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385fdfdfeb
svn path=/trunk/; revision=3674
238 lines
6.1 KiB
C
238 lines
6.1 KiB
C
/* $Id: fdtable.c,v 1.6 2002/10/29 04:45:31 rex Exp $
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*/
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/*
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* COPYRIGHT: See COPYING in the top level directory
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* PROJECT: ReactOS POSIX+ Subsystem
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* FILE: subsys/psx/lib/psxdll/misc/fdtable.c
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* PURPOSE: File descriptors table functions
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* PROGRAMMER: KJK::Hyperion <noog@libero.it>
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* UPDATE HISTORY:
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* 12/02/2002: Created
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*/
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#include <string.h>
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#include <errno.h>
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#include <psx/fdtable.h>
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#include <psx/stdlib.h>
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#include <psx/debug.h>
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#include <psx/safeobj.h>
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int __fdtable_init(__fdtable_t * fdtable)
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{
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if(fdtable == 0)
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{
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errno = EINVAL;
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return (-1);
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}
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memset(fdtable, 0, sizeof(*fdtable));
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fdtable->Signature = __FDTABLE_MAGIC;
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return (0);
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}
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int __fdtable_free(__fdtable_t * fdtable)
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{
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if(fdtable == 0)
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{
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errno = EINVAL;
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return (-1);
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}
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__free(&fdtable->Descriptors);
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memset(fdtable, 0, sizeof(*fdtable));
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fdtable->Signature = MAGIC('B', 'A', 'A', 'D');
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return (0);
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}
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int __fdtable_entry_isavail(__fdtable_t * fdtable, int fileno)
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{
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return ((fdtable->DescriptorsBitmap[fileno / 32] >> (fileno % 32)) % 2);
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}
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int __fdtable_entry_nextavail(__fdtable_t * fdtable, int fileno)
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{
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int nCurMapIndex;
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int nUnusedIndex;
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uint32_t nCurMapCell;
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nUnusedIndex = fileno;
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/* The file descriptors bitmap is an array of 32 bit unsigned integers (32 bit
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integers were chosen for proper data alignment without padding). The array is
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big enough to hold at least OPEN_MAX bits, that is it has OPEN_MAX / 32 cells
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(see also the __fdtable_t definition in psx/fdtable.h). Bits correspond to
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file numbers: if a bit is 1, the corresponding file number is in use, else
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it's unused. Bit numbering is right-to-left wise, that is the rightmost (least
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significative) bit of cell 0 corresponds to file number 0, the leftmost (most
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significative) bit of cell 0 to file number 7, the leftmost bit of cell 1 to
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file number 8, and so on
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*/
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/* NOTE: I'm sure the algorytm can be greatly optimized, but I prefer to privilege
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readability - it allows for more maintenable code. Please don't pretend to
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outsmart the compiler: such optimizations as performing divisions as bit shifts
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are useless */
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/* index of the bitmap cell containing nUnusedIndex */
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nCurMapIndex = nUnusedIndex / 32;
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/* get a copy of the bitmap cell containg nUnusedIndex, and shift it to the right
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so that the rightmost (least significative) bit is the one referencing nUnusedIndex */
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nCurMapCell = fdtable->DescriptorsBitmap[nCurMapIndex] >> (nUnusedIndex % 32);
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while(1)
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{
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/* if the least significative bit of the current cell is 0, we've found an unused
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fileno, and we return it */
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if((nCurMapCell % 2) == 0)
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return (nUnusedIndex);
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/* on to next fileno */
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nUnusedIndex ++;
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/* this is NOT a failure. -1 with undefined errno means that no unused file
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number exists */
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if(nUnusedIndex >= OPEN_MAX)
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return (-1);
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/* this fileno is referenced in the next cell */
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if((nUnusedIndex % 32) == 0)
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{
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nCurMapIndex ++;
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nCurMapCell = fdtable->DescriptorsBitmap[nCurMapIndex];
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}
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/* on to next fileno (bit) in the current cell */
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else
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nCurMapCell >>= 1;
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}
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return (-1);
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}
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int __fdtable_entry_add(__fdtable_t * fdtable, int fileno, __fildes_t * fildes, __fildes_t ** newfd)
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{
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int nFileNo;
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/* descriptors count reached OPEN_MAX */
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if(fdtable->UsedDescriptors >= OPEN_MAX)
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{
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ERR("file descriptor table full");
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errno = EMFILE;
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return (-1);
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}
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/* base fileno less than zero: use the lowest unused fileno */
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if(fileno < 0)
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nFileNo = fdtable->LowestUnusedFileNo;
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/* base fileno greater than or equal to zero: use the next available fileno */
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else
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nFileNo = __fdtable_entry_nextavail(fdtable, fileno);
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INFO("lowest unused file number is %d", nFileNo);
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/* descriptors count reached OPEN_MAX */
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if(nFileNo < 0)
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{
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ERR("nFileNo is less than zero");
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errno = EMFILE;
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return (-1);
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}
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/* if the table doesn't have enough space for the next entry ... */
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if(nFileNo >= fdtable->AllocatedDescriptors)
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{
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void * pTemp;
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INFO
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(
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"growing the array from %lu to %lu bytes",
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fdtable->AllocatedDescriptors * sizeof(*fdtable->Descriptors),
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(nFileNo + 1) * sizeof(*fdtable->Descriptors)
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);
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/* ... try to increase the size of the table */
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if(fdtable->AllocatedDescriptors * sizeof(*fdtable->Descriptors) == 0)
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pTemp = __malloc((nFileNo + 1) * sizeof(*fdtable->Descriptors));
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else
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pTemp = __realloc
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(
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fdtable->Descriptors,
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(nFileNo + 1) * sizeof(*fdtable->Descriptors)
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);
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/* reallocation failed */
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if(pTemp == 0)
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{
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ERR("__realloc() failed");
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errno = ENOMEM;
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return (-1);
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}
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/* update the table */
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fdtable->AllocatedDescriptors = nFileNo + 1;
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fdtable->Descriptors = pTemp;
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}
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/* initialize descriptor */
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if(fildes == 0)
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memset(&fdtable->Descriptors[nFileNo], 0, sizeof(__fildes_t));
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else
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memcpy(&fdtable->Descriptors[nFileNo], fildes, sizeof(__fildes_t));
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if(newfd != 0)
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*newfd = &fdtable->Descriptors[nFileNo];
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INFO
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(
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"file number %d: handle 0x%08X, open flags 0x%08X, flags 0x%08X, extra data size %u, extra data at 0x%08X",
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nFileNo,
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fdtable->Descriptors[nFileNo].FileHandle,
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fdtable->Descriptors[nFileNo].OpenFlags,
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fdtable->Descriptors[nFileNo].FdFlags,
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fdtable->Descriptors[nFileNo].ExtraDataSize,
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fdtable->Descriptors[nFileNo].ExtraData
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);
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INFO
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(
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"incrementing used descriptors count from %u to %u",
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fdtable->UsedDescriptors,
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fdtable->UsedDescriptors + 1
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);
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fdtable->UsedDescriptors ++;
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INFO
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(
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"setting bit %u of cell %u of the bitmap to 1",
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nFileNo % 32,
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nFileNo / 32
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);
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fdtable->DescriptorsBitmap[nFileNo / 32] |= (1 << (nFileNo % 32));
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fdtable->LowestUnusedFileNo = __fdtable_entry_nextavail(fdtable, nFileNo);
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INFO("setting the lowest unused file number to %d", fdtable->LowestUnusedFileNo);
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return (nFileNo);
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}
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int __fdtable_entry_remove(__fdtable_t * fdtable, int fileno)
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{
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return (-1);
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}
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__fildes_t *__fdtable_entry_get(__fdtable_t * fdtable, int fileno)
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{
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/* this fileno hasn't been allocated */
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if(fileno >= fdtable->AllocatedDescriptors)
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return (0);
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/* TODO: check the fileno against the bitmap */
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return (&fdtable->Descriptors[fileno]);
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}
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/* EOF */
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