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netcdf-c/nczarr_test/zmapio.c
Dennis Heimbigner 0b7a5382e7 Codify cross-platform file paths 
The netcdf-c code has to deal with a variety of platforms:
Windows, OSX, Linux, Cygwin, MSYS, etc.  These platforms differ
significantly in the kind of file paths that they accept.  So in
order to handle this, I have created a set of replacements for
the most common file system operations such as _open_ or _fopen_
or _access_ to manage the file path differences correctly.

A more limited version of this idea was already implemented via
the ncwinpath.h and dwinpath.c code. So this can be viewed as a
replacement for that code. And in path in many cases, the only
change that was required was to replace '#include <ncwinpath.h>'
with '#include <ncpathmgt.h>' and then replace file operation
calls with the NCxxx equivalent from ncpathmgr.h Note that
recently, the ncwinpath.h was renamed ncpathmgmt.h, so this pull
request should not require dealing with winpath.

The heart of the change is include/ncpathmgmt.h, which provides
alternate operations such as NCfopen or NCaccess and which properly
parse and rebuild path arguments to work for the platform on which
the code is executing. This mostly matters for Windows because of the
way that it uses backslash and drive letters, as compared to *nix*.
One important feature is that the user can do string manipulations
on a file path without having to worry too much about the platform
because the path management code will properly handle most mixed cases.
So one can for example concatenate a path suffix that uses forward
slashes to a Windows path and have it work correctly.

The conversion code is in libdispatch/dpathmgr.c, and the
important function there is NCpathcvt which does the proper
conversions to the local path format.

As a rule, most code should just replace their file operations with
the corresponding NCxxx ones defined in include/ncpathmgmt.h. These
NCxxx functions all call NCpathcvt on their path arguments before
executing the actual file operation.

In some rare cases, the client may need to directly use NCpathcvt,
but this should be avoided as much as possible. If there is a need
for supporting a new file operation not already in ncpathmgmt.h, then
use the code in dpathmgr.c as a template. Also please notify Unidata
so we can include it as a formal part or our supported operations.
Also, if you see an operation in the library that is not using the
NCxxx form, then please submit an issue so we can fix it.

Misc. Changes:
* Clean up the utf8 testing code; it is impossible to get some
  tests to work under windows using shell scripts; the args do
  not pass as utf8 but as some other encoding.
* Added an extra utf8 test case: test_unicode_path.sh
* Add a true test for HDF5 1.10.6 or later because as noted in
  PR https://github.com/Unidata/netcdf-c/pull/1794,
  HDF5 changed its Windows file path handling.
2021-03-04 13:41:31 -07:00

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/*
* Copyright 2018, University Corporation for Atmospheric Research
* See netcdf/COPYRIGHT file for copying and redistribution conditions.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
#ifdef HAVE_GETOPT_H
#include <getopt.h>
#endif
#ifdef _WIN32
#include "XGetopt.h"
#endif
#include "zincludes.h"
#include "ncpathmgr.h"
#include "nclog.h"
#include "ncuri.h"
#define DEBUG
#define DATANAME "data"
typedef enum Mapop {
MOP_NONE=0,
MOP_OBJDUMP=1,
MOP_CLEAR=2
} Mapop;
typedef enum OBJKIND {
OK_NONE=0,
OK_META=1,
OK_CHUNK=2,
OK_GROUP=3
} OBJKIND;
static struct Mops {
Mapop mapop;
const char* opname;
} mapops[] = {
{MOP_NONE,"none"},
{MOP_OBJDUMP,"objdump"},
{MOP_CLEAR,"clear"},
{MOP_NONE,NULL}
};
static struct Type {
const char* typename;
nc_type nctype;
int typesize;
} types[] = {
{"ubyte",NC_UBYTE,1},
{"byte",NC_BYTE,1},
{"ushort",NC_USHORT,2},
{"short",NC_SHORT,2},
{"uint",NC_UINT,4},
{"int",NC_INT,4},
{"uint64",NC_UINT64,8},
{"int64",NC_INT64,8},
{"float",NC_FLOAT,4},
{"double",NC_DOUBLE,8},
{NULL,NC_NAT,0}
};
/* Command line options */
struct Dumpptions {
int debug;
Mapop mop;
char infile[4096];
NCZM_IMPL impl;
char* rootpath;
const struct Type* nctype;
} dumpoptions;
/* Forward */
static int objdump(void);
static NCZM_IMPL implfor(const char* path);
static void printcontent(size64_t len, const char* content, OBJKIND kind);
static int breadthfirst(NCZMAP* map, const char*, NClist* stack);
static char* rootpathfor(const char* path);
static OBJKIND keykind(const char* key);
static void sortlist(NClist* l);
static const char* filenamefor(const char* f0);
#define NCCHECK(expr) nccheck((expr),__LINE__)
static void nccheck(int stat, int line)
{
if(stat) {
fprintf(stderr,"%d: %s\n",line,nc_strerror(stat));
fflush(stderr);
exit(1);
}
}
static void
zmapusage(void)
{
fprintf(stderr,"usage: zmapio [-t <type>][-d][-v][-x] <file>\n");
exit(1);
}
static Mapop
decodeop(const char* name)
{
struct Mops* p = mapops;
for(;p->opname != NULL;p++) {
if(strcasecmp(p->opname,name)==0) return p->mapop;
}
return MOP_NONE;
}
static const struct Type*
decodetype(const char* name)
{
struct Type* p = types;
for(;p->typename != NULL;p++) {
if(strcasecmp(p->typename,name)==0) return p;
}
return NULL;
}
int
main(int argc, char** argv)
{
int stat = NC_NOERR;
int c;
memset((void*)&dumpoptions,0,sizeof(dumpoptions));
while ((c = getopt(argc, argv, "dvx:t:T:")) != EOF) {
switch(c) {
case 'd':
dumpoptions.debug = 1;
break;
case 'v':
zmapusage();
goto done;
case 't':
dumpoptions.nctype = decodetype(optarg);
if(dumpoptions.nctype == NULL) zmapusage();
break;
case 'x':
dumpoptions.mop = decodeop(optarg);
if(dumpoptions.mop == MOP_NONE) zmapusage();
break;
case 'T':
nctracelevel(atoi(optarg));
break;
case '?':
fprintf(stderr,"unknown option\n");
goto fail;
}
}
/* Default the kind */
if(dumpoptions.nctype == NULL) {
dumpoptions.nctype = &types[0];
fprintf(stderr,"Default type: %s\n",dumpoptions.nctype->typename);
}
/* get file argument */
argc -= optind;
argv += optind;
if (argc > 1) {
fprintf(stderr, "zmapio: only one input file argument permitted\n");
goto fail;
}
if (argc == 0) {
fprintf(stderr, "zmapio: no input file specified\n");
goto fail;
}
{
char* p = NC_backslashUnescape(argv[0]);
strcpy(dumpoptions.infile,filenamefor(p));
if(p) free(p);
}
if((dumpoptions.impl = implfor(dumpoptions.infile))== NCZM_UNDEF)
zmapusage();
if((dumpoptions.rootpath = rootpathfor(dumpoptions.infile))== NULL)
zmapusage();
switch (dumpoptions.mop) {
default:
fprintf(stderr,"Default action: objdump\n");
/* fall thru */
case MOP_OBJDUMP:
if((stat = objdump())) goto done;
break;
}
done:
/* Reclaim dumpoptions */
nullfree(dumpoptions.rootpath);
if(stat)
fprintf(stderr,"fail: %s\n",nc_strerror(stat));
return (stat ? 1 : 0);
fail:
stat = NC_EINVAL;
goto done;
}
static NCZM_IMPL
implfor(const char* path)
{
NCURI* uri = NULL;
const char* mode = NULL;
NClist* segments = nclistnew();
int i;
NCZM_IMPL impl = NCZM_UNDEF;
ncuriparse(path,&uri);
if(uri == NULL) goto done;
mode = ncurifragmentlookup(uri,"mode");
if(mode == NULL) goto done;
/* split on commas */
NCCHECK(nczm_split_delim(mode,',',segments));
for(i=0;i<nclistlength(segments);i++) {
const char* value = nclistget(segments,i);
if(strcmp(value,"file")==0) {impl = NCZM_FILE; goto done;}
if(strcmp(value,"zip")==0) {impl = NCZM_ZIP; goto done;}
if(strcmp(value,"s3")==0) {impl = NCZM_S3; goto done;}
}
done:
ncurifree(uri);
nclistfreeall(segments);
return impl;
}
static char*
rootpathfor(const char* path)
{
int stat = NC_NOERR;
NCURI* uri = NULL;
char* rootpath = NULL;
NClist* segments = nclistnew();
char* p = NULL;
ncuriparse(path,&uri);
if(uri == NULL) goto done;
switch (dumpoptions.impl) {
case NCZM_FILE:
case NCZM_ZIP:
rootpath = strdup("/"); /*constant*/
break;
case NCZM_S3:
/* Split the path part */
if((stat = nczm_split(uri->path,segments))) goto done;
/* remove the bucket name */
p = (char*)nclistremove(segments,0);
nullfree(p); p = NULL;
/* Put it back together */
if((stat = nczm_join(segments,&rootpath))) goto done;
break;
default:
stat = NC_EINVAL;
goto done;
}
done:
nclistfreeall(segments); segments = NULL;
ncurifree(uri); uri = NULL;
if(stat)
{nullfree(rootpath); rootpath = NULL;}
return rootpath;
}
static int
objdump(void)
{
int stat = NC_NOERR;
NCZMAP* map = NULL;
NClist* stack = nclistnew();
char* obj = NULL;
char* content = NULL;
int depth;
if((stat=nczmap_open(dumpoptions.impl, dumpoptions.infile, NC_NOCLOBBER, 0, NULL, &map)))
goto done;
/* Depth first walk all the groups to get all keys */
if((stat = breadthfirst(map,"/",stack))) goto done;
if(dumpoptions.debug) {
int i;
fprintf(stderr,"stack:\n");
for(i=0;i<nclistlength(stack);i++)
fprintf(stderr,"[%d] %s\n",i,(char*)nclistget(stack,i));
}
for(depth=0;nclistlength(stack) > 0;depth++) {
size64_t len = 0;
OBJKIND kind = 0;
int hascontent = 0;
obj = nclistremove(stack,0); /* zero pos is always top of stack */
kind = keykind(obj);
/* Now print info for this obj key */
switch (stat=nczmap_len(map,obj,&len)) {
case NC_NOERR: hascontent = 1; break;
case NC_EEMPTY: /* fall thru */ /* this is not a content bearing key */
case NC_EACCESS: hascontent = 0; len = 0; stat = NC_NOERR; break;
default: goto done;
}
if(!hascontent) goto next; /* ignore it */
if(len > 0) {
content = malloc(len+1);
if((stat=nczmap_read(map,obj,0,len,content))) goto done;
content[len] = '\0';
} else {
content = NULL;
}
if(hascontent) {
if(len > 0) {
assert(content != NULL);
if(kind == OK_CHUNK) len /= dumpoptions.nctype->typesize;
printf("[%d] %s : (%llu)",depth,obj,len);
if(kind == OK_CHUNK) printf(" (%s)",dumpoptions.nctype->typename);
printf(" |");
printcontent(len,content,kind);
printf("|\n");
} else {
printf("[%d] %s : (%llu) ||\n",depth,obj,len);
}
} else {
printf("[%d] %s\n",depth,obj);
}
nullfree(content); content = NULL;
next:
nullfree(obj); obj = NULL;
}
done:
nullfree(obj);
nullfree(content);
nczmap_close(map,0);
nclistfreeall(stack);
return stat;
}
/* Depth first walk all the groups to get all keys */
static int
breadthfirstR(NCZMAP* map, NCbytes* prefix, NClist* stack)
{
int stat = NC_NOERR;
NClist* nextlevel = nclistnew();
size_t mark;
const char* content;
int isroot = 0;
content = ncbytescontents(prefix);
if(content[0] == '/' && content[1] == '\0') isroot = 1;
if((stat=nczmap_search(map,content,nextlevel))) goto done;
/* Sort nextlevel */
sortlist(nextlevel);
/* Push new names onto the stack and recurse */
mark = ncbyteslength(prefix); /* save this position */
while(nclistlength(nextlevel) > 0) {
char* subkey = nclistremove(nextlevel,0);
if(!isroot) ncbytescat(prefix,"/");
ncbytescat(prefix,subkey);
nullfree(subkey);
nclistpush(stack,ncbytesdup(prefix));
if((stat = breadthfirstR(map,prefix,stack))) goto done;
ncbytessetlength(prefix,mark); ncbytesnull(prefix);
}
done:
nclistfreeall(nextlevel);
return stat;
}
/* Depth first walk all the groups to get all keys */
static int
breadthfirst(NCZMAP* map, const char* key, NClist* stack)
{
int stat = NC_NOERR;
NCbytes* prefix = ncbytesnew();
if(key == NULL || key[0] == '\0')
key = "/";
ncbytescat(prefix,key);
if(strlen(key) > 1 && key[strlen(key)-1]=='/') {
ncbytessetlength(prefix,ncbyteslength(prefix)-1); /* remove trailing '/' */
ncbytesnull(prefix);
}
stat = breadthfirstR(map,prefix,stack);
ncbytesfree(prefix);
return stat;
}
static char hex[16] = "0123456789abcdef";
static void
printcontent(size64_t len, const char* content, OBJKIND kind)
{
size64_t i;
unsigned int c0,c1;
for(i=0;i<len;i++) {
/* If kind is chunk, then len is # of values, not # of bytes */
switch(kind) {
case OK_CHUNK:
if(i > 0) printf(", ");
switch(dumpoptions.nctype->nctype) {
case NC_BYTE: printf("%d",((char*)content)[i]); break;
case NC_SHORT: printf("%d",((short*)content)[i]); break;
case NC_INT: printf("%d",((int*)content)[i]); break;
case NC_INT64: printf("%lld",((long long*)content)[i]); break;
case NC_UBYTE: printf("%u",((unsigned char*)content)[i]); break;
case NC_USHORT: printf("%u",((unsigned short*)content)[i]); break;
case NC_UINT: printf("%u",((unsigned int*)content)[i]); break;
case NC_UINT64: printf("%llu",((unsigned long long*)content)[i]); break;
case NC_FLOAT: printf("%f",((float*)content)[i]); break;
case NC_DOUBLE: printf("%lf",((double*)content)[i]); break;
default: abort();
}
break;
case OK_META:
printf("%c",content[i]);
break;
default:
c1 = (unsigned char)(content[i]);
c0 = c1 & 0xf;
c1 = (c1 >> 4);
c0 = hex[c0];
c1 = hex[c1];
printf("%c%c",(char)c1,(char)c0);
}
}
}
static char chunkchars[] = ".0123456789";
static OBJKIND
keykind(const char* key)
{
OBJKIND kind = OK_NONE;
char* suffix = NULL;
if(nczm_divide_at(key,-1,NULL,&suffix) == NC_NOERR) {
if(suffix) {
if(suffix[0] != '/')
kind = OK_NONE;
else if(suffix[1] == '.')
kind = OK_META;
else if(suffix[strlen(suffix)-1] == '/')
kind = OK_GROUP;
else {
char* p = suffix+1;
for(;*p;p++) {
if(strchr(chunkchars,*p) == NULL) break;
}
kind = OK_CHUNK;
}
}
}
nullfree(suffix);
return kind;
}
/* bubble sort a list of strings */
static void
sortlist(NClist* l)
{
size_t i, switched;
if(nclistlength(l) <= 1) return;
do {
switched = 0;
for(i=0;i<nclistlength(l)-1;i++) {
char* ith = nclistget(l,i);
char* ith1 = nclistget(l,i+1);
if(strcmp(ith,ith1) > 0) {
nclistset(l,i,ith1);
nclistset(l,i+1,ith);
switched = 1;
}
}
} while(switched);
#if 0
for(i=0;i<nclistlength(l);i++)
fprintf(stderr,"sorted: [%d] %s\n",i,(const char*)nclistget(l,i));
#endif
}
static const char* urlexts[] = {"nzf", "zip", "nz4", NULL};
static const char*
filenamefor(const char* f0)
{
static char result[4096];
const char** extp;
char* p;
NCURI* uri = NULL;
strcpy(result,f0); /* default */
ncuriparse(f0,&uri);
if(uri == NULL) {
/* Not a URL */
p = strrchr(f0,'.'); /* look at the extension, if any */
if(p == NULL) goto done; /* No extension */
p++;
for(extp=urlexts;*extp;extp++) {
if(strcmp(p,*extp)==0) break;
}
if(*extp == NULL) goto done; /* not found */
/* Assemble the url */
strcpy(result,"file://");
strcat(result,f0); /* core path */
strcat(result,"#mode=nczarr,");
strcat(result,*extp);
}
done:
ncurifree(uri);
return result;
}
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