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drvrsmem.c
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drvrsmem.c
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/* S H A R E D M E M O R Y D R I V E R
=======================================
by Jerzy.Borkowski@obs.unige.ch
09-Mar-98 : initial version 1.0 released
23-Mar-98 : shared_malloc now accepts new handle as an argument
23-Mar-98 : shmem://0, shmem://1, etc changed to shmem://h0, etc due to bug
in url parser.
10-Apr-98 : code cleanup
13-May-99 : delayed initialization added, global table deleted on exit when
no shmem segments remain, and last process terminates
*/
#ifdef HAVE_SHMEM_SERVICES
#include "fitsio2.h" /* drvrsmem.h is included by it */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#if defined(unix) || defined(__unix__) || defined(__unix) || defined(HAVE_UNISTD_H)
#include <unistd.h>
#endif
static int shared_kbase = 0; /* base for shared memory handles */
static int shared_maxseg = 0; /* max number of shared memory blocks */
static int shared_range = 0; /* max number of tried entries */
static int shared_fd = SHARED_INVALID; /* handle of global access lock file */
static int shared_gt_h = SHARED_INVALID; /* handle of global table segment */
static SHARED_LTAB *shared_lt = NULL; /* local table pointer */
static SHARED_GTAB *shared_gt = NULL; /* global table pointer */
static int shared_create_mode = 0666; /* permission flags for created objects */
static int shared_debug = 1; /* simple debugging tool, set to 0 to disable messages */
static int shared_init_called = 0; /* flag whether shared_init() has been called, used for delayed init */
/* static support routines prototypes */
static int shared_clear_entry(int idx); /* unconditionally clear entry */
static int shared_destroy_entry(int idx); /* unconditionally destroy sema & shseg and clear entry */
static int shared_mux(int idx, int mode); /* obtain exclusive access to specified segment */
static int shared_demux(int idx, int mode); /* free exclusive access to specified segment */
static int shared_process_count(int sem); /* valid only for time of invocation */
static int shared_delta_process(int sem, int delta); /* change number of processes hanging on segment */
static int shared_attach_process(int sem);
static int shared_detach_process(int sem);
static int shared_get_free_entry(int newhandle); /* get free entry in shared_key, or -1, entry is set rw locked */
static int shared_get_hash(long size, int idx);/* return hash value for malloc */
static long shared_adjust_size(long size); /* size must be >= 0 !!! */
static int shared_check_locked_index(int idx); /* verify that given idx is valid */
static int shared_map(int idx); /* map all tables for given idx, check for validity */
static int shared_validate(int idx, int mode); /* use intrnally inside crit.sect !!! */
/* support routines - initialization */
static int shared_clear_entry(int idx) /* unconditionally clear entry */
{ if ((idx < 0) || (idx >= shared_maxseg)) return(SHARED_BADARG);
shared_gt[idx].key = SHARED_INVALID; /* clear entries in global table */
shared_gt[idx].handle = SHARED_INVALID;
shared_gt[idx].sem = SHARED_INVALID;
shared_gt[idx].semkey = SHARED_INVALID;
shared_gt[idx].nprocdebug = 0;
shared_gt[idx].size = 0;
shared_gt[idx].attr = 0;
return(SHARED_OK);
}
static int shared_destroy_entry(int idx) /* unconditionally destroy sema & shseg and clear entry */
{ int r, r2;
union semun filler;
if ((idx < 0) || (idx >= shared_maxseg)) return(SHARED_BADARG);
r2 = r = SHARED_OK;
filler.val = 0; /* this is to make cc happy (warning otherwise) */
if (SHARED_INVALID != shared_gt[idx].sem) r = semctl(shared_gt[idx].sem, 0, IPC_RMID, filler); /* destroy semaphore */
if (SHARED_INVALID != shared_gt[idx].handle) r2 = shmctl(shared_gt[idx].handle, IPC_RMID, 0); /* destroy shared memory segment */
if (SHARED_OK == r) r = r2; /* accumulate error code in r, free r2 */
r2 = shared_clear_entry(idx);
return((SHARED_OK == r) ? r2 : r);
}
void shared_cleanup(void) /* this must (should) be called during exit/abort */
{ int i, j, r, oktodelete, filelocked, segmentspresent;
flock_t flk;
struct shmid_ds ds;
if (shared_debug) printf("shared_cleanup:");
if (NULL != shared_lt)
{ if (shared_debug) printf(" deleting segments:");
for (i=0; i<shared_maxseg; i++)
{ if (0 == shared_lt[i].tcnt) continue; /* we're not using this segment, skip this ... */
if (-1 != shared_lt[i].lkcnt) continue; /* seg not R/W locked by us, skip this ... */
r = shared_destroy_entry(i); /* destroy unconditionally sema & segment */
if (shared_debug)
{ if (SHARED_OK == r) printf(" [%d]", i);
else printf(" [error on %d !!!!]", i);
}
}
free((void *)shared_lt); /* free local table */
shared_lt = NULL;
}
if (NULL != shared_gt) /* detach global index table */
{ oktodelete = 0;
filelocked = 0;
if (shared_debug) printf(" detaching globalsharedtable");
if (SHARED_INVALID != shared_fd)
flk.l_type = F_WRLCK; /* lock whole lock file */
flk.l_whence = 0;
flk.l_start = 0;
flk.l_len = shared_maxseg;
if (-1 != fcntl(shared_fd, F_SETLK, &flk))
{ filelocked = 1; /* success, scan global table, to see if there are any segs */
segmentspresent = 0; /* assume, there are no segs in the system */
for (j=0; j<shared_maxseg; j++)
{ if (SHARED_INVALID != shared_gt[j].key)
{ segmentspresent = 1; /* yes, there is at least one */
break;
}
}
if (0 == segmentspresent) /* if there are no segs ... */
if (0 == shmctl(shared_gt_h, IPC_STAT, &ds)) /* get number of processes attached to table */
{ if (ds.shm_nattch <= 1) oktodelete = 1; /* if only one (we), then it is safe (but see text 4 lines later) to unlink */
}
}
shmdt((char *)shared_gt); /* detach global table */
if (oktodelete) /* delete global table from system, if no shm seg present */
{ shmctl(shared_gt_h, IPC_RMID, 0); /* there is a race condition here - time window between shmdt and shmctl */
shared_gt_h = SHARED_INVALID;
}
shared_gt = NULL;
if (filelocked) /* if we locked, we need to unlock */
{ flk.l_type = F_UNLCK;
flk.l_whence = 0;
flk.l_start = 0;
flk.l_len = shared_maxseg;
fcntl(shared_fd, F_SETLK, &flk);
}
}
shared_gt_h = SHARED_INVALID;
if (SHARED_INVALID != shared_fd) /* close lock file */
{ if (shared_debug) printf(" closing lockfile");
close(shared_fd);
shared_fd = SHARED_INVALID;
}
shared_kbase = 0;
shared_maxseg = 0;
shared_range = 0;
shared_init_called = 0;
if (shared_debug) printf(" <<done>>\n");
return;
}
int shared_init(int debug_msgs) /* initialize shared memory stuff, you have to call this routine once */
{ int i;
char buf[1000], *p;
mode_t oldumask;
shared_init_called = 1; /* tell everybody no need to call us for the 2nd time */
shared_debug = debug_msgs; /* set required debug mode */
if (shared_debug) printf("shared_init:");
shared_kbase = 0; /* adapt to current env. settings */
if (NULL != (p = getenv(SHARED_ENV_KEYBASE))) shared_kbase = atoi(p);
if (0 == shared_kbase) shared_kbase = SHARED_KEYBASE;
if (shared_debug) printf(" keybase=%d", shared_kbase);
shared_maxseg = 0;
if (NULL != (p = getenv(SHARED_ENV_MAXSEG))) shared_maxseg = atoi(p);
if (0 == shared_maxseg) shared_maxseg = SHARED_MAXSEG;
if (shared_debug) printf(" maxseg=%d", shared_maxseg);
shared_range = 3 * shared_maxseg;
if (SHARED_INVALID == shared_fd) /* create rw locking file (this file is never deleted) */
{ if (shared_debug) printf(" lockfileinit=");
snprintf(buf, 1000,"%s.%d.%d", SHARED_FDNAME, shared_kbase, shared_maxseg);
oldumask = umask(0);
shared_fd = open(buf, O_TRUNC | O_EXCL | O_CREAT | O_RDWR, shared_create_mode);
umask(oldumask);
if (SHARED_INVALID == shared_fd) /* or just open rw locking file, in case it already exists */
{ shared_fd = open(buf, O_TRUNC | O_RDWR, shared_create_mode);
if (SHARED_INVALID == shared_fd) return(SHARED_NOFILE);
if (shared_debug) printf("slave");
}
else
{ if (shared_debug) printf("master");
}
}
if (SHARED_INVALID == shared_gt_h) /* global table not attached, try to create it in shared memory */
{ if (shared_debug) printf(" globalsharedtableinit=");
shared_gt_h = shmget(shared_kbase, shared_maxseg * sizeof(SHARED_GTAB), IPC_CREAT | IPC_EXCL | shared_create_mode); /* try open as a master */
if (SHARED_INVALID == shared_gt_h) /* if failed, try to open as a slave */
{ shared_gt_h = shmget(shared_kbase, shared_maxseg * sizeof(SHARED_GTAB), shared_create_mode);
if (SHARED_INVALID == shared_gt_h) return(SHARED_IPCERR); /* means deleted ID residing in system, shared mem unusable ... */
shared_gt = (SHARED_GTAB *)shmat(shared_gt_h, 0, 0); /* attach segment */
if (((SHARED_GTAB *)SHARED_INVALID) == shared_gt) return(SHARED_IPCERR);
if (shared_debug) printf("slave");
}
else
{ shared_gt = (SHARED_GTAB *)shmat(shared_gt_h, 0, 0); /* attach segment */
if (((SHARED_GTAB *)SHARED_INVALID) == shared_gt) return(SHARED_IPCERR);
for (i=0; i<shared_maxseg; i++) shared_clear_entry(i); /* since we are master, init data */
if (shared_debug) printf("master");
}
}
if (NULL == shared_lt) /* initialize local table */
{ if (shared_debug) printf(" localtableinit=");
if (NULL == (shared_lt = (SHARED_LTAB *)malloc(shared_maxseg * sizeof(SHARED_LTAB)))) return(SHARED_NOMEM);
for (i=0; i<shared_maxseg; i++)
{ shared_lt[i].p = NULL; /* not mapped */
shared_lt[i].tcnt = 0; /* unused (or zero threads using this seg) */
shared_lt[i].lkcnt = 0; /* segment is unlocked */
shared_lt[i].seekpos = 0L; /* r/w pointer at the beginning of file */
}
if (shared_debug) printf("ok");
}
atexit(shared_cleanup); /* we want shared_cleanup to be called at exit or abort */
if (shared_debug) printf(" <<done>>\n");
return(SHARED_OK);
}
int shared_recover(int id) /* try to recover dormant segments after applic crash */
{ int i, r, r2;
if (NULL == shared_gt) return(SHARED_NOTINIT); /* not initialized */
if (NULL == shared_lt) return(SHARED_NOTINIT); /* not initialized */
r = SHARED_OK;
for (i=0; i<shared_maxseg; i++)
{ if (-1 != id) if (i != id) continue;
if (shared_lt[i].tcnt) continue; /* somebody (we) is using it */
if (SHARED_INVALID == shared_gt[i].key) continue; /* unused slot */
if (shared_mux(i, SHARED_NOWAIT | SHARED_RDWRITE)) continue; /* acquire exclusive access to segment, but do not wait */
r2 = shared_process_count(shared_gt[i].sem);
if ((shared_gt[i].nprocdebug > r2) || (0 == r2))
{ if (shared_debug) printf("Bogus handle=%d nproc=%d sema=%d:", i, shared_gt[i].nprocdebug, r2);
r = shared_destroy_entry(i);
if (shared_debug)
{ printf("%s", r ? "error couldn't clear handle" : "handle cleared");
}
}
shared_demux(i, SHARED_RDWRITE);
}
return(r); /* table full */
}
/* API routines - mutexes and locking */
static int shared_mux(int idx, int mode) /* obtain exclusive access to specified segment */
{ flock_t flk;
int r;
if (0 == shared_init_called) /* delayed initialization */
{ if (SHARED_OK != (r = shared_init(0))) return(r);
}
if (SHARED_INVALID == shared_fd) return(SHARED_NOTINIT);
if ((idx < 0) || (idx >= shared_maxseg)) return(SHARED_BADARG);
flk.l_type = ((mode & SHARED_RDWRITE) ? F_WRLCK : F_RDLCK);
flk.l_whence = 0;
flk.l_start = idx;
flk.l_len = 1;
if (shared_debug) printf(" [mux (%d): ", idx);
if (-1 == fcntl(shared_fd, ((mode & SHARED_NOWAIT) ? F_SETLK : F_SETLKW), &flk))
{ switch (errno)
{ case EAGAIN: ;
case EACCES: if (shared_debug) printf("again]");
return(SHARED_AGAIN);
default: if (shared_debug) printf("err]");
return(SHARED_IPCERR);
}
}
if (shared_debug) printf("ok]");
return(SHARED_OK);
}
static int shared_demux(int idx, int mode) /* free exclusive access to specified segment */
{ flock_t flk;
if (SHARED_INVALID == shared_fd) return(SHARED_NOTINIT);
if ((idx < 0) || (idx >= shared_maxseg)) return(SHARED_BADARG);
flk.l_type = F_UNLCK;
flk.l_whence = 0;
flk.l_start = idx;
flk.l_len = 1;
if (shared_debug) printf(" [demux (%d): ", idx);
if (-1 == fcntl(shared_fd, F_SETLKW, &flk))
{ switch (errno)
{ case EAGAIN: ;
case EACCES: if (shared_debug) printf("again]");
return(SHARED_AGAIN);
default: if (shared_debug) printf("err]");
return(SHARED_IPCERR);
}
}
if (shared_debug) printf("mode=%d ok]", mode);
return(SHARED_OK);
}
static int shared_process_count(int sem) /* valid only for time of invocation */
{ union semun su;
su.val = 0; /* to force compiler not to give warning messages */
return(semctl(sem, 0, GETVAL, su)); /* su is unused here */
}
static int shared_delta_process(int sem, int delta) /* change number of processes hanging on segment */
{ struct sembuf sb;
if (SHARED_INVALID == sem) return(SHARED_BADARG); /* semaphore not attached */
sb.sem_num = 0;
sb.sem_op = delta;
sb.sem_flg = SEM_UNDO;
return((-1 == semop(sem, &sb, 1)) ? SHARED_IPCERR : SHARED_OK);
}
static int shared_attach_process(int sem)
{ if (shared_debug) printf(" [attach process]");
return(shared_delta_process(sem, 1));
}
static int shared_detach_process(int sem)
{ if (shared_debug) printf(" [detach process]");
return(shared_delta_process(sem, -1));
}
/* API routines - hashing and searching */
static int shared_get_free_entry(int newhandle) /* get newhandle, or -1, entry is set rw locked */
{
if (NULL == shared_gt) return(-1); /* not initialized */
if (NULL == shared_lt) return(-1); /* not initialized */
if (newhandle < 0) return(-1);
if (newhandle >= shared_maxseg) return(-1);
if (shared_lt[newhandle].tcnt) return(-1); /* somebody (we) is using it */
if (shared_mux(newhandle, SHARED_NOWAIT | SHARED_RDWRITE)) return(-1); /* used by others */
if (SHARED_INVALID == shared_gt[newhandle].key) return(newhandle); /* we have found free slot, lock it and return index */
shared_demux(newhandle, SHARED_RDWRITE);
if (shared_debug) printf("[free_entry - ERROR - entry unusable]");
return(-1); /* table full */
}
static int shared_get_hash(long size, int idx) /* return hash value for malloc */
{ static int counter = 0;
int hash;
hash = (counter + size * idx) % shared_range;
counter = (counter + 1) % shared_range;
return(hash);
}
static long shared_adjust_size(long size) /* size must be >= 0 !!! */
{ return(((size + sizeof(BLKHEAD) + SHARED_GRANUL - 1) / SHARED_GRANUL) * SHARED_GRANUL); }
/* API routines - core : malloc/realloc/free/attach/detach/lock/unlock */
int shared_malloc(long size, int mode, int newhandle) /* return idx or SHARED_INVALID */
{ int h, i, r, idx, key;
union semun filler;
BLKHEAD *bp;
if (0 == shared_init_called) /* delayed initialization */
{ if (SHARED_OK != (r = shared_init(0))) return(r);
}
if (shared_debug) printf("malloc (size = %ld, mode = %d):", size, mode);
if (size < 0) return(SHARED_INVALID);
if (-1 == (idx = shared_get_free_entry(newhandle))) return(SHARED_INVALID);
if (shared_debug) printf(" idx=%d", idx);
for (i = 0; ; i++)
{ if (i >= shared_range) /* table full, signal error & exit */
{ shared_demux(idx, SHARED_RDWRITE);
return(SHARED_INVALID);
}
key = shared_kbase + ((i + shared_get_hash(size, idx)) % shared_range);
if (shared_debug) printf(" key=%d", key);
h = shmget(key, shared_adjust_size(size), IPC_CREAT | IPC_EXCL | shared_create_mode);
if (shared_debug) printf(" handle=%d", h);
if (SHARED_INVALID == h) continue; /* segment already accupied */
bp = (BLKHEAD *)shmat(h, 0, 0); /* try attach */
if (shared_debug) printf(" p=%p", bp);
if (((BLKHEAD *)SHARED_INVALID) == bp) /* cannot attach, delete segment, try with another key */
{ shmctl(h, IPC_RMID, 0);
continue;
} /* now create semaphor counting number of processes attached */
if (SHARED_INVALID == (shared_gt[idx].sem = semget(key, 1, IPC_CREAT | IPC_EXCL | shared_create_mode)))
{ shmdt((void *)bp); /* cannot create segment, delete everything */
shmctl(h, IPC_RMID, 0);
continue; /* try with another key */
}
if (shared_debug) printf(" sem=%d", shared_gt[idx].sem);
if (shared_attach_process(shared_gt[idx].sem)) /* try attach process */
{ semctl(shared_gt[idx].sem, 0, IPC_RMID, filler); /* destroy semaphore */
shmdt((char *)bp); /* detach shared mem segment */
shmctl(h, IPC_RMID, 0); /* destroy shared mem segment */
continue; /* try with another key */
}
bp->s.tflag = BLOCK_SHARED; /* fill in data in segment's header (this is really not necessary) */
bp->s.ID[0] = SHARED_ID_0;
bp->s.ID[1] = SHARED_ID_1;
bp->s.handle = idx; /* used in yorick */
if (mode & SHARED_RESIZE)
{ if (shmdt((char *)bp)) r = SHARED_IPCERR; /* if segment is resizable, then detach segment */
shared_lt[idx].p = NULL;
}
else { shared_lt[idx].p = bp; }
shared_lt[idx].tcnt = 1; /* one thread using segment */
shared_lt[idx].lkcnt = 0; /* no locks at the moment */
shared_lt[idx].seekpos = 0L; /* r/w pointer positioned at beg of block */
shared_gt[idx].handle = h; /* fill in data in global table */
shared_gt[idx].size = size;
shared_gt[idx].attr = mode;
shared_gt[idx].semkey = key;
shared_gt[idx].key = key;
shared_gt[idx].nprocdebug = 0;
break;
}
shared_demux(idx, SHARED_RDWRITE); /* hope this will not fail */
return(idx);
}
int shared_attach(int idx)
{ int r, r2;
if (SHARED_OK != (r = shared_mux(idx, SHARED_RDWRITE | SHARED_WAIT))) return(r);
if (SHARED_OK != (r = shared_map(idx)))
{ shared_demux(idx, SHARED_RDWRITE);
return(r);
}
if (shared_attach_process(shared_gt[idx].sem)) /* try attach process */
{ shmdt((char *)(shared_lt[idx].p)); /* cannot attach process, detach everything */
shared_lt[idx].p = NULL;
shared_demux(idx, SHARED_RDWRITE);
return(SHARED_BADARG);
}
shared_lt[idx].tcnt++; /* one more thread is using segment */
if (shared_gt[idx].attr & SHARED_RESIZE) /* if resizeable, detach and return special pointer */
{ if (shmdt((char *)(shared_lt[idx].p))) r = SHARED_IPCERR; /* if segment is resizable, then detach segment */
shared_lt[idx].p = NULL;
}
shared_lt[idx].seekpos = 0L; /* r/w pointer positioned at beg of block */
r2 = shared_demux(idx, SHARED_RDWRITE);
return(r ? r : r2);
}
static int shared_check_locked_index(int idx) /* verify that given idx is valid */
{ int r;
if (0 == shared_init_called) /* delayed initialization */
{ if (SHARED_OK != (r = shared_init(0))) return(r);
}
if ((idx < 0) || (idx >= shared_maxseg)) return(SHARED_BADARG);
if (NULL == shared_lt[idx].p) return(SHARED_BADARG); /* NULL pointer, not attached ?? */
if (0 == shared_lt[idx].lkcnt) return(SHARED_BADARG); /* not locked ?? */
if ((SHARED_ID_0 != (shared_lt[idx].p)->s.ID[0]) || (SHARED_ID_1 != (shared_lt[idx].p)->s.ID[1]) ||
(BLOCK_SHARED != (shared_lt[idx].p)->s.tflag)) /* invalid data in segment */
return(SHARED_BADARG);
return(SHARED_OK);
}
static int shared_map(int idx) /* map all tables for given idx, check for validity */
{ int h; /* have to obtain excl. access before calling shared_map */
BLKHEAD *bp;
if ((idx < 0) || (idx >= shared_maxseg)) return(SHARED_BADARG);
if (SHARED_INVALID == shared_gt[idx].key) return(SHARED_BADARG);
if (SHARED_INVALID == (h = shmget(shared_gt[idx].key, 1, shared_create_mode))) return(SHARED_BADARG);
if (((BLKHEAD *)SHARED_INVALID) == (bp = (BLKHEAD *)shmat(h, 0, 0))) return(SHARED_BADARG);
if ((SHARED_ID_0 != bp->s.ID[0]) || (SHARED_ID_1 != bp->s.ID[1]) || (BLOCK_SHARED != bp->s.tflag) || (h != shared_gt[idx].handle))
{ shmdt((char *)bp); /* invalid segment, detach everything */
return(SHARED_BADARG);
}
if (shared_gt[idx].sem != semget(shared_gt[idx].semkey, 1, shared_create_mode)) /* check if sema is still there */
{ shmdt((char *)bp); /* cannot attach semaphore, detach everything */
return(SHARED_BADARG);
}
shared_lt[idx].p = bp; /* store pointer to shmem data */
return(SHARED_OK);
}
static int shared_validate(int idx, int mode) /* use intrnally inside crit.sect !!! */
{ int r;
if (SHARED_OK != (r = shared_mux(idx, mode))) return(r); /* idx checked by shared_mux */
if (NULL == shared_lt[idx].p)
if (SHARED_OK != (r = shared_map(idx)))
{ shared_demux(idx, mode);
return(r);
}
if ((SHARED_ID_0 != (shared_lt[idx].p)->s.ID[0]) || (SHARED_ID_1 != (shared_lt[idx].p)->s.ID[1]) || (BLOCK_SHARED != (shared_lt[idx].p)->s.tflag))
{ shared_demux(idx, mode);
return(r);
}
return(SHARED_OK);
}
SHARED_P shared_realloc(int idx, long newsize) /* realloc shared memory segment */
{ int h, key, i, r;
BLKHEAD *bp;
long transfersize;
r = SHARED_OK;
if (newsize < 0) return(NULL);
if (shared_check_locked_index(idx)) return(NULL);
if (0 == (shared_gt[idx].attr & SHARED_RESIZE)) return(NULL);
if (-1 != shared_lt[idx].lkcnt) return(NULL); /* check for RW lock */
if (shared_adjust_size(shared_gt[idx].size) == shared_adjust_size(newsize))
{ shared_gt[idx].size = newsize;
return((SHARED_P)((shared_lt[idx].p) + 1));
}
for (i = 0; ; i++)
{ if (i >= shared_range) return(NULL); /* table full, signal error & exit */
key = shared_kbase + ((i + shared_get_hash(newsize, idx)) % shared_range);
h = shmget(key, shared_adjust_size(newsize), IPC_CREAT | IPC_EXCL | shared_create_mode);
if (SHARED_INVALID == h) continue; /* segment already accupied */
bp = (BLKHEAD *)shmat(h, 0, 0); /* try attach */
if (((BLKHEAD *)SHARED_INVALID) == bp) /* cannot attach, delete segment, try with another key */
{ shmctl(h, IPC_RMID, 0);
continue;
}
*bp = *(shared_lt[idx].p); /* copy header, then data */
transfersize = ((newsize < shared_gt[idx].size) ? newsize : shared_gt[idx].size);
if (transfersize > 0)
memcpy((void *)(bp + 1), (void *)((shared_lt[idx].p) + 1), transfersize);
if (shmdt((char *)(shared_lt[idx].p))) r = SHARED_IPCERR; /* try to detach old segment */
if (shmctl(shared_gt[idx].handle, IPC_RMID, 0)) if (SHARED_OK == r) r = SHARED_IPCERR; /* destroy old shared memory segment */
shared_gt[idx].size = newsize; /* signal new size */
shared_gt[idx].handle = h; /* signal new handle */
shared_gt[idx].key = key; /* signal new key */
shared_lt[idx].p = bp;
break;
}
return((SHARED_P)(bp + 1));
}
int shared_free(int idx) /* detach segment, if last process & !PERSIST, destroy segment */
{ int cnt, r, r2;
if (SHARED_OK != (r = shared_validate(idx, SHARED_RDWRITE | SHARED_WAIT))) return(r);
if (SHARED_OK != (r = shared_detach_process(shared_gt[idx].sem))) /* update number of processes using segment */
{ shared_demux(idx, SHARED_RDWRITE);
return(r);
}
shared_lt[idx].tcnt--; /* update number of threads using segment */
if (shared_lt[idx].tcnt > 0) return(shared_demux(idx, SHARED_RDWRITE)); /* if more threads are using segment we are done */
if (shmdt((char *)(shared_lt[idx].p))) /* if, we are the last thread, try to detach segment */
{ shared_demux(idx, SHARED_RDWRITE);
return(SHARED_IPCERR);
}
shared_lt[idx].p = NULL; /* clear entry in local table */
shared_lt[idx].seekpos = 0L; /* r/w pointer positioned at beg of block */
if (-1 == (cnt = shared_process_count(shared_gt[idx].sem))) /* get number of processes hanging on segment */
{ shared_demux(idx, SHARED_RDWRITE);
return(SHARED_IPCERR);
}
if ((0 == cnt) && (0 == (shared_gt[idx].attr & SHARED_PERSIST))) r = shared_destroy_entry(idx); /* no procs on seg, destroy it */
r2 = shared_demux(idx, SHARED_RDWRITE);
return(r ? r : r2);
}
SHARED_P shared_lock(int idx, int mode) /* lock given segment for exclusive access */
{ int r;
if (shared_mux(idx, mode)) return(NULL); /* idx checked by shared_mux */
if (0 != shared_lt[idx].lkcnt) /* are we already locked ?? */
if (SHARED_OK != (r = shared_map(idx)))
{ shared_demux(idx, mode);
return(NULL);
}
if (NULL == shared_lt[idx].p) /* stupid pointer ?? */
if (SHARED_OK != (r = shared_map(idx)))
{ shared_demux(idx, mode);
return(NULL);
}
if ((SHARED_ID_0 != (shared_lt[idx].p)->s.ID[0]) || (SHARED_ID_1 != (shared_lt[idx].p)->s.ID[1]) || (BLOCK_SHARED != (shared_lt[idx].p)->s.tflag))
{ shared_demux(idx, mode);
return(NULL);
}
if (mode & SHARED_RDWRITE)
{ shared_lt[idx].lkcnt = -1;
shared_gt[idx].nprocdebug++;
}
else shared_lt[idx].lkcnt++;
shared_lt[idx].seekpos = 0L; /* r/w pointer positioned at beg of block */
return((SHARED_P)((shared_lt[idx].p) + 1));
}
int shared_unlock(int idx) /* unlock given segment, assumes seg is locked !! */
{ int r, r2, mode;
if (SHARED_OK != (r = shared_check_locked_index(idx))) return(r);
if (shared_lt[idx].lkcnt > 0)
{ shared_lt[idx].lkcnt--; /* unlock read lock */
mode = SHARED_RDONLY;
}
else
{ shared_lt[idx].lkcnt = 0; /* unlock write lock */
shared_gt[idx].nprocdebug--;
mode = SHARED_RDWRITE;
}
if (0 == shared_lt[idx].lkcnt) if (shared_gt[idx].attr & SHARED_RESIZE)
{ if (shmdt((char *)(shared_lt[idx].p))) r = SHARED_IPCERR; /* segment is resizable, then detach segment */
shared_lt[idx].p = NULL; /* signal detachment in local table */
}
r2 = shared_demux(idx, mode); /* unlock segment, rest is only parameter checking */
return(r ? r : r2);
}
/* API routines - support and info routines */
int shared_attr(int idx) /* get the attributes of the shared memory segment */
{ int r;
if (shared_check_locked_index(idx)) return(SHARED_INVALID);
r = shared_gt[idx].attr;
return(r);
}
int shared_set_attr(int idx, int newattr) /* get the attributes of the shared memory segment */
{ int r;
if (shared_check_locked_index(idx)) return(SHARED_INVALID);
if (-1 != shared_lt[idx].lkcnt) return(SHARED_INVALID); /* ADDED - check for RW lock */
r = shared_gt[idx].attr;
shared_gt[idx].attr = newattr;
return(r);
}
int shared_set_debug(int mode) /* set/reset debug mode */
{ int r = shared_debug;
shared_debug = mode;
return(r);
}
int shared_set_createmode(int mode) /* set/reset debug mode */
{ int r = shared_create_mode;
shared_create_mode = mode;
return(r);
}
int shared_list(int id)
{ int i, r;
if (NULL == shared_gt) return(SHARED_NOTINIT); /* not initialized */
if (NULL == shared_lt) return(SHARED_NOTINIT); /* not initialized */
if (shared_debug) printf("shared_list:");
r = SHARED_OK;
printf(" Idx Key Nproc Size Flags\n");
printf("==============================================\n");
for (i=0; i<shared_maxseg; i++)
{ if (-1 != id) if (i != id) continue;
if (SHARED_INVALID == shared_gt[i].key) continue; /* unused slot */
switch (shared_mux(i, SHARED_NOWAIT | SHARED_RDONLY)) /* acquire exclusive access to segment, but do not wait */
{ case SHARED_AGAIN:
printf("!%3d %08lx %4d %8d", i, (unsigned long int)shared_gt[i].key,
shared_gt[i].nprocdebug, shared_gt[i].size);
if (SHARED_RESIZE & shared_gt[i].attr) printf(" RESIZABLE");
if (SHARED_PERSIST & shared_gt[i].attr) printf(" PERSIST");
printf("\n");
break;
case SHARED_OK:
printf(" %3d %08lx %4d %8d", i, (unsigned long int)shared_gt[i].key,
shared_gt[i].nprocdebug, shared_gt[i].size);
if (SHARED_RESIZE & shared_gt[i].attr) printf(" RESIZABLE");
if (SHARED_PERSIST & shared_gt[i].attr) printf(" PERSIST");
printf("\n");
shared_demux(i, SHARED_RDONLY);
break;
default:
continue;
}
}
if (shared_debug) printf(" done\n");
return(r); /* table full */
}
int shared_getaddr(int id, char **address)
{ int i;
char segname[10];
if (NULL == shared_gt) return(SHARED_NOTINIT); /* not initialized */
if (NULL == shared_lt) return(SHARED_NOTINIT); /* not initialized */
strcpy(segname,"h");
snprintf(segname+1,9,"%d", id);
if (smem_open(segname,0,&i)) return(SHARED_BADARG);
*address = ((char *)(((DAL_SHM_SEGHEAD *)(shared_lt[i].p + 1)) + 1));
/* smem_close(i); */
return(SHARED_OK);
}
int shared_uncond_delete(int id)
{ int i, r;
if (NULL == shared_gt) return(SHARED_NOTINIT); /* not initialized */
if (NULL == shared_lt) return(SHARED_NOTINIT); /* not initialized */
if (shared_debug) printf("shared_uncond_delete:");
r = SHARED_OK;
for (i=0; i<shared_maxseg; i++)
{ if (-1 != id) if (i != id) continue;
if (shared_attach(i))
{ if (-1 != id) printf("no such handle\n");
continue;
}
printf("handle %d:", i);
if (NULL == shared_lock(i, SHARED_RDWRITE | SHARED_NOWAIT))
{ printf(" cannot lock in RW mode, not deleted\n");
continue;
}
if (shared_set_attr(i, SHARED_RESIZE) >= SHARED_ERRBASE)
{ printf(" cannot clear PERSIST attribute");
}
if (shared_free(i))
{ printf(" delete failed\n");
}
else
{ printf(" deleted\n");
}
}
if (shared_debug) printf(" done\n");
return(r); /* table full */
}
/************************* CFITSIO DRIVER FUNCTIONS ***************************/
int smem_init(void)
{ return(0);
}
int smem_shutdown(void)
{ if (shared_init_called) shared_cleanup();
return(0);
}
int smem_setoptions(int option)
{ option = 0;
return(0);
}
int smem_getoptions(int *options)
{ if (NULL == options) return(SHARED_NULPTR);
*options = 0;
return(0);
}
int smem_getversion(int *version)
{ if (NULL == version) return(SHARED_NULPTR);
*version = 10;
return(0);
}
int smem_open(char *filename, int rwmode, int *driverhandle)
{ int h, nitems, r;
DAL_SHM_SEGHEAD *sp;
if (NULL == filename) return(SHARED_NULPTR);
if (NULL == driverhandle) return(SHARED_NULPTR);
nitems = sscanf(filename, "h%d", &h);
if (1 != nitems) return(SHARED_BADARG);
if (SHARED_OK != (r = shared_attach(h))) return(r);
if (NULL == (sp = (DAL_SHM_SEGHEAD *)shared_lock(h,
((READWRITE == rwmode) ? SHARED_RDWRITE : SHARED_RDONLY))))
{ shared_free(h);
return(SHARED_BADARG);
}
if ((h != sp->h) || (DAL_SHM_SEGHEAD_ID != sp->ID))
{ shared_unlock(h);
shared_free(h);
return(SHARED_BADARG);
}
*driverhandle = h;
return(0);
}
int smem_create(char *filename, int *driverhandle)
{ DAL_SHM_SEGHEAD *sp;
int h, sz, nitems;
if (NULL == filename) return(SHARED_NULPTR); /* currently ignored */
if (NULL == driverhandle) return(SHARED_NULPTR);
nitems = sscanf(filename, "h%d", &h);
if (1 != nitems) return(SHARED_BADARG);
if (SHARED_INVALID == (h = shared_malloc(sz = 2880 + sizeof(DAL_SHM_SEGHEAD),
SHARED_RESIZE | SHARED_PERSIST, h)))
return(SHARED_NOMEM);
if (NULL == (sp = (DAL_SHM_SEGHEAD *)shared_lock(h, SHARED_RDWRITE)))
{ shared_free(h);
return(SHARED_BADARG);
}
sp->ID = DAL_SHM_SEGHEAD_ID;
sp->h = h;
sp->size = sz;
sp->nodeidx = -1;
*driverhandle = h;
return(0);
}
int smem_close(int driverhandle)
{ int r;
if (SHARED_OK != (r = shared_unlock(driverhandle))) return(r);
return(shared_free(driverhandle));
}
int smem_remove(char *filename)
{ int nitems, h, r;
if (NULL == filename) return(SHARED_NULPTR);
nitems = sscanf(filename, "h%d", &h);
if (1 != nitems) return(SHARED_BADARG);
if (0 == shared_check_locked_index(h)) /* are we locked ? */
{ if (-1 != shared_lt[h].lkcnt) /* are we locked RO ? */
{ if (SHARED_OK != (r = shared_unlock(h))) return(r); /* yes, so relock in RW */
if (NULL == shared_lock(h, SHARED_RDWRITE)) return(SHARED_BADARG);
}
}
else /* not locked */
{ if (SHARED_OK != (r = smem_open(filename, READWRITE, &h)))
return(r); /* so open in RW mode */
}
shared_set_attr(h, SHARED_RESIZE); /* delete PERSIST attribute */
return(smem_close(h)); /* detach segment (this will delete it) */
}
int smem_size(int driverhandle, LONGLONG *size)
{
if (NULL == size) return(SHARED_NULPTR);
if (shared_check_locked_index(driverhandle)) return(SHARED_INVALID);
*size = (LONGLONG) (shared_gt[driverhandle].size - sizeof(DAL_SHM_SEGHEAD));
return(0);
}
int smem_flush(int driverhandle)
{
if (shared_check_locked_index(driverhandle)) return(SHARED_INVALID);
return(0);
}
int smem_seek(int driverhandle, LONGLONG offset)
{
if (offset < 0) return(SHARED_BADARG);
if (shared_check_locked_index(driverhandle)) return(SHARED_INVALID);
shared_lt[driverhandle].seekpos = offset;
return(0);
}
int smem_read(int driverhandle, void *buffer, long nbytes)
{
if (NULL == buffer) return(SHARED_NULPTR);
if (shared_check_locked_index(driverhandle)) return(SHARED_INVALID);
if (nbytes < 0) return(SHARED_BADARG);
if ((shared_lt[driverhandle].seekpos + nbytes) > shared_gt[driverhandle].size)
return(SHARED_BADARG); /* read beyond EOF */
memcpy(buffer,
((char *)(((DAL_SHM_SEGHEAD *)(shared_lt[driverhandle].p + 1)) + 1)) +
shared_lt[driverhandle].seekpos,
nbytes);
shared_lt[driverhandle].seekpos += nbytes;
return(0);
}
int smem_write(int driverhandle, void *buffer, long nbytes)
{
if (NULL == buffer) return(SHARED_NULPTR);
if (shared_check_locked_index(driverhandle)) return(SHARED_INVALID);
if (-1 != shared_lt[driverhandle].lkcnt) return(SHARED_INVALID); /* are we locked RW ? */
if (nbytes < 0) return(SHARED_BADARG);
if ((unsigned long)(shared_lt[driverhandle].seekpos + nbytes) > (unsigned long)(shared_gt[driverhandle].size - sizeof(DAL_SHM_SEGHEAD)))
{ /* need to realloc shmem */
if (NULL == shared_realloc(driverhandle, shared_lt[driverhandle].seekpos + nbytes + sizeof(DAL_SHM_SEGHEAD)))
return(SHARED_NOMEM);
}
memcpy(((char *)(((DAL_SHM_SEGHEAD *)(shared_lt[driverhandle].p + 1)) + 1)) +
shared_lt[driverhandle].seekpos,
buffer,
nbytes);
shared_lt[driverhandle].seekpos += nbytes;
return(0);
}
#endif