/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1998-2001 * Sleepycat Software. All rights reserved. * * This code is derived from software contributed to Sleepycat Software by * Frederick G.M. Roeber of Netscape Communications Corp. */ #include "db_config.h" #ifndef lint static const char revid[] = "Id: os_vx_map.c,v 1.17 2001/07/31 19:30:36 sue Exp "; #endif /* not lint */ #ifndef NO_SYSTEM_INCLUDES #include #include #endif #include "db_int.h" #include "common_ext.h" /* * DB uses memory-mapped files for two things: * faster access of read-only databases, and * shared memory for process synchronization and locking. * The code carefully does not mix the two uses. The first-case uses are * actually written such that memory-mapping isn't really required -- it's * merely a convenience -- so we don't have to worry much about it. In the * second case, it's solely used as a shared memory mechanism, so that's * all we have to replace. * * All memory in VxWorks is shared, and a task can allocate memory and keep * notes. So I merely have to allocate memory, remember the "filename" for * that memory, and issue small-integer segment IDs which index the list of * these shared-memory segments. Subsequent opens are checked against the * list of already open segments. */ typedef struct { void *segment; /* Segment address. */ u_int32_t size; /* Segment size. */ char *name; /* Segment name. */ long segid; /* Segment ID. */ } os_segdata_t; static os_segdata_t *__os_segdata; /* Segment table. */ static int __os_segdata_size; /* Segment table size. */ #define OS_SEGDATA_STARTING_SIZE 16 #define OS_SEGDATA_INCREMENT 16 static int __os_segdata_allocate __P((DB_ENV *, const char *, REGINFO *, REGION *)); static int __os_segdata_find_byname __P((DB_ENV *, const char *, REGINFO *, REGION *)); static int __os_segdata_init __P((DB_ENV *)); static int __os_segdata_new __P((DB_ENV *, int *)); static int __os_segdata_release __P((DB_ENV *, REGION *, int)); /* * __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; { int ret; if (__os_segdata == NULL) __os_segdata_init(dbenv); DB_BEGIN_SINGLE_THREAD; /* Try to find an already existing segment. */ ret = __os_segdata_find_byname(dbenv, infop->name, infop, rp); /* * If we are trying to join a region, it is easy, either we * found it and we return, or we didn't find it and we return * an error that it doesn't exist. */ if (!F_ISSET(infop, REGION_CREATE)) { if (ret != 0) { __db_err(dbenv, "segment %s does not exist", infop->name); ret = EAGAIN; } goto out; } /* * If we get here, we are trying to create the region. * There are several things to consider: * - if we have an error (not a found or not-found value), return. * - they better have shm_key set. * - if the region is already there (ret == 0 from above), * assume the application crashed and we're restarting. * Delete the old region. * - try to create the region. */ if (ret != 0 && ret != ENOENT) goto out; if (dbenv->shm_key == INVALID_REGION_SEGID) { __db_err(dbenv, "no base shared memory ID specified"); ret = EAGAIN; goto out; } if (ret == 0 && __os_segdata_release(dbenv, rp, 1) != 0) { __db_err(dbenv, "key: %ld: shared memory region already exists", dbenv->shm_key + (infop->id - 1)); ret = EAGAIN; goto out; } ret = __os_segdata_allocate(dbenv, infop->name, infop, rp); out: DB_END_SINGLE_THREAD; return (ret); } /* * __os_r_sysdetach -- * Detach from a shared 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; { /* * If just detaching, there is no mapping to discard. * If destroying, remove the region. */ if (destroy) return (__os_segdata_release(dbenv, infop->rp, 0)); return (0); } /* * __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; { /* We cannot map in regular files in VxWorks. */ COMPQUIET(dbenv, NULL); COMPQUIET(path, NULL); COMPQUIET(fhp, NULL); COMPQUIET(is_rdonly, 0); COMPQUIET(len, 0); COMPQUIET(addrp, NULL); return (EINVAL); } /* * __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; { /* We cannot map in regular files in VxWorks. */ COMPQUIET(dbenv, NULL); COMPQUIET(addr, NULL); COMPQUIET(len, 0); return (EINVAL); } /* * __os_segdata_init -- * Initializes the library's table of shared memory segments. * Called once on the first time through __os_segdata_new(). */ static int __os_segdata_init(dbenv) DB_ENV *dbenv; { int ret; if (__os_segdata != NULL) { __db_err(dbenv, "shared memory segment already exists"); return (EEXIST); } /* * The lock init call returns a locked lock. */ DB_BEGIN_SINGLE_THREAD; __os_segdata_size = OS_SEGDATA_STARTING_SIZE; ret = __os_calloc(dbenv, __os_segdata_size, sizeof(os_segdata_t), &__os_segdata); DB_END_SINGLE_THREAD; return (ret); } /* * __os_segdata_destroy -- * Destroys the library's table of shared memory segments. It also * frees all linked data: the segments themselves, and their names. * Currently not called. This function should be called if the * user creates a function to unload or shutdown. * * PUBLIC: int __os_segdata_destroy __P((DB_ENV *)); */ int __os_segdata_destroy(dbenv) DB_ENV *dbenv; { os_segdata_t *p; int i; if (__os_segdata == NULL) return (0); DB_BEGIN_SINGLE_THREAD; for (i = 0; i < __os_segdata_size; i++) { p = &__os_segdata[i]; if (p->name != NULL) { __os_freestr(dbenv, p->name); p->name = NULL; } if (p->segment != NULL) { __os_free(dbenv, p->segment, p->size); p->segment = NULL; } p->size = 0; } __os_free(dbenv, __os_segdata, __os_segdata_size * sizeof(os_segdata_t)); __os_segdata = NULL; __os_segdata_size = 0; DB_END_SINGLE_THREAD; return (0); } /* * __os_segdata_allocate -- * Creates a new segment of the specified size, optionally with the * specified name. * * Assumes it is called with the SEGDATA lock taken. */ static int __os_segdata_allocate(dbenv, name, infop, rp) DB_ENV *dbenv; const char *name; REGINFO *infop; REGION *rp; { os_segdata_t *p; int id, ret; if ((ret = __os_segdata_new(dbenv, &id)) != 0) return (ret); p = &__os_segdata[id]; if ((ret = __os_calloc(dbenv, 1, rp->size, &p->segment)) != 0) return (ret); if ((ret = __os_strdup(dbenv, name, &p->name)) != 0) { __os_free(dbenv, p->segment, rp->size); p->segment = NULL; return (ret); } p->size = rp->size; p->segid = dbenv->shm_key + infop->id - 1; infop->addr = p->segment; rp->segid = id; return (0); } /* * __os_segdata_new -- * Finds a new segdata slot. Does not initialise it, so the fd returned * is only valid until you call this again. * * Assumes it is called with the SEGDATA lock taken. */ static int __os_segdata_new(dbenv, segidp) DB_ENV *dbenv; int *segidp; { os_segdata_t *p; int i, newsize, ret; if (__os_segdata == NULL) { __db_err(dbenv, "shared memory segment not initialized"); return (EAGAIN); } for (i = 0; i < __os_segdata_size; i++) { p = &__os_segdata[i]; if (p->segment == NULL) { *segidp = i; return (0); } } /* * No more free slots, expand. */ newsize = __os_segdata_size + OS_SEGDATA_INCREMENT; if ((ret = __os_realloc(dbenv, newsize * sizeof(os_segdata_t), &__os_segdata)) != 0) return (ret); memset(&__os_segdata[__os_segdata_size], 0, OS_SEGDATA_INCREMENT * sizeof(os_segdata_t)); *segidp = __os_segdata_size; __os_segdata_size = newsize; return (0); } /* * __os_segdata_find_byname -- * Finds a segment by its name and shm_key. * * Assumes it is called with the SEGDATA lock taken. * * PUBLIC: __os_segdata_find_byname * PUBLIC: __P((DB_ENV *, const char *, REGINFO *, REGION *)); */ static int __os_segdata_find_byname(dbenv, name, infop, rp) DB_ENV *dbenv; const char *name; REGINFO *infop; REGION *rp; { os_segdata_t *p; long segid; int i; if (__os_segdata == NULL) { __db_err(dbenv, "shared memory segment not initialized"); return (EAGAIN); } if (name == NULL) { __db_err(dbenv, "no segment name given"); return (EAGAIN); } /* * If we are creating the region, compute the segid. * If we are joining the region, we use the segid in the * index we are given. */ if (F_ISSET(infop, REGION_CREATE)) segid = dbenv->shm_key + (infop->id - 1); else { if (rp->segid >= __os_segdata_size || rp->segid == INVALID_REGION_SEGID) { __db_err(dbenv, "Invalid segment id given"); return (EAGAIN); } segid = __os_segdata[rp->segid].segid; } for (i = 0; i < __os_segdata_size; i++) { p = &__os_segdata[i]; if (p->name != NULL && strcmp(name, p->name) == 0 && p->segid == segid) { infop->addr = p->segment; rp->segid = i; return (0); } } return (ENOENT); } /* * __os_segdata_release -- * Free a segdata entry. */ static int __os_segdata_release(dbenv, rp, is_locked) DB_ENV *dbenv; REGION *rp; int is_locked; { os_segdata_t *p; if (__os_segdata == NULL) { __db_err(dbenv, "shared memory segment not initialized"); return (EAGAIN); } if (rp->segid < 0 || rp->segid >= __os_segdata_size) { __db_err(dbenv, "segment id %ld out of range", rp->segid); return (EINVAL); } if (is_locked == 0) DB_BEGIN_SINGLE_THREAD; p = &__os_segdata[rp->segid]; if (p->name != NULL) { __os_freestr(dbenv, p->name); p->name = NULL; } if (p->segment != NULL) { __os_free(dbenv, p->segment, p->size); p->segment = NULL; } p->size = 0; if (is_locked == 0) DB_END_SINGLE_THREAD; /* Any shrink-table logic could go here */ return (0); }