netcdf-c/libnczarr/zmap_nz4.c
Dennis Heimbigner 25d2e05444 Prepare for the path management code
Rename some files in prep for eventual implementation
of more comprehensive cross-platform file path management.
2020-10-13 19:12:15 -06:00

613 lines
15 KiB
C

/*
* Copyright 2018, University Corporation for Atmospheric Research
* See netcdf/COPYRIGHT file for copying and redistribution conditions.
*/
#include "zincludes.h"
#include "fbits.h"
#include "ncpathmgr.h"
/*
Do a simple mapping of our simplified map model
to a netcdf-4 file.
For the object API, the mapping is as follows:
1. Every object (e.g. group or array) is mapped to a netcdf-4 group.
2. Object content is kept as a ubyte typed variable with one
unlimited dimension
*/
#undef DEBUG
#define NCZM_NC4_V1 1
/* What to replace ZDOT with */
#define ZDOTNC4 '_'
/* define the attr/var name containing an objects content */
#define ZCONTENT "data"
/* Define the dimension for the ZCONTENT variable */
/* Avoid creating a coordinate variable */
#define ZCONTENTDIM "data_dim"
/* Define the "subclass" of NCZMAP */
typedef struct Z4MAP {
NCZMAP map;
char* root;
int ncid;
} Z4MAP;
/* Forward */
static NCZMAP_API zapi;
static int znc4close(NCZMAP* map, int delete);
static int zlookupgroup(Z4MAP*, NClist* segments, int nskip, int* grpidp);
static int zlookupobj(Z4MAP*, NClist* segments, int* objidp);
static int zcreategroup(Z4MAP* z4map, NClist* segments, int nskip, int* grpidp);
static int zcreateobj(Z4MAP*, NClist* segments, int* objidp);
static int zcreatedim(Z4MAP*, int, int* dimidp);
static int parseurl(const char* path0, NCURI** urip);
static void nc4ify(const char* zname, char* nc4name);
static void zify(const char* nc4name, char* zname);
static int testcontentbearing(int grpid);
/* Define the Dataset level API */
static int
znc4create(const char *path, int mode, size64_t flags, void* parameters, NCZMAP** mapp)
{
int stat = NC_NOERR;
char* truepath = NULL;
char* local = NULL; /* localized truepath */
Z4MAP* z4map = NULL;
int ncid;
NCURI* url = NULL;
/* Fix up mode */
mode = (NC_NETCDF4 | NC_WRITE | mode);
if(flags & FLAG_BYTERANGE)
mode &= ~(NC_CLOBBER | NC_WRITE);
if(!(mode & NC_WRITE))
{stat = NC_EPERM; goto done;}
if((stat=parseurl(path,&url)))
goto done;
/* Canonicalize the root path */
if((stat = nczm_canonicalpath(url->path,&truepath))) goto done;
/* Also get local path */
if((stat = nczm_localize(truepath,&local,LOCALIZE))) goto done;
/* Build the z4 state */
if((z4map = calloc(1,sizeof(Z4MAP))) == NULL)
{stat = NC_ENOMEM; goto done;}
z4map->map.format = NCZM_NC4;
z4map->map.url = ncuribuild(url,NULL,NULL,NCURIALL);
z4map->map.mode = mode;
z4map->map.flags = flags;
z4map->map.api = &zapi;
z4map->root= truepath;
truepath = NULL;
if((stat=nc_create(local,mode,&ncid)))
{stat = NC_EEMPTY; goto done;} /* could not open */
z4map->ncid = ncid;
if(mapp) *mapp = (NCZMAP*)z4map;
done:
ncurifree(url);
nullfree(truepath);
nullfree(local);
if(stat) znc4close((NCZMAP*)z4map,1);
return (stat);
}
static int
znc4open(const char *path, int mode, size64_t flags, void* parameters, NCZMAP** mapp)
{
int stat = NC_NOERR;
char* truepath = NULL;
char* local = NULL;
Z4MAP* z4map = NULL;
int ncid;
NCURI* url = NULL;
/* Fixup mode */
mode = NC_NETCDF4 | mode;
if(flags & FLAG_BYTERANGE)
mode &= ~(NC_CLOBBER | NC_WRITE);
if((stat=parseurl(path,&url)))
goto done;
/* Canonicalize the root path */
if((stat = nczm_canonicalpath(url->path,&truepath))) goto done;
/* Also get local path */
if((stat = nczm_localize(truepath,&local,LOCALIZE))) goto done;
/* Build the z4 state */
if((z4map = calloc(1,sizeof(Z4MAP))) == NULL)
{stat = NC_ENOMEM; goto done;}
z4map->map.format = NCZM_NC4;
z4map->map.url = ncuribuild(url,NULL,NULL,NCURIALL);
z4map->map.mode = mode;
z4map->map.flags = flags;
z4map->map.api = (NCZMAP_API*)&zapi;
z4map->root = truepath;
truepath = NULL;
if((stat=nc_open(local,mode,&ncid)))
{stat = NC_EEMPTY; goto done;} /* could not open */
z4map->ncid = ncid;
if(mapp) *mapp = (NCZMAP*)z4map;
done:
nullfree(truepath);
nullfree(local);
ncurifree(url);
if(stat) znc4close((NCZMAP*)z4map,0);
return (stat);
}
/**************************************************/
/* Object API */
static int
znc4close(NCZMAP* map, int delete)
{
int stat = NC_NOERR;
Z4MAP* z4map = (Z4MAP*)map;
char* path = NULL;
if(map == NULL) return NC_NOERR;
path = z4map->root;
if((stat = nc_close(z4map->ncid)))
goto done;
if(delete) {
if((stat = nc_delete(path)))
goto done;
}
done:
nullfree(z4map->root);
nczm_clear(map);
free(z4map);
return (stat);
}
static int
znc4exists(NCZMAP* map, const char* key)
{
int stat = NC_NOERR;
Z4MAP* z4map = (Z4MAP*)map;
NClist* segments = nclistnew();
int grpid;
if((stat=nczm_split(key,segments)))
goto done;
switch(stat=zlookupobj(z4map,segments,&grpid)) {
case NC_NOERR: break;
case NC_ENOTFOUND: stat = NC_EEMPTY; /* Does not exist */
case NC_EEMPTY: /* Not an object */
default: break; /* other error */
}
done:
nclistfreeall(segments);
return (stat);
}
static int
znc4len(NCZMAP* map, const char* key, size64_t* lenp)
{
int stat = NC_NOERR;
Z4MAP* z4map = (Z4MAP*)map;
NClist* segments = nclistnew();
int grpid, vid;
size_t dimlen;
int dimids[1];
if((stat=nczm_split(key,segments)))
goto done;
switch(stat=zlookupobj(z4map,segments,&grpid)) {
case NC_NOERR:
/* Look for the data variable */
if((stat = nc_inq_varid(grpid,ZCONTENT,&vid))) goto done;
/* Get size for this variable */
if((stat = nc_inq_vardimid(grpid,vid,dimids))) goto done;
/* Get size of the one and only dim */
if((stat = nc_inq_dimlen(z4map->ncid,dimids[0],&dimlen))) goto done;
if(lenp) *lenp = (size64_t)dimlen;
break;
case NC_ENOTFOUND: stat = NC_EEMPTY; /* does not exist */
case NC_EEMPTY: /* Not an object */
if(lenp) *lenp = 0;
break;
default: break;
}
done:
nclistfreeall(segments);
return (stat);
}
static int
znc4defineobj(NCZMAP* map, const char* key)
{
int stat = NC_NOERR;
int grpid;
Z4MAP* z4map = (Z4MAP*)map; /* cast to true type */
NClist* segments = nclistnew();
if((stat=nczm_split(key,segments)))
goto done;
switch (stat = zlookupobj(z4map,segments,&grpid)) {
case NC_NOERR: break; /* already exists */
case NC_ENOTFOUND: stat = NC_EEMPTY;
case NC_EEMPTY:
if((stat = zcreateobj(z4map,segments,&grpid))) goto done;
break;
default: break; /* other error */
}
done:
nclistfreeall(segments);
return (stat);
}
static int
znc4read(NCZMAP* map, const char* key, size64_t start, size64_t count, void* content)
{
int stat = NC_NOERR;
int grpid,vid;
Z4MAP* z4map = (Z4MAP*)map; /* cast to true type */
size_t vstart[1];
size_t vcount[1];
NClist* segments = nclistnew();
if((stat=nczm_split(key,segments)))
goto done;
switch (stat = zlookupobj(z4map,segments,&grpid)) {
case NC_NOERR: /* exists */
/* Look for the data variable */
if((stat = nc_inq_varid(grpid,ZCONTENT,&vid))) goto done;
vstart[0] = (size_t)start;
vcount[0] = (size_t)count;
if((stat = nc_get_vara(grpid,vid,vstart,vcount,content))) goto done;
break;
case NC_ENOTFOUND: stat = NC_EEMPTY;
case NC_EEMPTY: break; /* no data */
default: break; /* other error */
}
done:
nclistfreeall(segments);
return (stat);
}
static int
znc4write(NCZMAP* map, const char* key, size64_t start, size64_t count, const void* content)
{
int stat = NC_NOERR;
int grpid,vid;
Z4MAP* z4map = (Z4MAP*)map; /* cast to true type */
size_t vstart[1];
size_t vcount[1];
NClist* segments = nclistnew();
if((stat=nczm_split(key,segments)))
goto done;
switch (stat = zlookupobj(z4map,segments,&grpid)) {
case NC_NOERR: /* exists */
/* Look for the data variable */
if((stat = nc_inq_varid(grpid,ZCONTENT,&vid))) goto done;
vstart[0] = (size_t)start;
vcount[0] = (size_t)count;
if((stat = nc_put_vara(grpid,vid,vstart,vcount,content))) goto done;
break;
case NC_ENOTFOUND: stat = NC_EEMPTY;
case NC_EEMPTY: break; /* no data */
default: break; /* other error */
}
done:
nclistfreeall(segments);
return (stat);
}
/*
Return a list of keys immediately "below" a specified prefix.
In theory, the returned list should be sorted in lexical order,
but it is not.
*/
int
znc4search(NCZMAP* map, const char* prefix, NClist* matches)
{
int stat = NC_NOERR;
Z4MAP* z4map = (Z4MAP*)map;
NClist* segments = nclistnew();
int grpid, ngrps;
int* subgrps = NULL;
int* vars = NULL;
int i;
NCbytes* key = ncbytesnew();
int trailing = 0;
if((stat=nczm_split(prefix,segments)))
goto done;
if(nclistlength(segments) > 0) {
/* Fix the last name */
size_t pos = nclistlength(segments)-1;
char* name = nclistget(segments,pos);
char zname[NC_MAX_NAME];
zify(name,zname);
nclistset(segments,pos,strdup(zname));
nullfree(name);
}
#ifdef DEBUG
{
int i;
fprintf(stderr,"segments: %d: ",nclistlength(segments));
for(i=0;i<nclistlength(segments);i++)
fprintf(stderr," |%s|",(char*)nclistget(segments,i));
}
fprintf(stderr,"\n");
#endif
/* Get grpid of the group for the prefix */
if((stat = zlookupgroup(z4map,segments,0,&grpid)))
goto done;
/* get subgroup ids */
if((stat = nc_inq_grps(grpid,&ngrps,NULL)))
goto done;
if((subgrps = calloc(1,sizeof(int)*ngrps)) == NULL)
{stat = NC_ENOMEM; goto done;}
if((stat = nc_inq_grps(grpid,&ngrps,subgrps)))
goto done;
/* Add the subgroup keys to the list of matches (zified) */
trailing = (prefix[strlen(prefix)-1] == '/'); /* does prefix end with '/' */
for(i=0;i<ngrps;i++) {
char gname[NC_MAX_NAME];
char zname[NC_MAX_NAME];
/* See if this group is content-bearing */
if((stat = nc_inq_grpname(subgrps[i],gname))) goto done;
zify(gname,zname);
ncbytescat(key,prefix);
if(!trailing) ncbytescat(key,"/");
ncbytescat(key,zname);
nclistpush(matches,ncbytesextract(key));
}
done:
ncbytesfree(key);
nullfree(vars);
nullfree(subgrps);
nclistfreeall(segments);
return stat;
}
/**************************************************/
/* Utilities */
static int
testcontentbearing(int grpid)
{
int stat = NC_NOERR;
int varid;
/* See if there is a content variable */
switch (stat = nc_inq_varid(grpid,ZCONTENT,&varid)) {
default: goto done; /* true error */
case NC_NOERR: /* This is a data bearing object */
return NC_NOERR;
case NC_ENOTVAR:
return NC_EEMPTY;
}
done:
return stat;
}
/* Lookup a group by parsed path (segments)*/
/* Return NC_ENOTFUND if not found */
static int
zlookupgroup(Z4MAP* z4map, NClist* segments, int nskip, int* grpidp)
{
int stat = NC_NOERR;
int i, len, grpid;
len = nclistlength(segments);
len += nskip; /* leave off last nskip segments */
grpid = z4map->ncid;
for(i=0;i<len;i++) {
int grpid2;
const char* seg = nclistget(segments,i);
char nc4name[NC_MAX_NAME];
nc4ify(seg,nc4name);
if((stat=nc_inq_grp_ncid(grpid,nc4name,&grpid2)))
{stat = NC_ENOTFOUND; goto done;}
grpid = grpid2;
}
/* ok, so grpid should be it */
if(grpidp) *grpidp = grpid;
done:
return (stat);
}
/* Lookup an object.
@return NC_NOERR if found and is a content-bearing object
@return NC_EEMPTY if exists but is not-content-bearing
@return NC_ENOTFOUND if not found
*/
static int
zlookupobj(Z4MAP* z4map, NClist* segments, int* grpidp)
{
int stat = NC_NOERR;
int grpid;
/* Lookup thru the final object group */
if((stat = zlookupgroup(z4map,segments,0,&grpid))) {
goto done;
}
/* See if this is content-bearing */
if((stat = testcontentbearing(grpid)))
goto done;
if(grpidp) *grpidp = grpid;
done:
return (stat);
}
/* Create a group; assume all intermediate groups exist
(do nothing if it already exists) */
static int
zcreategroup(Z4MAP* z4map, NClist* segments, int nskip, int* grpidp)
{
int stat = NC_NOERR;
int i, len, grpid, grpid2;
const char* gname = NULL;
char nc4name[NC_MAX_NAME];
len = nclistlength(segments);
len -= nskip; /* leave off last nskip segments (assume nskip > 0) */
gname = nclistget(segments,len-1);
grpid = z4map->ncid;
/* Do all but last group */
for(i=0;i<(len-1);i++) {
const char* seg = nclistget(segments,i);
nc4ify(seg,nc4name);
/* Does this group exist? */
if((stat=nc_inq_grp_ncid(grpid,nc4name,&grpid2)) == NC_ENOGRP) {
{stat = NC_ENOTFOUND; goto done;} /* missing intermediate */
}
grpid = grpid2;
}
/* Check status of last group */
nc4ify(gname,nc4name);
if((stat = nc_inq_grp_ncid(grpid,nc4name,&grpid2))) {
if(stat != NC_ENOGRP) goto done;
if((stat = nc_def_grp(grpid,nc4name,&grpid2)))
goto done;
grpid = grpid2;
}
if(grpidp) *grpidp = grpid;
done:
return (stat);
}
static int
zcreatedim(Z4MAP* z4map, int grpid, int* dimidp)
{
int stat = NC_NOERR;
int dimid;
NC_UNUSED(z4map);
if((stat=nc_inq_dimid(grpid,ZCONTENTDIM,&dimid))) {
/* create it */
if((stat=nc_def_dim(grpid,ZCONTENTDIM,NC_UNLIMITED,&dimid)))
goto done;
}
if(dimidp) *dimidp = dimid;
done:
return (stat);
}
/* Create an object group corresponding to a key; create any
necessary intermediates.
*/
static int
zcreateobj(Z4MAP* z4map, NClist* segments, int* grpidp)
{
int skip,stat = NC_NOERR;
int grpid, varid;
int dimid[1];
/* Create the whole path */
skip = nclistlength(segments);
for(skip--;skip >= 0; skip--) {
if((stat = zcreategroup(z4map,segments,skip,&grpid)))
goto done;
}
/* Last grpid should be one we want */
if(grpidp) *grpidp = grpid;
/* Create the content-bearer */
/* Create the corresponding dimension */
if((stat = zcreatedim(z4map,grpid,&dimid[0])))
goto done;
/* Create the variable */
if((stat=nc_def_var(grpid, ZCONTENT, NC_UBYTE, 1, dimid, &varid)))
goto done;
done:
return (stat);
}
static int
parseurl(const char* path0, NCURI** urip)
{
int stat = NC_NOERR;
NCURI* uri = NULL;
ncuriparse(path0,&uri);
if(uri == NULL)
{stat = NC_EURL; goto done;}
if(urip) {*urip = uri; uri = NULL;}
done:
ncurifree(uri);
return stat;
}
/* Convert _z... name to .z... name */
static void
zify(const char* nc4name, char* zname)
{
zname[0] = '\0';
strlcat(zname,nc4name,NC_MAX_NAME);
if(zname[0] == ZDOTNC4) zname[0] = NCZM_DOT;
}
/* Convert .z... name to _z... name */
static void
nc4ify(const char* zname, char* nc4name)
{
nc4name[0] = '\0';
strlcat(nc4name,zname,NC_MAX_NAME);
if(nc4name[0] == NCZM_DOT) nc4name[0] = ZDOTNC4;
}
/**************************************************/
/* External API objects */
NCZMAP_DS_API zmap_nz4 = {
NCZM_NC4_V1,
znc4create,
znc4open,
};
static NCZMAP_API zapi = {
NCZM_NC4_V1,
znc4close,
znc4exists,
znc4len,
znc4defineobj,
znc4read,
znc4write,
znc4search,
};