#endif
#include <sys/types.h>
#include <sys/stat.h>
-#include <sys/param.h>
#ifdef _WIN32
#include <windows.h>
+/** getpid() returns int; MinGW defines pid_t but MinGW64 typedefs it
+ * as int64 which is wrong. MSVC doesn't define it at all, so just
+ * don't use it.
+ */
+#define MDB_PID_T int
+#ifdef __GNUC__
+# include <sys/param.h>
#else
+# define LITTLE_ENDIAN 1234
+# define BIG_ENDIAN 4321
+# define BYTE_ORDER LITTLE_ENDIAN
+# ifndef SSIZE_MAX
+# define SSIZE_MAX INT_MAX
+# endif
+#endif
+#else
+#define MDB_PID_T pid_t
+#include <sys/param.h>
#include <sys/uio.h>
#include <sys/mman.h>
#ifdef HAVE_SYS_FILE_H
/** The version number for a database's lockfile format. */
#define MDB_LOCK_VERSION 1
- /** @brief The maximum size of a key in the database.
+ /** @brief The max size of a key we can write, or 0 for dynamic max.
*
- * The library rejects bigger keys, and cannot deal with records
- * with bigger keys stored by a library with bigger max keysize.
+ * Define this as 0 to compute the max from the page size. 511
+ * is default for backwards compat: liblmdb <= 0.9.10 can break
+ * when modifying a DB with keys/dupsort data bigger than its max.
*
- * We require that keys all fit onto a regular page. This limit
- * could be raised a bit further if needed; to something just
- * under (page size / #MDB_MINKEYS / 3).
- *
- * Note that data items in an #MDB_DUPSORT database are actually keys
- * of a subDB, so they're also limited to this size.
+ * Data items in an #MDB_DUPSORT database are also limited to
+ * this size, since they're actually keys of a sub-DB. Keys and
+ * #MDB_DUPSORT data items must fit on a node in a regular page.
*/
#ifndef MDB_MAXKEYSIZE
#define MDB_MAXKEYSIZE 511
+#endif
+
+ /** The maximum size of a key we can write to the environment. */
+#if MDB_MAXKEYSIZE
+#define ENV_MAXKEY(env) (MDB_MAXKEYSIZE)
+#else
+#define ENV_MAXKEY(env) ((env)->me_maxkey)
#endif
/** @brief The maximum size of a data item.
#define MAXDATASIZE 0xffffffffUL
#if MDB_DEBUG
+ /** Key size which fits in a #DKBUF.
+ * @ingroup debug
+ */
+#define DKBUF_MAXKEYSIZE ((MDB_MAXKEYSIZE) > 0 ? (MDB_MAXKEYSIZE) : 511)
/** A key buffer.
* @ingroup debug
* This is used for printing a hex dump of a key's contents.
*/
-#define DKBUF char kbuf[(MDB_MAXKEYSIZE*2+1)]
+#define DKBUF char kbuf[DKBUF_MAXKEYSIZE*2+1]
/** Display a key in hex.
* @ingroup debug
* Invoke a function to display a key in hex.
/** Test if the flags \b f are set in a flag word \b w. */
#define F_ISSET(w, f) (((w) & (f)) == (f))
+ /** Round \b n up to an even number. */
+#define EVEN(n) (((n) + 1U) & -2) /* sign-extending -2 to match n+1U */
+
/** Used for offsets within a single page.
* Since memory pages are typically 4 or 8KB in size, 12-13 bits,
* this is plenty.
*/
txnid_t mrb_txnid;
/** The process ID of the process owning this reader txn. */
- pid_t mrb_pid;
+ MDB_PID_T mrb_pid;
/** The thread ID of the thread owning this txn. */
pthread_t mrb_tid;
} MDB_rxbody;
unsigned int me_numreaders; /**< max numreaders set by this env */
MDB_dbi me_numdbs; /**< number of DBs opened */
MDB_dbi me_maxdbs; /**< size of the DB table */
- pid_t me_pid; /**< process ID of this env */
+ MDB_PID_T me_pid; /**< process ID of this env */
char *me_path; /**< path to the DB files */
char *me_map; /**< the memory map of the data file */
MDB_txninfo *me_txns; /**< the memory map of the lock file or NULL */
int me_maxfree_1pg;
/** Max size of a node on a page */
unsigned int me_nodemax;
+#if !(MDB_MAXKEYSIZE)
+ unsigned int me_maxkey; /**< max size of a key */
+#endif
#ifdef _WIN32
int me_pidquery; /**< Used in OpenProcess */
HANDLE me_rmutex; /* Windows mutexes don't reside in shared mem */
if (!key)
return "";
- if (key->mv_size > MDB_MAXKEYSIZE)
+ if (key->mv_size > DKBUF_MAXKEYSIZE)
return "MDB_MAXKEYSIZE";
/* may want to make this a dynamic check: if the key is mostly
* printable characters, print it as-is instead of converting to hex.
mdb_page_list(MDB_page *mp)
{
MDB_node *node;
- unsigned int i, nkeys, nsize;
+ unsigned int i, nkeys, nsize, total = 0;
MDB_val key;
DKBUF;
node = NODEPTR(mp, i);
key.mv_size = node->mn_ksize;
key.mv_data = node->mn_data;
- nsize = NODESIZE + NODEKSZ(node) + sizeof(indx_t);
+ nsize = NODESIZE + key.mv_size;
if (IS_BRANCH(mp)) {
fprintf(stderr, "key %d: page %"Z"u, %s\n", i, NODEPGNO(node),
DKEY(&key));
+ total += nsize;
} else {
if (F_ISSET(node->mn_flags, F_BIGDATA))
nsize += sizeof(pgno_t);
else
nsize += NODEDSZ(node);
+ total += nsize;
+ nsize += sizeof(indx_t);
fprintf(stderr, "key %d: nsize %d, %s\n", i, nsize, DKEY(&key));
}
+ total = EVEN(total);
}
+ fprintf(stderr, "Total: %d\n", total);
}
void
MDB_env *env = txn->mt_env;
MDB_page *ret = env->me_dpages;
size_t psize = env->me_psize, sz = psize, off;
- /* For #MDB_CLEANMEM, psize counts how much to init.
+ /* For ! #MDB_NOMEMINIT, psize counts how much to init.
* For a single page alloc, we init everything after the page header.
* For multi-page, we init the final page; if the caller needed that
* many pages they will be filling in at least up to the last page.
off = sz - psize;
}
if ((ret = malloc(sz)) != NULL) {
- if (env->me_flags & MDB_CLEANMEM) {
+ if (!(env->me_flags & MDB_NOMEMINIT)) {
memset((char *)ret + off, 0, psize);
ret->mp_pad = 0;
}
#else
enum { Paranoid = 0, Max_retries = INT_MAX /*infinite*/ };
#endif
- int rc, n2 = num-1, retry = Max_retries;
+ int rc, retry = Max_retries;
MDB_txn *txn = mc->mc_txn;
MDB_env *env = txn->mt_env;
pgno_t pgno, *mop = env->me_pghead;
- unsigned i, j, k, mop_len = mop ? mop[0] : 0;
+ unsigned i, j, k, mop_len = mop ? mop[0] : 0, n2 = num-1;
MDB_page *np;
txnid_t oldest = 0, last;
MDB_cursor_op op;
/* Seek a big enough contiguous page range. Prefer
* pages at the tail, just truncating the list.
*/
- if (mop_len >= (unsigned)num) {
+ if (mop_len > n2) {
i = mop_len;
do {
pgno = mop[i];
if (mop[i-n2] == pgno+n2)
goto search_done;
- } while (--i >= (unsigned)num);
+ } while (--i > n2);
if (Max_retries < INT_MAX && --retry < 0)
break;
}
* lock on the lockfile, set at an offset equal to the pid.
*/
static int
-mdb_reader_pid(MDB_env *env, enum Pidlock_op op, pid_t pid)
+mdb_reader_pid(MDB_env *env, enum Pidlock_op op, MDB_PID_T pid)
{
#if !(MDB_PIDLOCK) /* Currently the same as defined(_WIN32) */
int ret = 0;
if (r->mr_pid != env->me_pid || r->mr_txnid != (txnid_t)-1)
return MDB_BAD_RSLOT;
} else {
- pid_t pid = env->me_pid;
+ MDB_PID_T pid = env->me_pid;
pthread_t tid = pthread_self();
if (!(env->me_flags & MDB_LIVE_READER)) {
return rc;
}
- /* MDB_RESERVE cancels CLEANMEM in ovpage malloc (when no WRITEMAP) */
- clean_limit = (env->me_flags & (MDB_CLEANMEM|MDB_WRITEMAP)) == MDB_CLEANMEM
- ? maxfree_1pg : SSIZE_MAX;
+ /* MDB_RESERVE cancels meminit in ovpage malloc (when no WRITEMAP) */
+ clean_limit = (env->me_flags & (MDB_NOMEMINIT|MDB_WRITEMAP))
+ ? SSIZE_MAX : maxfree_1pg;
for (;;) {
/* Come back here after each Put() in case freelist changed */
return i;
}
}
- env->me_maxfree_1pg = (env->me_psize - PAGEHDRSZ) / sizeof(pgno_t) - 1;
- env->me_nodemax = (env->me_psize - PAGEHDRSZ) / MDB_MINKEYS;
+ env->me_maxfree_1pg = (env->me_psize - PAGEHDRSZ) / sizeof(pgno_t) - 1;
+ env->me_nodemax = (((env->me_psize - PAGEHDRSZ) / MDB_MINKEYS) & -2)
+ - sizeof(indx_t);
+#if !(MDB_MAXKEYSIZE)
+ env->me_maxkey = env->me_nodemax - (NODESIZE + sizeof(MDB_db));
+#endif
env->me_maxpg = env->me_mapsize / env->me_psize;
+
#if MDB_DEBUG
{
int toggle = mdb_env_pick_meta(env);
#pragma comment(linker, "/INCLUDE:_tls_used")
#pragma comment(linker, "/INCLUDE:mdb_tls_cbp")
#pragma const_seg(".CRT$XLB")
-extern const PIMAGE_TLS_CALLBACK mdb_tls_callback;
+extern const PIMAGE_TLS_CALLBACK mdb_tls_cbp;
const PIMAGE_TLS_CALLBACK mdb_tls_cbp = mdb_tls_callback;
#pragma const_seg()
#else /* WIN32 */
rsize = (env->me_maxreaders-1) * sizeof(MDB_reader) + sizeof(MDB_txninfo);
if (size < rsize && *excl > 0) {
#ifdef _WIN32
- if (SetFilePointer(env->me_lfd, rsize, NULL, FILE_BEGIN) != rsize
+ if (SetFilePointer(env->me_lfd, rsize, NULL, FILE_BEGIN) != (DWORD)rsize
|| !SetEndOfFile(env->me_lfd))
goto fail_errno;
#else
* at runtime. Changing other flags requires closing the
* environment and re-opening it with the new flags.
*/
-#define CHANGEABLE (MDB_NOSYNC|MDB_NOMETASYNC|MDB_MAPASYNC|MDB_CLEANMEM)
+#define CHANGEABLE (MDB_NOSYNC|MDB_NOMETASYNC|MDB_MAPASYNC|MDB_NOMEMINIT)
#define CHANGELESS (MDB_FIXEDMAP|MDB_NOSUBDIR|MDB_RDONLY|MDB_WRITEMAP| \
MDB_NOTLS|MDB_NOLOCK|MDB_NORDAHEAD)
if (env->me_fd != INVALID_HANDLE_VALUE)
(void) close(env->me_fd);
if (env->me_txns) {
- pid_t pid = env->me_pid;
+ MDB_PID_T pid = env->me_pid;
/* Clearing readers is done in this function because
* me_txkey with its destructor must be disabled first.
*/
if (txn->mt_flags & MDB_TXN_ERROR)
return MDB_BAD_TXN;
- if (key->mv_size > MDB_MAXKEYSIZE) {
- return MDB_BAD_VALSIZE;
- }
-
mdb_cursor_init(&mc, txn, dbi, &mx);
return mdb_cursor_set(&mc, key, data, MDB_SET, &exact);
}
if (op == MDB_GET_BOTH || rc > 0)
return MDB_NOTFOUND;
rc = 0;
+ *data = d2;
}
} else {
case MDB_SET_RANGE:
if (key == NULL) {
rc = EINVAL;
- } else if (key->mv_size > MDB_MAXKEYSIZE) {
- rc = MDB_BAD_VALSIZE;
- } else if (op == MDB_SET_RANGE)
- rc = mdb_cursor_set(mc, key, data, op, NULL);
- else
- rc = mdb_cursor_set(mc, key, data, op, &exact);
+ } else {
+ rc = mdb_cursor_set(mc, key, data, op,
+ op == MDB_SET_RANGE ? NULL : &exact);
+ }
break;
case MDB_GET_MULTIPLE:
if (data == NULL || !(mc->mc_flags & C_INITIALIZED)) {
enum { MDB_NO_ROOT = MDB_LAST_ERRCODE+10 }; /* internal code */
MDB_env *env = mc->mc_txn->mt_env;
MDB_node *leaf = NULL;
- MDB_val xdata, *rdata, dkey;
+ MDB_page *fp, *mp;
+ uint16_t fp_flags;
+ MDB_val xdata, *rdata, dkey, olddata;
MDB_db dummy;
- int do_sub = 0, insert = 0;
+ int do_sub = 0, insert;
unsigned int mcount = 0, dcount = 0, nospill;
size_t nsize;
int rc, rc2;
- char dbuf[MDB_MAXKEYSIZE+1];
unsigned int nflags;
DKBUF;
if (mc->mc_txn->mt_flags & (MDB_TXN_RDONLY|MDB_TXN_ERROR))
return (mc->mc_txn->mt_flags & MDB_TXN_RDONLY) ? EACCES : MDB_BAD_TXN;
- if (flags != MDB_CURRENT && (key->mv_size == 0 || key->mv_size > MDB_MAXKEYSIZE))
- return MDB_BAD_VALSIZE;
-
- if (F_ISSET(mc->mc_db->md_flags, MDB_DUPSORT) && data->mv_size > MDB_MAXKEYSIZE)
+ if (flags != MDB_CURRENT && key->mv_size-1 >= ENV_MAXKEY(env))
return MDB_BAD_VALSIZE;
#if SIZE_MAX > MAXDATASIZE
- if (data->mv_size > MAXDATASIZE)
+ if (data->mv_size > ((mc->mc_db->md_flags & MDB_DUPSORT) ? ENV_MAXKEY(env) : MAXDATASIZE))
+ return MDB_BAD_VALSIZE;
+#else
+ if ((mc->mc_db->md_flags & MDB_DUPSORT) && data->mv_size > ENV_MAXKEY(env))
return MDB_BAD_VALSIZE;
#endif
return rc2;
}
- /* The key already exists */
- if (rc == MDB_SUCCESS) {
- MDB_page *fp, *mp;
- MDB_val olddata;
-
+ insert = rc;
+ if (insert) {
+ /* The key does not exist */
+ DPRINTF(("inserting key at index %i", mc->mc_ki[mc->mc_top]));
+ if ((mc->mc_db->md_flags & MDB_DUPSORT) &&
+ LEAFSIZE(key, data) > env->me_nodemax)
+ {
+ /* Too big for a node, insert in sub-DB */
+ fp_flags = P_LEAF|P_DIRTY;
+ fp = env->me_pbuf;
+ fp->mp_pad = data->mv_size; /* used if MDB_DUPFIXED */
+ fp->mp_lower = fp->mp_upper = olddata.mv_size = PAGEHDRSZ;
+ goto prep_subDB;
+ }
+ } else {
/* there's only a key anyway, so this is a no-op */
if (IS_LEAF2(mc->mc_pg[mc->mc_top])) {
unsigned int ksize = mc->mc_db->md_pad;
/* DB has dups? */
if (F_ISSET(mc->mc_db->md_flags, MDB_DUPSORT)) {
+ /* Prepare (sub-)page/sub-DB to accept the new item,
+ * if needed. fp: old sub-page or a header faking
+ * it. mp: new (sub-)page. offset: growth in page
+ * size. xdata: node data with new page or DB.
+ */
+ unsigned i, offset = 0;
mp = fp = xdata.mv_data = env->me_pbuf;
mp->mp_pgno = mc->mc_pg[mc->mc_top]->mp_pgno;
if (flags == MDB_CURRENT)
goto current;
- dkey = olddata;
#if UINT_MAX < SIZE_MAX
- if (mc->mc_dbx->md_dcmp == mdb_cmp_int && dkey.mv_size == sizeof(size_t))
+ if (mc->mc_dbx->md_dcmp == mdb_cmp_int && olddata.mv_size == sizeof(size_t))
#ifdef MISALIGNED_OK
mc->mc_dbx->md_dcmp = mdb_cmp_long;
#else
#endif
#endif
/* if data matches, skip it */
- if (!mc->mc_dbx->md_dcmp(data, &dkey)) {
+ if (!mc->mc_dbx->md_dcmp(data, &olddata)) {
if (flags & MDB_NODUPDATA)
rc = MDB_KEYEXIST;
else if (flags & MDB_MULTIPLE)
return rc;
}
- /* create a fake page for the dup items */
- memcpy(dbuf, dkey.mv_data, dkey.mv_size);
- dkey.mv_data = dbuf;
+ /* Back up original data item */
+ dkey.mv_size = olddata.mv_size;
+ dkey.mv_data = memcpy(fp+1, olddata.mv_data, olddata.mv_size);
+
+ /* Make sub-page header for the dup items, with dummy body */
fp->mp_flags = P_LEAF|P_DIRTY|P_SUBP;
fp->mp_lower = PAGEHDRSZ;
xdata.mv_size = PAGEHDRSZ + dkey.mv_size + data->mv_size;
(dkey.mv_size & 1) + (data->mv_size & 1);
}
fp->mp_upper = xdata.mv_size;
+ olddata.mv_size = fp->mp_upper; /* pretend olddata is fp */
} else if (leaf->mn_flags & F_SUBDATA) {
/* Data is on sub-DB, just store it */
flags |= F_DUPDATA|F_SUBDATA;
goto put_sub;
} else {
- /* See if we need to convert from fake page to subDB */
- unsigned int offset;
- unsigned int i;
- uint16_t fp_flags;
-
+ /* Data is on sub-page */
fp = olddata.mv_data;
switch (flags) {
default:
if (!(mc->mc_db->md_flags & MDB_DUPFIXED)) {
- offset = NODESIZE + sizeof(indx_t) + data->mv_size;
- offset += offset & 1;
+ offset = EVEN(NODESIZE + sizeof(indx_t) +
+ data->mv_size);
break;
}
offset = fp->mp_pad;
flags |= F_DUPDATA;
goto put_sub;
}
- fp_flags = fp->mp_flags;
xdata.mv_size = olddata.mv_size + offset;
- if (NODESIZE + sizeof(indx_t) + NODEKSZ(leaf) + xdata.mv_size
- >= env->me_nodemax) {
- /* yes, convert it */
+ }
+
+ fp_flags = fp->mp_flags;
+ if (NODESIZE + NODEKSZ(leaf) + xdata.mv_size > env->me_nodemax) {
+ /* Too big for a sub-page, convert to sub-DB */
+ fp_flags &= ~P_SUBP;
+prep_subDB:
if (mc->mc_db->md_flags & MDB_DUPFIXED) {
+ fp_flags |= P_LEAF2;
dummy.md_pad = fp->mp_pad;
dummy.md_flags = MDB_DUPFIXED;
if (mc->mc_db->md_flags & MDB_INTEGERDUP)
offset = env->me_psize - olddata.mv_size;
flags |= F_DUPDATA|F_SUBDATA;
dummy.md_root = mp->mp_pgno;
- fp_flags &= ~P_SUBP;
- }
+ }
+ if (mp != fp) {
mp->mp_flags = fp_flags | P_DIRTY;
mp->mp_pad = fp->mp_pad;
mp->mp_lower = fp->mp_lower;
mp->mp_upper = fp->mp_upper + offset;
- if (IS_LEAF2(fp)) {
+ if (fp_flags & P_LEAF2) {
memcpy(METADATA(mp), METADATA(fp), NUMKEYS(fp) * fp->mp_pad);
} else {
memcpy((char *)mp + mp->mp_upper, (char *)fp + fp->mp_upper,
}
mdb_node_del(mc->mc_pg[mc->mc_top], mc->mc_ki[mc->mc_top], 0);
mc->mc_db->md_entries--;
- } else {
- DPRINTF(("inserting key at index %i", mc->mc_ki[mc->mc_top]));
- insert = 1;
}
rdata = data;
size_t sz;
sz = LEAFSIZE(key, data);
- if (sz >= env->me_nodemax) {
+ if (sz > env->me_nodemax) {
/* put on overflow page */
sz -= data->mv_size - sizeof(pgno_t);
}
- sz += sz & 1;
- return sz + sizeof(indx_t);
+ return EVEN(sz + sizeof(indx_t));
}
/** Calculate the size of a branch node.
size_t sz;
sz = INDXSIZE(key);
- if (sz >= env->me_nodemax) {
+ if (sz > env->me_nodemax) {
/* put on overflow page */
/* not implemented */
/* sz -= key->size - sizeof(pgno_t); */
if (F_ISSET(flags, F_BIGDATA)) {
/* Data already on overflow page. */
node_size += sizeof(pgno_t);
- } else if (node_size + data->mv_size >= mc->mc_txn->mt_env->me_nodemax) {
+ } else if (node_size + data->mv_size > mc->mc_txn->mt_env->me_nodemax) {
int ovpages = OVPAGES(data->mv_size, mc->mc_txn->mt_env->me_psize);
int rc;
/* Put data on overflow page. */
DPRINTF(("data size is %"Z"u, node would be %"Z"u, put data on overflow page",
data->mv_size, node_size+data->mv_size));
- node_size += sizeof(pgno_t) + (node_size & 1);
+ node_size = EVEN(node_size + sizeof(pgno_t));
if ((ssize_t)node_size > room)
goto full;
if ((rc = mdb_page_new(mc, P_OVERFLOW, ovpages, &ofp)))
node_size += data->mv_size;
}
}
- node_size += node_size & 1;
+ node_size = EVEN(node_size);
if ((ssize_t)node_size > room)
goto full;
else
sz += NODEDSZ(node);
}
- sz += sz & 1;
+ sz = EVEN(sz);
ptr = mp->mp_ptrs[indx];
numkeys = NUMKEYS(mp);
MDB_node *node;
MDB_page *sp, *xp;
char *base;
- int osize, nsize;
- int delta;
+ int nsize, delta;
indx_t i, numkeys, ptr;
node = NODEPTR(mp, indx);
sp = (MDB_page *)NODEDATA(node);
- osize = NODEDSZ(node);
-
- delta = sp->mp_upper - sp->mp_lower;
- SETDSZ(node, osize - delta);
+ delta = SIZELEFT(sp);
xp = (MDB_page *)((char *)sp + delta);
/* shift subpage upward */
if (IS_LEAF2(sp)) {
nsize = NUMKEYS(sp) * sp->mp_pad;
+ if (nsize & 1)
+ return; /* do not make the node uneven-sized */
memmove(METADATA(xp), METADATA(sp), nsize);
} else {
int i;
- nsize = osize - sp->mp_upper;
numkeys = NUMKEYS(sp);
for (i=numkeys-1; i>=0; i--)
xp->mp_ptrs[i] = sp->mp_ptrs[i] - delta;
xp->mp_pad = sp->mp_pad;
COPY_PGNO(xp->mp_pgno, mp->mp_pgno);
+ nsize = NODEDSZ(node) - delta;
+ SETDSZ(node, nsize);
+
/* shift lower nodes upward */
ptr = mp->mp_ptrs[indx];
numkeys = NUMKEYS(mp);
MDB_node *node;
char *base;
size_t len;
- int delta, delta0;
+ int delta, ksize, oksize;
indx_t ptr, i, numkeys, indx;
DKBUF;
#if MDB_DEBUG
{
MDB_val k2;
- char kbuf2[(MDB_MAXKEYSIZE*2+1)];
+ char kbuf2[DKBUF_MAXKEYSIZE*2+1];
k2.mv_data = NODEKEY(node);
k2.mv_size = node->mn_ksize;
DPRINTF(("update key %u (ofs %u) [%s] to [%s] on page %"Z"u",
}
#endif
- delta0 = delta = key->mv_size - node->mn_ksize;
+ /* Sizes must be 2-byte aligned. */
+ ksize = EVEN(key->mv_size);
+ oksize = EVEN(node->mn_ksize);
+ delta = ksize - oksize;
- /* Must be 2-byte aligned. If new key is
- * shorter by 1, the shift will be skipped.
- */
- delta += (delta & 1);
+ /* Shift node contents if EVEN(key length) changed. */
if (delta) {
if (delta > 0 && SIZELEFT(mp) < delta) {
pgno_t pgno;
}
/* But even if no shift was needed, update ksize */
- if (delta0)
+ if (node->mn_ksize != key->mv_size)
node->mn_ksize = key->mv_size;
if (key->mv_size)
return rc;
if (IS_LEAF2(csrc->mc_pg[csrc->mc_top])) {
- srcnode = NODEPTR(csrc->mc_pg[csrc->mc_top], 0); /* fake */
key.mv_size = csrc->mc_db->md_pad;
key.mv_data = LEAF2KEY(csrc->mc_pg[csrc->mc_top], csrc->mc_ki[csrc->mc_top], key.mv_size);
data.mv_size = 0;
flags = 0;
} else {
srcnode = NODEPTR(csrc->mc_pg[csrc->mc_top], csrc->mc_ki[csrc->mc_top]);
- assert(!((long)srcnode&1));
+ assert(!((size_t)srcnode&1));
srcpg = NODEPGNO(srcnode);
flags = srcnode->mn_flags;
if (csrc->mc_ki[csrc->mc_top] == 0 && IS_BRANCH(csrc->mc_pg[csrc->mc_top])) {
if (txn->mt_flags & (MDB_TXN_RDONLY|MDB_TXN_ERROR))
return (txn->mt_flags & MDB_TXN_RDONLY) ? EACCES : MDB_BAD_TXN;
- if (key->mv_size > MDB_MAXKEYSIZE) {
- return MDB_BAD_VALSIZE;
- }
-
mdb_cursor_init(&mc, txn, dbi, &mx);
exact = 0;
nsize = mdb_leaf_size(env, newkey, newdata);
else
nsize = mdb_branch_size(env, newkey);
- nsize += nsize & 1;
+ nsize = EVEN(nsize);
/* grab a page to hold a temporary copy */
copy = mdb_page_malloc(mc->mc_txn, 1);
else
psize += NODEDSZ(node);
}
- psize += psize & 1;
+ psize = EVEN(psize);
}
if (psize > pmax || i == k-j) {
split_indx = i + (j<0);
int mdb_env_get_maxkeysize(MDB_env *env)
{
- return MDB_MAXKEYSIZE;
+ return ENV_MAXKEY(env);
}
int mdb_reader_list(MDB_env *env, MDB_msg_func *func, void *ctx)
/** Insert pid into list if not already present.
* return -1 if already present.
*/
-static int mdb_pid_insert(pid_t *ids, pid_t pid)
+static int mdb_pid_insert(MDB_PID_T *ids, MDB_PID_T pid)
{
/* binary search of pid in list */
unsigned base = 0;
{
unsigned int i, j, rdrs;
MDB_reader *mr;
- pid_t *pids, pid;
+ MDB_PID_T *pids, pid;
int count = 0;
if (!env)
if (!env->me_txns)
return MDB_SUCCESS;
rdrs = env->me_txns->mti_numreaders;
- pids = malloc((rdrs+1) * sizeof(pid_t));
+ pids = malloc((rdrs+1) * sizeof(MDB_PID_T));
if (!pids)
return ENOMEM;
pids[0] = 0;
mr = env->me_txns->mti_readers;
- j = 0;
for (i=0; i<rdrs; i++) {
if (mr[i].mr_pid && mr[i].mr_pid != env->me_pid) {
pid = mr[i].mr_pid;