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package bolt

import (
	. "os"
	"sync"
	"syscall"
	"unsafe"
)

const (
	NoSync = iota
	NoMetaSync
	DupSort
	IntegerKey
	IntegerDupKey
)

var DatabaseAlreadyOpenedError = &Error{"Database already open", nil}

// TODO: #define	MDB_FATAL_ERROR	0x80000000U /** Failed to update the meta page. Probably an I/O error. */
// TODO: #define	MDB_ENV_ACTIVE	0x20000000U /** Some fields are initialized. */
// TODO: #define	MDB_ENV_TXKEY	0x10000000U /** me_txkey is set */
// TODO: #define	MDB_LIVE_READER	0x08000000U /** Have liveness lock in reader table */

type DB struct {
	sync.Mutex
	opened bool

	os       OS
	file     *File
	metafile *File
	data     []byte
	buf      []byte
	meta0    *meta
	meta1    *meta

	pageSize int
	readers  []*reader
	buckets  []*Bucket
	// xbuckets       []*bucketx /**< array of static DB info */
	bucketFlags     []int /**< array of flags from MDB_db.md_flags */
	path            string
	mmapSize        int /**< size of the data memory map */
	size            int /**< current file size */
	pbuf            []byte
	transaction     *transaction /**< current write transaction */
	maxPageNumber   int          /**< me_mapsize / me_psize */
	pageState       pageState    /**< state of old pages from freeDB */
	dpages          []*page      /**< list of malloc'd blocks for re-use */
	freePages       []int        /** IDL of pages that became unused in a write txn */
	dirtyPages      []int        /** ID2L of pages written during a write txn. Length MDB_IDL_UM_SIZE. */
	maxFreeOnePage  int          /** Max number of freelist items that can fit in a single overflow page */
	maxPageDataSize int
	maxNodeSize     int /** Max size of a node on a page */
	maxKeySize      int /**< max size of a key */
}

func NewDB() *DB {
	return &DB{os: &sysos{}}
}

func (db *DB) Path() string {
	return db.path
}

func (db *DB) Open(path string, mode FileMode) error {
	var err error
	db.Lock()
	defer db.Unlock()

	if db.os == nil {
		db.os = &sysos{}
	}

	// Exit if the database is currently open.
	if db.opened {
		return DatabaseAlreadyOpenedError
	}

	// Open data file and separate sync handler for metadata writes.
	db.path = path
	if db.file, err = db.os.OpenFile(db.path, O_RDWR|O_CREATE, mode); err != nil {
		db.close()
		return err
	}
	if db.metafile, err = db.os.OpenFile(db.path, O_RDWR|O_SYNC, mode); err != nil {
		db.close()
		return err
	}

	// Read enough data to get both meta pages.
	var m, m0, m1 *meta
	var buf [pageHeaderSize + int(unsafe.Sizeof(meta{}))]byte
	if _, err := db.file.ReadAt(buf[:], 0); err == nil {
		if m0, _ = db.page(buf[:], 0).meta(); m0 != nil {
			db.pageSize = int(m0.free.pad)
		}
	}
	if _, err := db.file.ReadAt(buf[:], int64(db.pageSize)); err == nil {
		m1, _ = db.page(buf[:], 0).meta()
	}
	if m0 != nil && m1 != nil {
		if m0.txnid > m1.txnid {
			m = m0
		} else {
			m = m1
		}
	}

	// Initialize the page size for new environments.
	if m == nil {
		if err := db.init(); err != nil {
			return err
		}
	}

	// Initialize db fields.
	db.buf = make([]byte, db.pageSize)
	db.maxPageDataSize = ((db.pageSize - pageHeaderSize) / int(unsafe.Sizeof(pgno(0)))) - 1
	db.maxNodeSize = (((db.pageSize - pageHeaderSize) / minKeyCount) & -2) - int(unsafe.Sizeof(indx(0)))
	// TODO?: env->me_maxpg = env->me_mapsize / env->me_psize;

	// Memory map the data file.
	if err := db.mmap(); err != nil {
		db.close()
		return err
	}

	// TODO: Initialize meta.
	// if (newenv) {
	//   i = mdb_env_init_meta(env, &meta);
	//   if (i != MDB_SUCCESS) {
	//     return i;
	//   }
	// }

	// Mark the database as opened and return.
	db.opened = true
	return nil
}

// int mdb_env_map(MDB_env *env, void *addr, int newsize)
func (db *DB) mmap() error {
	var err error

	// Determine the map size based on the file size.
	var size int
	if info, err := db.os.Stat(db.file.Name()); err != nil {
		return err
	} else if info.Size() < int64(db.pageSize*2) {
		return &Error{"file size too small", nil}
	} else {
		size = int(info.Size())
	}

	// Memory-map the data file as a byte slice.
	if db.data, err = syscall.Mmap(int(db.file.Fd()), 0, size, syscall.PROT_READ, syscall.MAP_SHARED); err != nil {
		return err
	}

	// TODO?: If nordahead, then: madvise(env->me_map, env->me_mapsize, MADV_RANDOM);

	// Save references to the meta pages.
	if db.meta0, err = db.page(db.data, 0).meta(); err != nil {
		return &Error{"meta0 error", err}
	}
	if db.meta1, err = db.page(db.data, 1).meta(); err != nil {
		return &Error{"meta1 error", err}
	}

	return nil
}

// init creates a new database file and initializes its meta pages.
func (db *DB) init() error {
	// Set the page size to the OS page size unless that is larger than max page size.
	db.pageSize = db.os.Getpagesize()
	if db.pageSize > maxPageSize {
		db.pageSize = maxPageSize
	}

	// Create two meta pages on a buffer.
	buf := make([]byte, db.pageSize*2)
	for i := 0; i < 2; i++ {
		p := db.page(buf[:], i)
		p.id = pgno(i)
		p.initMeta(db.pageSize)
	}

	// Write the buffer to our data file.
	if _, err := db.metafile.WriteAt(buf, 0); err != nil {
		return err
	}

	return nil
}

func (db *DB) close() {
	// TODO
}

// page retrieves a page reference from a given byte array based on the current page size.
func (db *DB) page(b []byte, id int) *page {
	return (*page)(unsafe.Pointer(&b[id*db.pageSize]))
}

// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ CONVERTED ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ //

func (db *DB) freePage(p *page) {
	/*
		mp->mp_next = env->me_dpages;
		VGMEMP_FREE(env, mp);
		env->me_dpages = mp;
	*/
}

func (db *DB) freeDirtyPage(p *page) {
	/*
		if (!IS_OVERFLOW(dp) || dp->mp_pages == 1) {
			mdb_page_free(env, dp);
		} else {
			// large pages just get freed directly
			VGMEMP_FREE(env, dp);
			free(dp);
		}
	*/
}

func (db *DB) freeAllDirtyPages(p *page) {
	/*
		MDB_env *env = txn->mt_env;
		MDB_ID2L dl = txn->mt_u.dirty_list;
		unsigned i, n = dl[0].mid;

		for (i = 1; i <= n; i++) {
			mdb_dpage_free(env, dl[i].mptr);
		}
		dl[0].mid = 0;
	*/
}

func (db *DB) sync(force bool) error {
	/*
			int rc = 0;
			if (force || !F_ISSET(env->me_flags, MDB_NOSYNC)) {
				if (env->me_flags & MDB_WRITEMAP) {
					int flags = ((env->me_flags & MDB_MAPASYNC) && !force)
						? MS_ASYNC : MS_SYNC;
					if (MDB_MSYNC(env->me_map, env->me_mapsize, flags))
						rc = ErrCode();
		#ifdef _WIN32
					else if (flags == MS_SYNC && MDB_FDATASYNC(env->me_fd))
						rc = ErrCode();
		#endif
				} else {
					if (MDB_FDATASYNC(env->me_fd))
						rc = ErrCode();
				}
			}
			return rc;
	*/
	return nil
}

func (db *DB) Transaction(parent *transaction, flags int) (*transaction, error) {
	/*
		MDB_txn *txn;
		MDB_ntxn *ntxn;
		int rc, size, tsize = sizeof(MDB_txn);

		if (env->me_flags & MDB_FATAL_ERROR) {
			DPUTS("environment had fatal error, must shutdown!");
			return MDB_PANIC;
		}
		if ((env->me_flags & MDB_RDONLY) && !(flags & MDB_RDONLY))
			return EACCES;
		if (parent) {
			// Nested transactions: Max 1 child, write txns only, no writemap
			if (parent->mt_child ||
				(flags & MDB_RDONLY) ||
				(parent->mt_flags & (MDB_TXN_RDONLY|MDB_TXN_ERROR)) ||
				(env->me_flags & MDB_WRITEMAP))
			{
				return (parent->mt_flags & MDB_TXN_RDONLY) ? EINVAL : MDB_BAD_TXN;
			}
			tsize = sizeof(MDB_ntxn);
		}
		size = tsize + env->me_maxdbs * (sizeof(MDB_db)+1);
		if (!(flags & MDB_RDONLY))
			size += env->me_maxdbs * sizeof(MDB_cursor *);

		if ((txn = calloc(1, size)) == NULL) {
			DPRINTF(("calloc: %s", strerror(ErrCode())));
			return ENOMEM;
		}
		txn->mt_dbs = (MDB_db *) ((char *)txn + tsize);
		if (flags & MDB_RDONLY) {
			txn->mt_flags |= MDB_TXN_RDONLY;
			txn->mt_dbflags = (unsigned char *)(txn->mt_dbs + env->me_maxdbs);
		} else {
			txn->mt_cursors = (MDB_cursor **)(txn->mt_dbs + env->me_maxdbs);
			txn->mt_dbflags = (unsigned char *)(txn->mt_cursors + env->me_maxdbs);
		}
		txn->mt_env = env;

		if (parent) {
			unsigned int i;
			txn->mt_u.dirty_list = malloc(sizeof(MDB_ID2)*MDB_IDL_UM_SIZE);
			if (!txn->mt_u.dirty_list ||
				!(txn->mt_free_pgs = mdb_midl_alloc(MDB_IDL_UM_MAX)))
			{
				free(txn->mt_u.dirty_list);
				free(txn);
				return ENOMEM;
			}
			txn->mt_txnid = parent->mt_txnid;
			txn->mt_dirty_room = parent->mt_dirty_room;
			txn->mt_u.dirty_list[0].mid = 0;
			txn->mt_spill_pgs = NULL;
			txn->mt_next_pgno = parent->mt_next_pgno;
			parent->mt_child = txn;
			txn->mt_parent = parent;
			txn->mt_numdbs = parent->mt_numdbs;
			txn->mt_flags = parent->mt_flags;
			txn->mt_dbxs = parent->mt_dbxs;
			memcpy(txn->mt_dbs, parent->mt_dbs, txn->mt_numdbs * sizeof(MDB_db));
			// Copy parent's mt_dbflags, but clear DB_NEW
			for (i=0; i<txn->mt_numdbs; i++)
				txn->mt_dbflags[i] = parent->mt_dbflags[i] & ~DB_NEW;
			rc = 0;
			ntxn = (MDB_ntxn *)txn;
			ntxn->mnt_pgstate = env->me_pgstate; // save parent me_pghead & co
			if (env->me_pghead) {
				size = MDB_IDL_SIZEOF(env->me_pghead);
				env->me_pghead = mdb_midl_alloc(env->me_pghead[0]);
				if (env->me_pghead)
					memcpy(env->me_pghead, ntxn->mnt_pgstate.mf_pghead, size);
				else
					rc = ENOMEM;
			}
			if (!rc)
				rc = mdb_cursor_shadow(parent, txn);
			if (rc)
				mdb_txn_reset0(txn, "beginchild-fail");
		} else {
			rc = mdb_txn_renew0(txn);
		}
		if (rc)
			free(txn);
		else {
			*ret = txn;
			DPRINTF(("begin txn %"Z"u%c %p on mdbenv %p, root page %"Z"u",
				txn->mt_txnid, (txn->mt_flags & MDB_TXN_RDONLY) ? 'r' : 'w',
				(void *) txn, (void *) env, txn->mt_dbs[MAIN_DBI].md_root));
		}

		return rc;
	*/
	return nil, nil
}

// Check both meta pages to see which one is newer.
// @param[in] env the environment handle
// @return meta toggle (0 or 1).
func (db *DB) pickMeta() int {
	/*
		return (env->me_metas[0]->mm_txnid < env->me_metas[1]->mm_txnid);
	*/
	return 0
}

func (db *DB) Create() error {
	/*
			MDB_env *e;

			e = calloc(1, sizeof(MDB_env));
			if (!e)
				return ENOMEM;

			e->me_maxreaders = DEFAULT_READERS;
			e->me_maxdbs = e->me_numdbs = 2;
			e->me_fd = INVALID_HANDLE_VALUE;
			e->me_lfd = INVALID_HANDLE_VALUE;
			e->me_mfd = INVALID_HANDLE_VALUE;
		#ifdef MDB_USE_POSIX_SEM
			e->me_rmutex = SEM_FAILED;
			e->me_wmutex = SEM_FAILED;
		#endif
			e->me_pid = getpid();
			GET_PAGESIZE(e->me_os_psize);
			VGMEMP_CREATE(e,0,0);
			*env = e;
			return MDB_SUCCESS;
	*/
	return nil
}

func (db *DB) setMapSize(size int) error {
	/*
		// If env is already open, caller is responsible for making
		// sure there are no active txns.
		if (env->me_map) {
			int rc;
			void *old;
			if (env->me_txn)
				return EINVAL;
			if (!size)
				size = env->me_metas[mdb_env_pick_meta(env)]->mm_mapsize;
			else if (size < env->me_mapsize) {
				// If the configured size is smaller, make sure it's
				// still big enough. Silently round up to minimum if not.
				size_t minsize = (env->me_metas[mdb_env_pick_meta(env)]->mm_last_pg + 1) * env->me_psize;
				if (size < minsize)
					size = minsize;
			}
			munmap(env->me_map, env->me_mapsize);
			env->me_mapsize = size;
			old = (env->me_flags & MDB_FIXEDMAP) ? env->me_map : NULL;
			rc = mdb_env_map(env, old, 1);
			if (rc)
				return rc;
		}
		env->me_mapsize = size;
		if (env->me_psize)
			env->me_maxpg = env->me_mapsize / env->me_psize;
		return MDB_SUCCESS;
	*/
	return nil
}

func (db *DB) setMaxBucketCount(count int) error {
	/*
		if (env->me_map)
			return EINVAL;
		env->me_maxdbs = dbs + 2; // Named databases + main and free DB
		return MDB_SUCCESS;
	*/
	return nil
}

func (db *DB) setMaxReaderCount(count int) error {
	/*
		if (env->me_map || readers < 1)
			return EINVAL;
		env->me_maxreaders = readers;
		return MDB_SUCCESS;
	*/
	return nil
}

func (db *DB) getMaxReaderCount(count int) (int, error) {
	/*
		if (!env || !readers)
			return EINVAL;
		*readers = env->me_maxreaders;
		return MDB_SUCCESS;
	*/
	return 0, nil
}

// Destroy resources from mdb_env_open(), clear our readers & DBIs
func (db *DB) close0(excl int) {
	/*
			int i;

			if (!(env->me_flags & MDB_ENV_ACTIVE))
				return;

			// Doing this here since me_dbxs may not exist during mdb_env_close
			for (i = env->me_maxdbs; --i > MAIN_DBI; )
				free(env->me_dbxs[i].md_name.mv_data);

			free(env->me_pbuf);
			free(env->me_dbflags);
			free(env->me_dbxs);
			free(env->me_path);
			free(env->me_dirty_list);
			mdb_midl_free(env->me_free_pgs);

			if (env->me_flags & MDB_ENV_TXKEY) {
				pthread_key_delete(env->me_txkey);
		#ifdef _WIN32
				// Delete our key from the global list
				for (i=0; i<mdb_tls_nkeys; i++)
					if (mdb_tls_keys[i] == env->me_txkey) {
						mdb_tls_keys[i] = mdb_tls_keys[mdb_tls_nkeys-1];
						mdb_tls_nkeys--;
						break;
					}
		#endif
			}

			if (env->me_map) {
				munmap(env->me_map, env->me_mapsize);
			}
			if (env->me_mfd != env->me_fd && env->me_mfd != INVALID_HANDLE_VALUE)
				(void) close(env->me_mfd);
			if (env->me_fd != INVALID_HANDLE_VALUE)
				(void) close(env->me_fd);
			if (env->me_txns) {
				MDB_PID_T pid = env->me_pid;
				// Clearing readers is done in this function because
				// me_txkey with its destructor must be disabled first.
				for (i = env->me_numreaders; --i >= 0; )
					if (env->me_txns->mti_readers[i].mr_pid == pid)
						env->me_txns->mti_readers[i].mr_pid = 0;
		#ifdef _WIN32
				if (env->me_rmutex) {
					CloseHandle(env->me_rmutex);
					if (env->me_wmutex) CloseHandle(env->me_wmutex);
				}
				// Windows automatically destroys the mutexes when
				// the last handle closes.
		#elif defined(MDB_USE_POSIX_SEM)
				if (env->me_rmutex != SEM_FAILED) {
					sem_close(env->me_rmutex);
					if (env->me_wmutex != SEM_FAILED)
						sem_close(env->me_wmutex);
					// If we have the filelock:  If we are the
					// only remaining user, clean up semaphores.
					if (excl == 0)
						mdb_env_excl_lock(env, &excl);
					if (excl > 0) {
						sem_unlink(env->me_txns->mti_rmname);
						sem_unlink(env->me_txns->mti_wmname);
					}
				}
		#endif
				munmap((void *)env->me_txns, (env->me_maxreaders-1)*sizeof(MDB_reader)+sizeof(MDB_txninfo));
			}
			if (env->me_lfd != INVALID_HANDLE_VALUE) {
		#ifdef _WIN32
				if (excl >= 0) {
					// Unlock the lockfile.  Windows would have unlocked it
					// after closing anyway, but not necessarily at once.
					UnlockFile(env->me_lfd, 0, 0, 1, 0);
				}
		#endif
				(void) close(env->me_lfd);
			}

			env->me_flags &= ~(MDB_ENV_ACTIVE|MDB_ENV_TXKEY);
	*/
}

func (db *DB) copyfd(handle int) error {
	/*
			MDB_txn *txn = NULL;
			int rc;
			size_t wsize;
			char *ptr;
		#ifdef _WIN32
			DWORD len, w2;
		#define DO_WRITE(rc, fd, ptr, w2, len)	rc = WriteFile(fd, ptr, w2, &len, NULL)
		#else
			ssize_t len;
			size_t w2;
		#define DO_WRITE(rc, fd, ptr, w2, len)	len = write(fd, ptr, w2); rc = (len >= 0)
		#endif

			// Do the lock/unlock of the reader mutex before starting the
			// write txn.  Otherwise other read txns could block writers.
			rc = mdb_txn_begin(env, NULL, MDB_RDONLY, &txn);
			if (rc)
				return rc;

			if (env->me_txns) {
				// We must start the actual read txn after blocking writers
				mdb_txn_reset0(txn, "reset-stage1");

				// Temporarily block writers until we snapshot the meta pages
				LOCK_MUTEX_W(env);

				rc = mdb_txn_renew0(txn);
				if (rc) {
					UNLOCK_MUTEX_W(env);
					goto leave;
				}
			}

			wsize = env->me_psize * 2;
			ptr = env->me_map;
			w2 = wsize;
			while (w2 > 0) {
				DO_WRITE(rc, fd, ptr, w2, len);
				if (!rc) {
					rc = ErrCode();
					break;
				} else if (len > 0) {
					rc = MDB_SUCCESS;
					ptr += len;
					w2 -= len;
					continue;
				} else {
					// Non-blocking or async handles are not supported
					rc = EIO;
					break;
				}
			}
			if (env->me_txns)
				UNLOCK_MUTEX_W(env);

			if (rc)
				goto leave;

			wsize = txn->mt_next_pgno * env->me_psize - wsize;
			while (wsize > 0) {
				if (wsize > MAX_WRITE)
					w2 = MAX_WRITE;
				else
					w2 = wsize;
				DO_WRITE(rc, fd, ptr, w2, len);
				if (!rc) {
					rc = ErrCode();
					break;
				} else if (len > 0) {
					rc = MDB_SUCCESS;
					ptr += len;
					wsize -= len;
					continue;
				} else {
					rc = EIO;
					break;
				}
			}

		leave:
			mdb_txn_abort(txn);
			return rc;
		}

		int
		mdb_env_copy(MDB_env *env, const char *path)
		{
			int rc, len;
			char *lpath;
			HANDLE newfd = INVALID_HANDLE_VALUE;

			if (env->me_flags & MDB_NOSUBDIR) {
				lpath = (char *)path;
			} else {
				len = strlen(path);
				len += sizeof(DATANAME);
				lpath = malloc(len);
				if (!lpath)
					return ENOMEM;
				sprintf(lpath, "%s" DATANAME, path);
			}

			// The destination path must exist, but the destination file must not.
			// We don't want the OS to cache the writes, since the source data is
			// already in the OS cache.
		#ifdef _WIN32
			newfd = CreateFile(lpath, GENERIC_WRITE, 0, NULL, CREATE_NEW,
						FILE_FLAG_NO_BUFFERING|FILE_FLAG_WRITE_THROUGH, NULL);
		#else
			newfd = open(lpath, O_WRONLY|O_CREAT|O_EXCL, 0666);
		#endif
			if (newfd == INVALID_HANDLE_VALUE) {
				rc = ErrCode();
				goto leave;
			}

		#ifdef O_DIRECT
			// Set O_DIRECT if the file system supports it
			if ((rc = fcntl(newfd, F_GETFL)) != -1)
				(void) fcntl(newfd, F_SETFL, rc | O_DIRECT);
		#endif
		#ifdef F_NOCACHE	// __APPLE__
			rc = fcntl(newfd, F_NOCACHE, 1);
			if (rc) {
				rc = ErrCode();
				goto leave;
			}
		#endif

			rc = mdb_env_copyfd(env, newfd);

		leave:
			if (!(env->me_flags & MDB_NOSUBDIR))
				free(lpath);
			if (newfd != INVALID_HANDLE_VALUE)
				if (close(newfd) < 0 && rc == MDB_SUCCESS)
					rc = ErrCode();

			return rc;
	*/
	return nil
}

func (db *DB) Close() {
	/*
		MDB_page *dp;

		if (env == NULL)
			return;

		VGMEMP_DESTROY(env);
		while ((dp = env->me_dpages) != NULL) {
			VGMEMP_DEFINED(&dp->mp_next, sizeof(dp->mp_next));
			env->me_dpages = dp->mp_next;
			free(dp);
		}

		mdb_env_close0(env, 0);
		free(env);
	*/
}

// Calculate the size of a leaf node.
// The size depends on the environment's page size; if a data item
// is too large it will be put onto an overflow page and the node
// size will only include the key and not the data. Sizes are always
// rounded up to an even number of bytes, to guarantee 2-byte alignment
// of the #MDB_node headers.
// @param[in] env The environment handle.
// @param[in] key The key for the node.
// @param[in] data The data for the node.
// @return The number of bytes needed to store the node.
func (db *DB) LeafSize(key []byte, data []byte) int {
	/*
		size_t		 sz;

		sz = LEAFSIZE(key, data);
		if (sz > env->me_nodemax) {
			// put on overflow page
			sz -= data->mv_size - sizeof(pgno_t);
		}

		return EVEN(sz + sizeof(indx_t));
	*/
	return 0
}

// Calculate the size of a branch node.
// The size should depend on the environment's page size but since
// we currently don't support spilling large keys onto overflow
// pages, it's simply the size of the #MDB_node header plus the
// size of the key. Sizes are always rounded up to an even number
// of bytes, to guarantee 2-byte alignment of the #MDB_node headers.
// @param[in] env The environment handle.
// @param[in] key The key for the node.
// @return The number of bytes needed to store the node.
func (db *DB) BranchSize(key []byte) int {
	/*
		size_t		 sz;

		sz = INDXSIZE(key);
		if (sz > env->me_nodemax) {
			// put on overflow page
			// not implemented
			// sz -= key->size - sizeof(pgno_t);
		}

		return sz + sizeof(indx_t);
	*/
	return 0
}

func (db *DB) SetFlags(flag int, onoff bool) error {
	/*
		if ((flag & CHANGEABLE) != flag)
			return EINVAL;
		if (onoff)
			env->me_flags |= flag;
		else
			env->me_flags &= ~flag;
		return MDB_SUCCESS;
	*/
	return nil
}

func (db *DB) Stat() *stat {
	/*
		int toggle;

		if (env == NULL || arg == NULL)
			return EINVAL;

		toggle = mdb_env_pick_meta(env);
		stat := &Stat{}
		stat->ms_psize = env->me_psize;
		stat->ms_depth = db->md_depth;
		stat->ms_branch_pages = db->md_branch_pages;
		stat->ms_leaf_pages = db->md_leaf_pages;
		stat->ms_overflow_pages = db->md_overflow_pages;
		stat->ms_entries = db->md_entries;

		//return mdb_stat0(env, &env->me_metas[toggle]->mm_dbs[MAIN_DBI], stat);
		return stat
	*/
	return nil
}

func (db *DB) Info() *Info {
	/*
		int toggle;

		if (env == NULL || arg == NULL)
			return EINVAL;

		toggle = mdb_env_pick_meta(env);
		arg->me_mapaddr = (env->me_flags & MDB_FIXEDMAP) ? env->me_map : 0;
		arg->me_mapsize = env->me_mapsize;
		arg->me_maxreaders = env->me_maxreaders;

		// me_numreaders may be zero if this process never used any readers. Use
		// the shared numreader count if it exists.
		arg->me_numreaders = env->me_txns ? env->me_txns->mti_numreaders : env->me_numreaders;

		arg->me_last_pgno = env->me_metas[toggle]->mm_last_pg;
		arg->me_last_txnid = env->me_metas[toggle]->mm_txnid;
		return MDB_SUCCESS;
	*/
	return nil
}

// TODO: Move to bucket.go
func (db *DB) CloseBucket(b Bucket) {
	/*
		char *ptr;
		if (dbi <= MAIN_DBI || dbi >= env->me_maxdbs)
			return;
		ptr = env->me_dbxs[dbi].md_name.mv_data;
		env->me_dbxs[dbi].md_name.mv_data = NULL;
		env->me_dbxs[dbi].md_name.mv_size = 0;
		env->me_dbflags[dbi] = 0;
		free(ptr);
	*/
}

//int mdb_reader_list(MDB_env *env, MDB_msg_func *func, void *ctx)
func (db *DB) getReaderList() error {
	/*
		unsigned int i, rdrs;
		MDB_reader *mr;
		char buf[64];
		int rc = 0, first = 1;

		if (!env || !func)
			return -1;
		if (!env->me_txns) {
			return func("(no reader locks)\n", ctx);
		}
		rdrs = env->me_txns->mti_numreaders;
		mr = env->me_txns->mti_readers;
		for (i=0; i<rdrs; i++) {
			if (mr[i].mr_pid) {
				txnid_t	txnid = mr[i].mr_txnid;
				sprintf(buf, txnid == (txnid_t)-1 ?
					"%10d %"Z"x -\n" : "%10d %"Z"x %"Z"u\n",
					(int)mr[i].mr_pid, (size_t)mr[i].mr_tid, txnid);
				if (first) {
					first = 0;
					rc = func("    pid     thread     txnid\n", ctx);
					if (rc < 0)
						break;
				}
				rc = func(buf, ctx);
				if (rc < 0)
					break;
			}
		}
		if (first) {
			rc = func("(no active readers)\n", ctx);
		}
		return rc;
	*/
	return nil
}

// (bool return is whether reader is dead)
func (db *DB) checkReaders() (bool, error) {
	/*
		unsigned int i, j, rdrs;
		MDB_reader *mr;
		MDB_PID_T *pids, pid;
		int count = 0;

		if (!env)
			return EINVAL;
		if (dead)
			*dead = 0;
		if (!env->me_txns)
			return MDB_SUCCESS;
		rdrs = env->me_txns->mti_numreaders;
		pids = malloc((rdrs+1) * sizeof(MDB_PID_T));
		if (!pids)
			return ENOMEM;
		pids[0] = 0;
		mr = env->me_txns->mti_readers;
		for (i=0; i<rdrs; i++) {
			if (mr[i].mr_pid && mr[i].mr_pid != env->me_pid) {
				pid = mr[i].mr_pid;
				if (mdb_pid_insert(pids, pid) == 0) {
					if (!mdb_reader_pid(env, Pidcheck, pid)) {
						LOCK_MUTEX_R(env);
						// Recheck, a new process may have reused pid
						if (!mdb_reader_pid(env, Pidcheck, pid)) {
							for (j=i; j<rdrs; j++)
								if (mr[j].mr_pid == pid) {
									DPRINTF(("clear stale reader pid %u txn %"Z"d",
										(unsigned) pid, mr[j].mr_txnid));
									mr[j].mr_pid = 0;
									count++;
								}
						}
						UNLOCK_MUTEX_R(env);
					}
				}
			}
		}
		free(pids);
		if (dead)
			*dead = count;
		return MDB_SUCCESS;
	*/
	return false, nil
}