internal (non-leaf) pages */ uint64_t ms_leaf_pages; /**< Number of leaf pages */ uint64_t ms_overflow_pages; /**< Number of overflow pages */ uint64_t ms_entries; /**< Number of data items */ uint64_t ms_mod_txnid; /**< Transaction ID of committed last modification */ }; #ifndef __cplusplus /** \ingroup c_statinfo */ typedef struct MDBX_stat MDBX_stat; #endif /** \brief Return statistics about the MDBX environment. * \ingroup c_statinfo * * At least one of env or txn argument must be non-null. If txn is passed * non-null then stat will be filled accordingly to the given transaction. * Otherwise, if txn is null, then stat will be populated by a snapshot from * the last committed write transaction, and at next time, other information * can be returned. * * Legacy mdbx_env_stat() correspond to calling \ref mdbx_env_stat_ex() with the * null `txn` argument. * * \param [in] env An environment handle returned by \ref mdbx_env_create() * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin() * \param [out] stat The address of an \ref MDBX_stat structure where * the statistics will be copied * \param [in] bytes The size of \ref MDBX_stat. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_env_stat_ex(const MDBX_env *env, const MDBX_txn *txn, MDBX_stat *stat, size_t bytes); /** \brief Return statistics about the MDBX environment. * \ingroup c_statinfo * \deprecated Please use mdbx_env_stat_ex() instead. */ MDBX_DEPRECATED LIBMDBX_INLINE_API(int, mdbx_env_stat, (const MDBX_env *env, MDBX_stat *stat, size_t bytes)) { return mdbx_env_stat_ex(env, NULL, stat, bytes); } /** \brief Information about the environment * \ingroup c_statinfo * \see mdbx_env_info_ex() */ struct MDBX_envinfo { struct { uint64_t lower; /**< Lower limit for datafile size */ uint64_t upper; /**< Upper limit for datafile size */ uint64_t current; /**< Current datafile size */ uint64_t shrink; /**< Shrink threshold for datafile */ uint64_t grow; /**< Growth step for datafile */ } mi_geo; uint64_t mi_mapsize; /**< Size of the data memory map */ uint64_t mi_last_pgno; /**< Number of the last used page */ uint64_t mi_recent_txnid; /**< ID of the last committed transaction */ uint64_t mi_latter_reader_txnid; /**< ID of the last reader transaction */ uint64_t mi_self_latter_reader_txnid; /**< ID of the last reader transaction of caller process */ uint64_t mi_meta0_txnid, mi_meta0_sign; uint64_t mi_meta1_txnid, mi_meta1_sign; uint64_t mi_meta2_txnid, mi_meta2_sign; uint32_t mi_maxreaders; /**< Total reader slots in the environment */ uint32_t mi_numreaders; /**< Max reader slots used in the environment */ uint32_t mi_dxb_pagesize; /**< Database pagesize */ uint32_t mi_sys_pagesize; /**< System pagesize */ /** \brief A mostly unique ID that is regenerated on each boot. As such it can be used to identify the local machine's current boot. MDBX uses such when open the database to determine whether rollback required to the last steady sync point or not. I.e. if current bootid is differ from the value within a database then the system was rebooted and all changes since last steady sync must be reverted for data integrity. Zeros mean that no relevant information is available from the system. */ struct { struct { uint64_t x, y; } current, meta0, meta1, meta2; } mi_bootid; /** Bytes not explicitly synchronized to disk */ uint64_t mi_unsync_volume; /** Current auto-sync threshold, see \ref mdbx_env_set_syncbytes(). */ uint64_t mi_autosync_threshold; /** Time since the last steady sync in 1/65536 of second */ uint32_t mi_since_sync_seconds16dot16; /** Current auto-sync period in 1/65536 of second, * see \ref mdbx_env_set_syncperiod(). */ uint32_t mi_autosync_period_seconds16dot16; /** Time since the last readers check in 1/65536 of second, * see \ref mdbx_reader_check(). */ uint32_t mi_since_reader_check_seconds16dot16; /** Current environment mode. * The same as \ref mdbx_env_get_flags() returns. */ uint32_t mi_mode; }; #ifndef __cplusplus /** \ingroup c_statinfo */ typedef struct MDBX_envinfo MDBX_envinfo; #endif /** \brief Return information about the MDBX environment. * \ingroup c_statinfo * * At least one of env or txn argument must be non-null. If txn is passed * non-null then stat will be filled accordingly to the given transaction. * Otherwise, if txn is null, then stat will be populated by a snapshot from * the last committed write transaction, and at next time, other information * can be returned. * * Legacy \ref mdbx_env_info() correspond to calling \ref mdbx_env_info_ex() * with the null `txn` argument. * * \param [in] env An environment handle returned by \ref mdbx_env_create() * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin() * \param [out] info The address of an \ref MDBX_envinfo structure * where the information will be copied * \param [in] bytes The size of \ref MDBX_envinfo. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_env_info_ex(const MDBX_env *env, const MDBX_txn *txn, MDBX_envinfo *info, size_t bytes); /** \brief Return information about the MDBX environment. * \ingroup c_statinfo * \deprecated Please use mdbx_env_info_ex() instead. */ MDBX_DEPRECATED LIBMDBX_INLINE_API(int, mdbx_env_info, (const MDBX_env *env, MDBX_envinfo *info, size_t bytes)) { return mdbx_env_info_ex(env, NULL, info, bytes); } /** \brief Flush the environment data buffers to disk. * \ingroup c_extra * * Unless the environment was opened with no-sync flags (\ref MDBX_NOMETASYNC, * \ref MDBX_SAFE_NOSYNC and \ref MDBX_UTTERLY_NOSYNC), then * data is always written an flushed to disk when \ref mdbx_txn_commit() is * called. Otherwise \ref mdbx_env_sync() may be called to manually write and * flush unsynced data to disk. * * Besides, \ref mdbx_env_sync_ex() with argument `force=false` may be used to * provide polling mode for lazy/asynchronous sync in conjunction with * \ref mdbx_env_set_syncbytes() and/or \ref mdbx_env_set_syncperiod(). * * \note This call is not valid if the environment was opened with MDBX_RDONLY. * * \param [in] env An environment handle returned by \ref mdbx_env_create() * \param [in] force If non-zero, force a flush. Otherwise, If force is * zero, then will run in polling mode, * i.e. it will check the thresholds that were * set \ref mdbx_env_set_syncbytes() * and/or \ref mdbx_env_set_syncperiod() and perform flush * if at least one of the thresholds is reached. * * \param [in] nonblock Don't wait if write transaction * is running by other thread. * * \returns A non-zero error value on failure and \ref MDBX_RESULT_TRUE or 0 on * success. The \ref MDBX_RESULT_TRUE means no data pending for flush * to disk, and 0 otherwise. Some possible errors are: * * \retval MDBX_EACCES the environment is read-only. * \retval MDBX_BUSY the environment is used by other thread * and `nonblock=true`. * \retval MDBX_EINVAL an invalid parameter was specified. * \retval MDBX_EIO an error occurred during synchronization. */ LIBMDBX_API int mdbx_env_sync_ex(MDBX_env *env, bool force, bool nonblock); /** \brief The shortcut to calling \ref mdbx_env_sync_ex() with * the `force=true` and `nonblock=false` arguments. * \ingroup c_extra */ LIBMDBX_INLINE_API(int, mdbx_env_sync, (MDBX_env * env)) { return mdbx_env_sync_ex(env, true, false); } /** \brief The shortcut to calling \ref mdbx_env_sync_ex() with * the `force=false` and `nonblock=true` arguments. * \ingroup c_extra */ LIBMDBX_INLINE_API(int, mdbx_env_sync_poll, (MDBX_env * env)) { return mdbx_env_sync_ex(env, false, true); } /** \brief Sets threshold to force flush the data buffers to disk, even any of * \ref MDBX_SAFE_NOSYNC flag in the environment. * \ingroup c_settings * * The threshold value affects all processes which operates with given * environment until the last process close environment or a new value will be * settled. * * Data is always written to disk when \ref mdbx_txn_commit() is called, but * the operating system may keep it buffered. MDBX always flushes the OS buffers * upon commit as well, unless the environment was opened with * \ref MDBX_SAFE_NOSYNC, \ref MDBX_UTTERLY_NOSYNC * or in part \ref MDBX_NOMETASYNC. * * The default is 0, than mean no any threshold checked, and no additional * flush will be made. * * \param [in] env An environment handle returned by mdbx_env_create(). * \param [in] threshold The size in bytes of summary changes when * a synchronous flush would be made. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_INLINE_API(int, mdbx_env_set_syncbytes, (MDBX_env * env, size_t threshold)) { return mdbx_env_set_option(env, MDBX_opt_sync_bytes, threshold); } /** \brief Sets relative period since the last unsteady commit to force flush * the data buffers to disk, even of \ref MDBX_SAFE_NOSYNC flag in the * environment. * * \ingroup c_settings * * The relative period value affects all processes which operates with given * environment until the last process close environment or a new value will be * settled. * * Data is always written to disk when \ref mdbx_txn_commit() is called, but the * operating system may keep it buffered. MDBX always flushes the OS buffers * upon commit as well, unless the environment was opened with * \ref MDBX_SAFE_NOSYNC or in part \ref MDBX_NOMETASYNC. * * Settled period don't checked asynchronously, but only by the * \ref mdbx_txn_commit() and \ref mdbx_env_sync() functions. Therefore, in * cases where transactions are committed infrequently and/or irregularly, * polling by \ref mdbx_env_sync() may be a reasonable solution to timeout * enforcement. * * The default is 0, than mean no any timeout checked, and no additional * flush will be made. * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * \param [in] seconds_16dot16 The period in 1/65536 of second when * a synchronous flush would be made since * the last unsteady commit. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_INLINE_API(int, mdbx_env_set_syncperiod, (MDBX_env * env, unsigned seconds_16dot16)) { return mdbx_env_set_option(env, MDBX_opt_sync_period, seconds_16dot16); } /** \brief Close the environment and release the memory map. * \ingroup c_opening * * Only a single thread may call this function. All transactions, databases, * and cursors must already be closed before calling this function. Attempts * to use any such handles after calling this function will cause a `SIGSEGV`. * The environment handle will be freed and must not be used again after this * call. * * \param [in] env An environment handle returned by * \ref mdbx_env_create(). * * \param [in] dont_sync A dont'sync flag, if non-zero the last checkpoint * will be kept "as is" and may be still "weak" in the * \ref MDBX_SAFE_NOSYNC or \ref MDBX_UTTERLY_NOSYNC * modes. Such "weak" checkpoint will be ignored on * opening next time, and transactions since the last * non-weak checkpoint (meta-page update) will rolledback * for consistency guarantee. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_BUSY The write transaction is running by other thread, * in such case \ref MDBX_env instance has NOT be destroyed * not released! * \note If any OTHER error code was returned then * given MDBX_env instance has been destroyed and released. * * \retval MDBX_EBADSIGN Environment handle already closed or not valid, * i.e. \ref mdbx_env_close() was already called for the * `env` or was not created by \ref mdbx_env_create(). * * \retval MDBX_PANIC If \ref mdbx_env_close_ex() was called in the child * process after `fork()`. In this case \ref MDBX_PANIC * is expected, i.e. \ref MDBX_env instance was freed in * proper manner. * * \retval MDBX_EIO An error occurred during synchronization. */ LIBMDBX_API int mdbx_env_close_ex(MDBX_env *env, bool dont_sync); /** \brief The shortcut to calling \ref mdbx_env_close_ex() with * the `dont_sync=false` argument. * \ingroup c_opening */ LIBMDBX_INLINE_API(int, mdbx_env_close, (MDBX_env * env)) { return mdbx_env_close_ex(env, false); } /** \brief Set environment flags. * \ingroup c_settings * * This may be used to set some flags in addition to those from * mdbx_env_open(), or to unset these flags. * \see mdbx_env_get_flags() * * \note In contrast to LMDB, the MDBX serialize threads via mutex while * changing the flags. Therefore this function will be blocked while a write * transaction running by other thread, or \ref MDBX_BUSY will be returned if * function called within a write transaction. * * \param [in] env An environment handle returned * by \ref mdbx_env_create(). * \param [in] flags The \ref env_flags to change, bitwise OR'ed together. * \param [in] onoff A non-zero value sets the flags, zero clears them. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_env_set_flags(MDBX_env *env, MDBX_env_flags_t flags, bool onoff); /** \brief Get environment flags. * \ingroup c_statinfo * \see mdbx_env_set_flags() * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * \param [out] flags The address of an integer to store the flags. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_env_get_flags(const MDBX_env *env, unsigned *flags); /** \brief Return the path that was used in mdbx_env_open(). * \ingroup c_statinfo * * \param [in] env An environment handle returned by \ref mdbx_env_create() * \param [out] dest Address of a string pointer to contain the path. * This is the actual string in the environment, not a * copy. It should not be altered in any way. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_env_get_path(const MDBX_env *env, const char **dest); /** \brief Return the file descriptor for the given environment. * \ingroup c_statinfo * * \note All MDBX file descriptors have `FD_CLOEXEC` and * couldn't be used after exec() and or `fork()`. * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * \param [out] fd Address of a int to contain the descriptor. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_env_get_fd(const MDBX_env *env, mdbx_filehandle_t *fd); /** \brief Set all size-related parameters of environment, including page size * and the min/max size of the memory map. \ingroup c_settings * * In contrast to LMDB, the MDBX provide automatic size management of an * database according the given parameters, including shrinking and resizing * on the fly. From user point of view all of these just working. Nevertheless, * it is reasonable to know some details in order to make optimal decisions * when choosing parameters. * * Both \ref mdbx_env_info_ex() and legacy \ref mdbx_env_info() are inapplicable * to read-only opened environment. * * Both \ref mdbx_env_info_ex() and legacy \ref mdbx_env_info() could be called * either before or after \ref mdbx_env_open(), either within the write * transaction running by current thread or not: * * - In case \ref mdbx_env_info_ex() or legacy \ref mdbx_env_info() was called * BEFORE \ref mdbx_env_open(), i.e. for closed environment, then the * specified parameters will be used for new database creation, or will be * applied during opening if database exists and no other process using it. * * If the database is already exist, opened with \ref MDBX_EXCLUSIVE or not * used by any other process, and parameters specified by * \ref mdbx_env_set_geometry() are incompatible (i.e. for instance, * different page size) then \ref mdbx_env_open() will return * \ref MDBX_INCOMPATIBLE error. * * In another way, if database will opened read-only or will used by other * process during calling \ref mdbx_env_open() that specified parameters will * silently discarded (open the database with \ref MDBX_EXCLUSIVE flag * to avoid this). * * - In case \ref mdbx_env_info_ex() or legacy \ref mdbx_env_info() was called * after \ref mdbx_env_open() WITHIN the write transaction running by current * thread, then specified parameters will be applied as a part of write * transaction, i.e. will not be visible to any others processes until the * current write transaction has been committed by the current process. * However, if transaction will be aborted, then the database file will be * reverted to the previous size not immediately, but when a next transaction * will be committed or when the database will be opened next time. * * - In case \ref mdbx_env_info_ex() or legacy \ref mdbx_env_info() was called * after \ref mdbx_env_open() but OUTSIDE a write transaction, then MDBX will * execute internal pseudo-transaction to apply new parameters (but only if * anything has been changed), and changes be visible to any others processes * immediately after succesful completion of function. * * Essentially a concept of "automatic size management" is simple and useful: * - There are the lower and upper bound of the database file size; * - There is the growth step by which the database file will be increased, * in case of lack of space. * - There is the threshold for unused space, beyond which the database file * will be shrunk. * - The size of the memory map is also the maximum size of the database. * - MDBX will automatically manage both the size of the database and the size * of memory map, according to the given parameters. * * So, there some considerations about choosing these parameters: * - The lower bound allows you to prevent database shrinking below some * rational size to avoid unnecessary resizing costs. * - The upper bound allows you to prevent database growth above some rational * size. Besides, the upper bound defines the linear address space * reservation in each process that opens the database. Therefore changing * the upper bound is costly and may be required reopening environment in * case of \ref MDBX_UNABLE_EXTEND_MAPSIZE errors, and so on. Therefore, this * value should be chosen reasonable as large as possible, to accommodate * future growth of the database. * - The growth step must be greater than zero to allow the database to grow, * but also reasonable not too small, since increasing the size by little * steps will result a large overhead. * - The shrink threshold must be greater than zero to allow the database * to shrink but also reasonable not too small (to avoid extra overhead) and * not less than growth step to avoid up-and-down flouncing. * - The current size (i.e. size_now argument) is an auxiliary parameter for * simulation legacy \ref mdbx_env_set_mapsize() and as workaround Windows * issues (see below). * * Unfortunately, Windows has is a several issues * with resizing of memory-mapped file: * - Windows unable shrinking a memory-mapped file (i.e memory-mapped section) * in any way except unmapping file entirely and then map again. Moreover, * it is impossible in any way if a memory-mapped file is used more than * one process. * - Windows does not provide the usual API to augment a memory-mapped file * (that is, a memory-mapped partition), but only by using "Native API" * in an undocumented way. * * MDBX bypasses all Windows issues, but at a cost: * - Ability to resize database on the fly requires an additional lock * and release `SlimReadWriteLock during` each read-only transaction. * - During resize all in-process threads should be paused and then resumed. * - Shrinking of database file is performed only when it used by single * process, i.e. when a database closes by the last process or opened * by the first. * = Therefore, the size_now argument may be useful to set database size * by the first process which open a database, and thus avoid expensive * remapping further. * * For create a new database with particular parameters, including the page * size, \ref mdbx_env_set_geometry() should be called after * \ref mdbx_env_create() and before mdbx_env_open(). Once the database is * created, the page size cannot be changed. If you do not specify all or some * of the parameters, the corresponding default values will be used. For * instance, the default for database size is 10485760 bytes. * * If the mapsize is increased by another process, MDBX silently and * transparently adopt these changes at next transaction start. However, * \ref mdbx_txn_begin() will return \ref MDBX_UNABLE_EXTEND_MAPSIZE if new * mapping size could not be applied for current process (for instance if * address space is busy). Therefore, in the case of * \ref MDBX_UNABLE_EXTEND_MAPSIZE error you need close and reopen the * environment to resolve error. * * \note Actual values may be different than your have specified because of * rounding to specified database page size, the system page size and/or the * size of the system virtual memory management unit. You can get actual values * by \ref mdbx_env_sync_ex() or see by using the tool `mdbx_chk` with the `-v` * option. * * Legacy \ref mdbx_env_set_mapsize() correspond to calling * \ref mdbx_env_set_geometry() with the arguments `size_lower`, `size_now`, * `size_upper` equal to the `size` and `-1` (i.e. default) for all other * parameters. * * \param [in] env An environment handle returned * by \ref mdbx_env_create() * * \param [in] size_lower The lower bound of database size in bytes. * Zero value means "minimal acceptable", * and negative means "keep current or use default". * * \param [in] size_now The size in bytes to setup the database size for * now. Zero value means "minimal acceptable", and * negative means "keep current or use default". So, * it is recommended always pass -1 in this argument * except some special cases. * * \param [in] size_upper The upper bound of database size in bytes. * Zero value means "minimal acceptable", * and negative means "keep current or use default". * It is recommended to avoid change upper bound while * database is used by other processes or threaded * (i.e. just pass -1 in this argument except absolutely * necessary). Otherwise you must be ready for * \ref MDBX_UNABLE_EXTEND_MAPSIZE error(s), unexpected * pauses during remapping and/or system errors like * "address busy", and so on. In other words, there * is no way to handle a growth of the upper bound * robustly because there may be a lack of appropriate * system resources (which are extremely volatile in * a multi-process multi-threaded environment). * * \param [in] growth_step The growth step in bytes, must be greater than * zero to allow the database to grow. Negative value * means "keep current or use default". * * \param [in] shrink_threshold The shrink threshold in bytes, must be greater * than zero to allow the database to shrink and * greater than growth_step to avoid shrinking * right after grow. * Negative value means "keep current * or use default". Default is 2*growth_step. * * \param [in] pagesize The database page size for new database * creation or -1 otherwise. Must be power of 2 * in the range between \ref MDBX_MIN_PAGESIZE and * \ref MDBX_MAX_PAGESIZE. Zero value means * "minimal acceptable", and negative means * "keep current or use default". * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_EINVAL An invalid parameter was specified, * or the environment has an active write transaction. * \retval MDBX_EPERM Specific for Windows: Shrinking was disabled before * and now it wanna be enabled, but there are reading * threads that don't use the additional `SRWL` (that * is required to avoid Windows issues). * \retval MDBX_EACCESS The environment opened in read-only. * \retval MDBX_MAP_FULL Specified size smaller than the space already * consumed by the environment. * \retval MDBX_TOO_LARGE Specified size is too large, i.e. too many pages for * given size, or a 32-bit process requests too much * bytes for the 32-bit address space. */ LIBMDBX_API int mdbx_env_set_geometry(MDBX_env *env, intptr_t size_lower, intptr_t size_now, intptr_t size_upper, intptr_t growth_step, intptr_t shrink_threshold, intptr_t pagesize); /** \deprecated Please use \ref mdbx_env_set_geometry() instead. * \ingroup c_settings */ MDBX_DEPRECATED LIBMDBX_INLINE_API(int, mdbx_env_set_mapsize, (MDBX_env * env, size_t size)) { return mdbx_env_set_geometry(env, size, size, size, -1, -1, -1); } /** \brief Find out whether to use readahead or not, based on the given database * size and the amount of available memory. \ingroup c_extra * * \param [in] volume The expected database size in bytes. * \param [in] redundancy Additional reserve or overload in case of negative * value. * * \returns A \ref MDBX_RESULT_TRUE or \ref MDBX_RESULT_FALSE value, * otherwise the error code: * \retval MDBX_RESULT_TRUE Readahead is reasonable. * \retval MDBX_RESULT_FALSE Readahead is NOT reasonable, * i.e. \ref MDBX_NORDAHEAD is useful to * open environment by \ref mdbx_env_open(). * \retval Otherwise the error code. */ LIBMDBX_API int mdbx_is_readahead_reasonable(size_t volume, intptr_t redundancy); /** \brief Returns the minimal database page size in bytes. * \ingroup c_statinfo */ MDBX_NOTHROW_CONST_FUNCTION LIBMDBX_INLINE_API(intptr_t, mdbx_limits_pgsize_min, (void)) { return MDBX_MIN_PAGESIZE; } /** \brief Returns the maximal database page size in bytes. * \ingroup c_statinfo */ MDBX_NOTHROW_CONST_FUNCTION LIBMDBX_INLINE_API(intptr_t, mdbx_limits_pgsize_max, (void)) { return MDBX_MAX_PAGESIZE; } /** \brief Returns minimal database size in bytes for given page size, * or -1 if pagesize is invalid. * \ingroup c_statinfo */ MDBX_NOTHROW_CONST_FUNCTION LIBMDBX_API intptr_t mdbx_limits_dbsize_min(intptr_t pagesize); /** \brief Returns maximal database size in bytes for given page size, * or -1 if pagesize is invalid. * \ingroup c_statinfo */ MDBX_NOTHROW_CONST_FUNCTION LIBMDBX_API intptr_t mdbx_limits_dbsize_max(intptr_t pagesize); /** \brief Returns maximal key size in bytes for given page size * and database flags, or -1 if pagesize is invalid. * \ingroup c_statinfo * \see db_flags */ MDBX_NOTHROW_CONST_FUNCTION LIBMDBX_API intptr_t mdbx_limits_keysize_max(intptr_t pagesize, MDBX_db_flags_t flags); /** \brief Returns maximal data size in bytes for given page size * and database flags, or -1 if pagesize is invalid. * \ingroup c_statinfo * \see db_flags */ MDBX_NOTHROW_CONST_FUNCTION LIBMDBX_API intptr_t mdbx_limits_valsize_max(intptr_t pagesize, MDBX_db_flags_t flags); /** \brief Returns maximal write transaction size (i.e. limit for summary volume * of dirty pages) in bytes for given page size, or -1 if pagesize is invalid. * \ingroup c_statinfo */ MDBX_NOTHROW_CONST_FUNCTION LIBMDBX_API intptr_t mdbx_limits_txnsize_max(intptr_t pagesize); /** \brief Set the maximum number of threads/reader slots for for all processes * interacts with the database. \ingroup c_settings * * \details This defines the number of slots in the lock table that is used to * track readers in the the environment. The default is about 100 for 4K system * page size. Starting a read-only transaction normally ties a lock table slot * to the current thread until the environment closes or the thread exits. If * \ref MDBX_NOTLS is in use, \ref mdbx_txn_begin() instead ties the slot to the * \ref MDBX_txn object until it or the \ref MDBX_env object is destroyed. * This function may only be called after \ref mdbx_env_create() and before * \ref mdbx_env_open(), and has an effect only when the database is opened by * the first process interacts with the database. * \see mdbx_env_get_maxreaders() * * \param [in] env An environment handle returned * by \ref mdbx_env_create(). * \param [in] readers The maximum number of reader lock table slots. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_EINVAL An invalid parameter was specified. * \retval MDBX_EPERM The environment is already open. */ LIBMDBX_INLINE_API(int, mdbx_env_set_maxreaders, (MDBX_env * env, unsigned readers)) { return mdbx_env_set_option(env, MDBX_opt_max_readers, readers); } /** \brief Get the maximum number of threads/reader slots for the environment. * \ingroup c_statinfo * \see mdbx_env_set_maxreaders() * * \param [in] env An environment handle returned * by \ref mdbx_env_create(). * \param [out] readers Address of an integer to store the number of readers. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_INLINE_API(int, mdbx_env_get_maxreaders, (const MDBX_env *env, unsigned *readers)) { int rc = MDBX_EINVAL; if (readers) { uint64_t proxy = 0; rc = mdbx_env_get_option(env, MDBX_opt_max_readers, &proxy); *readers = (unsigned)proxy; } return rc; } /** \brief Set the maximum number of named databases for the environment. * \ingroup c_settings * * This function is only needed if multiple databases will be used in the * environment. Simpler applications that use the environment as a single * unnamed database can ignore this option. * This function may only be called after \ref mdbx_env_create() and before * \ref mdbx_env_open(). * * Currently a moderate number of slots are cheap but a huge number gets * expensive: 7-120 words per transaction, and every \ref mdbx_dbi_open() * does a linear search of the opened slots. * \see mdbx_env_get_maxdbs() * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * \param [in] dbs The maximum number of databases. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_EINVAL An invalid parameter was specified. * \retval MDBX_EPERM The environment is already open. */ LIBMDBX_INLINE_API(int, mdbx_env_set_maxdbs, (MDBX_env * env, MDBX_dbi dbs)) { return mdbx_env_set_option(env, MDBX_opt_max_db, dbs); } /** \brief Get the maximum number of named databases for the environment. * \ingroup c_statinfo * \see mdbx_env_set_maxdbs() * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * \param [out] dbs Address to store the maximum number of databases. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_INLINE_API(int, mdbx_env_get_maxdbs, (const MDBX_env *env, MDBX_dbi *dbs)) { int rc = MDBX_EINVAL; if (dbs) { uint64_t proxy = 0; rc = mdbx_env_get_option(env, MDBX_opt_max_db, &proxy); *dbs = (MDBX_dbi)proxy; } return rc; } /** \brief Returns the default size of database page for the current system. * \ingroup c_statinfo * \details Default size of database page depends on the size of the system * page and usually exactly match it. */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API size_t mdbx_default_pagesize(void); /** \brief Get the maximum size of keys can write. * \ingroup c_statinfo * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * \param [in] flags Database options (\ref MDBX_DUPSORT, \ref MDBX_INTEGERKEY * and so on). \see db_flags * * \returns The maximum size of a key can write, * or -1 if something is wrong. */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API int mdbx_env_get_maxkeysize_ex(const MDBX_env *env, MDBX_db_flags_t flags); /** \brief Get the maximum size of data we can write. * \ingroup c_statinfo * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * \param [in] flags Database options (\ref MDBX_DUPSORT, \ref MDBX_INTEGERKEY * and so on). \see db_flags * * \returns The maximum size of a data can write, * or -1 if something is wrong. */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API int mdbx_env_get_maxvalsize_ex(const MDBX_env *env, MDBX_db_flags_t flags); /** \deprecated Please use \ref mdbx_env_get_maxkeysize_ex() * and/or \ref mdbx_env_get_maxvalsize_ex() * \ingroup c_statinfo */ MDBX_NOTHROW_PURE_FUNCTION MDBX_DEPRECATED LIBMDBX_API int mdbx_env_get_maxkeysize(const MDBX_env *env); /** \brief Set application information associated with the \ref MDBX_env. * \ingroup c_settings * \see mdbx_env_get_userctx() * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * \param [in] ctx An arbitrary pointer for whatever the application needs. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_env_set_userctx(MDBX_env *env, void *ctx); /** \brief Get the application information associated with the MDBX_env. * \ingroup c_statinfo * \see mdbx_env_set_userctx() * * \param [in] env An environment handle returned by \ref mdbx_env_create() * \returns The pointer set by \ref mdbx_env_set_userctx() * or `NULL` if something wrong. */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API void * mdbx_env_get_userctx(const MDBX_env *env); /** \brief Create a transaction with a user provided context pointer * for use with the environment. * \ingroup c_transactions * * The transaction handle may be discarded using \ref mdbx_txn_abort() * or \ref mdbx_txn_commit(). * \see mdbx_txn_begin() * * \note A transaction and its cursors must only be used by a single thread, * and a thread may only have a single transaction at a time. If \ref MDBX_NOTLS * is in use, this does not apply to read-only transactions. * * \note Cursors may not span transactions. * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * * \param [in] parent If this parameter is non-NULL, the new transaction will * be a nested transaction, with the transaction indicated * by parent as its parent. Transactions may be nested * to any level. A parent transaction and its cursors may * not issue any other operations than mdbx_txn_commit and * \ref mdbx_txn_abort() while it has active child * transactions. * * \param [in] flags Special options for this transaction. This parameter * must be set to 0 or by bitwise OR'ing together one * or more of the values described here: * - \ref MDBX_RDONLY This transaction will not perform * any write operations. * * - \ref MDBX_TXN_TRY Do not block when starting * a write transaction. * * - \ref MDBX_SAFE_NOSYNC, \ref MDBX_NOMETASYNC. * Do not sync data to disk corresponding * to \ref MDBX_NOMETASYNC or \ref MDBX_SAFE_NOSYNC * description. \see sync_modes * * \param [out] txn Address where the new MDBX_txn handle will be stored. * * \param [in] context A pointer to application context to be associated with * created transaction and could be retrieved by * \ref mdbx_txn_get_userctx() until transaction finished. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_PANIC A fatal error occurred earlier and the * environment must be shut down. * \retval MDBX_UNABLE_EXTEND_MAPSIZE Another process wrote data beyond * this MDBX_env's mapsize and this * environment map must be resized as well. * See \ref mdbx_env_set_mapsize(). * \retval MDBX_READERS_FULL A read-only transaction was requested and * the reader lock table is full. * See \ref mdbx_env_set_maxreaders(). * \retval MDBX_ENOMEM Out of memory. * \retval MDBX_BUSY The write transaction is already started by the * current thread. */ LIBMDBX_API int mdbx_txn_begin_ex(MDBX_env *env, MDBX_txn *parent, MDBX_txn_flags_t flags, MDBX_txn **txn, void *context); /** \brief Create a transaction for use with the environment. * \ingroup c_transactions * * The transaction handle may be discarded using \ref mdbx_txn_abort() * or \ref mdbx_txn_commit(). * \see mdbx_txn_begin_ex() * * \note A transaction and its cursors must only be used by a single thread, * and a thread may only have a single transaction at a time. If \ref MDBX_NOTLS * is in use, this does not apply to read-only transactions. * * \note Cursors may not span transactions. * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * * \param [in] parent If this parameter is non-NULL, the new transaction will * be a nested transaction, with the transaction indicated * by parent as its parent. Transactions may be nested * to any level. A parent transaction and its cursors may * not issue any other operations than mdbx_txn_commit and * \ref mdbx_txn_abort() while it has active child * transactions. * * \param [in] flags Special options for this transaction. This parameter * must be set to 0 or by bitwise OR'ing together one * or more of the values described here: * - \ref MDBX_RDONLY This transaction will not perform * any write operations. * * - \ref MDBX_TXN_TRY Do not block when starting * a write transaction. * * - \ref MDBX_SAFE_NOSYNC, \ref MDBX_NOMETASYNC. * Do not sync data to disk corresponding * to \ref MDBX_NOMETASYNC or \ref MDBX_SAFE_NOSYNC * description. \see sync_modes * * \param [out] txn Address where the new MDBX_txn handle will be stored. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_PANIC A fatal error occurred earlier and the * environment must be shut down. * \retval MDBX_UNABLE_EXTEND_MAPSIZE Another process wrote data beyond * this MDBX_env's mapsize and this * environment map must be resized as well. * See \ref mdbx_env_set_mapsize(). * \retval MDBX_READERS_FULL A read-only transaction was requested and * the reader lock table is full. * See \ref mdbx_env_set_maxreaders(). * \retval MDBX_ENOMEM Out of memory. * \retval MDBX_BUSY The write transaction is already started by the * current thread. */ LIBMDBX_INLINE_API(int, mdbx_txn_begin, (MDBX_env * env, MDBX_txn *parent, MDBX_txn_flags_t flags, MDBX_txn **txn)) { return mdbx_txn_begin_ex(env, parent, flags, txn, NULL); } /** \brief Set application information associated with the \ref MDBX_txn. * \ingroup c_transactions * \see mdbx_txn_get_userctx() * * \param [in] txn An transaction handle returned by \ref mdbx_txn_begin_ex() * or \ref mdbx_txn_begin(). * \param [in] ctx An arbitrary pointer for whatever the application needs. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_txn_set_userctx(MDBX_txn *txn, void *ctx); /** \brief Get the application information associated with the MDBX_txn. * \ingroup c_transactions * \see mdbx_txn_set_userctx() * * \param [in] txn An transaction handle returned by \ref mdbx_txn_begin_ex() * or \ref mdbx_txn_begin(). * \returns The pointer which was passed via the `context` parameter * of `mdbx_txn_begin_ex()` or set by \ref mdbx_txn_set_userctx(), * or `NULL` if something wrong. */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API void * mdbx_txn_get_userctx(const MDBX_txn *txn); /** \brief Information about the transaction * \ingroup c_statinfo * \see mdbx_txn_info */ struct MDBX_txn_info { /** The ID of the transaction. For a READ-ONLY transaction, this corresponds to the snapshot being read. */ uint64_t txn_id; /** For READ-ONLY transaction: the lag from a recent MVCC-snapshot, i.e. the number of committed transaction since read transaction started. For WRITE transaction (provided if `scan_rlt=true`): the lag of the oldest reader from current transaction (i.e. at least 1 if any reader running). */ uint64_t txn_reader_lag; /** Used space by this transaction, i.e. corresponding to the last used * database page. */ uint64_t txn_space_used; /** Current size of database file. */ uint64_t txn_space_limit_soft; /** Upper bound for size the database file, i.e. the value `size_upper` argument of the appropriate call of \ref mdbx_env_set_geometry(). */ uint64_t txn_space_limit_hard; /** For READ-ONLY transaction: The total size of the database pages that were retired by committed write transactions after the reader's MVCC-snapshot, i.e. the space which would be freed after the Reader releases the MVCC-snapshot for reuse by completion read transaction. For WRITE transaction: The summarized size of the database pages that were retired for now due Copy-On-Write during this transaction. */ uint64_t txn_space_retired; /** For READ-ONLY transaction: the space available for writer(s) and that must be exhausted for reason to call the Handle-Slow-Readers callback for this read transaction. For WRITE transaction: the space inside transaction that left to `MDBX_TXN_FULL` error. */ uint64_t txn_space_leftover; /** For READ-ONLY transaction (provided if `scan_rlt=true`): The space that actually become available for reuse when only this transaction will be finished. For WRITE transaction: The summarized size of the dirty database pages that generated during this transaction. */ uint64_t txn_space_dirty; }; #ifndef __cplusplus /** \ingroup c_statinfo */ typedef struct MDBX_txn_info MDBX_txn_info; #endif /** \brief Return information about the MDBX transaction. * \ingroup c_statinfo * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin() * \param [out] info The address of an \ref MDBX_txn_info structure * where the information will be copied. * \param [in] scan_rlt The boolean flag controls the scan of the read lock * table to provide complete information. Such scan * is relatively expensive and you can avoid it * if corresponding fields are not needed. * See description of \ref MDBX_txn_info. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_txn_info(const MDBX_txn *txn, MDBX_txn_info *info, bool scan_rlt); /** \brief Returns the transaction's MDBX_env. * \ingroup c_transactions * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin() */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API MDBX_env * mdbx_txn_env(const MDBX_txn *txn); /** \brief Return the transaction's flags. * \ingroup c_transactions * * This returns the flags associated with this transaction. * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * * \returns A transaction flags, valid if input is an valid transaction, * otherwise -1. */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API int mdbx_txn_flags(const MDBX_txn *txn); /** \brief Return the transaction's ID. * \ingroup c_statinfo * * This returns the identifier associated with this transaction. For a * read-only transaction, this corresponds to the snapshot being read; * concurrent readers will frequently have the same transaction ID. * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * * \returns A transaction ID, valid if input is an active transaction, * otherwise 0. */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API uint64_t mdbx_txn_id(const MDBX_txn *txn); /** \brief Latency of commit stages in 1/65536 of seconds units. * \warning This structure may be changed in future releases. * \see mdbx_txn_commit_ex() */ struct MDBX_commit_latency { /** \brief Duration of preparation (commit child transactions, update * sub-databases records and cursors destroying). */ uint32_t preparation; /** \brief Duration of GC/freeDB handling & updation. */ uint32_t gc; /** \brief Duration of internal audit if enabled. */ uint32_t audit; /** \brief Duration of writing dirty/modified data pages. */ uint32_t write; /** \brief Duration of syncing written data to the dist/storage. */ uint32_t sync; /** \brief Duration of transaction ending (releasing resources). */ uint32_t ending; /** \brief The total duration of a commit. */ uint32_t whole; }; #ifndef __cplusplus /** \ingroup c_statinfo */ typedef struct MDBX_commit_latency MDBX_commit_latency; #endif /** \brief Commit all the operations of a transaction into the database and * collect latency information. * \see mdbx_txn_commit() * \ingroup c_statinfo * \warning This function may be changed in future releases. */ LIBMDBX_API int mdbx_txn_commit_ex(MDBX_txn *txn, MDBX_commit_latency *latency); /** \brief Commit all the operations of a transaction into the database. * \ingroup c_transactions * * If the current thread is not eligible to manage the transaction then * the \ref MDBX_THREAD_MISMATCH error will returned. Otherwise the transaction * will be committed and its handle is freed. If the transaction cannot * be committed, it will be aborted with the corresponding error returned. * * Thus, a result other than \ref MDBX_THREAD_MISMATCH means that the * transaction is terminated: * - Resources are released; * - Transaction handle is invalid; * - Cursor(s) associated with transaction must not be used, except with * mdbx_cursor_renew() and \ref mdbx_cursor_close(). * Such cursor(s) must be closed explicitly by \ref mdbx_cursor_close() * before or after transaction commit, either can be reused with * \ref mdbx_cursor_renew() until it will be explicitly closed by * \ref mdbx_cursor_close(). * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_RESULT_TRUE Transaction was aborted since it should * be aborted due to previous errors. * \retval MDBX_PANIC A fatal error occurred earlier * and the environment must be shut down. * \retval MDBX_BAD_TXN Transaction is already finished or never began. * \retval MDBX_EBADSIGN Transaction object has invalid signature, * e.g. transaction was already terminated * or memory was corrupted. * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_EINVAL Transaction handle is NULL. * \retval MDBX_ENOSPC No more disk space. * \retval MDBX_EIO A system-level I/O error occurred. * \retval MDBX_ENOMEM Out of memory. */ LIBMDBX_INLINE_API(int, mdbx_txn_commit, (MDBX_txn * txn)) { return mdbx_txn_commit_ex(txn, NULL); } /** \brief Abandon all the operations of the transaction instead of saving them. * \ingroup c_transactions * * The transaction handle is freed. It and its cursors must not be used again * after this call, except with \ref mdbx_cursor_renew() and * \ref mdbx_cursor_close(). * * If the current thread is not eligible to manage the transaction then * the \ref MDBX_THREAD_MISMATCH error will returned. Otherwise the transaction * will be aborted and its handle is freed. Thus, a result other than * \ref MDBX_THREAD_MISMATCH means that the transaction is terminated: * - Resources are released; * - Transaction handle is invalid; * - Cursor(s) associated with transaction must not be used, except with * \ref mdbx_cursor_renew() and \ref mdbx_cursor_close(). * Such cursor(s) must be closed explicitly by \ref mdbx_cursor_close() * before or after transaction abort, either can be reused with * \ref mdbx_cursor_renew() until it will be explicitly closed by * \ref mdbx_cursor_close(). * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_PANIC A fatal error occurred earlier and * the environment must be shut down. * \retval MDBX_BAD_TXN Transaction is already finished or never began. * \retval MDBX_EBADSIGN Transaction object has invalid signature, * e.g. transaction was already terminated * or memory was corrupted. * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_EINVAL Transaction handle is NULL. */ LIBMDBX_API int mdbx_txn_abort(MDBX_txn *txn); /** \brief Marks transaction as broken. * \ingroup c_transactions * * Function keeps the transaction handle and corresponding locks, but it * is not possible to perform any operations in a broken transaction. * Broken transaction must then be aborted explicitly later. * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * * \see mdbx_txn_abort() \see mdbx_txn_reset() \see mdbx_txn_commit() * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_txn_break(MDBX_txn *txn); /** \brief Reset a read-only transaction. * \ingroup c_transactions * * Abort the read-only transaction like \ref mdbx_txn_abort(), but keep the * transaction handle. Therefore \ref mdbx_txn_renew() may reuse the handle. * This saves allocation overhead if the process will start a new read-only * transaction soon, and also locking overhead if \ref MDBX_NOTLS is in use. The * reader table lock is released, but the table slot stays tied to its thread * or \ref MDBX_txn. Use \ref mdbx_txn_abort() to discard a reset handle, and to * free its lock table slot if \ref MDBX_NOTLS is in use. * * Cursors opened within the transaction must not be used again after this * call, except with \ref mdbx_cursor_renew() and \ref mdbx_cursor_close(). * * Reader locks generally don't interfere with writers, but they keep old * versions of database pages allocated. Thus they prevent the old pages from * being reused when writers commit new data, and so under heavy load the * database size may grow much more rapidly than otherwise. * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_PANIC A fatal error occurred earlier and * the environment must be shut down. * \retval MDBX_BAD_TXN Transaction is already finished or never began. * \retval MDBX_EBADSIGN Transaction object has invalid signature, * e.g. transaction was already terminated * or memory was corrupted. * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_EINVAL Transaction handle is NULL. */ LIBMDBX_API int mdbx_txn_reset(MDBX_txn *txn); /** \brief Renew a read-only transaction. * \ingroup c_transactions * * This acquires a new reader lock for a transaction handle that had been * released by \ref mdbx_txn_reset(). It must be called before a reset * transaction may be used again. * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_PANIC A fatal error occurred earlier and * the environment must be shut down. * \retval MDBX_BAD_TXN Transaction is already finished or never began. * \retval MDBX_EBADSIGN Transaction object has invalid signature, * e.g. transaction was already terminated * or memory was corrupted. * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_EINVAL Transaction handle is NULL. */ LIBMDBX_API int mdbx_txn_renew(MDBX_txn *txn); /** \brief The fours integers markers (aka "canary") associated with the * environment. \ingroup c_crud \see mdbx_canary_set() \see mdbx_canary_get() * * The `x`, `y` and `z` values could be set by \ref mdbx_canary_put(), while the * 'v' will be always set to the transaction number. Updated values becomes * visible outside the current transaction only after it was committed. Current * values could be retrieved by \ref mdbx_canary_get(). */ struct MDBX_canary { uint64_t x, y, z, v; }; #ifndef __cplusplus /** \ingroup c_crud */ typedef struct MDBX_canary MDBX_canary; #endif /** \brief Set integers markers (aka "canary") associated with the environment. * \ingroup c_crud * \see mdbx_canary_get() * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin() * \param [in] canary A optional pointer to \ref MDBX_canary structure for `x`, * `y` and `z` values from. * - If canary is NOT NULL then the `x`, `y` and `z` values will be * updated from given canary argument, but the 'v' be always set * to the current transaction number if at least one `x`, `y` or * `z` values have changed (i.e. if `x`, `y` and `z` have the same * values as currently present then nothing will be changes or * updated). * - if canary is NULL then the `v` value will be explicitly update * to the current transaction number without changes `x`, `y` nor * `z`. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_canary_put(MDBX_txn *txn, const MDBX_canary *canary); /** \brief Returns fours integers markers (aka "canary") associated with the * environment. * \ingroup c_crud * \see mdbx_canary_set() * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] canary The address of an MDBX_canary structure where the * information will be copied. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_canary_get(const MDBX_txn *txn, MDBX_canary *canary); /** \brief A callback function used to compare two keys in a database * \ingroup c_crud * \see mdbx_cmp() \see mdbx_get_keycmp() * \see mdbx_get_datacmp \see mdbx_dcmp() */ typedef int(MDBX_cmp_func)(const MDBX_val *a, const MDBX_val *b) MDBX_CXX17_NOEXCEPT; /** \brief Open or Create a database in the environment. * \ingroup c_dbi * * A database handle denotes the name and parameters of a database, * independently of whether such a database exists. The database handle may be * discarded by calling \ref mdbx_dbi_close(). The old database handle is * returned if the database was already open. The handle may only be closed * once. * * \note A notable difference between MDBX and LMDB is that MDBX make handles * opened for existing databases immediately available for other transactions, * regardless this transaction will be aborted or reset. The REASON for this is * to avoiding the requirement for multiple opening a same handles in * concurrent read transactions, and tracking of such open but hidden handles * until the completion of read transactions which opened them. * * Nevertheless, the handle for the NEWLY CREATED database will be invisible * for other transactions until the this write transaction is successfully * committed. If the write transaction is aborted the handle will be closed * automatically. After a successful commit the such handle will reside in the * shared environment, and may be used by other transactions. * * In contrast to LMDB, the MDBX allow this function to be called from multiple * concurrent transactions or threads in the same process. * * To use named database (with name != NULL), \ref mdbx_env_set_maxdbs() * must be called before opening the environment. Table names are * keys in the internal unnamed database, and may be read but not written. * * \param [in] txn transaction handle returned by \ref mdbx_txn_begin(). * \param [in] name The name of the database to open. If only a single * database is needed in the environment, * this value may be NULL. * \param [in] flags Special options for this database. This parameter must * be set to 0 or by bitwise OR'ing together one or more * of the values described here: * - \ref MDBX_REVERSEKEY * Keys are strings to be compared in reverse order, from the end * of the strings to the beginning. By default, Keys are treated as * strings and compared from beginning to end. * - \ref MDBX_INTEGERKEY * Keys are binary integers in native byte order, either uint32_t or * uint64_t, and will be sorted as such. The keys must all be of the * same size and must be aligned while passing as arguments. * - \ref MDBX_DUPSORT * Duplicate keys may be used in the database. Or, from another point of * view, keys may have multiple data items, stored in sorted order. By * default keys must be unique and may have only a single data item. * - \ref MDBX_DUPFIXED * This flag may only be used in combination with \ref MDBX_DUPSORT. This * option tells the library that the data items for this database are * all the same size, which allows further optimizations in storage and * retrieval. When all data items are the same size, the * \ref MDBX_GET_MULTIPLE, \ref MDBX_NEXT_MULTIPLE and * \ref MDBX_PREV_MULTIPLE cursor operations may be used to retrieve * multiple items at once. * - \ref MDBX_INTEGERDUP * This option specifies that duplicate data items are binary integers, * similar to \ref MDBX_INTEGERKEY keys. The data values must all be of the * same size and must be aligned while passing as arguments. * - \ref MDBX_REVERSEDUP * This option specifies that duplicate data items should be compared as * strings in reverse order (the comparison is performed in the direction * from the last byte to the first). * - \ref MDBX_CREATE * Create the named database if it doesn't exist. This option is not * allowed in a read-only transaction or a read-only environment. * * \param [out] dbi Address where the new \ref MDBX_dbi handle * will be stored. * * For \ref mdbx_dbi_open_ex() additional arguments allow you to set custom * comparison functions for keys and values (for multimaps). * However, I recommend not using custom comparison functions, but instead * converting the keys to one of the forms that are suitable for built-in * comparators (for instance take look to the \ref value2key). * The reasons to not using custom comparators are: * - The order of records could not be validated without your code. * So `mdbx_chk` utility will reports "wrong order" errors * and the `-i` option is required to ignore ones. * - A records could not be ordered or sorted without your code. * So mdbx_load utility should be used with `-a` option to preserve * input data order. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_NOTFOUND The specified database doesn't exist in the * environment and \ref MDBX_CREATE was not specified. * \retval MDBX_DBS_FULL Too many databases have been opened. * \see mdbx_env_set_maxdbs() * \retval MDBX_INCOMPATIBLE Database is incompatible with given flags, * i.e. the passed flags is different with which the * database was created, or the database was already * opened with a different comparison function(s). * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. */ LIBMDBX_API int mdbx_dbi_open(MDBX_txn *txn, const char *name, MDBX_db_flags_t flags, MDBX_dbi *dbi); /** \deprecated Please avoid using custom comparators * and use mdbx_dbi_open() instead. * \ingroup c_dbi * * \param [in] txn transaction handle returned by \ref mdbx_txn_begin(). * \param [in] name The name of the database to open. If only a single * database is needed in the environment, * this value may be NULL. * \param [in] flags Special options for this database. * \param [in] keycmp Optional custom key comparison function for a database. * \param [in] datacmp Optional custom data comparison function for a database. * \param [out] dbi Address where the new MDBX_dbi handle will be stored. * \returns A non-zero error value on failure and 0 on success. */ MDBX_DEPRECATED LIBMDBX_API int mdbx_dbi_open_ex(MDBX_txn *txn, const char *name, MDBX_db_flags_t flags, MDBX_dbi *dbi, MDBX_cmp_func *keycmp, MDBX_cmp_func *datacmp); /** \defgroup value2key Value-to-Key functions to avoid custom comparators * \see key2value * @{ * * The \ref mdbx_key_from_jsonInteger() build a keys which are comparable with * keys created by \ref mdbx_key_from_double(). So this allows mixing `int64_t` * and IEEE754 double values in one index for JSON-numbers with restriction for * integer numbers range corresponding to RFC-7159, i.e. \f$[-2^{53}+1, * 2^{53}-1]\f$. See bottom of page 6 at https://tools.ietf.org/html/rfc7159 */ MDBX_NOTHROW_CONST_FUNCTION LIBMDBX_API uint64_t mdbx_key_from_jsonInteger(const int64_t json_integer); MDBX_NOTHROW_CONST_FUNCTION LIBMDBX_API uint64_t mdbx_key_from_double(const double ieee754_64bit); MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API uint64_t mdbx_key_from_ptrdouble(const double *const ieee754_64bit); MDBX_NOTHROW_CONST_FUNCTION LIBMDBX_API uint32_t mdbx_key_from_float(const float ieee754_32bit); MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API uint32_t mdbx_key_from_ptrfloat(const float *const ieee754_32bit); MDBX_NOTHROW_CONST_FUNCTION LIBMDBX_INLINE_API(uint64_t, mdbx_key_from_int64, (const int64_t i64)) { return UINT64_C(0x8000000000000000) + i64; } MDBX_NOTHROW_CONST_FUNCTION LIBMDBX_INLINE_API(uint32_t, mdbx_key_from_int32, (const int32_t i32)) { return UINT32_C(0x80000000) + i32; } /** @} */ /** \defgroup key2value Key-to-Value functions to avoid custom comparators * \see value2key * @{ */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API int64_t mdbx_jsonInteger_from_key(const MDBX_val); MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API double mdbx_double_from_key(const MDBX_val); MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API float mdbx_float_from_key(const MDBX_val); MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API int32_t mdbx_int32_from_key(const MDBX_val); MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API int64_t mdbx_int64_from_key(const MDBX_val); /** @} */ /** \brief Retrieve statistics for a database. * \ingroup c_statinfo * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [out] stat The address of an \ref MDBX_stat structure where * the statistics will be copied. * \param [in] bytes The size of \ref MDBX_stat. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_dbi_stat(MDBX_txn *txn, MDBX_dbi dbi, MDBX_stat *stat, size_t bytes); /** \brief Retrieve depth (bitmask) information of nested dupsort (multi-value) * B+trees for given database. * \ingroup c_statinfo * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [out] mask The address of an uint32_t value where the bitmask * will be stored. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_EINVAL An invalid parameter was specified. * \retval MDBX_RESULT_TRUE The dbi isn't a dupsort (multi-value) database. */ LIBMDBX_API int mdbx_dbi_dupsort_depthmask(MDBX_txn *txn, MDBX_dbi dbi, uint32_t *mask); /** \brief DBI state bits returted by \ref mdbx_dbi_flags_ex() * \ingroup c_statinfo * \see mdbx_dbi_flags_ex() */ enum MDBX_dbi_state_t { /** DB was written in this txn */ MDBX_DBI_DIRTY = 0x01, /** Named-DB record is older than txnID */ MDBX_DBI_STALE = 0x02, /** Named-DB handle opened in this txn */ MDBX_DBI_FRESH = 0x04, /** Named-DB handle created in this txn */ MDBX_DBI_CREAT = 0x08, }; #ifndef __cplusplus /** \ingroup c_statinfo */ typedef enum MDBX_dbi_state_t MDBX_dbi_state_t; #else DEFINE_ENUM_FLAG_OPERATORS(MDBX_dbi_state_t) #endif /** \brief Retrieve the DB flags and status for a database handle. * \ingroup c_statinfo * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [out] flags Address where the flags will be returned. * \param [out] state Address where the state will be returned. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_dbi_flags_ex(MDBX_txn *txn, MDBX_dbi dbi, unsigned *flags, unsigned *state); /** \brief The shortcut to calling \ref mdbx_dbi_flags_ex() with `state=NULL` * for discarding it result. \ingroup c_statinfo */ LIBMDBX_INLINE_API(int, mdbx_dbi_flags, (MDBX_txn * txn, MDBX_dbi dbi, unsigned *flags)) { unsigned state; return mdbx_dbi_flags_ex(txn, dbi, flags, &state); } /** \brief Close a database handle. Normally unnecessary. * \ingroup c_dbi * * Closing a database handle is not necessary, but lets \ref mdbx_dbi_open() * reuse the handle value. Usually it's better to set a bigger * \ref mdbx_env_set_maxdbs(), unless that value would be large. * * \note Use with care. * This call is synchronized via mutex with \ref mdbx_dbi_close(), but NOT with * other transactions running by other threads. The "next" version of libmdbx * (\ref MithrilDB) will solve this issue. * * Handles should only be closed if no other threads are going to reference * the database handle or one of its cursors any further. Do not close a handle * if an existing transaction has modified its database. Doing so can cause * misbehavior from database corruption to errors like \ref MDBX_BAD_DBI * (since the DB name is gone). * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_dbi_close(MDBX_env *env, MDBX_dbi dbi); /** \brief Empty or delete and close a database. * \ingroup c_crud * * \see mdbx_dbi_close() \see mdbx_dbi_open() * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [in] del `false` to empty the DB, `true` to delete it * from the environment and close the DB handle. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_drop(MDBX_txn *txn, MDBX_dbi dbi, bool del); /** \brief Get items from a database. * \ingroup c_crud * * This function retrieves key/data pairs from the database. The address * and length of the data associated with the specified key are returned * in the structure to which data refers. * If the database supports duplicate keys (\ref MDBX_DUPSORT) then the * first data item for the key will be returned. Retrieval of other * items requires the use of \ref mdbx_cursor_get(). * * \note The memory pointed to by the returned values is owned by the * database. The caller need not dispose of the memory, and may not * modify it in any way. For values returned in a read-only transaction * any modification attempts will cause a `SIGSEGV`. * * \note Values returned from the database are valid only until a * subsequent update operation, or the end of the transaction. * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [in] key The key to search for in the database. * \param [in,out] data The data corresponding to the key. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_NOTFOUND The key was not in the database. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_get(MDBX_txn *txn, MDBX_dbi dbi, const MDBX_val *key, MDBX_val *data); /** \brief Get items from a database * and optionally number of data items for a given key. * * \ingroup c_crud * * Briefly this function does the same as \ref mdbx_get() with a few * differences: * 1. If values_count is NOT NULL, then returns the count * of multi-values/duplicates for a given key. * 2. Updates BOTH the key and the data for pointing to the actual key-value * pair inside the database. * * \param [in] txn A transaction handle returned * by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [in,out] key The key to search for in the database. * \param [in,out] data The data corresponding to the key. * \param [out] values_count The optional address to return number of values * associated with given key: * = 0 - in case \ref MDBX_NOTFOUND error; * = 1 - exactly for databases * WITHOUT \ref MDBX_DUPSORT; * >= 1 for databases WITH \ref MDBX_DUPSORT. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_NOTFOUND The key was not in the database. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_get_ex(MDBX_txn *txn, MDBX_dbi dbi, MDBX_val *key, MDBX_val *data, size_t *values_count); /** \brief Get equal or great item from a database. * \ingroup c_crud * * Briefly this function does the same as \ref mdbx_get() with a few * differences: * 1. Return equal or great (due comparison function) key-value * pair, but not only exactly matching with the key. * 2. On success return \ref MDBX_SUCCESS if key found exactly, * and \ref MDBX_RESULT_TRUE otherwise. Moreover, for databases with * \ref MDBX_DUPSORT flag the data argument also will be used to match over * multi-value/duplicates, and \ref MDBX_SUCCESS will be returned only when * BOTH the key and the data match exactly. * 3. Updates BOTH the key and the data for pointing to the actual key-value * pair inside the database. * * \param [in] txn A transaction handle returned * by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [in,out] key The key to search for in the database. * \param [in,out] data The data corresponding to the key. * * \returns A non-zero error value on failure and \ref MDBX_RESULT_FALSE * or \ref MDBX_RESULT_TRUE on success (as described above). * Some possible errors are: * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_NOTFOUND The key was not in the database. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_get_equal_or_great(MDBX_txn *txn, MDBX_dbi dbi, MDBX_val *key, MDBX_val *data); /** \brief Store items into a database. * \ingroup c_crud * * This function stores key/data pairs in the database. The default behavior * is to enter the new key/data pair, replacing any previously existing key * if duplicates are disallowed, or adding a duplicate data item if * duplicates are allowed (see \ref MDBX_DUPSORT). * * \param [in] txn A transaction handle returned * by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [in] key The key to store in the database. * \param [in,out] data The data to store. * \param [in] flags Special options for this operation. * This parameter must be set to 0 or by bitwise OR'ing * together one or more of the values described here: * - \ref MDBX_NODUPDATA * Enter the new key-value pair only if it does not already appear * in the database. This flag may only be specified if the database * was opened with \ref MDBX_DUPSORT. The function will return * \ref MDBX_KEYEXIST if the key/data pair already appears in the database. * * - \ref MDBX_NOOVERWRITE * Enter the new key/data pair only if the key does not already appear * in the database. The function will return \ref MDBX_KEYEXIST if the key * already appears in the database, even if the database supports * duplicates (see \ref MDBX_DUPSORT). The data parameter will be set * to point to the existing item. * * - \ref MDBX_CURRENT * Update an single existing entry, but not add new ones. The function will * return \ref MDBX_NOTFOUND if the given key not exist in the database. * In case multi-values for the given key, with combination of * the \ref MDBX_ALLDUPS will replace all multi-values, * otherwise return the \ref MDBX_EMULTIVAL. * * - \ref MDBX_RESERVE * Reserve space for data of the given size, but don't copy the given * data. Instead, return a pointer to the reserved space, which the * caller can fill in later - before the next update operation or the * transaction ends. This saves an extra memcpy if the data is being * generated later. MDBX does nothing else with this memory, the caller * is expected to modify all of the space requested. This flag must not * be specified if the database was opened with \ref MDBX_DUPSORT. * * - \ref MDBX_APPEND * Append the given key/data pair to the end of the database. This option * allows fast bulk loading when keys are already known to be in the * correct order. Loading unsorted keys with this flag will cause * a \ref MDBX_EKEYMISMATCH error. * * - \ref MDBX_APPENDDUP * As above, but for sorted dup data. * * - \ref MDBX_MULTIPLE * Store multiple contiguous data elements in a single request. This flag * may only be specified if the database was opened with * \ref MDBX_DUPFIXED. With combination the \ref MDBX_ALLDUPS * will replace all multi-values. * The data argument must be an array of two \ref MDBX_val. The `iov_len` * of the first \ref MDBX_val must be the size of a single data element. * The `iov_base` of the first \ref MDBX_val must point to the beginning * of the array of contiguous data elements which must be properly aligned * in case of database with \ref MDBX_INTEGERDUP flag. * The `iov_len` of the second \ref MDBX_val must be the count of the * number of data elements to store. On return this field will be set to * the count of the number of elements actually written. The `iov_base` of * the second \ref MDBX_val is unused. * * \see \ref c_crud_hints "Quick reference for Insert/Update/Delete operations" * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_KEYEXIST The key/value pair already exists in the database. * \retval MDBX_MAP_FULL The database is full, see \ref mdbx_env_set_mapsize(). * \retval MDBX_TXN_FULL The transaction has too many dirty pages. * \retval MDBX_EACCES An attempt was made to write * in a read-only transaction. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_put(MDBX_txn *txn, MDBX_dbi dbi, const MDBX_val *key, MDBX_val *data, MDBX_put_flags_t flags); /** \brief Replace items in a database. * \ingroup c_crud * * This function allows to update or delete an existing value at the same time * as the previous value is retrieved. If the argument new_data equal is NULL * zero, the removal is performed, otherwise the update/insert. * * The current value may be in an already changed (aka dirty) page. In this * case, the page will be overwritten during the update, and the old value will * be lost. Therefore, an additional buffer must be passed via old_data * argument initially to copy the old value. If the buffer passed in is too * small, the function will return \ref MDBX_RESULT_TRUE by setting iov_len * field pointed by old_data argument to the appropriate value, without * performing any changes. * * For databases with non-unique keys (i.e. with \ref MDBX_DUPSORT flag), * another use case is also possible, when by old_data argument selects a * specific item from multi-value/duplicates with the same key for deletion or * update. To select this scenario in flags should simultaneously specify * \ref MDBX_CURRENT and \ref MDBX_NOOVERWRITE. This combination is chosen * because it makes no sense, and thus allows you to identify the request of * such a scenario. * * \param [in] txn A transaction handle returned * by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [in] key The key to store in the database. * \param [in] new_data The data to store, if NULL then deletion will * be performed. * \param [in,out] old_data The buffer for retrieve previous value as describe * above. * \param [in] flags Special options for this operation. * This parameter must be set to 0 or by bitwise * OR'ing together one or more of the values * described in \ref mdbx_put() description above, * and additionally * (\ref MDBX_CURRENT | \ref MDBX_NOOVERWRITE) * combination for selection particular item from * multi-value/duplicates. * * \see \ref c_crud_hints "Quick reference for Insert/Update/Delete operations" * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_replace(MDBX_txn *txn, MDBX_dbi dbi, const MDBX_val *key, MDBX_val *new_data, MDBX_val *old_data, MDBX_put_flags_t flags); typedef int (*MDBX_preserve_func)(void *context, MDBX_val *target, const void *src, size_t bytes); LIBMDBX_API int mdbx_replace_ex(MDBX_txn *txn, MDBX_dbi dbi, const MDBX_val *key, MDBX_val *new_data, MDBX_val *old_data, MDBX_put_flags_t flags, MDBX_preserve_func preserver, void *preserver_context); /** \brief Delete items from a database. * \ingroup c_crud * * This function removes key/data pairs from the database. * * \note The data parameter is NOT ignored regardless the database does * support sorted duplicate data items or not. If the data parameter * is non-NULL only the matching data item will be deleted. Otherwise, if data * parameter is NULL, any/all value(s) for specified key will be deleted. * * This function will return \ref MDBX_NOTFOUND if the specified key/data * pair is not in the database. * * \see \ref c_crud_hints "Quick reference for Insert/Update/Delete operations" * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [in] key The key to delete from the database. * \param [in] data The data to delete. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_EACCES An attempt was made to write * in a read-only transaction. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_del(MDBX_txn *txn, MDBX_dbi dbi, const MDBX_val *key, const MDBX_val *data); /** \brief Create a cursor handle but not bind it to transaction nor DBI handle. * \ingroup c_cursors * * An capable of operation cursor is associated with a specific transaction and * database. A cursor cannot be used when its database handle is closed. Nor * when its transaction has ended, except with \ref mdbx_cursor_bind() and * \ref mdbx_cursor_renew(). * Also it can be discarded with \ref mdbx_cursor_close(). * * A cursor must be closed explicitly always, before or after its transaction * ends. It can be reused with \ref mdbx_cursor_bind() * or \ref mdbx_cursor_renew() before finally closing it. * * \note In contrast to LMDB, the MDBX required that any opened cursors can be * reused and must be freed explicitly, regardless ones was opened in a * read-only or write transaction. The REASON for this is eliminates ambiguity * which helps to avoid errors such as: use-after-free, double-free, i.e. * memory corruption and segfaults. * * \param [in] context A pointer to application context to be associated with * created cursor and could be retrieved by * \ref mdbx_cursor_get_userctx() until cursor closed. * * \returns Created cursor handle or NULL in case out of memory. */ LIBMDBX_API MDBX_cursor *mdbx_cursor_create(void *context); /** \brief Set application information associated with the \ref MDBX_cursor. * \ingroup c_cursors * \see mdbx_cursor_get_userctx() * * \param [in] cursor An cursor handle returned by \ref mdbx_cursor_create() * or \ref mdbx_cursor_open(). * \param [in] ctx An arbitrary pointer for whatever the application needs. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_cursor_set_userctx(MDBX_cursor *cursor, void *ctx); /** \brief Get the application information associated with the MDBX_cursor. * \ingroup c_cursors * \see mdbx_cursor_set_userctx() * * \param [in] cursor An cursor handle returned by \ref mdbx_cursor_create() * or \ref mdbx_cursor_open(). * \returns The pointer which was passed via the `context` parameter * of `mdbx_cursor_create()` or set by \ref mdbx_cursor_set_userctx(), * or `NULL` if something wrong. */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API void * mdbx_cursor_get_userctx(const MDBX_cursor *cursor); /** \brief Bind cursor to specified transaction and DBI handle. * \ingroup c_cursors * * Using of the `mdbx_cursor_bind()` is equivalent to calling * \ref mdbx_cursor_renew() but with specifying an arbitrary dbi handle. * * An capable of operation cursor is associated with a specific transaction and * database. The cursor may be associated with a new transaction, * and referencing a new or the same database handle as it was created with. * This may be done whether the previous transaction is live or dead. * * \note In contrast to LMDB, the MDBX required that any opened cursors can be * reused and must be freed explicitly, regardless ones was opened in a * read-only or write transaction. The REASON for this is eliminates ambiguity * which helps to avoid errors such as: use-after-free, double-free, i.e. * memory corruption and segfaults. * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [out] cursor A cursor handle returned by \ref mdbx_cursor_create(). * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_cursor_bind(MDBX_txn *txn, MDBX_cursor *cursor, MDBX_dbi dbi); /** \brief Create a cursor handle for the specified transaction and DBI handle. * \ingroup c_cursors * * Using of the `mdbx_cursor_open()` is equivalent to calling * \ref mdbx_cursor_create() and then \ref mdbx_cursor_bind() functions. * * An capable of operation cursor is associated with a specific transaction and * database. A cursor cannot be used when its database handle is closed. Nor * when its transaction has ended, except with \ref mdbx_cursor_bind() and * \ref mdbx_cursor_renew(). * Also it can be discarded with \ref mdbx_cursor_close(). * * A cursor must be closed explicitly always, before or after its transaction * ends. It can be reused with \ref mdbx_cursor_bind() * or \ref mdbx_cursor_renew() before finally closing it. * * \note In contrast to LMDB, the MDBX required that any opened cursors can be * reused and must be freed explicitly, regardless ones was opened in a * read-only or write transaction. The REASON for this is eliminates ambiguity * which helps to avoid errors such as: use-after-free, double-free, i.e. * memory corruption and segfaults. * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [out] cursor Address where the new \ref MDBX_cursor handle will be * stored. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_cursor_open(MDBX_txn *txn, MDBX_dbi dbi, MDBX_cursor **cursor); /** \brief Close a cursor handle. * \ingroup c_cursors * * The cursor handle will be freed and must not be used again after this call, * but its transaction may still be live. * * \note In contrast to LMDB, the MDBX required that any opened cursors can be * reused and must be freed explicitly, regardless ones was opened in a * read-only or write transaction. The REASON for this is eliminates ambiguity * which helps to avoid errors such as: use-after-free, double-free, i.e. * memory corruption and segfaults. * * \param [in] cursor A cursor handle returned by \ref mdbx_cursor_open() * or \ref mdbx_cursor_create(). */ LIBMDBX_API void mdbx_cursor_close(MDBX_cursor *cursor); /** \brief Renew a cursor handle. * \ingroup c_cursors * * An capable of operation cursor is associated with a specific transaction and * database. The cursor may be associated with a new transaction, * and referencing a new or the same database handle as it was created with. * This may be done whether the previous transaction is live or dead. * * Using of the `mdbx_cursor_renew()` is equivalent to calling * \ref mdbx_cursor_bind() with the DBI handle that previously * the cursor was used with. * * \note In contrast to LMDB, the MDBX allow any cursor to be re-used by using * \ref mdbx_cursor_renew(), to avoid unnecessary malloc/free overhead until it * freed by \ref mdbx_cursor_close(). * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] cursor A cursor handle returned by \ref mdbx_cursor_open(). * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_cursor_renew(MDBX_txn *txn, MDBX_cursor *cursor); /** \brief Return the cursor's transaction handle. * \ingroup c_cursors * * \param [in] cursor A cursor handle returned by \ref mdbx_cursor_open(). */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API MDBX_txn * mdbx_cursor_txn(const MDBX_cursor *cursor); /** \brief Return the cursor's database handle. * \ingroup c_cursors * * \param [in] cursor A cursor handle returned by \ref mdbx_cursor_open(). */ LIBMDBX_API MDBX_dbi mdbx_cursor_dbi(const MDBX_cursor *cursor); /** \brief Copy cursor position and state. * \ingroup c_cursors * * \param [in] src A source cursor handle returned * by \ref mdbx_cursor_create() or \ref mdbx_cursor_open(). * * \param [in,out] dest A destination cursor handle returned * by \ref mdbx_cursor_create() or \ref mdbx_cursor_open(). * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_cursor_copy(const MDBX_cursor *src, MDBX_cursor *dest); /** \brief Retrieve by cursor. * \ingroup c_cursors c_crud * * This function retrieves key/data pairs from the database. The address and * length of the key are returned in the object to which key refers (except * for the case of the \ref MDBX_SET option, in which the key object is * unchanged), and the address and length of the data are returned in the object * to which data refers. * \see mdbx_get() * * \param [in] cursor A cursor handle returned by \ref mdbx_cursor_open(). * \param [in,out] key The key for a retrieved item. * \param [in,out] data The data of a retrieved item. * \param [in] op A cursor operation \ref MDBX_cursor_op. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_NOTFOUND No matching key found. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_cursor_get(MDBX_cursor *cursor, MDBX_val *key, MDBX_val *data, MDBX_cursor_op op); /** \brief Store by cursor. * \ingroup c_cursors c_crud * * This function stores key/data pairs into the database. The cursor is * positioned at the new item, or on failure usually near it. * * \param [in] cursor A cursor handle returned by \ref mdbx_cursor_open(). * \param [in] key The key operated on. * \param [in,out] data The data operated on. * \param [in] flags Options for this operation. This parameter * must be set to 0 or by bitwise OR'ing together * one or more of the values described here: * - \ref MDBX_CURRENT * Replace the item at the current cursor position. The key parameter * must still be provided, and must match it, otherwise the function * return \ref MDBX_EKEYMISMATCH. With combination the * \ref MDBX_ALLDUPS will replace all multi-values. * * \note MDBX allows (unlike LMDB) you to change the size of the data and * automatically handles reordering for sorted duplicates * (see \ref MDBX_DUPSORT). * * - \ref MDBX_NODUPDATA * Enter the new key-value pair only if it does not already appear in the * database. This flag may only be specified if the database was opened * with \ref MDBX_DUPSORT. The function will return \ref MDBX_KEYEXIST * if the key/data pair already appears in the database. * * - \ref MDBX_NOOVERWRITE * Enter the new key/data pair only if the key does not already appear * in the database. The function will return \ref MDBX_KEYEXIST if the key * already appears in the database, even if the database supports * duplicates (\ref MDBX_DUPSORT). * * - \ref MDBX_RESERVE * Reserve space for data of the given size, but don't copy the given * data. Instead, return a pointer to the reserved space, which the * caller can fill in later - before the next update operation or the * transaction ends. This saves an extra memcpy if the data is being * generated later. This flag must not be specified if the database * was opened with \ref MDBX_DUPSORT. * * - \ref MDBX_APPEND * Append the given key/data pair to the end of the database. No key * comparisons are performed. This option allows fast bulk loading when * keys are already known to be in the correct order. Loading unsorted * keys with this flag will cause a \ref MDBX_KEYEXIST error. * * - \ref MDBX_APPENDDUP * As above, but for sorted dup data. * * - \ref MDBX_MULTIPLE * Store multiple contiguous data elements in a single request. This flag * may only be specified if the database was opened with * \ref MDBX_DUPFIXED. With combination the \ref MDBX_ALLDUPS * will replace all multi-values. * The data argument must be an array of two \ref MDBX_val. The `iov_len` * of the first \ref MDBX_val must be the size of a single data element. * The `iov_base` of the first \ref MDBX_val must point to the beginning * of the array of contiguous data elements which must be properly aligned * in case of database with \ref MDBX_INTEGERDUP flag. * The `iov_len` of the second \ref MDBX_val must be the count of the * number of data elements to store. On return this field will be set to * the count of the number of elements actually written. The `iov_base` of * the second \ref MDBX_val is unused. * * \see \ref c_crud_hints "Quick reference for Insert/Update/Delete operations" * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_EKEYMISMATCH The given key value is mismatched to the current * cursor position * \retval MDBX_MAP_FULL The database is full, * see \ref mdbx_env_set_mapsize(). * \retval MDBX_TXN_FULL The transaction has too many dirty pages. * \retval MDBX_EACCES An attempt was made to write in a read-only * transaction. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_cursor_put(MDBX_cursor *cursor, const MDBX_val *key, MDBX_val *data, MDBX_put_flags_t flags); /** \brief Delete current key/data pair. * \ingroup c_cursors c_crud * * This function deletes the key/data pair to which the cursor refers. This * does not invalidate the cursor, so operations such as \ref MDBX_NEXT can * still be used on it. Both \ref MDBX_NEXT and \ref MDBX_GET_CURRENT will * return the same record after this operation. * * \param [in] cursor A cursor handle returned by mdbx_cursor_open(). * \param [in] flags Options for this operation. This parameter must be set * to one of the values described here. * * - \ref MDBX_CURRENT Delete only single entry at current cursor position. * - \ref MDBX_ALLDUPS * or \ref MDBX_NODUPDATA (supported for compatibility) * Delete all of the data items for the current key. This flag has effect * only for database(s) was created with \ref MDBX_DUPSORT. * * \see \ref c_crud_hints "Quick reference for Insert/Update/Delete operations" * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_MAP_FULL The database is full, * see \ref mdbx_env_set_mapsize(). * \retval MDBX_TXN_FULL The transaction has too many dirty pages. * \retval MDBX_EACCES An attempt was made to write in a read-only * transaction. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_cursor_del(MDBX_cursor *cursor, MDBX_put_flags_t flags); /** \brief Return count of duplicates for current key. * \ingroup c_cursors c_crud * * This call is valid for all databases, but reasonable only for that support * sorted duplicate data items \ref MDBX_DUPSORT. * * \param [in] cursor A cursor handle returned by \ref mdbx_cursor_open(). * \param [out] pcount Address where the count will be stored. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_THREAD_MISMATCH Given transaction is not owned * by current thread. * \retval MDBX_EINVAL Cursor is not initialized, or an invalid parameter * was specified. */ LIBMDBX_API int mdbx_cursor_count(const MDBX_cursor *cursor, size_t *pcount); /** \brief Determines whether the cursor is pointed to a key-value pair or not, * i.e. was not positioned or points to the end of data. * \ingroup c_cursors * * \param [in] cursor A cursor handle returned by \ref mdbx_cursor_open(). * * \returns A \ref MDBX_RESULT_TRUE or \ref MDBX_RESULT_FALSE value, * otherwise the error code: * \retval MDBX_RESULT_TRUE No more data available or cursor not * positioned * \retval MDBX_RESULT_FALSE A data is available * \retval Otherwise the error code */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API int mdbx_cursor_eof(const MDBX_cursor *cursor); /** \brief Determines whether the cursor is pointed to the first key-value pair * or not. \ingroup c_cursors * * \param [in] cursor A cursor handle returned by \ref mdbx_cursor_open(). * * \returns A MDBX_RESULT_TRUE or MDBX_RESULT_FALSE value, * otherwise the error code: * \retval MDBX_RESULT_TRUE Cursor positioned to the first key-value pair * \retval MDBX_RESULT_FALSE Cursor NOT positioned to the first key-value * pair \retval Otherwise the error code */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API int mdbx_cursor_on_first(const MDBX_cursor *cursor); /** \brief Determines whether the cursor is pointed to the last key-value pair * or not. \ingroup c_cursors * * \param [in] cursor A cursor handle returned by \ref mdbx_cursor_open(). * * \returns A \ref MDBX_RESULT_TRUE or \ref MDBX_RESULT_FALSE value, * otherwise the error code: * \retval MDBX_RESULT_TRUE Cursor positioned to the last key-value pair * \retval MDBX_RESULT_FALSE Cursor NOT positioned to the last key-value pair * \retval Otherwise the error code */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API int mdbx_cursor_on_last(const MDBX_cursor *cursor); /** \addtogroup c_rqest * \details \note The estimation result varies greatly depending on the filling * of specific pages and the overall balance of the b-tree: * * 1. The number of items is estimated by analyzing the height and fullness of * the b-tree. The accuracy of the result directly depends on the balance of * the b-tree, which in turn is determined by the history of previous * insert/delete operations and the nature of the data (i.e. variability of * keys length and so on). Therefore, the accuracy of the estimation can vary * greatly in a particular situation. * * 2. To understand the potential spread of results, you should consider a * possible situations basing on the general criteria for splitting and merging * b-tree pages: * - the page is split into two when there is no space for added data; * - two pages merge if the result fits in half a page; * - thus, the b-tree can consist of an arbitrary combination of pages filled * both completely and only 1/4. Therefore, in the worst case, the result * can diverge 4 times for each level of the b-tree excepting the first and * the last. * * 3. In practice, the probability of extreme cases of the above situation is * close to zero and in most cases the error does not exceed a few percent. On * the other hand, it's just a chance you shouldn't overestimate. */ /** \brief Estimates the distance between cursors as a number of elements. * \ingroup c_rqest * * This function performs a rough estimate based only on b-tree pages that are * common for the both cursor's stacks. The results of such estimation can be * used to build and/or optimize query execution plans. * * Please see notes on accuracy of the result in the details * of \ref c_rqest section. * * Both cursors must be initialized for the same database and the same * transaction. * * \param [in] first The first cursor for estimation. * \param [in] last The second cursor for estimation. * \param [out] distance_items The pointer to store estimated distance value, * i.e. `*distance_items = distance(first, last)`. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_estimate_distance(const MDBX_cursor *first, const MDBX_cursor *last, ptrdiff_t *distance_items); /** \brief Estimates the move distance. * \ingroup c_rqest * * This function performs a rough estimate distance between the current * cursor position and next position after the specified move-operation with * given key and data. The results of such estimation can be used to build * and/or optimize query execution plans. Current cursor position and state are * preserved. * * Please see notes on accuracy of the result in the details * of \ref c_rqest section. * * \param [in] cursor Cursor for estimation. * \param [in,out] key The key for a retrieved item. * \param [in,out] data The data of a retrieved item. * \param [in] move_op A cursor operation \ref MDBX_cursor_op. * \param [out] distance_items A pointer to store estimated move distance * as the number of elements. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_estimate_move(const MDBX_cursor *cursor, MDBX_val *key, MDBX_val *data, MDBX_cursor_op move_op, ptrdiff_t *distance_items); /** \brief Estimates the size of a range as a number of elements. * \ingroup c_rqest * * The results of such estimation can be used to build and/or optimize query * execution plans. * * Please see notes on accuracy of the result in the details * of \ref c_rqest section. * * * \param [in] txn A transaction handle returned * by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [in] begin_key The key of range beginning or NULL for explicit FIRST. * \param [in] begin_data Optional additional data to seeking among sorted * duplicates. * Only for \ref MDBX_DUPSORT, NULL otherwise. * \param [in] end_key The key of range ending or NULL for explicit LAST. * \param [in] end_data Optional additional data to seeking among sorted * duplicates. * Only for \ref MDBX_DUPSORT, NULL otherwise. * \param [out] distance_items A pointer to store range estimation result. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_estimate_range(MDBX_txn *txn, MDBX_dbi dbi, MDBX_val *begin_key, MDBX_val *begin_data, MDBX_val *end_key, MDBX_val *end_data, ptrdiff_t *distance_items); /** \brief The EPSILON value for mdbx_estimate_range() * \ingroup c_rqest */ #define MDBX_EPSILON ((MDBX_val *)((ptrdiff_t)-1)) /** \brief Determines whether the given address is on a dirty database page of * the transaction or not. \ingroup c_statinfo * * Ultimately, this allows to avoid copy data from non-dirty pages. * * "Dirty" pages are those that have already been changed during a write * transaction. Accordingly, any further changes may result in such pages being * overwritten. Therefore, all functions libmdbx performing changes inside the * database as arguments should NOT get pointers to data in those pages. In * turn, "not dirty" pages before modification will be copied. * * In other words, data from dirty pages must either be copied before being * passed as arguments for further processing or rejected at the argument * validation stage. Thus, `mdbx_is_dirty()` allows you to get rid of * unnecessary copying, and perform a more complete check of the arguments. * * \note The address passed must point to the beginning of the data. This is * the only way to ensure that the actual page header is physically located in * the same memory page, including for multi-pages with long data. * * \note In rare cases the function may return a false positive answer * (\ref MDBX_RESULT_TRUE when data is NOT on a dirty page), but never a false * negative if the arguments are correct. * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] ptr The address of data to check. * * \returns A MDBX_RESULT_TRUE or MDBX_RESULT_FALSE value, * otherwise the error code: * \retval MDBX_RESULT_TRUE Given address is on the dirty page. * \retval MDBX_RESULT_FALSE Given address is NOT on the dirty page. * \retval Otherwise the error code. */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API int mdbx_is_dirty(const MDBX_txn *txn, const void *ptr); /** \brief Sequence generation for a database. * \ingroup c_crud * * The function allows to create a linear sequence of unique positive integers * for each database. The function can be called for a read transaction to * retrieve the current sequence value, and the increment must be zero. * Sequence changes become visible outside the current write transaction after * it is committed, and discarded on abort. * * \param [in] txn A transaction handle returned * by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [out] result The optional address where the value of sequence * before the change will be stored. * \param [in] increment Value to increase the sequence, * must be 0 for read-only transactions. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_RESULT_TRUE Increasing the sequence has resulted in an * overflow and therefore cannot be executed. */ LIBMDBX_API int mdbx_dbi_sequence(MDBX_txn *txn, MDBX_dbi dbi, uint64_t *result, uint64_t increment); /** \brief Compare two keys according to a particular database. * \ingroup c_crud * * This returns a comparison as if the two data items were keys in the * specified database. * * \warning There ss a Undefined behavior if one of arguments is invalid. * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [in] a The first item to compare. * \param [in] b The second item to compare. * * \returns < 0 if a < b, 0 if a == b, > 0 if a > b */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API int mdbx_cmp(const MDBX_txn *txn, MDBX_dbi dbi, const MDBX_val *a, const MDBX_val *b); /** \brief Returns default internal key's comparator for given database flags. * \ingroup c_extra */ MDBX_NOTHROW_CONST_FUNCTION LIBMDBX_API MDBX_cmp_func * mdbx_get_keycmp(MDBX_db_flags_t flags); /** \brief Compare two data items according to a particular database. * \ingroup c_crud * * This returns a comparison as if the two items were data items of the * specified database. * * \warning There ss a Undefined behavior if one of arguments is invalid. * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [in] a The first item to compare. * \param [in] b The second item to compare. * * \returns < 0 if a < b, 0 if a == b, > 0 if a > b */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API int mdbx_dcmp(const MDBX_txn *txn, MDBX_dbi dbi, const MDBX_val *a, const MDBX_val *b); /** \brief Returns default internal data's comparator for given database flags * \ingroup c_extra */ MDBX_NOTHROW_CONST_FUNCTION LIBMDBX_API MDBX_cmp_func * mdbx_get_datacmp(MDBX_db_flags_t flags); /** \brief A callback function used to enumerate the reader lock table. * \ingroup c_statinfo * * \param [in] ctx An arbitrary context pointer for the callback. * \param [in] num The serial number during enumeration, * starting from 1. * \param [in] slot The reader lock table slot number. * \param [in] txnid The ID of the transaction being read, * i.e. the MVCC-snapshot number. * \param [in] lag The lag from a recent MVCC-snapshot, * i.e. the number of committed write transactions * since the current read transaction started. * \param [in] pid The reader process ID. * \param [in] thread The reader thread ID. * \param [in] bytes_used The number of last used page in the MVCC-snapshot * which being read, * i.e. database file can't shrinked beyond this. * \param [in] bytes_retired The total size of the database pages that were * retired by committed write transactions after * the reader's MVCC-snapshot, * i.e. the space which would be freed after * the Reader releases the MVCC-snapshot * for reuse by completion read transaction. * * \returns < 0 on failure, >= 0 on success. \see mdbx_reader_list() */ typedef int(MDBX_reader_list_func)(void *ctx, int num, int slot, mdbx_pid_t pid, mdbx_tid_t thread, uint64_t txnid, uint64_t lag, size_t bytes_used, size_t bytes_retained) MDBX_CXX17_NOEXCEPT; /** \brief Enumerate the entries in the reader lock table. * * \ingroup c_statinfo * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * \param [in] func A \ref MDBX_reader_list_func function. * \param [in] ctx An arbitrary context pointer for the enumeration * function. * * \returns A non-zero error value on failure and 0 on success, * or \ref MDBX_RESULT_TRUE if the reader lock table is empty. */ LIBMDBX_API int mdbx_reader_list(const MDBX_env *env, MDBX_reader_list_func *func, void *ctx); /** \brief Check for stale entries in the reader lock table. * \ingroup c_extra * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * \param [out] dead Number of stale slots that were cleared. * * \returns A non-zero error value on failure and 0 on success, * or \ref MDBX_RESULT_TRUE if a dead reader(s) found or mutex was recovered. */ LIBMDBX_API int mdbx_reader_check(MDBX_env *env, int *dead); /** \brief Returns a lag of the reading for the given transaction. * \ingroup c_statinfo * * Returns an information for estimate how much given read-only * transaction is lagging relative the to actual head. * \deprecated Please use \ref mdbx_txn_info() instead. * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [out] percent Percentage of page allocation in the database. * * \returns Number of transactions committed after the given was started for * read, or negative value on failure. */ MDBX_DEPRECATED LIBMDBX_API int mdbx_txn_straggler(const MDBX_txn *txn, int *percent); /** \brief Registers the current thread as a reader for the environment. * \ingroup c_extra * * To perform read operations without blocking, a reader slot must be assigned * for each thread. However, this assignment requires a short-term lock * acquisition which is performed automatically. This function allows you to * assign the reader slot in advance and thus avoid capturing the blocker when * the read transaction starts firstly from current thread. * \see mdbx_thread_unregister() * * \note Threads are registered automatically the first time a read transaction * starts. Therefore, there is no need to use this function, except in * special cases. * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * * \returns A non-zero error value on failure and 0 on success, * or \ref MDBX_RESULT_TRUE if thread is already registered. */ LIBMDBX_API int mdbx_thread_register(const MDBX_env *env); /** \brief Unregisters the current thread as a reader for the environment. * \ingroup c_extra * * To perform read operations without blocking, a reader slot must be assigned * for each thread. However, the assigned reader slot will remain occupied until * the thread ends or the environment closes. This function allows you to * explicitly release the assigned reader slot. * \see mdbx_thread_register() * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * * \returns A non-zero error value on failure and 0 on success, or * \ref MDBX_RESULT_TRUE if thread is not registered or already unregistered. */ LIBMDBX_API int mdbx_thread_unregister(const MDBX_env *env); /** \brief A Handle-Slow-Readers callback function to resolve database * full/overflow issue due to a reader(s) which prevents the old data from being * recycled. * \ingroup c_err * * Read transactions prevent reuse of pages freed by newer write transactions, * thus the database can grow quickly. This callback will be called when there * is not enough space in the database (i.e. before increasing the database size * or before \ref MDBX_MAP_FULL error) and thus can be used to resolve issues * with a "long-lived" read transactions. * \see long-lived-read * * Using this callback you can choose how to resolve the situation: * - abort the write transaction with an error; * - wait for the read transaction(s) to complete; * - notify a thread performing a long-lived read transaction * and wait for an effect; * - kill the thread or whole process that performs the long-lived read * transaction; * * Depending on the arguments and needs, your implementation may wait, * terminate a process or thread that is performing a long read, or perform * some other action. In doing so it is important that the returned code always * corresponds to the performed action. * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * \param [in] txn The current write transaction which internally at * the \ref MDBX_MAP_FULL condition. * \param [in] pid A pid of the reader process. * \param [in] tid A thread_id of the reader thread. * \param [in] laggard An oldest read transaction number on which stalled. * \param [in] gap A lag from the last committed txn. * \param [in] space A space that actually become available for reuse after * this reader finished. The callback function can take * this value into account to evaluate the impact that * a long-running transaction has. * \param [in] retry A retry number starting from 0. * If callback has returned 0 at least once, then at end * of current handling loop the callback function will be * called additionally with negative value to notify about * the end of loop. The callback function can use this value * to implement timeout logic while waiting for readers. * * \returns The RETURN CODE determines the further actions libmdbx and must * match the action which was executed by the callback: * * \retval -2 or less An error condition and the reader was not killed. * * \retval -1 The callback was unable to solve the problem and * agreed on \ref MDBX_MAP_FULL error; * libmdbx should increase the database size or * return \ref MDBX_MAP_FULL error. * * \retval 0 (zero) The callback solved the problem or just waited for * a while, libmdbx should rescan the reader lock table and * retry. This also includes a situation when corresponding * transaction terminated in normal way by * \ref mdbx_txn_abort() or \ref mdbx_txn_reset(), * and my be restarted. I.e. reader slot don't needed * to be cleaned from transaction. * * \retval 1 Transaction aborted asynchronous and reader slot * should be cleared immediately, i.e. read transaction * will not continue but \ref mdbx_txn_abort() * or \ref mdbx_txn_reset() will be called later. * * \retval 2 or great The reader process was terminated or killed, * and libmdbx should entirely reset reader registration. * * \see mdbx_env_set_hsr() \see mdbx_env_get_hsr() */ typedef int(MDBX_hsr_func)(const MDBX_env *env, const MDBX_txn *txn, mdbx_pid_t pid, mdbx_tid_t tid, uint64_t laggard, unsigned gap, size_t space, int retry) MDBX_CXX17_NOEXCEPT; /** \brief Sets a Handle-Slow-Readers callback to resolve database full/overflow * issue due to a reader(s) which prevents the old data from being recycled. * \ingroup c_err * * The callback will only be triggered when the database is full due to a * reader(s) prevents the old data from being recycled. * * \see mdbx_env_get_hsr() * \see long-lived-read * * \param [in] env An environment handle returned * by \ref mdbx_env_create(). * \param [in] hsr_callback A \ref MDBX_hsr_func function * or NULL to disable. * * \returns A non-zero error value on failure and 0 on success. */ LIBMDBX_API int mdbx_env_set_hsr(MDBX_env *env, MDBX_hsr_func *hsr_callback); /** \brief Gets current Handle-Slow-Readers callback used to resolve database * full/overflow issue due to a reader(s) which prevents the old data from being * recycled. * \see mdbx_env_set_hsr() * * \param [in] env An environment handle returned by \ref mdbx_env_create(). * * \returns A MDBX_hsr_func function or NULL if disabled * or something wrong. */ MDBX_NOTHROW_PURE_FUNCTION LIBMDBX_API MDBX_hsr_func * mdbx_env_get_hsr(const MDBX_env *env); /** \defgroup btree_traversal B-tree Traversal * This is internal API for mdbx_chk tool. You should avoid to use it, except * some extremal special cases. * \ingroup c_extra * @{ */ /** \brief Page types for traverse the b-tree. * \see mdbx_env_pgwalk() \see MDBX_pgvisitor_func */ enum MDBX_page_type_t { MDBX_page_broken, MDBX_page_meta, MDBX_page_large, MDBX_page_branch, MDBX_page_leaf, MDBX_page_dupfixed_leaf, MDBX_subpage_leaf, MDBX_subpage_dupfixed_leaf, MDBX_subpage_broken, }; #ifndef __cplusplus typedef enum MDBX_page_type_t MDBX_page_type_t; #endif /** \brief Pseudo-name for MainDB */ #define MDBX_PGWALK_MAIN ((const char *)((ptrdiff_t)0)) /** \brief Pseudo-name for GarbageCollectorDB */ #define MDBX_PGWALK_GC ((const char *)((ptrdiff_t)-1)) /** \brief Pseudo-name for MetaPages */ #define MDBX_PGWALK_META ((const char *)((ptrdiff_t)-2)) /** \brief Callback function for traverse the b-tree. \see mdbx_env_pgwalk() */ typedef int MDBX_pgvisitor_func( const uint64_t pgno, const unsigned number, void *const ctx, const int deep, const char *const dbi, const size_t page_size, const MDBX_page_type_t type, const MDBX_error_t err, const size_t nentries, const size_t payload_bytes, const size_t header_bytes, const size_t unused_bytes) MDBX_CXX17_NOEXCEPT; /** \brief B-tree traversal function. */ LIBMDBX_API int mdbx_env_pgwalk(MDBX_txn *txn, MDBX_pgvisitor_func *visitor, void *ctx, bool dont_check_keys_ordering); /** \brief Open an environment instance using specific meta-page * for checking and recovery. * * This function mostly of internal API for `mdbx_chk` utility and subject to * change at any time. Do not use this function to avoid shooting your own * leg(s). */ LIBMDBX_API int mdbx_env_open_for_recovery(MDBX_env *env, const char *pathname, unsigned target_meta, bool writeable); /** \brief Turn database to the specified meta-page. * * This function mostly of internal API for `mdbx_chk` utility and subject to * change at any time. Do not use this function to avoid shooting your own * leg(s). */ LIBMDBX_API int mdbx_env_turn_for_recovery(MDBX_env *env, unsigned target_meta); /** @} B-tree Traversal */ /**** Attribute support functions for Nexenta * *******************************************/ #if defined(MDBX_NEXENTA_ATTRS) || defined(DOXYGEN) /** \defgroup nexenta Attribute support functions for Nexenta * \ingroup c_crud * @{ */ typedef uint_fast64_t mdbx_attr_t; /** Store by cursor with attribute. * * This function stores key/data pairs into the database. The cursor is * positioned at the new item, or on failure usually near it. * * \note Internally based on \ref MDBX_RESERVE feature, * therefore doesn't support \ref MDBX_DUPSORT. * * \param [in] cursor A cursor handle returned by \ref mdbx_cursor_open() * \param [in] key The key operated on. * \param [in] data The data operated on. * \param [in] attr The attribute. * \param [in] flags Options for this operation. This parameter must be set * to 0 or one of the values described here: * - \ref MDBX_CURRENT * Replace the item at the current cursor position. The key parameter * must still be provided, and must match it, otherwise the function * return \ref MDBX_EKEYMISMATCH. * * - \ref MDBX_APPEND * Append the given key/data pair to the end of the database. No key * comparisons are performed. This option allows fast bulk loading when * keys are already known to be in the correct order. Loading unsorted * keys with this flag will cause a \ref MDBX_KEYEXIST error. * * \see \ref c_crud_hints "Quick reference for Insert/Update/Delete operations" * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_EKEYMISMATCH * \retval MDBX_MAP_FULL The database is full, see \ref mdbx_env_set_mapsize(). * \retval MDBX_TXN_FULL The transaction has too many dirty pages. * \retval MDBX_EACCES An attempt was made to write in a read-only * transaction. * \retval MDBX_EINVAL an invalid parameter was specified. */ LIBMDBX_API int mdbx_cursor_put_attr(MDBX_cursor *cursor, MDBX_val *key, MDBX_val *data, mdbx_attr_t attr, MDBX_put_flags_t flags); /** Store items and attributes into a database. * * This function stores key/data pairs in the database. The default behavior * is to enter the new key/data pair, replacing any previously existing key * if duplicates are disallowed. * * \note Internally based on \ref MDBX_RESERVE feature, * therefore doesn't support \ref MDBX_DUPSORT. * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [in] key The key to store in the database. * \param [in] attr The attribute to store in the database. * \param [in,out] data The data to store. * \param [in] flags Special options for this operation. This parameter * must be set to 0 or by bitwise OR'ing together one or * more of the values described here: * - \ref MDBX_NOOVERWRITE * Enter the new key/data pair only if the key does not already appear * in the database. The function will return \ref MDBX_KEYEXIST if the key * already appears in the database. The data parameter will be set to * point to the existing item. * * - \ref MDBX_CURRENT * Update an single existing entry, but not add new ones. The function * will return \ref MDBX_NOTFOUND if the given key not exist in the * database. Or the \ref MDBX_EMULTIVAL in case duplicates for the given * key. * * - \ref MDBX_APPEND * Append the given key/data pair to the end of the database. This option * allows fast bulk loading when keys are already known to be in the * correct order. Loading unsorted keys with this flag will cause * a \ref MDBX_EKEYMISMATCH error. * * \see \ref c_crud_hints "Quick reference for Insert/Update/Delete operations" * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_KEYEXIST * \retval MDBX_MAP_FULL The database is full, see \ref mdbx_env_set_mapsize(). * \retval MDBX_TXN_FULL The transaction has too many dirty pages. * \retval MDBX_EACCES An attempt was made to write * in a read-only transaction. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_put_attr(MDBX_txn *txn, MDBX_dbi dbi, MDBX_val *key, MDBX_val *data, mdbx_attr_t attr, MDBX_put_flags_t flags); /** Set items attribute from a database. * * This function stores key/data pairs attribute to the database. * * \note Internally based on \ref MDBX_RESERVE feature, * therefore doesn't support \ref MDBX_DUPSORT. * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [in] key The key to search for in the database. * \param [in] data The data to be stored or NULL to save previous value. * \param [in] attr The attribute to be stored. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_NOTFOUND The key-value pair was not in the database. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_set_attr(MDBX_txn *txn, MDBX_dbi dbi, MDBX_val *key, MDBX_val *data, mdbx_attr_t attr); /** Get items attribute from a database cursor. * * This function retrieves key/data pairs from the database. The address and * length of the key are returned in the object to which key refers (except * for the case of the \ref MDBX_SET option, in which the key object is * unchanged), and the address and length of the data are returned in the object * to which data refers. * \see mdbx_get() * * \param [in] cursor A cursor handle returned by \ref mdbx_cursor_open(). * \param [in,out] key The key for a retrieved item. * \param [in,out] data The data of a retrieved item. * \param [out] pattr The pointer to retrieve attribute. * \param [in] op A cursor operation MDBX_cursor_op. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_NOTFOUND No matching key found. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_cursor_get_attr(MDBX_cursor *cursor, MDBX_val *key, MDBX_val *data, mdbx_attr_t *pattr, MDBX_cursor_op op); /** Get items attribute from a database. * * This function retrieves key/data pairs from the database. The address * and length of the data associated with the specified key are returned * in the structure to which data refers. * If the database supports duplicate keys (see \ref MDBX_DUPSORT) then the * first data item for the key will be returned. Retrieval of other * items requires the use of \ref mdbx_cursor_get(). * * \note The memory pointed to by the returned values is owned by the * database. The caller need not dispose of the memory, and may not * modify it in any way. For values returned in a read-only transaction * any modification attempts will cause a `SIGSEGV`. * * \note Values returned from the database are valid only until a * subsequent update operation, or the end of the transaction. * * \param [in] txn A transaction handle returned by \ref mdbx_txn_begin(). * \param [in] dbi A database handle returned by \ref mdbx_dbi_open(). * \param [in] key The key to search for in the database. * \param [in,out] data The data corresponding to the key. * \param [out] pattr The pointer to retrieve attribute. * * \returns A non-zero error value on failure and 0 on success, * some possible errors are: * \retval MDBX_NOTFOUND The key was not in the database. * \retval MDBX_EINVAL An invalid parameter was specified. */ LIBMDBX_API int mdbx_get_attr(MDBX_txn *txn, MDBX_dbi dbi, MDBX_val *key, MDBX_val *data, mdbx_attr_t *pattr); /** @} end of Attribute support functions for Nexenta */ #endif /* MDBX_NEXENTA_ATTRS */ /** @} end of C API */ /******************************************************************************* * Workaround for mmaped-lookahead-cross-page-boundary bug * in an obsolete versions of Elbrus's libc and kernels. */ #if defined(__e2k__) && defined(MDBX_E2K_MLHCPB_WORKAROUND) && \ MDBX_E2K_MLHCPB_WORKAROUND LIBMDBX_API int mdbx_e2k_memcmp_bug_workaround(const void *s1, const void *s2, size_t n); LIBMDBX_API int mdbx_e2k_strcmp_bug_workaround(const char *s1, const char *s2); LIBMDBX_API int mdbx_e2k_strncmp_bug_workaround(const char *s1, const char *s2, size_t n); LIBMDBX_API size_t mdbx_e2k_strlen_bug_workaround(const char *s); LIBMDBX_API size_t mdbx_e2k_strnlen_bug_workaround(const char *s, size_t maxlen); #ifdef __cplusplus namespace std { inline int mdbx_e2k_memcmp_bug_workaround(const void *s1, const void *s2, size_t n) { return ::mdbx_e2k_memcmp_bug_workaround(s1, s2, n); } inline int mdbx_e2k_strcmp_bug_workaround(const char *s1, const char *s2) { return ::mdbx_e2k_strcmp_bug_workaround(s1, s2); } inline int mdbx_e2k_strncmp_bug_workaround(const char *s1, const char *s2, size_t n) { return ::mdbx_e2k_strncmp_bug_workaround(s1, s2, n); } inline size_t mdbx_e2k_strlen_bug_workaround(const char *s) { return ::mdbx_e2k_strlen_bug_workaround(s); } inline size_t mdbx_e2k_strnlen_bug_workaround(const char *s, size_t maxlen) { return ::mdbx_e2k_strnlen_bug_workaround(s, maxlen); } } // namespace std #endif /* __cplusplus */ #include #include #undef memcmp #define memcmp mdbx_e2k_memcmp_bug_workaround #undef bcmp #define bcmp mdbx_e2k_memcmp_bug_workaround #undef strcmp #define strcmp mdbx_e2k_strcmp_bug_workaround #undef strncmp #define strncmp mdbx_e2k_strncmp_bug_workaround #undef strlen #define strlen mdbx_e2k_strlen_bug_workaround #undef strnlen #define strnlen mdbx_e2k_strnlen_bug_workaround #endif /* MDBX_E2K_MLHCPB_WORKAROUND */ #ifdef __cplusplus } /* extern "C" */ #endif #endif /* LIBMDBX_H */