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cc65/doc/dio.sgml

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<!doctype linuxdoc system>
<article>
<title>Diskette Sector I/O Routines
<author><url url="mailto:chris@groessler.org" name="Christian Groessler">
<abstract>
The cc65 library provides functions to read and write raw disk sectors.
Include the dio.h header file to get the necessary definitions.
</abstract>
<!-- Table of contents -->
<toc>
<!-- Begin the document -->
<sect>Opening the disk for low level I/O<p>
Prior to using these functions a handle to the device has to be obtained. This
is done with the <tt>dio_open</tt> function. After use, the handle should be
released with the <tt>dio_close</tt> function.
<tscreen><verb>
dhandle_t __fastcall__ dio_open (unsigned char device);
</verb></tscreen>
The <tt>device</tt> specifies the device to access.
<tscreen><verb>
unsigned char __fastcall__ dio_close (dhandle_t handle);
</verb></tscreen>
Closes a handle obtained by <tt>dio_open</tt>. Returns status code.
<p>
<sect>Reading and writing sectors<p>
The read and write functions are:
<tscreen><verb>
unsigned char __fastcall__ dio_read (dhandle_t handle,
unsigned sect_num,
void *buffer);
</verb></tscreen>
This function will read the sector specified by <tt>sect_num</tt> into the memory
location at buffer.
<tscreen><verb>
unsigned char __fastcall__ dio_write (dhandle_t handle,
unsigned sect_num,
const void *buffer);
</verb></tscreen>
This function will write the memory contents at buffer to the sector specified
by <tt>sect_num</tt>. No verify is performed.
<tscreen><verb>
unsigned char __fastcall__ dio_write_verify (dhandle_t handle,
unsigned sect_num,
const void *buffer);
</verb></tscreen>
This function will write the memory contents at buffer to the sector specified
by <tt>sect_num</tt>. A verification is performed.
<p>
Use the <tt><ref name="dio_query_sectsize" id="sectsizecount"></tt> function to query
the size of a sector and the <tt><ref name="dio_query_sectcount" id="sectsizecount"></tt>
function to query the number of available sectors.
<p>
All these functions will return 0 for success and an OS specific error code in
case of failure.
<p>
<sect>Querying sector size and count<label id="sectsizecount"><p>
Some systems support multiple diskette formats which have different sector sizes
and/or different sector counts.
<p>
The following function returns the sector size of the currently inserted disk:
<tscreen><verb>
unsigned __fastcall__ dio_query_sectsize (dhandle_t handle);
</verb></tscreen>
On the Atari platform, the sector size is handled specially. Please refer
to the DIO section in the <url url="atari.html" name="Atari-specific
platform documentation">.
<p>
The following function returns the sector count of the currently inserted disk:
<tscreen><verb>
unsigned __fastcall__ dio_query_sectcount (dhandle_t handle);
</verb></tscreen>
<sect>Converting sector numbers<p>
Since the read and write functions expect a sector number, for systems where
the sectors aren't addressed by a logical sector number (e.g. CBM devices),
there are 2 conversion functions. One of them converts a logical sector number
to a head/track/sector triple. The other conversion function works the other
way round.
<tscreen><verb>
unsigned char __fastcall__ dio_phys_to_log (dhandle_t handle,
const dio_phys_pos *physpos,
unsigned *sectnum);
</verb></tscreen>
This function converts track/head/sector to logical sector number.
<tscreen><verb>
unsigned char __fastcall__ dio_log_to_phys (dhandle_t handle,
const unsigned *sectnum,
dio_phys_pos *physpos);
</verb></tscreen>
This function converts a logical sector number to track/head/sector notation.
<p>
Note, that on systems which natively use logical sector numbers (e.g. Atari),
the conversion functions are dummies. They ignore head/track
(<tt>dio_phys_to_log</tt>) or return them as zero (<tt>dio_log_to_phys</tt>).
The logical sector number is returned as physical sector and vice versa.
<p>
</article>