_CODE_ACCESS off_t lseek(int llv_fd, off_t offset, int origin)
{
off_t result;
if (llv_fd < 0 || llv_fd >= _NSTREAM) return -1;
/*------------------------------------------------------------------------*/
/* CALL FUNCTION FROM DEVICE TABLE TO PERFORM LSEEK FOR THIS DEVICE/FILE */
/*------------------------------------------------------------------------*/
if (_stream[llv_fd].dev == NULL)
{
__TI_data_synch_INV(&_stream[llv_fd], sizeof(_stream[llv_fd]));
return -1;
}
else
result = (*(_stream[llv_fd].dev->LSEEK))
(_stream[llv_fd].dfd, offset, origin);
/*------------------------------------------------------------------------*/
/* Invalidate both the device table entry that was referenced and the */
/* stream table entry associated with the input file descriptor (llv_fd). */
/* It is possible (though unlikely) that the contents of the device table */
/* entry and/or the stream table entry could be updated by another thread */
/* before this thread accesses either of those objects again. */
/*------------------------------------------------------------------------*/
__TI_data_synch_INV(_stream[llv_fd].dev, sizeof(_DEVICE));
__TI_data_synch_INV(&_stream[llv_fd], sizeof(_stream[llv_fd]));
return result;
}
_CODE_ACCESS int rename(const char *old_name, const char *new_name)
{
_DEVICE *old_dev, *new_dev;
int result;
/*------------------------------------------------------------------------*/
/* CRITICAL REGION PROTECTS _device[] ACCESS THAT OCCURS IN getdevice() */
/* (see file header comment for more on mutex and data coherence). */
/*------------------------------------------------------------------------*/
__TI_resource_lock(__TI_LOCK_DEVICE_TBL);
old_dev = getdevice(&old_name);
new_dev = getdevice(&new_name);
/*------------------------------------------------------------------------*/
/* IF THE DEVICES ARE NOT THE SAME, RENAME WOULD REQUIRE A FILE COPY. */
/*------------------------------------------------------------------------*/
if (old_dev != new_dev)
{
__TI_data_synch_INV(&_device, sizeof(_device));
__TI_resource_unlock(__TI_LOCK_DEVICE_TBL);
return -1;
}
/*------------------------------------------------------------------------*/
/* CALL FUNCTION FROM DEVICE TABLE TO PERFORM RENAME FOR THIS DEVICE/FILE */
/*------------------------------------------------------------------------*/
result = (*(old_dev->RENAME)) (old_name, new_name);
__TI_data_synch_INV(&_device, sizeof(_device));
__TI_resource_unlock(__TI_LOCK_DEVICE_TBL);
return result;
}
_CODE_ACCESS int close(int llv_fd)
{
int result;
#if defined(__TI_SHARED_DATA_SYNCHRONIZATION)
_DEVICE *dev_ptr = NULL;
#endif
if (llv_fd < 0 || llv_fd >= _NSTREAM) return -1;
/*------------------------------------------------------------------------*/
/* CALL FUNCTION FROM DEVICE TABLE TO PERFORM CLOSE FOR THIS DEVICE/FILE */
/* CLEAR STREAM TABLE ENTRY AND DEVICE FLAGS */
/*------------------------------------------------------------------------*/
/* CRITICAL REGION PROTECTS ACCESS TO _stream[] (see file header comment).*/
/*------------------------------------------------------------------------*/
__TI_resource_lock(__TI_LOCK_STREAM_TBL);
if (_stream[llv_fd].dev == NULL)
{
__TI_data_synch_INV(&_stream[llv_fd], sizeof(_stream[llv_fd]));
__TI_resource_unlock(__TI_LOCK_STREAM_TBL);
return -1;
}
/*------------------------------------------------------------------------*/
/* We'll need to invalidate the device table entry that has the address */
/* of the CLOSE function in it, so hold on to its address. We guard the */
/* definition of dev_ptr here to avoid a "set but never refed" compile */
/* time error when building the RTS in a config that doesn't have shared */
/* data synchronization turned on. */
/*------------------------------------------------------------------------*/
#if defined(__TI_SHARED_DATA_SYNCHRONIZATION)
dev_ptr = _stream[llv_fd].dev;
#endif
if ( (result = (*(_stream[llv_fd].dev->CLOSE))(_stream[llv_fd].dfd)) != -1 )
{
_stream[llv_fd].dev->flags &= ~_BUSY;
_stream[llv_fd].dev = NULL;
}
/*------------------------------------------------------------------------*/
/* Invalidate both the device table entry that was referenced and the */
/* stream table entry associated with the input file descriptor (llv_fd). */
/* It is possible (though unlikely) that the contents of the device table */
/* entry and/or the stream table entry could be updated by another thread */
/* before this thread accesses either of those objects again. */
/*------------------------------------------------------------------------*/
/* For the address of the device table entry, we use a copy of */
/* _stream[llv_fd].dev (dev_ptr) that was made before _stream[llv_fd].dev */
/* gets modified in the above if block. */
/*------------------------------------------------------------------------*/
__TI_data_synch_INV(dev_ptr, sizeof(_DEVICE));
__TI_data_synch_WBINV(&_stream[llv_fd], sizeof(_stream[llv_fd]));
__TI_resource_unlock(__TI_LOCK_STREAM_TBL);
return result;
}
_CODE_ACCESS int remove_device(char *name)
{
_DEVICE *ptr;
/*-------------------------------------------------------------------------*/
/* FIND RECORD AND SET NAME TO NULL */
/*-------------------------------------------------------------------------*/
/* CRITICAL REGION PROTECTS ACCESS TO _device[] */
/*-------------------------------------------------------------------------*/
__TI_resource_lock(__TI_LOCK_DEVICE_TBL);
if (!(ptr = finddevice(name)))
{
__TI_data_synch_INV(&_device, sizeof(_device));
__TI_resource_unlock(__TI_LOCK_DEVICE_TBL);
return -1;
}
ptr->name[0] = '\0';
__TI_data_synch_WBINV(&_device, sizeof(_device));
__TI_resource_unlock(__TI_LOCK_DEVICE_TBL);
return 0;
}
_CODE_ACCESS int fprintf(FILE *_fp, const char *_format, ...)
{
va_list _ap;
int rval;
char *fptr = (char *)_format;
/*------------------------------------------------------------------------*/
/* The current thread in a multi-threaded application must protect access */
/* to the file stream. In this case, _fp may be updated, so we must */
/* ensure that the local copy of _fp is flushed to shared memory before */
/* leaving the critical section (invalidated if it is not modified). */
/*------------------------------------------------------------------------*/
__TI_file_lock(_fp);
/*------------------------------------------------------------------------*/
/* If the current stream is not associated with a file, return an error. */
/*------------------------------------------------------------------------*/
if (_fp->fd == -1)
{
__TI_data_synch_INV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (-1);
}
va_start(_ap, _format);
rval = __TI_printfi(&fptr, _ap, (void *)_fp, _outc, _outs);
va_end(_ap);
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (rval);
}
_CODE_ACCESS int vprintf(const char *_format, va_list _ap)
{
int result;
char *fptr = (char *)_format;
/*------------------------------------------------------------------------*/
/* The current thread in a multi-threaded application must protect access */
/* to stdout. In this case, stdout may be updated, so we must ensure that */
/* the local copy of stdout is flushed to shared memory before leaving the*/
/* critical section (invalidated if it is not modified). */
/*------------------------------------------------------------------------*/
__TI_file_lock(stdout);
/*------------------------------------------------------------------------*/
/* If the current stream is not associated with a file, return an error. */
/*------------------------------------------------------------------------*/
if (stdout->fd == -1)
{
__TI_data_synch_INV(stdout, sizeof(FILE));
__TI_file_unlock(stdout);
return (EOF);
}
result = (__TI_printfi(&fptr, _ap, (void *)stdout, _outc, _outs));
__TI_data_synch_WBINV(stdout, sizeof(FILE));
__TI_file_unlock(stdout);
return (result);
}
_CODE_ACCESS void __TI_buff_read(FILE *_fp)
{
/*------------------------------------------------------------------------*/
/* Local variables */
/*------------------------------------------------------------------------*/
int errchk,
j,
buffer_size = _fp->bufend - _fp->buf;
/*------------------------------------------------------------------------*/
/* If this is a line buffered stream, flush all line buffered streams. */
/* The current thread in a multi-threaded application must protect access */
/* to __TI_LOCK_FILE_TBL shared resources (_ftable[] and __TI_ft_end) and */
/* each file stream that is flushed. Ensure that the local copy of */
/* _ftable[] is flushed to shared memory and the local copy of */
/* __TI_ft_end is invalidated before leaving the critical section. */
/*------------------------------------------------------------------------*/
if (_BUFFMODE(_fp) == _IOLBF)
{
__TI_resource_lock(__TI_LOCK_FILE_TBL);
for (j=0; j < __TI_ft_end; j++)
if (_BUFFMODE(&_ftable[j]) == _IOLBF)
{
__TI_file_lock(&_ftable[j]);
__TI_doflush(&_ftable[j]);
__TI_data_synch_WBINV(&_ftable[j], sizeof(FILE));
__TI_file_unlock(&_ftable[j]);
}
__TI_data_synch_WBINV(&_ftable, sizeof(_ftable));
__TI_data_synch_INV(&__TI_ft_end, sizeof(__TI_ft_end));
__TI_resource_unlock(__TI_LOCK_FILE_TBL);
}
/*------------------------------------------------------------------------*/
/* Read in the next characters from the file. */
/*------------------------------------------------------------------------*/
errchk = read(_fp->fd, (char *)_fp->buf, buffer_size);
/*------------------------------------------------------------------------*/
/* Adjust the buffer pointers. */
/*------------------------------------------------------------------------*/
_fp->buff_stop = _fp->buf + errchk;
_fp->pos = _fp->buf;
/*------------------------------------------------------------------------*/
/* Set any error flags if necessary. */
/*------------------------------------------------------------------------*/
switch (errchk)
{
case -1 : _SET(_fp, _STATERR);
break;
case 0 : _SET(_fp, _STATEOF);
break;
}
return;
}
_CODE_ACCESS int fflush(register FILE *_fp)
{
int result = 0;
/*------------------------------------------------------------------------*/
/* The current thread in a multi-threaded application must protect access */
/* to __TI_LOCK_FILE_TBL shared resources (_ftable[], __TI_ft_end, init */
/* and __TI_cleanup_ptr. init is a static local in __TI_search_fp() in */
/* fopen.c). In this case, __TI_doflush will update the specified file */
/* streams, so we must also protect access to the streams. */
/* The below loop will cache a local copy of _ftable[] and __TI_ft_end. */
/* Ensure that the local copy of _ftable[] and each flushed file stream */
/* is flushed to shared memory and the local copy of __TI_ft_end is */
/* invalidated before leaving the critical section. */
/*------------------------------------------------------------------------*/
/*------------------------------------------------------------------------*/
/* If _fp is not a NULL pointer, call __TI_doflush for that stream. */
/* Otherwise, call __TI_doflush for all file streams in the table that are*/
/* active. */
/*------------------------------------------------------------------------*/
if (_fp)
{
__TI_file_lock(_fp);
result = __TI_doflush(_fp);
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
}
else
{
int index;
__TI_resource_lock(__TI_LOCK_FILE_TBL);
for(index = 0; index < __TI_ft_end; index++)
if(_ftable[index].fd != -1)
{
__TI_file_lock(&_ftable[index]);
result |= __TI_doflush(&_ftable[index]);
__TI_data_synch_WBINV(&_ftable[index], sizeof(_ftable[index]));
__TI_file_unlock(&_ftable[index]);
}
__TI_data_synch_WBINV(&_ftable, sizeof(_ftable));
__TI_data_synch_INV(&__TI_ft_end, sizeof(__TI_ft_end));
__TI_resource_unlock(__TI_LOCK_FILE_TBL);
}
return (result);
}
_CODE_ACCESS int feof(FILE *_fp)
{
int result;
/*------------------------------------------------------------------------*/
/* The current thread in a multi-threaded application must protect access */
/* to the file stream. In this case, _fp is accessed (but not modified), */
/* so ensure that the local copy of _fp is invalidated before leaving the */
/* the critical section. */
/*------------------------------------------------------------------------*/
__TI_file_lock(_fp);
result = (((_fp)->flags & _STATEOF));
__TI_data_synch_INV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (result);
}
_CODE_ACCESS int fseek(register FILE *_fp, long _offset, int _ptrname)
{
/*------------------------------------------------------------------------*/
/* The current thread in a multi-threaded application must protect access */
/* to the file stream. In this case, _fp may be updated, so we must */
/* ensure that the local copy of _fp is flushed to shared memory before */
/* leaving the critical section (invalidated if it is not modified). */
/*------------------------------------------------------------------------*/
__TI_file_lock(_fp);
/*------------------------------------------------------------------------*/
/* If the current stream is not associated with a file, return an error. */
/*------------------------------------------------------------------------*/
if (_fp->fd == -1)
{
__TI_data_synch_INV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (EOF);
}
/*------------------------------------------------------------------------*/
/* When positioning to a location relative to the current location, */
/* adjust for the fact that there may be something in the buffer. */
/*------------------------------------------------------------------------*/
if(_ptrname == SEEK_CUR && _STCHK(_fp, _MODER) && _fp->pos)
_offset -= (_fp->buff_stop - _fp->pos);
__TI_doflush(_fp);
_UNSET(_fp, (_STATEOF | _UNGETC));
if ((lseek(_fp->fd, _offset, _ptrname)) == -1)
{
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (EOF);
}
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (0);
}
_CODE_ACCESS int unlink(const char *path)
{
_DEVICE *dev;
int result;
/*------------------------------------------------------------------------*/
/* GET A DEVICE AND CALL FUNCTION FROM DEVICE TABLE TO PERFORM UNLINK */
/* FOR THIS DEVICE/FILE */
/*------------------------------------------------------------------------*/
/* CRITICAL REGION PROTECTS _device[] ACCESS THAT OCCURS IN getdevice() */
/* (see file header comment for more on mutex and data coherence). */
/*------------------------------------------------------------------------*/
__TI_resource_lock(__TI_LOCK_DEVICE_TBL);
dev = getdevice(&path);
result = (*(dev->UNLINK)) (path);
__TI_data_synch_INV(&_device, sizeof(_device));
__TI_resource_unlock(__TI_LOCK_DEVICE_TBL);
return result;
}
_CODE_ACCESS int fputs(const char *_ptr, register FILE *_fp)
{
/*------------------------------------------------------------------------*/
/* Local variables */
/*------------------------------------------------------------------------*/
size_t num_left, ptr_strlen;
char *fpos = (char *)_ptr;
int room_left,
flush_flag = 0,
num_to_write;
/*------------------------------------------------------------------------*/
/* The current thread in a multi-threaded application must protect access */
/* to the file stream. In this case, _fp may be updated, so we must */
/* ensure that the local copy of _fp is flushed to shared memory before */
/* leaving the critical section (invalidated if it is not modified). */
/*------------------------------------------------------------------------*/
__TI_file_lock(_fp);
/*------------------------------------------------------------------------*/
/* Make sure that the stream is writeable. */
/*------------------------------------------------------------------------*/
if (!__TI_wrt_ok(_fp))
{
__TI_data_synch_INV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (EOF);
}
room_left = (int)(_fp->bufend - _fp->pos);
ptr_strlen = num_left = strlen(_ptr);
/*------------------------------------------------------------------------*/
/* If the stream is non-buffered, call the lowlevel WRITE function. */
/*------------------------------------------------------------------------*/
if (_BUFFMODE(_fp) == _IONBF)
{
int num_written = 0;
while (num_left > 0)
{
int write_return = write(_fp->fd, _ptr + num_written, num_left);
if (write_return < 0)
{
_SET(_fp, _STATERR);
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (EOF);
}
else
{
num_written += write_return;
num_left -= write_return;
}
}
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return ptr_strlen;
}
/*------------------------------------------------------------------------*/
/* Write the string into the buffer, flushing it when full. */
/*------------------------------------------------------------------------*/
while (num_left > 0)
{
num_to_write = (num_left > room_left) ? room_left : num_left;
if ((_BUFFMODE(_fp) == _IOLBF) && memchr(fpos, '\n', num_to_write))
{
num_to_write = (char *)memchr(fpos, '\n', num_to_write) - fpos + 1;
flush_flag = 1;
}
memcpy(_fp->pos, fpos, num_to_write);
/*---------------------------------------------------------------------*/
/* Update pointers and counters. */
/*---------------------------------------------------------------------*/
_fp->pos += num_to_write;
fpos += num_to_write;
num_left -= num_to_write;
room_left -= num_to_write;
/*---------------------------------------------------------------------*/
/* If the buffer is full, flush it. Any I/O errors cause this */
/* function to exit, returning an EOF. */
/*---------------------------------------------------------------------*/
if (room_left == 0 || flush_flag)
{
if (__TI_doflush(_fp))
{
_SET(_fp, _STATERR);
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (EOF);
}
room_left = (int)(_fp->bufend - _fp->pos);
_SET(_fp, _MODEW);
flush_flag = 0;
}
}
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return ptr_strlen;
}
_CODE_ACCESS int fputc(int _c, register FILE *_fp)
{
/*------------------------------------------------------------------------*/
/* The current thread in a multi-threaded application must protect access */
/* to the file stream. In this case, _fp may be updated, so we must */
/* ensure that the local copy of _fp is flushed to shared memory before */
/* leaving the critical section (invalidated if it is not modified). */
/*------------------------------------------------------------------------*/
__TI_file_lock(_fp);
/*------------------------------------------------------------------------*/
/* Make sure that the stream is writeable. */
/*------------------------------------------------------------------------*/
if (!__TI_wrt_ok(_fp))
{
__TI_data_synch_INV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return EOF;
}
/*------------------------------------------------------------------------*/
/* If the stream is non-buffered, call the lowlevel WRITE function. */
/*------------------------------------------------------------------------*/
if(_BUFFMODE(_fp) == _IONBF)
{
char cbuf = (char)_c;
if ((write(_fp->fd, &cbuf, 1)) == -1)
{
_SET(_fp, _STATERR);
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (EOF);
}
else
{
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return ((unsigned char)_c);
}
}
/*------------------------------------------------------------------------*/
/* Check for room in the buffer. If room, add the character. Must */
/* check before writing because C++ library fills the buffer to */
/* capacity, then calls fputc() from overflow() (CQXXXXX). */
/*------------------------------------------------------------------------*/
if ((_fp->pos >= _fp->bufend) && __TI_doflush(_fp))
{
_SET(_fp, _STATERR);
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (EOF);
}
*(_fp->pos++) = (unsigned char)_c;
/*------------------------------------------------------------------------*/
/* If a line-buffered stream reached a newline character, flush it. */
/*------------------------------------------------------------------------*/
if ((_STCHK(_fp, _IOLBF) && _c == '\n') && __TI_doflush(_fp))
{
_SET(_fp, _STATERR);
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (EOF);
}
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return ((unsigned char)_c);
}
_CODE_ACCESS size_t fread(void *_ptr, size_t _size, size_t _count, FILE *_fp)
{
/*------------------------------------------------------------------------*/
/* Local variables */
/*------------------------------------------------------------------------*/
unsigned char *fpos = (unsigned char *)_ptr;
size_t num_left = _size * _count,
num_read = 0,
num_to_read = 0;
/*------------------------------------------------------------------------*/
/* The current thread in a multi-threaded application must protect access */
/* to the file stream. In this case, _fp may be updated, so we must */
/* ensure that the local copy of _fp is flushed to shared memory before */
/* leaving the critical section (invalidated if it is not modified). */
/*------------------------------------------------------------------------*/
__TI_file_lock(_fp);
/*------------------------------------------------------------------------*/
/* Make sure that the file is readable. */
/*------------------------------------------------------------------------*/
if (!__TI_rd_ok(_fp) || _size == 0 || _count == 0)
{
__TI_data_synch_INV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (0);
}
/*------------------------------------------------------------------------*/
/* If the stream is non-buffered, call the lowlevel READ function. */
/*------------------------------------------------------------------------*/
if (_BUFFMODE(_fp) == _IONBF)
{
int num_read = 0;
while (num_left > 0)
{
int read_return;
if (_STCHK(_fp, _UNGETC))
{
*fpos = *(_fp->pos++);
_UNSET(_fp, _UNGETC);
read_return = 1;
}
else
read_return = (size_t)(read(_fp->fd,
(char *)fpos + num_read, num_left));
if (read_return < 0)
{
_SET(_fp, _STATERR);
break;
}
else if (read_return == 0)
{
_SET(_fp, _STATEOF);
break;
}
else
{
num_read += read_return;
num_left -= read_return;
}
}
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (num_read / _size);
}
while (num_left > 0)
{
/*---------------------------------------------------------------------*/
/* If the buffer has been completely read, fill it up. Exit the loop */
/* if an I/O error occurs, or the end of the file is reached. */
/*---------------------------------------------------------------------*/
if(_fp->pos == _fp->buff_stop) __TI_buff_read(_fp);
if(_STCHK(_fp, (_STATERR | _STATEOF))) break;
/*---------------------------------------------------------------------*/
/* Determine how many characters can fit in the buffer, and read them */
/* in. */
/*---------------------------------------------------------------------*/
num_to_read = (num_left < (_fp->buff_stop - _fp->pos)) ?
num_left : (_fp->buff_stop - _fp->pos);
memcpy(fpos, _fp->pos, num_to_read);
/*---------------------------------------------------------------------*/
/* Update pointers and counters. */
/*---------------------------------------------------------------------*/
fpos += num_to_read;
_fp->pos += num_to_read;
num_read += num_to_read;
num_left -= num_to_read;
}
/*------------------------------------------------------------------------*/
/* Clear the _UNGETC flag in the stream, and return the number of blocks */
/* read. */
/*------------------------------------------------------------------------*/
_UNSET(_fp, _UNGETC);
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (num_read / _size);
}
_CODE_ACCESS size_t fwrite(const void *_ptr, size_t _size, size_t _count,
register FILE *_fp)
{
/*------------------------------------------------------------------------*/
/* Local variables */
/*------------------------------------------------------------------------*/
unsigned char *fpos = (unsigned char *)_ptr;
unsigned char *nl_pos;
size_t buffer_size,
next_nl,
room_left;
size_t num_left = _size * _count,
num_to_write,
num_written = 0;
/*------------------------------------------------------------------------*/
/* The current thread in a multi-threaded application must protect access */
/* to the file stream. In this case, _fp may be updated, so we must */
/* ensure that the local copy of _fp is flushed to shared memory before */
/* leaving the critical section (invalidated if it is not modified). */
/*------------------------------------------------------------------------*/
__TI_file_lock(_fp);
/*------------------------------------------------------------------------*/
/* Make sure that the stream is writeable. */
/*------------------------------------------------------------------------*/
buffer_size = (_fp->bufend - _fp->buf);
if (!__TI_wrt_ok(_fp) || _size == 0 || _count == 0)
{
__TI_data_synch_INV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (0);
}
/*------------------------------------------------------------------------*/
/* If the stream is non-buffered, call the lowlevel WRITE function. */
/*------------------------------------------------------------------------*/
if(_BUFFMODE(_fp) == _IONBF)
{
int num_written = 0;
while (num_left > 0)
{
int write_return = write(_fp->fd,
(char *)fpos + num_written, num_left);
if (write_return <= 0)
{
_SET(_fp, _STATERR);
break;
}
else
{
num_written += write_return;
num_left -= write_return;
}
}
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (num_written / _size);
}
room_left = (_fp->bufend - _fp->pos);
if (_STCHK(_fp, _IOLBF))
next_nl = (char *)memchr(fpos, '\n', num_left) - (char *)fpos + 1;
while (num_left > 0)
{
/*---------------------------------------------------------------------*/
/* Determine how many characters should be written based on buffering */
/* mode. For non-buffered streams, call the lowlevel WRITE function. */
/* For fully buffered streams, put as many characters in the buffer as */
/* possible. For line buffered streams, put characters into the */
/* util the buffer is full, the last character is reached, or a */
/* newline character is reached. */
/*---------------------------------------------------------------------*/
switch (_BUFFMODE(_fp))
{
case _IOFBF : num_to_write = (room_left > num_left) ?
num_left : room_left;
break;
case _IOLBF : num_to_write = (room_left > next_nl) ? next_nl :
(room_left > num_left) ? num_left : room_left;
break;
/*------------------------------------------------------------------*/
/* The only other available _BUFFMODE for _fp is _IONBF which has */
/* already been accounted for above. We should never get here. */
/*------------------------------------------------------------------*/
default : return (0);
}
/*---------------------------------------------------------------------*/
/* Write the data to the buffer, and update the buffer pointer and the */
/* ROOM_LEFT coutner. */
/*---------------------------------------------------------------------*/
memcpy(_fp->pos, fpos, num_to_write);
_fp->pos += num_to_write;
room_left = (_fp->bufend - _fp->pos);
/*---------------------------------------------------------------------*/
/* If the buffer is full, or a newline character has been encountered */
/* on a line-buffered stream, flush it. */
/*---------------------------------------------------------------------*/
if (room_left == 0 || (_STCHK(_fp, _IOLBF) && num_to_write == next_nl))
{
if (__TI_doflush(_fp))
{
_SET(_fp, _STATERR);
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (num_written / _size);
}
room_left = buffer_size;
/*------------------------------------------------------------------*/
/* The _DOFLUSH function clears the write flag on streams opened in */
/* update mode. Make sure that the write flag is still set here. */
/*------------------------------------------------------------------*/
_SET(_fp, _MODEW);
}
/*---------------------------------------------------------------------*/
/* Update pointers and counters. */
/*---------------------------------------------------------------------*/
num_written += num_to_write;
fpos += num_to_write;
num_left -= num_to_write;
/*---------------------------------------------------------------------*/
/* For line-buffered streams, find the next occurance of a newline */
/* character. If there are no more, and the remaining data will fit */
/* in the buffer, exit the loop where the remaining data will be moved */
/* there. Otherwise loop until this condition is true. */
/*---------------------------------------------------------------------*/
if (_STCHK(_fp, _IOLBF))
{
nl_pos = (unsigned char *)memchr((fpos + 1), '\n',
(num_left > 0) ? (num_left-1) : 0);
if (! nl_pos)
{
if (num_left < room_left) break;
else next_nl = buffer_size + 1;
}
else next_nl = (nl_pos - fpos) + 1;
}
}
/*------------------------------------------------------------------------*/
/* Copy the rest of the characters into the buffer for line-buffered */
/* streams. */
/*------------------------------------------------------------------------*/
if (_STCHK(_fp, _IOLBF))
{
memcpy(_fp->pos, fpos, num_left);
num_written += num_left;
_fp->pos += num_left;
}
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (num_written / _size);
}
_CODE_ACCESS
int add_device(char *name,
unsigned flags,
int (*dopen) (const char *path, unsigned flags, int llv_fd),
int (*dclose) (int dev_fd),
int (*dread) (int dev_fd, char *buf, unsigned count),
int (*dwrite) (int dev_fd, const char *buf, unsigned count),
off_t (*dlseek) (int dev_fd, off_t offset, int origin),
int (*dunlink)(const char *path),
int (*drename)(const char *old_name, const char *new_name))
{
static _DATA_ACCESS int device_init = 0;
_DEVICE *dt;
/*-------------------------------------------------------------------------*/
/* CRITICAL REGION PROTECTS ACCESS TO _device[] */
/*-------------------------------------------------------------------------*/
__TI_resource_lock(__TI_LOCK_DEVICE_TBL);
/*-------------------------------------------------------------------------*/
/* INITIALIZE DEVICE TABLE FIRST TIME AROUND */
/*-------------------------------------------------------------------------*/
if (!device_init)
{
for (device_init = 1, dt = &_device[1]; dt != &_device[_NDEVICE];
*(dt++)->name = '\0');
__TI_data_synch_WBINV(&device_init, sizeof(device_init));
}
/*-------------------------------------------------------------------------*/
/* IF DEVICE WITH SPECIFIED 'name' ALREADY EXISTS IN _device[], THEN WE */
/* CAN'T ADD A NEW ONE WITH THE SAME NAME (note that the function pointers */
/* associated with the existing device are not updated). */
/*-------------------------------------------------------------------------*/
if (finddevice(name))
{
__TI_data_synch_INV(&_device, sizeof(_device));
__TI_resource_unlock(__TI_LOCK_DEVICE_TBL);
return 1;
}
/*-------------------------------------------------------------------------*/
/* SEARCH THE DEVICE TABLE FOR AN EMPTY SLOT, RETURN -1 IF NONE FOUND */
/*-------------------------------------------------------------------------*/
for (dt = &_device[1]; dt != _device+_NDEVICE && dt->name[0] != '\0'; ++dt);
if (dt == &_device[_NDEVICE])
{
__TI_data_synch_INV(&_device, sizeof(_device));
__TI_resource_unlock(__TI_LOCK_DEVICE_TBL);
return -1;
}
strncpy(dt->name,name,8);
dt->name[8] = '\0';
dt->flags = flags;
dt->OPEN = dopen;
dt->CLOSE = dclose;
dt->READ = dread;
dt->WRITE = dwrite;
dt->LSEEK = dlseek;
dt->UNLINK = dunlink;
dt->RENAME = drename;
__TI_data_synch_WBINV(&_device, sizeof(_device));
__TI_resource_unlock(__TI_LOCK_DEVICE_TBL);
return 0;
}
_CODE_ACCESS int setvbuf(register FILE *_fp, register char *_buf,
register int _type, register size_t _size)
{
/*------------------------------------------------------------------------*/
/* The current thread in a multi-threaded application must protect access */
/* to the file stream. In this case, _fp may be updated, so we must */
/* ensure that the local copy of _fp is flushed to shared memory before */
/* leaving the critical section (invalidated if it is not modified). */
/*------------------------------------------------------------------------*/
__TI_file_lock(_fp);
/*------------------------------------------------------------------------*/
/* If the current stream is not associated with a file, return an error. */
/*------------------------------------------------------------------------*/
if (_fp->fd == -1 || (_type != _IONBF && _size <= 0))
{
__TI_data_synch_INV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (EOF);
}
/*------------------------------------------------------------------------*/
/* If a buffer already exists, free it if it was malloc'd, and reset all */
/* of the stream's buffer pointers. */
/*------------------------------------------------------------------------*/
if (_fp->buf)
{
if(_STCHK(_fp, _BUFFALOC)) free((_fp->buf)-1);
_UNSET(_fp, _BUFFALOC);
_fp->buf = NULL;
_fp->pos = NULL;
_fp->bufend = NULL;
_fp->buff_stop = NULL;
}
/*------------------------------------------------------------------------*/
/* If NULL was used for the buffering mode, default to fully-buffered. */
/*------------------------------------------------------------------------*/
if (!_type) _type = _IOFBF;
/*------------------------------------------------------------------------*/
/* Clear any previous buffering flags, and set the new one. */
/*------------------------------------------------------------------------*/
_UNSET(_fp, (_IOLBF | _IOFBF | _IONBF));
_SET(_fp, _type);
/*------------------------------------------------------------------------*/
/* If a buffer was provided, but its size is only one byte, allocate a */
/* different one. Also, do not allow a buffer size greater than BUFSIZ. */
/* The buffer will always have one space at the beginning that is */
/* for UNGETC, in the event that an UNGETC is performed on an empty file, */
/* or when the buffer is full, but unread. */
/*------------------------------------------------------------------------*/
if (_size == 1) _buf = NULL;
if (_size > BUFSIZ) _size = BUFSIZ;
if (_buf) _fp->buf = (unsigned char*)_buf+1;
else
{
/*---------------------------------------------------------------------*/
/* If allocating a buffer, provide _size bytes of usable space by */
/* incrementing _size, unless it is greater than BUFSIZ. */
/*---------------------------------------------------------------------*/
if (_size <= BUFSIZ) _size++;
if (! (_fp->buf = (unsigned char*)malloc(_size)))
{
_SET(_fp, _STATERR);
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
return (EOF);
}
_fp->buf++;
_SET(_fp, _BUFFALOC);
}
_fp->pos = _fp->buff_stop = _fp->buf;
_fp->bufend = _fp->buf + _size -1;
__TI_data_synch_WBINV(_fp, sizeof(FILE));
__TI_file_unlock(_fp);
/*------------------------------------------------------------------------*/
/* SETUP _CLEANUP_PTR SO ALL BUFFERS WILL BE FLUSHED AT EXIT. */
/*------------------------------------------------------------------------*/
/* __TI_cleanup_ptr is also a shared resource in multi-threaded */
/* applications, so accesses to it are also protected by the */
/* __TI_LOCK_FILE_TBL mutex. The current thread will also invalidate any */
/* local copy of __TI_cleanup_ptr in the data cache of the core that it */
/* is running on before leaving the critical section. */
/*------------------------------------------------------------------------*/
__TI_resource_lock(__TI_LOCK_FILE_TBL);
__TI_cleanup_ptr = __TI_cleanup;
__TI_data_synch_WBINV(&__TI_cleanup_ptr, sizeof(__TI_cleanup_ptr));
__TI_resource_unlock(__TI_LOCK_FILE_TBL);
return (0);
}
_CODE_ACCESS int open(const char *path, unsigned flags, int mode)
{
static _DATA_ACCESS int stream_init = 0;
struct stream_info *ptr;
_DEVICE *dev;
int dev_fd;
int llv_fd;
/*-------------------------------------------------------------------------*/
/* CRITICAL REGION PROTECTS ACCESS TO _stream[] (see file header comment). */
/*-------------------------------------------------------------------------*/
__TI_resource_lock(__TI_LOCK_STREAM_TBL);
/*-------------------------------------------------------------------------*/
/* INITIALIZE STREAM TABLE FIRST TIME AROUND */
/*-------------------------------------------------------------------------*/
if (!stream_init)
{
for (stream_init = 1, ptr = &_stream[3]; ptr != &_stream[_NSTREAM];
(ptr++)->dev = NULL);
__TI_data_synch_WBINV(&stream_init, sizeof(stream_init));
}
/*-------------------------------------------------------------------------*/
/* GET THE NEXT AVAILABLE FILE DESCRIPTOR - RETURN -1 IF NONE AVAILABLE */
/*-------------------------------------------------------------------------*/
for (ptr = &_stream[3]; ptr != &_stream[_NSTREAM] && ptr->dev; ++ptr);
if (ptr == &_stream[_NSTREAM])
{
__TI_data_synch_INV(&_stream, sizeof(_stream));
__TI_resource_unlock(__TI_LOCK_STREAM_TBL);
return -1;
}
llv_fd = ptr - &_stream[0];
/*------------------------------------------------------------------------*/
/* GET DEVICE AND PEFORM OPEN - SET STREAM TABLE ENTRY AND FLAGS */
/*------------------------------------------------------------------------*/
/* CRITICAL REGION PROTECTS _device[] ACCESS THAT OCCURS IN getdevice() */
/* (see file header comment for more on mutex and data coherence). */
/*------------------------------------------------------------------------*/
__TI_resource_lock(__TI_LOCK_DEVICE_TBL);
dev = getdevice(&path);
dev_fd = (dev->flags & _BUSY) ? -1 : (*(dev->OPEN))(path,flags,llv_fd);
if (dev_fd < 0)
{
__TI_data_synch_INV(&_stream, sizeof(_stream));
__TI_data_synch_INV(&_device, sizeof(_device));
__TI_resource_unlock(__TI_LOCK_DEVICE_TBL);
__TI_resource_unlock(__TI_LOCK_STREAM_TBL);
return dev_fd;
}
_stream[llv_fd].dev = dev;
_stream[llv_fd].dfd = dev_fd;
if (!(dev->flags & _MSA)) dev->flags |= _BUSY;
__TI_data_synch_WBINV(&_stream, sizeof(_stream));
__TI_data_synch_WBINV(&_device, sizeof(_device));
__TI_resource_unlock(__TI_LOCK_DEVICE_TBL);
__TI_resource_unlock(__TI_LOCK_STREAM_TBL);
return llv_fd;
}
