netcdf-c/libsrc/winceio.c
Dennis Heimbigner 9380790ea8 Support MSYS2/Mingw platform
re:

The current netcdf-c release has some problems with the mingw platform
on windows. Mostly they are path issues.

Changes to support mingw+msys2:
-------------------------------
* Enable option of looking into the windows registry to find
  the mingw root path. In aid of proper path handling.
* Add mingw+msys as a specific platform in configure.ac and move testing
  of the platform to the front so it is available early.
* Handle mingw X libncpoco (dynamic loader) properly even though
  mingw does not yet support it.
* Handle mingw X plugins properly even though mingw does not yet support it.
* Alias pwd='pwd -W' to better handle paths in shell scripts.
* Plus a number of other minor compile irritations.
* Disallow the use of multiple nc_open's on the same file for windows
  (and mingw) because windows does not seem to handle these properly.
  Not sure why we did not catch this earlier.
* Add mountpoint info to dpathmgr.c to help support mingw.
* Cleanup dpathmgr conversions.

Known problems:
---------------
* I have not been able to get shared libraries to work, so
  plugins/filters must be disabled.
* There is some kind of problem with libcurl that I have not solved,
  so all uses of libcurl (currently DAP+Byterange) must be disabled.

Misc. other fixes:
------------------
* Cleanup the relationship between ENABLE_PLUGINS and various other flags
  in CMakeLists.txt and configure.ac.
* Re-arrange the TESTDIRS order in Makefile.am.
* Add pseudo-breakpoint to nclog.[ch] for debugging.
* Improve the documentation of the path manager code in ncpathmgr.h
* Add better support for relative paths in dpathmgr.c
* Default the mode args to NCfopen to include "b" (binary) for windows.
* Add optional debugging output in various places.
* Make sure that everything builds with plugins disabled.
* Fix numerous (s)printf inconsistencies betweenb the format spec
  and the arguments.
2021-12-23 22:18:56 -07:00

733 lines
14 KiB
C

/*
* Copyright 2018, University Corporation for Atmospheric Research
* See netcdf/COPYRIGHT file for copying and redistribution conditions.
*/
/* $Id: winceio.c,v 1.2 2010/05/04 17:30:04 dmh Exp $ */
/* Dennis Heimbigner 2010-3-04 */
#if HAVE_CONFIG_H
#include <config.h>
#endif
#include <assert.h>
#include <stdlib.h>
#include <stdio.h> /* DEBUG */
#ifndef _WIN32_WCE
#include <errno.h>
#else
#define EPERM NC_EPERM
#define ENOMEM NC_ENOMEM
#define EINVAL NC_EINVAL
#define EIO NC_EINVAL
#define EEXIST NC_EEXIST
#endif
#ifndef NC_NOERR
#define NC_NOERR 0
#endif
#include <string.h>
#include <stdio.h>
#include "ncpathmgr.h"
#include "ncio.h"
#include "fbits.h"
#include "rnd.h"
#if !defined(NDEBUG) && !defined(X_INT_MAX)
#define X_INT_MAX 2147483647
#endif
#if 0 /* !defined(NDEBUG) && !defined(X_ALIGN) */
#define X_ALIGN 4
#endif
#define ALWAYS_NC_SHARE 0 /* DEBUG */
#define DEFAULTBLKSIZE 32768
static FILE* descriptors[1024];
static int fdmax = 1; /* never use zero */
/* Begin OS */
/*
* What is the preferred I/O block size?
* (This becomes the default *sizehint == ncp->chunk in the higher layers.)
* TODO: What is the the best answer here?
*/
static size_t
blksize(int fd)
{
return (size_t) DEFAULTBLKSIZE;
}
/*
* Sortof like ftruncate, except won't make the
* file shorter.
*/
static int
fgrow(FILE* f, const off_t len)
{
int status = NC_NOERR;
long pos = ftell(f);
long size;
pos = ftell(f);
status = fseek(f,0,SEEK_END);
if(ferror(f)) return EIO;
size = ftell(f);
status = fseek(f,pos,SEEK_SET);
if(ferror(f)) return EIO;
if(len < size) return NC_NOERR;
else {
const long dumb = 0;
status = fseek(f, len-sizeof(dumb), SEEK_SET);
if(ferror(f)) return EIO;
fwrite((const void *)&dumb, 1, sizeof(dumb), f);
if(ferror(f)) return EIO;
status = fseek(f, pos, SEEK_SET);
if(ferror(f)) return EIO;
}
return NC_NOERR;
}
/*
* Sortof like ftruncate, except won't make the file shorter. Differs
* from fgrow by only writing one byte at designated seek position, if
* needed.
*/
static int
fgrow2(FILE* f, const off_t len)
{
int status = NC_NOERR;
long pos = ftell(f);
long size;
pos = ftell(f);
status = fseek(f,0,SEEK_END);
if(ferror(f)) return EIO;
size = ftell(f);
status = fseek(f,pos,SEEK_SET);
if(ferror(f)) return EIO;
if(len < size) return NC_NOERR;
else {
const char dumb = 0;
status = fseek(f, len-sizeof(dumb), SEEK_SET);
if(ferror(f)) return EIO;
fwrite((const void *)&dumb, 1, sizeof(dumb), f);
if(ferror(f)) return EIO;
status = fseek(f, pos, SEEK_SET);
if(ferror(f)) return EIO;
}
return NC_NOERR;
}
/* End OS */
/* Begin ffio */
static int
fileio_pgout(ncio *const nciop,
off_t const offset, const size_t extent,
const void *const vp, off_t *posp)
{
int status = NC_NOERR;
FILE* f = descriptors[nciop->fd];
#ifdef X_ALIGN
assert(offset % X_ALIGN == 0);
assert(extent % X_ALIGN == 0);
#endif
if(*posp != offset)
{
status = fseek(f, offset, SEEK_SET);
if(ferror(f)) return EIO;
*posp = offset;
}
fwrite(vp,1,extent,f);
if(ferror(f)) return EIO;
*posp += extent;
return NC_NOERR;
}
static int
fileio_pgin(ncio *const nciop,
off_t const offset, const size_t extent,
void *const vp, size_t *nreadp, off_t *posp)
{
int status = NC_NOERR;
ssize_t nread;
int count;
FILE* f = descriptors[nciop->fd];
#ifdef X_ALIGN
assert(offset % X_ALIGN == 0);
assert(extent % X_ALIGN == 0);
#endif
if(*posp != offset)
{
status = fseek(f, offset, SEEK_SET);
if(ferror(f)) return EIO;
*posp = offset;
}
nread = fread(vp,1,extent,f);
if(ferror(f)) return EIO;
*nreadp = nread;
*posp += nread;
return NC_NOERR;
}
/* */
typedef struct ncio_ffio {
off_t pos;
/* buffer */
off_t bf_offset;
size_t bf_extent;
size_t bf_cnt;
void *bf_base;
} ncio_ffio;
static int
ncio_fileio_rel(ncio *const nciop, off_t offset, int rflags)
{
int status = NC_NOERR;
FILE* f = descriptors[nciop->fd];
ncio_ffio *ffp = (ncio_ffio *)nciop->pvt;
assert(ffp->bf_offset <= offset);
assert(ffp->bf_cnt != 0);
assert(ffp->bf_cnt <= ffp->bf_extent);
#ifdef X_ALIGN
assert(offset < ffp->bf_offset + X_ALIGN);
assert(ffp->bf_cnt % X_ALIGN == 0 );
#endif
if(fIsSet(rflags, RGN_MODIFIED))
{
if(!fIsSet(nciop->ioflags, NC_WRITE))
return EPERM; /* attempt to write readonly file */
status = fileio_pgout(nciop, ffp->bf_offset,
ffp->bf_cnt,
ffp->bf_base, &ffp->pos);
/* if error, invalidate buffer anyway */
}
ffp->bf_offset = OFF_NONE;
ffp->bf_cnt = 0;
return status;
}
static int
ncio_fileio_get(ncio *const nciop,
off_t offset, size_t extent,
int rflags,
void **const vpp)
{
ncio_ffio *ffp = (ncio_ffio *)nciop->pvt;
int status = NC_NOERR;
FILE* f = descriptors[nciop->fd];
#ifdef X_ALIGN
size_t rem;
#endif
if(fIsSet(rflags, RGN_WRITE) && !fIsSet(nciop->ioflags, NC_WRITE))
return EPERM; /* attempt to write readonly file */
assert(extent != 0);
assert(extent < X_INT_MAX); /* sanity check */
assert(ffp->bf_cnt == 0);
#ifdef X_ALIGN
/* round to seekable boundaries */
rem = offset % X_ALIGN;
if(rem != 0)
{
offset -= rem;
extent += rem;
}
{
const size_t rndup = extent % X_ALIGN;
if(rndup != 0)
extent += X_ALIGN - rndup;
}
assert(offset % X_ALIGN == 0);
assert(extent % X_ALIGN == 0);
#endif
if(ffp->bf_extent < extent)
{
if(ffp->bf_base != NULL)
{
free(ffp->bf_base);
ffp->bf_base = NULL;
ffp->bf_extent = 0;
}
assert(ffp->bf_extent == 0);
ffp->bf_base = malloc(extent);
if(ffp->bf_base == NULL)
return ENOMEM;
ffp->bf_extent = extent;
}
status = fileio_pgin(nciop, offset,
extent,
ffp->bf_base,
&ffp->bf_cnt, &ffp->pos);
if(status != NC_NOERR)
return status;
ffp->bf_offset = offset;
if(ffp->bf_cnt < extent)
{
(void) memset((char *)ffp->bf_base + ffp->bf_cnt, 0,
extent - ffp->bf_cnt);
ffp->bf_cnt = extent;
}
#ifdef X_ALIGN
*vpp = (char *)ffp->bf_base + rem;
#else
*vpp = (char *)ffp->bf_base;
#endif
return NC_NOERR;
}
static int
ncio_fileio_move(ncio *const nciop, off_t to, off_t from,
size_t nbytes, int rflags)
{
int status = NC_NOERR;
off_t lower = from;
off_t upper = to;
char *base;
size_t diff = upper - lower;
size_t extent = diff + nbytes;
FILE* f = descriptors[nciop->fd];
rflags &= RGN_NOLOCK; /* filter unwanted flags */
if(to == from)
return NC_NOERR; /* NOOP */
if(to > from)
{
/* growing */
lower = from;
upper = to;
}
else
{
/* shrinking */
lower = to;
upper = from;
}
diff = upper - lower;
extent = diff + nbytes;
status = ncio_fileio_get(nciop, lower, extent, RGN_WRITE|rflags,
(void **)&base);
if(status != NC_NOERR)
return status;
if(to > from)
(void) memmove(base + diff, base, nbytes);
else
(void) memmove(base, base + diff, nbytes);
(void) ncio_fileio_rel(nciop, lower, RGN_MODIFIED);
return status;
}
static int
ncio_fileio_sync(ncio *const nciop)
{
FILE* f = descriptors[nciop->fd];
fflush(f);
return NC_NOERR;
}
static void
ncio_fileio_free(void *const pvt)
{
ncio_ffio *ffp = (ncio_ffio *)pvt;
if(ffp == NULL)
return;
if(ffp->bf_base != NULL)
{
free(ffp->bf_base);
ffp->bf_base = NULL;
ffp->bf_offset = OFF_NONE;
ffp->bf_extent = 0;
ffp->bf_cnt = 0;
}
}
static int
ncio_fileio_init2(ncio *const nciop, size_t *sizehintp)
{
FILE* f = descriptors[nciop->fd];
ncio_ffio *ffp = (ncio_ffio *)nciop->pvt;
assert(f != NULL);
ffp->bf_extent = *sizehintp;
assert(ffp->bf_base == NULL);
/* this is separate allocation because it may grow */
ffp->bf_base = malloc(ffp->bf_extent);
if(ffp->bf_base == NULL)
{
ffp->bf_extent = 0;
return ENOMEM;
}
/* else */
return NC_NOERR;
}
static void
ncio_fileio_init(ncio *const nciop)
{
ncio_ffio *ffp = (ncio_ffio *)nciop->pvt;
p
*((ncio_relfunc **)&nciop->rel) = ncio_fileio_rel; /* cast away const */
*((ncio_getfunc **)&nciop->get) = ncio_fileio_get; /* cast away const */
*((ncio_movefunc **)&nciop->move) = ncio_fileio_move; /* cast away const */
*((ncio_syncfunc **)&nciop->sync) = ncio_fileio_sync; /* cast away const */
*((ncio_freefunc **)&nciop->free) = ncio_fileio_free; /* cast away const */
ffp->pos = -1;
ffp->bf_offset = OFF_NONE;
ffp->bf_extent = 0;
ffp->bf_cnt = 0;
ffp->bf_base = NULL;
}
/* */
static void
ncio_free(ncio *nciop)
{
if(nciop == NULL)
return;
if(nciop->free != NULL)
nciop->free(nciop->pvt);
free(nciop);
}
static ncio *
ncio_new(const char *path, int ioflags)
{
size_t sz_ncio = M_RNDUP(sizeof(ncio));
size_t sz_path = M_RNDUP(strlen(path) +1);
size_t sz_ncio_pvt;
ncio *nciop;
#if ALWAYS_NC_SHARE /* DEBUG */
fSet(ioflags, NC_SHARE);
#endif
if(fIsSet(ioflags, NC_SHARE))
fprintf(stderr, "NC_SHARE not implemented for fileio\n");
sz_ncio_pvt = sizeof(ncio_ffio);
nciop = (ncio *) malloc(sz_ncio + sz_path + sz_ncio_pvt);
if(nciop == NULL)
return NULL;
nciop->ioflags = ioflags;
*((int *)&nciop->fd) = -1; /* cast away const */
nciop->path = (char *) ((char *)nciop + sz_ncio);
(void) strcpy((char *)nciop->path, path); /* cast away const */
/* cast away const */
*((void **)&nciop->pvt) = (void *)(nciop->path + sz_path);
ncio_fileio_init(nciop);
return nciop;
}
/* Public below this point */
/* TODO: Is this reasonable for this platform? */
static const size_t NCIO_MINBLOCKSIZE = 0x100;
static const size_t NCIO_MAXBLOCKSIZE = 0x100000;
int
ncio_create(const char *path, int ioflags,
size_t initialsz,
off_t igeto, size_t igetsz, size_t *sizehintp,
void* parameters,
ncio **nciopp, void **const igetvpp)
{
ncio *nciop;
#ifdef _WIN32_WCE
char* oflags = "bw+"; /*==?(O_RDWR|O_CREAT|O_TRUNC) && binary*/
#else
char* oflags = "w+"; /*==?(O_RDWR|O_CREAT|O_TRUNC);*/
#endif
FILE* f;
int i,fd;
int status = NC_NOERR;
if(initialsz < (size_t)igeto + igetsz)
initialsz = (size_t)igeto + igetsz;
fSet(ioflags, NC_WRITE);
if(path == NULL || *path == 0)
return EINVAL;
nciop = ncio_new(path, ioflags);
if(nciop == NULL)
return ENOMEM;
if(fIsSet(ioflags, NC_NOCLOBBER)) {
/* Since we do not have use of the O_EXCL flag,
we need to fake it */
f = NCfopen(path,"r");
if(f != NULL) { /* do not overwrite */
(void)fclose(f);
return EEXIST;
}
}
f = NCfopen(path, oflags);
if(f == NULL)
{
status = errno;
goto unwind_new;
}
/* Locate an open pseudo file descriptor */
fd = -1;
for(i=1;i<fdmax;i++) {if(descriptors[i] == NULL) {fd=i;break;}}
if(fd < 0) {fd = fdmax; fdmax++;}
descriptors[fd] = f;
*((int *)&nciop->fd) = fd; /* cast away const */
if(*sizehintp < NCIO_MINBLOCKSIZE || *sizehintp > NCIO_MAXBLOCKSIZE)
{
/* Use default */
*sizehintp = blksize(fd);
}
else
{
*sizehintp = M_RNDUP(*sizehintp);
}
status = ncio_fileio_init2(nciop, sizehintp);
if(status != NC_NOERR)
goto unwind_open;
if(initialsz != 0)
{
status = fgrow(f, (off_t)initialsz);
if(status != NC_NOERR)
goto unwind_open;
}
if(igetsz != 0)
{
status = nciop->get(nciop,
igeto, igetsz,
RGN_WRITE,
igetvpp);
if(status != NC_NOERR)
goto unwind_open;
}
*nciopp = nciop;
return NC_NOERR;
unwind_open:
(void) fclose(descriptors[fd]);
descriptors[fd] = NULL;
/* ?? unlink */
/*FALLTHRU*/
unwind_new:
ncio_free(nciop);
return status;
}
int
ncio_open(const char *path,
int ioflags,
off_t igeto, size_t igetsz, size_t *sizehintp,
void* parameters,
ncio **nciopp, void **const igetvpp)
{
ncio *nciop;
char* oflags = fIsSet(ioflags, NC_WRITE) ? "r+" : "r";
FILE* f;
int i,fd;
int status = NC_NOERR;
if(path == NULL || *path == 0)
return EINVAL;
nciop = ncio_new(path, ioflags);
if(nciop == NULL)
return ENOMEM;
f = NCfopen(path, oflags);
if(f == NULL)
{
status = errno;
goto unwind_new;
}
/* Locate an open pseudo file descriptor */
fd = -1;
for(i=1;i<fdmax;i++) {if(descriptors[i] == NULL) {fd=i;break;}}
if(fd < 0) {fd = fdmax; fdmax++;}
descriptors[fd] = f;
*((int *)&nciop->fd) = fd; /* cast away const */
if(*sizehintp < NCIO_MINBLOCKSIZE || *sizehintp > NCIO_MAXBLOCKSIZE)
{
/* Use default */
*sizehintp = blksize(fd);
}
else
{
*sizehintp = M_RNDUP(*sizehintp);
}
status = ncio_fileio_init2(nciop, sizehintp);
if(status != NC_NOERR)
goto unwind_open;
if(igetsz != 0)
{
status = nciop->get(nciop,
igeto, igetsz,
0,
igetvpp);
if(status != NC_NOERR)
goto unwind_open;
}
*nciopp = nciop;
return NC_NOERR;
unwind_open:
(void) fclose(descriptors[fd]);
descriptors[fd] = NULL;
/*FALLTHRU*/
unwind_new:
ncio_free(nciop);
return status;
}
/*
* Get file size in bytes.
* Is use of fstatus = fseek() really necessary, or could we use standard fstat() call
* and get st_size member?
*/
int
ncio_filesize(ncio *nciop, off_t *filesizep)
{
int status = NC_NOERR;
off_t filesize, current, reset;
FILE* f;
if(nciop == NULL)
return EINVAL;
f = descriptors[nciop->fd];
current = ftell(f);
status = fseek(f, 0, SEEK_END); /* get size */
if(ferror(f)) return EIO;
*filesizep = ftell(f);
status = fseek(f, current, SEEK_SET); /* reset */
if(ferror(f)) return EIO;
return NC_NOERR;
}
/*
* Sync any changes to disk, then extend file so its size is length.
* This is only intended to be called before close, if the file is
* open for writing and the actual size does not match the calculated
* size, perhaps as the result of having been previously written in
* NOFILL mode.
*/
int
ncio_pad_length(ncio *nciop, off_t length)
{
int status = NC_NOERR;
FILE* f;
if(nciop == NULL)
return EINVAL;
f = descriptors[nciop->fd];
if(!fIsSet(nciop->ioflags, NC_WRITE))
return EPERM; /* attempt to write readonly file */
status = nciop->sync(nciop);
if(status != NC_NOERR)
return status;
status = fgrow2(f, length);
if(status != NC_NOERR)
return errno;
return NC_NOERR;
}
int
ncio_close(ncio *nciop, int doUnlink)
{
int status = NC_NOERR;
FILE* f;
if(nciop == NULL)
return EINVAL;
f = descriptors[nciop->fd];
nciop->sync(nciop);
(void) fclose(f);
descriptors[nciop->fd] = NULL;
if(doUnlink)
(void) unlink(nciop->path);
ncio_free(nciop);
return status;
}