/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1996-2001 * Sleepycat Software. All rights reserved. */ #include "db_config.h" #ifndef lint static const char revid[] = "Id: os_map.c,v 11.37 2001/10/04 21:27:57 bostic Exp "; #endif /* not lint */ #ifndef NO_SYSTEM_INCLUDES #include #ifdef HAVE_MMAP #include #endif #ifdef HAVE_SHMGET #include #include #endif #include #endif #include "db_int.h" #include "os_jump.h" #ifdef HAVE_MMAP static int __os_map __P((DB_ENV *, char *, DB_FH *, size_t, int, int, void **)); #endif #ifndef HAVE_SHMGET static int __db_nosystemmem __P((DB_ENV *)); #endif /* * __os_r_sysattach -- * Create/join a shared memory region. * * PUBLIC: int __os_r_sysattach __P((DB_ENV *, REGINFO *, REGION *)); */ int __os_r_sysattach(dbenv, infop, rp) DB_ENV *dbenv; REGINFO *infop; REGION *rp; { if (F_ISSET(dbenv, DB_ENV_SYSTEM_MEM)) { /* * If the region is in system memory on UNIX, we use shmget(2). * * !!! * There exist spinlocks that don't work in shmget memory, e.g., * the HP/UX msemaphore interface. If we don't have locks that * will work in shmget memory, we better be private and not be * threaded. If we reach this point, we know we're public, so * it's an error. */ #if defined(MUTEX_NO_SHMGET_LOCKS) __db_err(dbenv, "architecture does not support locks inside system shared memory"); return (EINVAL); #endif #if defined(HAVE_SHMGET) { key_t segid; int id, ret; /* * We could potentially create based on REGION_CREATE_OK, but * that's dangerous -- we might get crammed in sideways if * some of the expected regions exist but others do not. Also, * if the requested size differs from an existing region's * actual size, then all sorts of nasty things can happen. * Basing create solely on REGION_CREATE is much safer -- a * recovery will get us straightened out. */ if (F_ISSET(infop, REGION_CREATE)) { /* * The application must give us a base System V IPC key * value. Adjust that value based on the region's ID, * and correct so the user's original value appears in * the ipcs output. */ if (dbenv->shm_key == INVALID_REGION_SEGID) { __db_err(dbenv, "no base system shared memory ID specified"); return (EINVAL); } segid = (key_t)(dbenv->shm_key + (infop->id - 1)); /* * If map to an existing region, assume the application * crashed and we're restarting. Delete the old region * and re-try. If that fails, return an error, the * application will have to select a different segment * ID or clean up some other way. */ if ((id = shmget(segid, 0, 0)) != -1) { (void)shmctl(id, IPC_RMID, NULL); if ((id = shmget(segid, 0, 0)) != -1) { __db_err(dbenv, "shmget: key: %ld: shared system memory region already exists", (long)segid); return (EAGAIN); } } if ((id = shmget(segid, rp->size, IPC_CREAT | 0660)) == -1) { ret = __os_get_errno(); __db_err(dbenv, "shmget: key: %ld: unable to create shared system memory region: %s", (long)segid, strerror(ret)); return (ret); } rp->segid = id; } else id = rp->segid; if ((infop->addr = shmat(id, NULL, 0)) == (void *)-1) { infop->addr = NULL; ret = __os_get_errno(); __db_err(dbenv, "shmat: id %d: unable to attach to shared system memory region: %s", id, strerror(ret)); return (ret); } return (0); } #else return (__db_nosystemmem(dbenv)); #endif } #ifdef HAVE_MMAP { DB_FH fh; int ret; /* * Try to open/create the shared region file. We DO NOT need to * ensure that multiple threads/processes attempting to * simultaneously create the region are properly ordered, * our caller has already taken care of that. */ if ((ret = __os_open(dbenv, infop->name, DB_OSO_REGION | (F_ISSET(infop, REGION_CREATE_OK) ? DB_OSO_CREATE : 0), infop->mode, &fh)) != 0) __db_err(dbenv, "%s: %s", infop->name, db_strerror(ret)); /* * If we created the file, grow it to its full size before mapping * it in. We really want to avoid touching the buffer cache after * mmap(2) is called, doing anything else confuses the hell out of * systems without merged VM/buffer cache systems, or, more to the * point, *badly* merged VM/buffer cache systems. */ if (ret == 0 && F_ISSET(infop, REGION_CREATE)) ret = __os_finit(dbenv, &fh, rp->size, F_ISSET(dbenv, DB_ENV_REGION_INIT) ? 1 : 0); /* Map the file in. */ if (ret == 0) ret = __os_map(dbenv, infop->name, &fh, rp->size, 1, 0, &infop->addr); (void)__os_closehandle(&fh); return (ret); } #else COMPQUIET(infop, NULL); COMPQUIET(rp, NULL); __db_err(dbenv, "architecture lacks mmap(2), shared environments not possible"); return (__db_eopnotsup(dbenv)); #endif } /* * __os_r_sysdetach -- * Detach from a shared memory region. * * PUBLIC: int __os_r_sysdetach __P((DB_ENV *, REGINFO *, int)); */ int __os_r_sysdetach(dbenv, infop, destroy) DB_ENV *dbenv; REGINFO *infop; int destroy; { REGION *rp; rp = infop->rp; if (F_ISSET(dbenv, DB_ENV_SYSTEM_MEM)) { #ifdef HAVE_SHMGET int ret, segid; /* * We may be about to remove the memory referenced by rp, * save the segment ID, and (optionally) wipe the original. */ segid = rp->segid; if (destroy) rp->segid = INVALID_REGION_SEGID; if (shmdt(infop->addr) != 0) { ret = __os_get_errno(); __db_err(dbenv, "shmdt: %s", strerror(ret)); return (ret); } if (destroy && shmctl(segid, IPC_RMID, NULL) != 0 && (ret = __os_get_errno()) != EINVAL) { __db_err(dbenv, "shmctl: id %ld: unable to delete system shared memory region: %s", segid, strerror(ret)); return (ret); } return (0); #else return (__db_nosystemmem(dbenv)); #endif } #ifdef HAVE_MMAP #ifdef HAVE_MUNLOCK if (F_ISSET(dbenv, DB_ENV_LOCKDOWN)) (void)munlock(infop->addr, rp->size); #endif if (munmap(infop->addr, rp->size) != 0) { int ret; ret = __os_get_errno(); __db_err(dbenv, "munmap: %s", strerror(ret)); return (ret); } if (destroy && __os_region_unlink(dbenv, infop->name) != 0) return (__os_get_errno()); return (0); #else COMPQUIET(destroy, 0); return (EINVAL); #endif } /* * __os_mapfile -- * Map in a shared memory file. * * PUBLIC: int __os_mapfile __P((DB_ENV *, * PUBLIC: char *, DB_FH *, size_t, int, void **)); */ int __os_mapfile(dbenv, path, fhp, len, is_rdonly, addrp) DB_ENV *dbenv; char *path; DB_FH *fhp; int is_rdonly; size_t len; void **addrp; { #if defined(HAVE_MMAP) && !defined(HAVE_QNX) return (__os_map(dbenv, path, fhp, len, 0, is_rdonly, addrp)); #else COMPQUIET(dbenv, NULL); COMPQUIET(path, NULL); COMPQUIET(fhp, NULL); COMPQUIET(is_rdonly, 0); COMPQUIET(len, 0); COMPQUIET(addrp, NULL); return (EINVAL); #endif } /* * __os_unmapfile -- * Unmap the shared memory file. * * PUBLIC: int __os_unmapfile __P((DB_ENV *, void *, size_t)); */ int __os_unmapfile(dbenv, addr, len) DB_ENV *dbenv; void *addr; size_t len; { /* If the user replaced the map call, call through their interface. */ if (__db_jump.j_unmap != NULL) return (__db_jump.j_unmap(addr, len)); #ifdef HAVE_MMAP #ifdef HAVE_MUNLOCK if (F_ISSET(dbenv, DB_ENV_LOCKDOWN)) while (munlock(addr, len) != 0 && __os_get_errno() == EINTR) ; #else COMPQUIET(dbenv, NULL); #endif { int ret; while ((ret = munmap(addr, len)) != 0 && __os_get_errno() == EINTR) ; return (ret ? __os_get_errno() : 0); } #else COMPQUIET(dbenv, NULL); return (EINVAL); #endif } #ifdef HAVE_MMAP /* * __os_map -- * Call the mmap(2) function. */ static int __os_map(dbenv, path, fhp, len, is_region, is_rdonly, addrp) DB_ENV *dbenv; char *path; DB_FH *fhp; int is_region, is_rdonly; size_t len; void **addrp; { void *p; int flags, prot, ret; /* If the user replaced the map call, call through their interface. */ if (__db_jump.j_map != NULL) return (__db_jump.j_map (path, len, is_region, is_rdonly, addrp)); /* * If it's read-only, it's private, and if it's not, it's shared. * Don't bother with an additional parameter. */ flags = is_rdonly ? MAP_PRIVATE : MAP_SHARED; #ifdef MAP_FILE /* * Historically, MAP_FILE was required for mapping regular files, * even though it was the default. Some systems have it, some * don't, some that have it set it to 0. */ flags |= MAP_FILE; #endif /* * I know of no systems that implement the flag to tell the system * that the region contains semaphores, but it's not an unreasonable * thing to do, and has been part of the design since forever. I * don't think anyone will object, but don't set it for read-only * files, it doesn't make sense. */ #ifdef MAP_HASSEMAPHORE if (is_region && !is_rdonly) flags |= MAP_HASSEMAPHORE; #else COMPQUIET(is_region, 0); #endif prot = PROT_READ | (is_rdonly ? 0 : PROT_WRITE); /* * XXX * Work around a bug in the VMS V7.1 mmap() implementation. To map * a file into memory on VMS it needs to be opened in a certain way, * originally. To get the file opened in that certain way, the VMS * mmap() closes the file and re-opens it. When it does this, it * doesn't flush any caches out to disk before closing. The problem * this causes us is that when the memory cache doesn't get written * out, the file isn't big enough to match the memory chunk and the * mmap() call fails. This call to fsync() fixes the problem. DEC * thinks this isn't a bug because of language in XPG5 discussing user * responsibility for on-disk and in-memory synchronization. */ #ifdef VMS if (__os_fsync(dbenv, fhp) == -1) return (__os_get_errno()); #endif /* MAP_FAILED was not defined in early mmap implementations. */ #ifndef MAP_FAILED #define MAP_FAILED -1 #endif if ((p = mmap(NULL, len, prot, flags, fhp->fd, (off_t)0)) == (void *)MAP_FAILED) { ret = __os_get_errno(); __db_err(dbenv, "mmap: %s", strerror(ret)); return (ret); } #ifdef HAVE_MLOCK /* * If it's a region, we want to make sure that the memory isn't paged. * For example, Solaris will page large mpools because it thinks that * I/O buffer memory is more important than we are. The mlock system * call may or may not succeed (mlock is restricted to the super-user * on some systems). Currently, the only other use of mmap in DB is * to map read-only databases -- we don't want them paged, either, so * the call isn't conditional. */ if (F_ISSET(dbenv, DB_ENV_LOCKDOWN) && mlock(p, len) != 0) { ret = __os_get_errno(); (void)munmap(p, len); __db_err(dbenv, "mlock: %s", strerror(ret)); return (ret); } #else COMPQUIET(dbenv, NULL); #endif *addrp = p; return (0); } #endif #ifndef HAVE_SHMGET /* * __db_nosystemmem -- * No system memory environments error message. */ static int __db_nosystemmem(dbenv) DB_ENV *dbenv; { __db_err(dbenv, "architecture doesn't support environments in system memory"); return (__db_eopnotsup(dbenv)); } #endif