Difference between revisions of "Opus DDOS"

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[[Category:Programming]]
 
[[Category:Programming]]
'''Opus DDOS''' is a double density filing system developed by Opus Supplies Ltd for the BBC Micro, to service public demand for increased disc capacity and to provide a replacement for the scarce and expensive Intel 8271 floppy drive controller (FDC) at the heart of Acorn DFS. Advertised from late 1983 to early 1988, it provides storage for up to 248 files and 355 kilobytes of data on a single sided disc, and up to 992 files and 1422 kilobytes on a fully equipped BBC Micro with two double sided disc drives.
+
'''Opus DDOS''' is a double density filing system developed by Opus Supplies
 +
Ltd for the BBC Micro, to service public demand for increased disc capacity
 +
and to provide a replacement for the scarce and expensive Intel 8271 floppy
 +
drive controller (FDC) at the heart of Acorn DFS. Advertised from late 1983
 +
to early 1988, it provides storage for up to 248 files and 355 kilobytes of
 +
data on a single sided disc, and up to 992 files and 1422 kilobytes on a
 +
fully equipped BBC Micro with two double sided disc drives.
  
 
==Physical format==
 
==Physical format==
Opus DDOS is fully Acorn DFS compatible, meaning it can read, write and format discs in the [[Acorn DFS disc format]] as well as its own.
+
Opus DDOS is fully Acorn DFS compatible, meaning it can read, write and
 +
format discs in the [[Acorn DFS disc format]] as well as its own.
  
The native DDOS format is a single sided, double density 40 or 80 track format. (A double sided disc can hold two independent DDOS surfaces.)  Each track carries eighteen 256 byte sectors. The drive spins at 300 rpm and talks at 250 kHz bandwidth, just as with DFS, but a switch to MFM encoding means twice as many bits per second (250 000) can be squeezed into that bandwidth. However the larger gaps needed between double density sectors mean that the number of sectors cannot quite be doubled.
+
The native DDOS format is a single sided, double density 40 or 80 track
 +
format. (A double sided disc can hold two independent DDOS surfaces.)  Each
 +
track carries eighteen 256 byte sectors. The drive spins at 300 rpm and
 +
talks at 250 kHz bandwidth, just as with DFS, but a switch to MFM encoding
 +
means twice as many bits per second (250 000) can be squeezed into that
 +
bandwidth. However the larger gaps needed between double density sectors
 +
mean that the number of sectors cannot quite be doubled.
  
The physical format is a variant of the IBM System 34 specification, and so much of the terminology has been carried across. For further and lower-level details please see the Western Digital (WD) floppy drive controller datasheets.
+
The physical format is a variant of the IBM System 34 specification, and so
 +
much of the terminology has been carried across. For further and lower-level
 +
details please see the Western Digital (WD) floppy drive controller
 +
datasheets.
  
 
===Sector IDs===
 
===Sector IDs===
Each sector is given an ID at format time; the parameters of the ID, listed below, are used by the DFS and the floppy disc controller to address sectors.
+
Each sector is given an ID at format time; the parameters of the ID, listed
 +
below, are used by the DFS and the floppy disc controller to address
 +
sectors.
  
 
* ''C'', the ''cylinder number'' ranges from 0 on the outermost track to 39 or 79 on the innermost track.
 
* ''C'', the ''cylinder number'' ranges from 0 on the outermost track to 39 or 79 on the innermost track.
* ''H'', the ''head number'' = 0. EDOS sets it equal to the cylinder number, saving a cell in the run length encoding table used to format the track. DDOS and EDOS ignore this after formatting.
+
* ''H'', the ''head number'' = 0. EDOS sets it equal to the cylinder number, saving a cell in the run length encoding table used to format the track. DDOS and EDOS ignore this after formatting.
* ''R'', the ''record number'' runs sequentially from 0 to 17 within each track. There is a standard ''track skew'' of 5; that is, the sectors having ''R'' = 0 are the first sector of the first track, the sixth sector of the second track, the eleventh of the third, the sixteenth of the fourth, and so on. DDOS contains code for a 9:1 interleaved format though it is unclear when this is engaged.
+
* ''R'', the ''record number'' runs sequentially from 0 to 17 within each track. There is a standard ''track skew'' of 5; that is, the sectors having ''R'' = 0 are the first sector of the first track, the sixth sector of the second track, the eleventh of the third, the sixteenth of the fourth, and so on. DDOS contains code for a 9:1 interleaved format though it is unclear when this is engaged.
 
* ''N'', the ''record length'' = 1, showing that the sector length is 2<sup>7 + 1</sup>, or 256 bytes.
 
* ''N'', the ''record length'' = 1, showing that the sector length is 2<sup>7 + 1</sup>, or 256 bytes.
  
All these parameters can potentially take any value between 0 and 244, and so confuse Acorn DFS and some non-standard controllers.
+
All these parameters can potentially take any value between 0 and 244, and
 +
so confuse Acorn DFS and some non-standard controllers.
  
 
===Gap lengths===
 
===Gap lengths===
The IBM System 34 format specifies five kinds of ''gap'' that appear at the beginning and end of each track, between sectors and within sectors, to allow the floppy disc hardware time to settle and prepare. When formatting, DDOS builds a RLE table representing the raw bytes on the track, and inserts gaps according to some of the parameters given in [[OSWORD &7F]]. For detailed information on the gaps and their locations, please see the WD FDC datasheets.
+
The IBM System 34 format specifies five kinds of ''gap'' that appear at the
 +
beginning and end of each track, between sectors and within sectors, to
 +
allow the floppy disc hardware time to settle and prepare. When formatting,
 +
DDOS builds a RLE table representing the raw bytes on the track, and inserts
 +
gaps according to some of the parameters given in [[OSWORD &7F]]. For
 +
detailed information on the gaps and their locations, please see the WD FDC
 +
datasheets.
  
In practice the gap parameters can vary within quite a wide range and still appear to work. The <code>*FORMAT</code> command built into DDOS specifies gap1 = &24 and gap 3 = &1B, to write respectively 36 or 27 bytes of &4E plus the required synchronising sequence; and gap5 = 0, which eliminates the pre-index gap and the index address mark.
+
In practice the gap parameters can vary within quite a wide range and still
 +
appear to work. The <code>*FORMAT</code> command built into DDOS specifies
 +
gap1 = &24 and gap 3 = &1B, to write respectively 36 or 27 bytes of &4E plus
 +
the required synchronising sequence; and gap5 = 0, which eliminates the
 +
pre-index gap and the index address mark.
  
 
==Catalogue format==
 
==Catalogue format==
The double density format is based on the Acorn DFS catalogue system and effectively partitions the disc into 8 or fewer DFS-style volumes each holding up to 31 files.
+
The double density format is based on the Acorn DFS catalogue system and
 +
effectively partitions the disc into 8 or fewer DFS-style volumes each
 +
holding up to 31 files.
  
Before a disc can be used reliably by DDOS, it must be formatted and blank catalogues written to the first track. This is done automatically by the <code>*FORMAT</code> utility.
+
Before a disc can be used reliably by DDOS, it must be formatted and blank
 +
catalogues written to the first track. This is done automatically by the
 +
<code>*FORMAT</code> utility.
  
Track 0 contains eight ''volume catalogues'' in the first sixteen sectors, and ends with a ''disc catalogue''. The volume catalogues are identical to those of Acorn DFS, albeit with a reinterpretation of sector addressing, and (in EDOS only) an extension of length and start address fields if the volume is large.
+
Track 0 contains eight ''volume catalogues'' in the first sixteen sectors,
 +
and ends with a ''disc catalogue''. The volume catalogues are identical to
 +
those of Acorn DFS, albeit with a reinterpretation of sector addressing, and
 +
(in EDOS only) an extension of length and start address fields if the volume
 +
is large.
  
The fields are packed in the volume catalogues according to the following diagram:
+
The fields are packed in the volume catalogues according to the following
 +
diagram:
  
 
[[Image:DDOS volume catalogue format.png|Diagram of fields in volume catalogue]]
 
[[Image:DDOS volume catalogue format.png|Diagram of fields in volume catalogue]]
Line 39: Line 77:
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
! Volume title
 
! Volume title
| Up to 12 printable [[ASCII]] characters, padded with NULs (&00) or spaces. The first eight characters are placed in sector 0 bytes 0 to 7, the last four characters in sector 1 bytes 0 to 3.
+
| Up to 12 printable [[ASCII]] characters, padded with NULs (&00) or spaces. The first eight characters are placed in sector 0 bytes 0 to 7, the last four characters in sector 1 bytes 0 to 3.
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
! Cycle number
 
! Cycle number
| A binary-coded decimal (BCD) value where each hex nibble takes a value from 0 to 9. This starts at &00 and is incremented each time the catalogue is rewritten. Provides a simple version control system and allows applications to confirm that their internal copies of the catalogue are up to date. The cycle number is stored in sector 1 byte 4.
+
| A binary-coded decimal (BCD) value where each hex nibble takes a value from 0 to 9. This starts at &00 and is incremented each time the catalogue is rewritten. Provides a simple version control system and allows applications to confirm that their internal copies of the catalogue are up to date. The cycle number is stored in sector 1 byte 4.
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
! Number of files
 
! Number of files
| The number of files in the volume. It is stored in sector 1 byte 5, in such a way that the byte value points to the last valid file entry in each sector of the catalogue. It is therefore 8 times the number of files. There may be up to 31 files on the disc.  
+
| The number of files in the volume. It is stored in sector 1 byte 5, in such a way that the byte value points to the last valid file entry in each sector of the catalogue. It is therefore 8 times the number of files. There may be up to 31 files on the disc.  
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
! Boot option
 
! Boot option
| Selects the action to be taken when the disc is booted. The field uses two bits of byte 6 in sector 1:
+
| Selects the action to be taken when the disc is booted. The field uses two bits of byte 6 in sector 1:
 
{| class="wikitable" style="text-align:left"
 
{| class="wikitable" style="text-align:left"
 
! Bit 5 !! Bit 4 !! Action
 
! Bit 5 !! Bit 4 !! Action
Line 62: Line 100:
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
! Sectors in volume
 
! Sectors in volume
| The total number of sectors in the file space allocated to this volume. The two sectors of the catalogue itself are not counted. This is a 10-bit (11-bit in EDOS) field with the low 8 bits in sector 1 byte 7, and the others in the low two (three) bits of sector 1 byte 6. The unused bits of the latter (bits 3, 6 and 7) must be cleared.
+
| The total number of sectors in the file space allocated to this volume. The two sectors of the catalogue itself are not counted. This is a 10-bit (11-bit in EDOS) field with the low 8 bits in sector 1 byte 7, and the others in the low two (three) bits of sector 1 byte 6. The unused bits of the latter (bits 3, 6 and 7) must be cleared.
 
|}
 
|}
  
 
===File descriptor fields===
 
===File descriptor fields===
There is room for 31 file entries in the catalogue. Each entry takes up eight bytes in each of the two catalogue sectors. In the descriptions below any multiple of 8 up to 240 can be added to the byte offsets.
+
There is room for 31 file entries in the catalogue. Each entry takes up
 +
eight bytes in each of the two catalogue sectors. In the descriptions below
 +
any multiple of 8 up to 240 can be added to the byte offsets.
  
Files must be listed in descending order of start sector with no gaps in the catalogue. Empty files should be given a start sector of 0. Files cannot be fragmented but there may be free sectors between files.
+
Files must be listed in descending order of start sector with no gaps in the
 +
catalogue. Empty files should be given a start sector of 0. Files cannot be
 +
fragmented but there may be free sectors between files.
  
 
{| class="wikitable" style="text-align:left;vertical-align:top"
 
{| class="wikitable" style="text-align:left;vertical-align:top"
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
! File name
 
! File name
| One to seven valid file name characters stored in sector 0 bytes 8 to 14. Valid characters are the printable [[ASCII]] characters between &20 and &7E inclusive, except . : " # * and space. The field is padded with spaces. When opening a file the DFS searches for it by name.
+
| One to seven valid file name characters stored in sector 0 bytes 8 to 14. Valid characters are the printable [[ASCII]] characters between &20 and &7E inclusive, except . : " # * and space. The field is padded with spaces. When opening a file the DFS searches for it by name.
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
! Directory
 
! Directory
| One valid file name character stored in the low 7 bits of sector 0 byte 15. Identifies the ''directory'' (namespace) to which the file belongs. DFS directories are like those in ADFS, DOS or Linux except they cannot nest (they are ''all'' root directories) and they share the volume catalogue. The combination of file name and directory must be unique in the volume.
+
| One valid file name character stored in the low 7 bits of sector 0 byte 15. Identifies the ''directory'' (namespace) to which the file belongs. DFS directories are like those in ADFS, DOS or Linux except they cannot nest (they are ''all'' root directories) and they share the volume catalogue. The combination of file name and directory must be unique in the volume.
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
! Attribute
 
! Attribute
Line 82: Line 124:
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
! Load address
 
! Load address
| A 17 or 18 bit address in memory where the file should be <code>*LOAD</code>ed by default. The low 8 bits are in sector 1 byte 8; the next 8 bits in sector 1 byte 9; the top bits are in bits 2 (if a small volume) and 3 of sector 1 byte 14. If the file is not meant for <code>*LOAD</code>ing (e.g. a sequential file or text) all bits should be set.
+
| A 17 or 18 bit address in memory where the file should be <code>*LOAD</code>ed by default. The low 8 bits are in sector 1 byte 8; the next 8 bits in sector 1 byte 9; the top bits are in bits 2 (if a small volume) and 3 of sector 1 byte 14. If the file is not meant for <code>*LOAD</code>ing (e.g. a sequential file or text) all bits should be set.
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
! Execution address
 
! Execution address
| A 17 or 18 bit address in memory to be jumped to when the file is <code>*RUN</code>. This need not be within the bounds of the loaded file. The low 8 bits are in sector 1 byte 10; the next 8 bits in sector 1 byte 11; the top bits are in bits 6 (if a small volume) and 7 of sector 1 byte 14. If the file is a sequential file or text then all bits should be set.
+
| A 17 or 18 bit address in memory to be jumped to when the file is <code>*RUN</code>. This need not be within the bounds of the loaded file. The low 8 bits are in sector 1 byte 10; the next 8 bits in sector 1 byte 11; the top bits are in bits 6 (if a small volume) and 7 of sector 1 byte 14. If the file is a sequential file or text then all bits should be set.
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
! File length
 
! File length
| An 18 or 19 bit value giving the number of bytes in the file. The low 8 bits are in sector 1 byte 12; the next 8 bits in sector 1 byte 13; the top bits are in bits 4 and 5, and 6 (if a large volume), of sector 1 byte 14.
+
| An 18 or 19 bit value giving the number of bytes in the file. The low 8 bits are in sector 1 byte 12; the next 8 bits in sector 1 byte 13; the top bits are in bits 4 and 5, and 6 (if a large volume), of sector 1 byte 14.
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
! Start sector
 
! Start sector
| The 10 or 11 bit ''logical block address'' of the first sector that contains the file. This is counted from the start of the space allocated to the volume, and may be zero as the catalogues are not in the same space as the files. The low 8 bits are in sector 1 byte 15; the top bits are in bits 0 and 1, and 2 (if a large volume) of sector 1 byte 14. The cylinder and record numbers are the result and remainder, respectively, when the LBA is divided by 18.
+
| The 10 or 11 bit ''logical block address'' of the first sector that contains the file. This is counted from the start of the space allocated to the volume, and may be zero as the catalogues are not in the same space as the files. The low 8 bits are in sector 1 byte 15; the top bits are in bits 0 and 1, and 2 (if a large volume) of sector 1 byte 14. The cylinder and record numbers are the result and remainder, respectively, when the LBA is divided by 18.
 
|}
 
|}
  
'''Note on load and execution addresses:''' If bits 16 and 17 of the address are both set, the address refers to I/O processor memory and [[OSFILE]] will return the address ORed with &FFFF0000 in its parameter block. Otherwise it is an address in second processor memory and OSFILE will return the address as is. In practice the bits are sometimes found clear when they should be set.
+
'''Note on load and execution addresses:''' If bits 16 and 17 of the address
 +
are both set, the address refers to I/O processor memory and [[OSFILE]] will
 +
return the address extended to &FFFF0000 in the parameter block. Otherwise
 +
it is an address in second processor memory and OSFILE will return the
 +
address as is. In practice the bits are sometimes found clear when they
 +
should be set.
  
If bit 10 of the volume size field is set (that is, if the volume is 256 KB or larger) then these addresses are reduced to 17 bits each, and so an I/O or second processor address is selected purely by bit 16.
+
If bit 10 of the volume size field is set (that is, if the volume is 256 KB
 +
or larger) then these addresses are reduced to 17 bits each, and so an I/O
 +
or second processor address is selected purely by bit 16.
  
 
===Disc catalogue===
 
===Disc catalogue===
In sector 16 is the disc catalogue which assigns tracks of the disc to each volume.
+
In sector 16 is the disc catalogue which assigns tracks of the disc to each
 +
volume.
  
 
[[Image:DDOS disc catalogue format.png|Diagram of fields in disc catalogue]]
 
[[Image:DDOS disc catalogue format.png|Diagram of fields in disc catalogue]]
  
If a volume is absent then its start track is set to 0. On formatting or <code>*VOLGEN</code> the volume sizes are adjusted if necessary so that every track is allocated to a volume.
+
If a volume is absent then its start track is set to 0. On formatting or
 +
<code>*VOLGEN</code> the volume sizes are adjusted if necessary so that
 +
every track is allocated to a volume.
  
The catalogue version number is set to &00 by EDOS 0.4 and &20 by DDOS 3.45 and Challenger 1.03. EDOS writes the number of sectors per surface in little-endian form, the others write it big-endian (as shown). Otherwise there is no functional difference between the catalogues. EDOS does not look at the sector count, computing it instead from the sectors per track and number of tracks fields.
+
The catalogue version number is set to &00 by EDOS 0.4 and &20 by DDOS 3.45
 +
and Challenger 1.03. EDOS writes the number of sectors per surface in
 +
little-endian form, the others write it big-endian (as shown). Otherwise
 +
there is no functional difference between the catalogues. EDOS does not look
 +
at the sector count, computing it instead from the sectors per track and
 +
number of tracks fields.
  
The DDOS documentation states that offset &04 contains one less than the number of tracks on the surface, but in fact the number of tracks is written.
+
The DDOS documentation states that offset &04 contains one less than the
 +
number of tracks on the surface, but in fact the number of tracks is
 +
written.
  
Sector 17 is not used, but EDOS overwrites it during <code>*CATGEN</code>. In this case it is a copy of the freshly initialised sector 15 but for an &01 byte at offset &04.
+
Sector 17 is not used, but EDOS overwrites it during <code>*CATGEN</code>.
 +
In this case it is a copy of the freshly initialised sector 15 but for an
 +
&01 byte at offset &04.
  
 
==Hardware==
 
==Hardware==
 
Four interface designs are known to exist:
 
Four interface designs are known to exist:
 
*11-chip
 
*11-chip
:This is the first board to be pictured in Opus's advertisements, appearing in the August 1984 issue of ''The Micro User''. It carries a 40 pin Intel chip to the [[Orientation|north]] of the header, almost certainly the Intel 8272. 'Opus' is in bold type and reads from south to north.
+
:This is the first board to be pictured in Opus's advertisements, appearing in the August 1984 issue of ''The Micro User''. It carries a 40 pin Intel chip to the [[Orientation|north]] of the header, almost certainly the Intel 8272. 'Opus' is in bold type and reads from south to north.
 
*7-chip
 
*7-chip
:Based on the Western Digital 2791 controller; PCB designator EO 118. One example was assembled in or after April 1984 and a WD2791 based board was reviewed in ''A & B Computing'' in December 1984. The 'Opus.' typeface is the same as used in the ads from November 1983 onwards, being lighter than the font on the 11-chip board and reading from north to south.
+
:Based on the Western Digital 2791 controller; PCB designator EO 118. One example was assembled in or after April 1984 and a WD2791 based board was reviewed in ''A & B Computing'' in December 1984. The 'Opus.' typeface is the same as used in the ads from November 1983 onwards, being lighter than the font on the 11-chip board and reading from north to south.
 
*D/Doss AI
 
*D/Doss AI
:An early design (judging by the lettering) of the WD2791 controller board, without a buffer between the controller chip and the data bus. Seen at [http://acorn.chriswhy.co.uk/8bit_Upgrades/Opus_DDoss.html Chris's Acorns].
+
:An early design (judging by the lettering) of the WD2791 controller board, without a buffer between the controller chip and the data bus. Seen at [http://acorn.chriswhy.co.uk/8bit_Upgrades/Opus_DDoss.html Chris's Acorns].
 
*1770
 
*1770
:A compact design first pictured in May 1985, with the Western Digital 1770 controller placed alongside the header and upside down when fitted. The board had 5 ICs in total.
+
:A compact design first pictured in May 1985, with the Western Digital 1770 controller placed alongside the header and upside down when fitted. The board had 5 ICs in total.
  
Opus boards have had a custom memory-mapped layout throughout their history, unlike Watford DDFS boards for example which were redesigned to be compatible with the Acorn interface. The hardware interface of all Western Digital controller based boards is as follows:
+
Opus boards have had a custom memory-mapped layout throughout their history,
 +
unlike Watford DDFS boards for example which were redesigned to be
 +
compatible with the Acorn interface. The hardware interface of all Western
 +
Digital controller based boards is as follows:
  
 
{| class="wikitable"
 
{| class="wikitable"
Line 155: Line 219:
 
The bottom two bits correspond to the DFS drive number, 0..3.
 
The bottom two bits correspond to the DFS drive number, 0..3.
  
In the case of the WD 2791, all registers except the control latch are inverted; <code>EOR #&FF</code> is needed after reading or before writing.
+
In the case of the WD 2791, all registers except the control latch are
 +
inverted; <code>EOR #&FF</code> is needed after reading or before writing.
  
 
===Timeline===
 
===Timeline===
 +
In December 1983, Opus publicised their first double density DFS in a stop
 +
press announcement. The interface hardware was most likely the 11-chip PCB;
 +
the Intel 8272 having a similar design to the 8271 would have simplified
 +
programming and reduced time to market. A later advertisement priced the kit
 +
at £99.95.
  
In December 1983, Opus publicised their first double density DFS in a stop press announcement. The interface hardware was most likely the 11-chip PCB; the Intel 8272 having a similar design to the 8271 would have simplified programming and reduced time to market.  A later advertisement priced the kit at £99.95.
+
In April 1984 a "new" double density interface, apparently the 7-chip WD2791
 +
board, was announced and initially priced at £120.00. In or around this
 +
time Opus EDOS 0.4 was probably the accompanying DFS. If so, then over the
 +
course of the year the firmware went through three major versions, a change
 +
of name and a revised command set until ''A & B Computing'' reviewed Opus
 +
DDOS version 3.11 in December. The review, and Opus's advertisements,
 +
carried pictures of the 11-chip daughterboard though ''A & B'' stated the
 +
controller IC was a WD2791.
  
In April 1984 a "new" double density interface, apparently the 7-chip WD2791 board, was announced and initially priced at £120.00.  In or around this time Opus EDOS 0.4 was probably the accompanying DFS. If so, then over the course of the year the firmware went through three major versions, a change of name and a revised command set until ''A & B Computing'' reviewed Opus DDOS version 3.11 in December.  The review, and Opus's advertisements, carried pictures of the 11-chip daughterboard though ''A & B'' stated the controller IC was a WD2791.
+
The design lasted until at least February 1985 when a drop in price to
 +
£99.95 suggested a new controller had arrived. The 5-chip WD1770
 +
daughterboard was revealed in April, though the 11-chip image still appeared
 +
frequently. DDOS 3.45 had provision (in the form of redundant
 +
<code>EOR</code> instructions) to target either the WD1770 or WD2791
 +
controller though it was most often installed with a WD1770.
  
The design lasted until at least February 1985 when a drop in price to £99.95 suggested a new controller had arrived.  The 5-chip WD1770 daughterboard was revealed in April, though the 11-chip image still appeared frequently.  DDOS 3.45 had provision (in the form of redundant <code>EOR</code> instructions) to target either the WD1770 or WD2791 controller though it was most often installed with a WD1770.
+
When the Challenger add-on was announced in October that year, the command
 +
set was more like EDOS than DDOS. It is likely that Opus reverted to the
 +
older, smaller firmware to make room for the RAM disc extensions.
  
When the Challenger add-on was announced in October that year, the command set was more like EDOS than DDOS.  It is likely that Opus reverted to the older, smaller firmware to make room for the RAM disc extensions.
+
Here is a survey of Opus DDOS advertisements in ''The Micro User'' volumes I
 
+
to III. Advertisements were run every month, this table lists only important
Here is a survey of Opus DDOS advertisements in ''The Micro User'' volumes I to III. Advertisements were run every month, this table lists only important changes. Details of the ''A & B Computing'' review and the release of Opus's Spectrum products are included.
+
changes. Details of the ''A & B Computing'' review and the release of Opus's
 +
Spectrum products are included.
  
 
{| class="wikitable"
 
{| class="wikitable"
Line 202: Line 287:
 
| -
 
| -
 
| -
 
| -
| colspan="2" | £99.95
+
| colspan="2" | £99.95
 
| -
 
| -
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
Line 210: Line 295:
 
| -
 
| -
 
| -
 
| -
| colspan="2" | £120.00
+
| colspan="2" | £120.00
 
| "New" double density interface. First description. 248 files, auto tracks/density, mass copy, tape to disc transfer.
 
| "New" double density interface. First description. 248 files, auto tracks/density, mass copy, tape to disc transfer.
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
Line 226: Line 311:
 
| -
 
| -
 
| -
 
| -
| colspan="2" | £129.95
+
| colspan="2" | £129.95
 
| "Megabyte bargain"; "Fully Acorn compatible".
 
| "Megabyte bargain"; "Fully Acorn compatible".
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
Line 235: Line 320:
 
| -
 
| -
 
| colspan="2" | -
 
| colspan="2" | -
| Release of the Spectra disc interface for the Sinclair ZX Spectrum (£99.95)<ref name="wos-spectra"/>
+
| Release of the Spectra disc interface for the Sinclair ZX Spectrum (£99.95)<ref name="wos-spectra"/>
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
| &uarr;
 
| &uarr;
Line 259: Line 344:
 
| 2791
 
| 2791
 
| colspan="2" | &uarr;
 
| colspan="2" | &uarr;
| Opus DDOS review. Version 3.11. 252 KB volume size limit.
+
| Opus DDOS review. Version 3.11. 252 KB volume size limit.
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
| February 1985
 
| February 1985
Line 274: Line 359:
 
| &uarr;
 
| &uarr;
 
| -
 
| -
| colspan="2" | £99.95
+
| colspan="2" | £99.95
 
| Reduced price; new controller?
 
| Reduced price; new controller?
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
Line 282: Line 367:
 
| rowspan="3" | &uarr;
 
| rowspan="3" | &uarr;
 
| rowspan="3" | -
 
| rowspan="3" | -
| £99.95 || separately
+
| £99.95 || separately
 
| rowspan="3" | -
 
| rowspan="3" | -
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
| £79.95 || with any other disc drive
+
| £79.95 || with any other disc drive
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
| £50.00 || with Opus 5401 drive
+
| £50.00 || with Opus 5401 drive
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
| May 1985
 
| May 1985
Line 295: Line 380:
 
| -
 
| -
 
| colspan="2" | &uarr;
 
| colspan="2" | &uarr;
| First picture of 1770. First mention of name DDOS in an Opus ad. Software compatibility list.
+
| First picture of 1770. First mention of name DDOS in an Opus ad. Software compatibility list.
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
| &uarr;
 
| &uarr;
Line 303: Line 388:
 
| -
 
| -
 
| colspan="2" | -
 
| colspan="2" | -
| Announces that the Opus Discovery 1 (a Spectrum dock with WD1770 based disc interface) was released in March (£199.95)<ref name="wos-discovery">[http://www.worldofspectrum.org/infoseekid.cgi?id=1000297 World of Spectrum Infoseek: Opus Discovery] accessed 9th April 2005</ref>
+
| Announces that the Opus Discovery 1 (a Spectrum dock with WD1770 based disc interface) was released in March (£199.95)<ref name="wos-discovery">[http://www.worldofspectrum.org/infoseekid.cgi?id=1000297 World of Spectrum Infoseek: Opus Discovery] accessed 9th April 2005</ref>
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
| June 1985
 
| June 1985
Line 318: Line 403:
 
| rowspan="3" | 1770
 
| rowspan="3" | 1770
 
| rowspan="3" | -
 
| rowspan="3" | -
| £99.95 || separately
+
| £99.95 || separately
 
| rowspan="3" | -
 
| rowspan="3" | -
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
| £79.95 || with any other disc drive
+
| £79.95 || with any other disc drive
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
| £50.00 || with Opus 5401 drive
+
| £50.00 || with Opus 5401 drive
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
| rowspan="3" | July 1985
 
| rowspan="3" | July 1985
Line 330: Line 415:
 
| rowspan="3" | &uarr;
 
| rowspan="3" | &uarr;
 
| rowspan="3" | -
 
| rowspan="3" | -
| £99.95 || separately
+
| £99.95 || separately
 
| rowspan="3" | -
 
| rowspan="3" | -
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
| £79.95 || with any other disc drive
+
| £79.95 || with any other disc drive
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
| £30.00 || with Opus 5400 drive
+
| £30.00 || with Opus 5400 drive
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
| rowspan="2" | August 1985
 
| rowspan="2" | August 1985
Line 342: Line 427:
 
| rowspan="2" | &uarr;
 
| rowspan="2" | &uarr;
 
| rowspan="2" | -
 
| rowspan="2" | -
| £49.95 || with any other 5.25" disc drive
+
| £49.95 || with any other 5.25" disc drive
| rowspan="2" | "Megabyte marvel offer". First mention of ''A & B Computing'' review.
+
| rowspan="2" | "Megabyte marvel offer". First mention of ''A & B Computing'' review.
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
| £30.00 || with Opus 5802 drive
+
| £30.00 || with Opus 5802 drive
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
| rowspan="2" | September 1985
 
| rowspan="2" | September 1985
Line 352: Line 437:
 
| rowspan="2" | &uarr;
 
| rowspan="2" | &uarr;
 
| rowspan="2" | -
 
| rowspan="2" | -
| £49.95 || with any other 5.25" disc drive
+
| £49.95 || with any other 5.25" disc drive
 
| rowspan="2" | -
 
| rowspan="2" | -
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
Line 363: Line 448:
 
| -
 
| -
 
| colspan="2" | &uarr;
 
| colspan="2" | &uarr;
| Introduction of Opus Challenger 3 in 1. Challenger is an 'extended DDOS'.
+
| Introduction of Opus Challenger 3 in 1. Challenger is an 'extended DDOS'.
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
| December 1985
 
| December 1985
Line 386: Line 471:
 
| rowspan="2" | 11-chip
 
| rowspan="2" | 11-chip
 
| rowspan="2" | 1770
 
| rowspan="2" | 1770
| £99.95 || including single 5.25" SSDD 40T drive
+
| £99.95 || including single 5.25" SSDD 40T drive
 
| rowspan="2" | -
 
| rowspan="2" | -
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
| £159.95 || including dual 5.25" SSDD 40T drives
+
| £159.95 || including dual 5.25" SSDD 40T drives
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
| rowspan="2" | October 1986
 
| rowspan="2" | October 1986
Line 396: Line 481:
 
| rowspan="2" | -
 
| rowspan="2" | -
 
| rowspan="2" | 1770
 
| rowspan="2" | 1770
| £60.00 || separately
+
| £60.00 || separately
 
| -
 
| -
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
| £40.00 || with 5.25" drive
+
| £40.00 || with 5.25" drive
 
|- style="vertical-align:top"
 
|- style="vertical-align:top"
 
| November 1986
 
| November 1986
Line 419: Line 504:
  
 
==Firmware==
 
==Firmware==
All versions of Opus DDOS firmware were supplied on a 16 KB ROM. This allowed room for a comprehensive Intel 8271 emulator and some essential utilities that were disc based under Acorn DFS. Version 3.11 was reviewed in ''A & B Computing'' in December 1984 and the series culminated with version 3.46, which gave the following help:
+
All versions of Opus DDOS firmware were supplied on a 16 KB ROM. This
 +
allowed room for a comprehensive Intel 8271 emulator and some essential
 +
utilities that were disc based under Acorn DFS. Version 3.11 was reviewed in
 +
''A & B Computing'' in December 1984 and the series culminated with version
 +
3.46, which gave the following help:
 
  >*HELP
 
  >*HELP
 
  OPUS DDOS 3.46
 
  OPUS DDOS 3.46
Line 479: Line 568:
 
  >
 
  >
  
The first decimal place of the version number specifies the controller type: 1 = WD2791; 3 = WD2793; 4 = WD1770.
+
The first decimal place of the version number specifies the controller type:
 +
1 = WD2791; 3 = WD2793; 4 = WD1770.
  
The size and number of volumes could be reassigned with a 'quick format' (<code>*VOLGEN</code>) which erased all files and therefore needed a <code>*ENABLE</code> beforehand. Volumes were allocated in units of 4.5 KB which was the size of one track.
+
The size and number of volumes could be reassigned with a 'quick format'
 +
(<code>*VOLGEN</code>) which erased all files and therefore needed a
 +
<code>*ENABLE</code> beforehand. Volumes were allocated in units of 4.5 KB
 +
which was the size of one track.
  
Files were named and retrieved in the same syntax as Acorn DFS, except the drive identifier could have a ''volume letter'' from A to H as well as, or instead of, the ''drive number''. So a full absolute file specification would look like <code>:2B.$.MENU</code>. A default volume letter could be set with <code>*DRIVE</code> (as with <code>*DIR</code> for the directory), and the default itself defaulted to <code>A</code>. The volume letter was ignored when accessing Acorn DFS discs. The parser was not as precise as the one in Acorn DFS, and did not accept <code>:</code> and <code>.</code> in file names even when the characters were unambiguously part of the leaf name.
+
Files were named and retrieved in the same syntax as Acorn DFS, except the
 +
drive identifier could have a ''volume letter'' from A to H as well as, or
 +
instead of, the ''drive number''. So a full absolute file specification
 +
would look like <code>:2B.$.MENU</code>. A default volume letter could be
 +
set with <code>*DRIVE</code> (as with <code>*DIR</code> for the directory),
 +
and the default itself defaulted to <code>A</code>. The volume letter was
 +
ignored when accessing Acorn DFS discs. The parser was not as precise as the
 +
one in Acorn DFS, and did not accept <code>:</code> and <code>.</code> in
 +
file names even when the characters were unambiguously part of the leaf
 +
name.
  
 
==Variants==
 
==Variants==
 
===Opus EDOS===
 
===Opus EDOS===
A compatible piece of firmware from 1984, running on the 7-chip WD2791 interface board. The command syntax resembles Challenger rather than DDOS, there is no <code>*TAPEDISC</code> facility and the ROM does away with the full screen displays of DDOS.
+
A compatible piece of firmware from 1984, running on the 7-chip WD2791
 +
interface board. The command syntax resembles Challenger rather than DDOS,
 +
there is no <code>*TAPEDISC</code> facility and the ROM does away with the
 +
full screen displays of DDOS.
  
EDOS maintains a ''default filename'': if a filename passed to EDOS for resolution has an empty ''leaf name'', EDOS substitutes the previous non-empty leaf name passed to it. The default drive, volume and directory, however, come from the most recent arguments to <code>*DRIVE</code>, <code>*VOL</code> and/or <code>*DIR</code>. The combined ''default filename'' is displayed in the <code>*CAT</code> catalogue header. <code>SAVE ""</code>, for example, overwrites the file most recently accessed (such as a BASIC program previously <code>LOAD</code>ed into memory); <code>*INFO</code> displays details of this file.
+
EDOS maintains a ''default filename'': if a filename passed to EDOS for
 +
resolution has an empty ''leaf name'', EDOS substitutes the previous
 +
non-empty leaf name passed to it. The default drive, volume and directory,
 +
however, come from the most recent arguments to <code>*DRIVE</code>,
 +
<code>*VOL</code> and/or <code>*DIR</code>. The combined ''default
 +
filename'' is displayed in the <code>*CAT</code> catalogue header.
 +
<code>SAVE ""</code>, for example, overwrites the file most recently
 +
accessed (such as a BASIC program previously <code>LOAD</code>ed into
 +
memory); <code>*INFO</code> displays details of this file.
  
On hard reset the default filename is initialised to <code>:0A.$.</code> [''sic'']. In the initial state, <code>$.</code>, <code>F.</code> ''etc.'' and the empty string are valid filenames until a non-empty leaf name is mentioned. An empty leaf name is stored as seven spaces in the volume catalogue.
+
On hard reset the default filename is initialised to <code>:0A.$.</code>
 +
[''sic'']. In the initial state, <code>$.</code>, <code>F.</code> ''etc.''
 +
and the empty string are valid filenames until a non-empty leaf name is
 +
mentioned. An empty leaf name is stored as seven spaces in the volume
 +
catalogue.
  
The firmware is stable (at version 0.4) and assembled in modules, but lacks some aspects of Acorn DFS behaviour which can cause some compatibility problems. Uses slightly less memory than either DDOS or Acorn DFS. Nothing is known about where this fits into Opus's product timeline or indeed whether it is a genuine Opus release. A third-party [http://regregex.bbcmicro.net/#prog.edospat patch] has since been produced.
+
The firmware is stable (at version 0.4) and assembled in modules, but lacks
 +
some aspects of Acorn DFS behaviour which can cause some compatibility
 +
problems. Uses slightly less memory than either DDOS or Acorn DFS. Nothing
 +
is known about where this fits into Opus's product timeline or indeed
 +
whether it is a genuine Opus release. A third-party
 +
[http://regregex.bbcmicro.net/#prog.edospat patch] has since been produced.
  
 
==Applications that handle the DDOS format==
 
==Applications that handle the DDOS format==
Line 507: Line 629:
 
<references/>
 
<references/>
  
[[User:Beardo|beardo]] 16:11, 16 March 2011 (UTC)
+
[[User:Beardo|beardo]] 16:11, 16 March 2011 (UTC)

Revision as of 05:43, 16 March 2017

Opus DDOS is a double density filing system developed by Opus Supplies Ltd for the BBC Micro, to service public demand for increased disc capacity and to provide a replacement for the scarce and expensive Intel 8271 floppy drive controller (FDC) at the heart of Acorn DFS. Advertised from late 1983 to early 1988, it provides storage for up to 248 files and 355 kilobytes of data on a single sided disc, and up to 992 files and 1422 kilobytes on a fully equipped BBC Micro with two double sided disc drives.

Physical format

Opus DDOS is fully Acorn DFS compatible, meaning it can read, write and format discs in the Acorn DFS disc format as well as its own.

The native DDOS format is a single sided, double density 40 or 80 track format. (A double sided disc can hold two independent DDOS surfaces.) Each track carries eighteen 256 byte sectors. The drive spins at 300 rpm and talks at 250 kHz bandwidth, just as with DFS, but a switch to MFM encoding means twice as many bits per second (250 000) can be squeezed into that bandwidth. However the larger gaps needed between double density sectors mean that the number of sectors cannot quite be doubled.

The physical format is a variant of the IBM System 34 specification, and so much of the terminology has been carried across. For further and lower-level details please see the Western Digital (WD) floppy drive controller datasheets.

Sector IDs

Each sector is given an ID at format time; the parameters of the ID, listed below, are used by the DFS and the floppy disc controller to address sectors.

  • C, the cylinder number ranges from 0 on the outermost track to 39 or 79 on the innermost track.
  • H, the head number = 0. EDOS sets it equal to the cylinder number, saving a cell in the run length encoding table used to format the track. DDOS and EDOS ignore this after formatting.
  • R, the record number runs sequentially from 0 to 17 within each track. There is a standard track skew of 5; that is, the sectors having R = 0 are the first sector of the first track, the sixth sector of the second track, the eleventh of the third, the sixteenth of the fourth, and so on. DDOS contains code for a 9:1 interleaved format though it is unclear when this is engaged.
  • N, the record length = 1, showing that the sector length is 27 + 1, or 256 bytes.

All these parameters can potentially take any value between 0 and 244, and so confuse Acorn DFS and some non-standard controllers.

Gap lengths

The IBM System 34 format specifies five kinds of gap that appear at the beginning and end of each track, between sectors and within sectors, to allow the floppy disc hardware time to settle and prepare. When formatting, DDOS builds a RLE table representing the raw bytes on the track, and inserts gaps according to some of the parameters given in OSWORD &7F. For detailed information on the gaps and their locations, please see the WD FDC datasheets.

In practice the gap parameters can vary within quite a wide range and still appear to work. The *FORMAT command built into DDOS specifies gap1 = &24 and gap 3 = &1B, to write respectively 36 or 27 bytes of &4E plus the required synchronising sequence; and gap5 = 0, which eliminates the pre-index gap and the index address mark.

Catalogue format

The double density format is based on the Acorn DFS catalogue system and effectively partitions the disc into 8 or fewer DFS-style volumes each holding up to 31 files.

Before a disc can be used reliably by DDOS, it must be formatted and blank catalogues written to the first track. This is done automatically by the *FORMAT utility.

Track 0 contains eight volume catalogues in the first sixteen sectors, and ends with a disc catalogue. The volume catalogues are identical to those of Acorn DFS, albeit with a reinterpretation of sector addressing, and (in EDOS only) an extension of length and start address fields if the volume is large.

The fields are packed in the volume catalogues according to the following diagram:

Diagram of fields in volume catalogue

Disc descriptor fields

Volume title Up to 12 printable ASCII characters, padded with NULs (&00) or spaces. The first eight characters are placed in sector 0 bytes 0 to 7, the last four characters in sector 1 bytes 0 to 3.
Cycle number A binary-coded decimal (BCD) value where each hex nibble takes a value from 0 to 9. This starts at &00 and is incremented each time the catalogue is rewritten. Provides a simple version control system and allows applications to confirm that their internal copies of the catalogue are up to date. The cycle number is stored in sector 1 byte 4.
Number of files The number of files in the volume. It is stored in sector 1 byte 5, in such a way that the byte value points to the last valid file entry in each sector of the catalogue. It is therefore 8 times the number of files. There may be up to 31 files on the disc.
Boot option Selects the action to be taken when the disc is booted. The field uses two bits of byte 6 in sector 1:
Bit 5 Bit 4 Action
0 0 No action
0 1 *LOAD $.!BOOT
1 0 *RUN $.!BOOT
1 1 *EXEC $.!BOOT
Sectors in volume The total number of sectors in the file space allocated to this volume. The two sectors of the catalogue itself are not counted. This is a 10-bit (11-bit in EDOS) field with the low 8 bits in sector 1 byte 7, and the others in the low two (three) bits of sector 1 byte 6. The unused bits of the latter (bits 3, 6 and 7) must be cleared.

File descriptor fields

There is room for 31 file entries in the catalogue. Each entry takes up eight bytes in each of the two catalogue sectors. In the descriptions below any multiple of 8 up to 240 can be added to the byte offsets.

Files must be listed in descending order of start sector with no gaps in the catalogue. Empty files should be given a start sector of 0. Files cannot be fragmented but there may be free sectors between files.

File name One to seven valid file name characters stored in sector 0 bytes 8 to 14. Valid characters are the printable ASCII characters between &20 and &7E inclusive, except . : " # * and space. The field is padded with spaces. When opening a file the DFS searches for it by name.
Directory One valid file name character stored in the low 7 bits of sector 0 byte 15. Identifies the directory (namespace) to which the file belongs. DFS directories are like those in ADFS, DOS or Linux except they cannot nest (they are all root directories) and they share the volume catalogue. The combination of file name and directory must be unique in the volume.
Attribute If the top bit of sector 0 byte 15 is set, then the file is locked and may not be altered or deleted.
Load address A 17 or 18 bit address in memory where the file should be *LOADed by default. The low 8 bits are in sector 1 byte 8; the next 8 bits in sector 1 byte 9; the top bits are in bits 2 (if a small volume) and 3 of sector 1 byte 14. If the file is not meant for *LOADing (e.g. a sequential file or text) all bits should be set.
Execution address A 17 or 18 bit address in memory to be jumped to when the file is *RUN. This need not be within the bounds of the loaded file. The low 8 bits are in sector 1 byte 10; the next 8 bits in sector 1 byte 11; the top bits are in bits 6 (if a small volume) and 7 of sector 1 byte 14. If the file is a sequential file or text then all bits should be set.
File length An 18 or 19 bit value giving the number of bytes in the file. The low 8 bits are in sector 1 byte 12; the next 8 bits in sector 1 byte 13; the top bits are in bits 4 and 5, and 6 (if a large volume), of sector 1 byte 14.
Start sector The 10 or 11 bit logical block address of the first sector that contains the file. This is counted from the start of the space allocated to the volume, and may be zero as the catalogues are not in the same space as the files. The low 8 bits are in sector 1 byte 15; the top bits are in bits 0 and 1, and 2 (if a large volume) of sector 1 byte 14. The cylinder and record numbers are the result and remainder, respectively, when the LBA is divided by 18.

Note on load and execution addresses: If bits 16 and 17 of the address are both set, the address refers to I/O processor memory and OSFILE will return the address extended to &FFFF0000 in the parameter block. Otherwise it is an address in second processor memory and OSFILE will return the address as is. In practice the bits are sometimes found clear when they should be set.

If bit 10 of the volume size field is set (that is, if the volume is 256 KB or larger) then these addresses are reduced to 17 bits each, and so an I/O or second processor address is selected purely by bit 16.

Disc catalogue

In sector 16 is the disc catalogue which assigns tracks of the disc to each volume.

Diagram of fields in disc catalogue

If a volume is absent then its start track is set to 0. On formatting or *VOLGEN the volume sizes are adjusted if necessary so that every track is allocated to a volume.

The catalogue version number is set to &00 by EDOS 0.4 and &20 by DDOS 3.45 and Challenger 1.03. EDOS writes the number of sectors per surface in little-endian form, the others write it big-endian (as shown). Otherwise there is no functional difference between the catalogues. EDOS does not look at the sector count, computing it instead from the sectors per track and number of tracks fields.

The DDOS documentation states that offset &04 contains one less than the number of tracks on the surface, but in fact the number of tracks is written.

Sector 17 is not used, but EDOS overwrites it during *CATGEN. In this case it is a copy of the freshly initialised sector 15 but for an &01 byte at offset &04.

Hardware

Four interface designs are known to exist:

  • 11-chip
This is the first board to be pictured in Opus's advertisements, appearing in the August 1984 issue of The Micro User. It carries a 40 pin Intel chip to the north of the header, almost certainly the Intel 8272. 'Opus' is in bold type and reads from south to north.
  • 7-chip
Based on the Western Digital 2791 controller; PCB designator EO 118. One example was assembled in or after April 1984 and a WD2791 based board was reviewed in A & B Computing in December 1984. The 'Opus.' typeface is the same as used in the ads from November 1983 onwards, being lighter than the font on the 11-chip board and reading from north to south.
  • D/Doss AI
An early design (judging by the lettering) of the WD2791 controller board, without a buffer between the controller chip and the data bus. Seen at Chris's Acorns.
  • 1770
A compact design first pictured in May 1985, with the Western Digital 1770 controller placed alongside the header and upside down when fitted. The board had 5 ICs in total.

Opus boards have had a custom memory-mapped layout throughout their history, unlike Watford DDFS boards for example which were redesigned to be compatible with the Acorn interface. The hardware interface of all Western Digital controller based boards is as follows:

Address Source on read Destination on write
&FE80 Status register Control register
&FE81 Track register Track register
&FE82 Sector register Sector register
&FE83 Data register Data register
&FE84 Undefined Control latch

The control latch is a write-only register at &FE84, laid out as follows:

Bit Meaning
7 Not used
6 Density select (0 = single density; 1 = double density)
5-2 Not used
1 Side select (0 = bottom; 1 = top)
0 Drive select (0 = unit 0; 1 = unit 1)

The bottom two bits correspond to the DFS drive number, 0..3.

In the case of the WD 2791, all registers except the control latch are inverted; EOR #&FF is needed after reading or before writing.

Timeline

In December 1983, Opus publicised their first double density DFS in a stop press announcement. The interface hardware was most likely the 11-chip PCB; the Intel 8272 having a similar design to the 8271 would have simplified programming and reduced time to market. A later advertisement priced the kit at £99.95.

In April 1984 a "new" double density interface, apparently the 7-chip WD2791 board, was announced and initially priced at £120.00. In or around this time Opus EDOS 0.4 was probably the accompanying DFS. If so, then over the course of the year the firmware went through three major versions, a change of name and a revised command set until A & B Computing reviewed Opus DDOS version 3.11 in December. The review, and Opus's advertisements, carried pictures of the 11-chip daughterboard though A & B stated the controller IC was a WD2791.

The design lasted until at least February 1985 when a drop in price to £99.95 suggested a new controller had arrived. The 5-chip WD1770 daughterboard was revealed in April, though the 11-chip image still appeared frequently. DDOS 3.45 had provision (in the form of redundant EOR instructions) to target either the WD1770 or WD2791 controller though it was most often installed with a WD1770.

When the Challenger add-on was announced in October that year, the command set was more like EDOS than DDOS. It is likely that Opus reverted to the older, smaller firmware to make room for the RAM disc extensions.

Here is a survey of Opus DDOS advertisements in The Micro User volumes I to III. Advertisements were run every month, this table lists only important changes. Details of the A & B Computing review and the release of Opus's Spectrum products are included.

Date Publication Page Controller type Price Description
In picture In text
November 1983 The Micro User 32 - - - First appearance of the 'Opus.' lettering as seen on EO 118.
December 1983 68 - - - First "stop press" mention of double density DFS.
February 1984 77 - - £99.95 -
April 1984 104 - - £120.00 "New" double density interface. First description. 248 files, auto tracks/density, mass copy, tape to disc transfer.
- - 7-chip - - Latest date code (8416) on one example of EO 118.
July 1984 The Micro User 133 - - £129.95 "Megabyte bargain"; "Fully Acorn compatible".
August 1984 Sinclair User 47 - - - Release of the Spectra disc interface for the Sinclair ZX Spectrum (£99.95)[1]
The Micro User 43 11-chip - First picture. Compatibility: "for your BBC Micro and 6502 2nd Processor."
December 1984 26 - Compatibility: "for your BBC Micro Z-80 and 6502 2nd Processor."
A & B Computing 92 2791 Opus DDOS review. Version 3.11. 252 KB volume size limit.
February 1985 Your Spectrum 27 - - - Last advertisement for the Spectra interface.[1]
The Micro User 142 - £99.95 Reduced price; new controller?
April 1985 14 - £99.95 separately -
£79.95 with any other disc drive
£50.00 with Opus 5401 drive
May 1985 141 1770 - First picture of 1770. First mention of name DDOS in an Opus ad. Software compatibility list.
SinclairPrograms 10 - - - Announces that the Opus Discovery 1 (a Spectrum dock with WD1770 based disc interface) was released in March (£199.95)[2]
June 1985 The Micro User 55 11-chip - Free with Opus 3" drive Limited offer.
89 1770 - £99.95 separately -
£79.95 with any other disc drive
£50.00 with Opus 5401 drive
July 1985 141 - £99.95 separately -
£79.95 with any other disc drive
£30.00 with Opus 5400 drive
August 1985 97 - £49.95 with any other 5.25" disc drive "Megabyte marvel offer". First mention of A & B Computing review.
£30.00 with Opus 5802 drive
September 1985 131 - £49.95 with any other 5.25" disc drive -
Free with Opus 5802 and 5802 DB drives.
October 1985 118 11-chip - Introduction of Opus Challenger 3 in 1. Challenger is an 'extended DDOS'.
December 1985 71 1770 - Last picture of 1770
January 1986 87 - - - Last mention of DDOS for a while.
August 1986 9 11-chip 1770 £99.95 including single 5.25" SSDD 40T drive -
£159.95 including dual 5.25" SSDD 40T drives
October 1986 13 - 1770 £60.00 separately -
£40.00 with 5.25" drive
November 1986 - - 1770 - - 1770 boards were possibly still being manufactured, according to this photo: date code 8644 (on IC 1, but socketed) or 8648 (on IC 4, revealed by heavy processing but still barely legible.)
April 1988 The Micro User 87 - 1770 Last mention of DDOS; last Opus ad.

Firmware

All versions of Opus DDOS firmware were supplied on a 16 KB ROM. This allowed room for a comprehensive Intel 8271 emulator and some essential utilities that were disc based under Acorn DFS. Version 3.11 was reviewed in A & B Computing in December 1984 and the series culminated with version 3.46, which gave the following help:

>*HELP
OPUS DDOS 3.46

  DDOS     
  DFS      
  UTILS    
  DDOSX    

OS 1.20
>*HELP DFS
OPUS DDOS 3.46

  4080      <argument>
  ACCESS    <afsp> (L)
  BACKUP    <src drv> <dest drv>
  COMPACT   (<drv>)
  COPY      <src drv> <dest drv> <afsp>
  DELETE    <fsp>
  DENSITY   <argument>
  DESTROY   <afsp>
  DIR       (<dir>)
  DRIVE     (<drv>)
  ENABLE   
  INFO      <afsp>
  LIB       (<dir>)
  MCOPY     <src drv> <dest drv>
  RENAME    <old fsp> <new fsp>
  SROM      <Hex no.>
  STAT      (<drv>)
  TAPEDISK  <fsp>
  TITLE     <title>
  WIPE      <afsp>
  XCAT      (<drv>)

OS 1.20
>*HELP UTILS
OPUS DDOS 3.46

  BUILD     <fsp>
  DISC     
  DUMP      <fsp>
  FORMAT    <argument>
  LIST      <fsp>
  TYPE      <fsp>
  VERIFY    (<drv>)
  VOLGEN    (<drv>)

OS 1.20
>*HELP DDOSX
OPUS DDOS 3.46

  COPYRIGHT
  FDCSTAT  
  RAMINIT  
  ROMID    

OS 1.20
>

The first decimal place of the version number specifies the controller type: 1 = WD2791; 3 = WD2793; 4 = WD1770.

The size and number of volumes could be reassigned with a 'quick format' (*VOLGEN) which erased all files and therefore needed a *ENABLE beforehand. Volumes were allocated in units of 4.5 KB which was the size of one track.

Files were named and retrieved in the same syntax as Acorn DFS, except the drive identifier could have a volume letter from A to H as well as, or instead of, the drive number. So a full absolute file specification would look like :2B.$.MENU. A default volume letter could be set with *DRIVE (as with *DIR for the directory), and the default itself defaulted to A. The volume letter was ignored when accessing Acorn DFS discs. The parser was not as precise as the one in Acorn DFS, and did not accept : and . in file names even when the characters were unambiguously part of the leaf name.

Variants

Opus EDOS

A compatible piece of firmware from 1984, running on the 7-chip WD2791 interface board. The command syntax resembles Challenger rather than DDOS, there is no *TAPEDISC facility and the ROM does away with the full screen displays of DDOS.

EDOS maintains a default filename: if a filename passed to EDOS for resolution has an empty leaf name, EDOS substitutes the previous non-empty leaf name passed to it. The default drive, volume and directory, however, come from the most recent arguments to *DRIVE, *VOL and/or *DIR. The combined default filename is displayed in the *CAT catalogue header. SAVE "", for example, overwrites the file most recently accessed (such as a BASIC program previously LOADed into memory); *INFO displays details of this file.

On hard reset the default filename is initialised to :0A.$. [sic]. In the initial state, $., F. etc. and the empty string are valid filenames until a non-empty leaf name is mentioned. An empty leaf name is stored as seven spaces in the volume catalogue.

The firmware is stable (at version 0.4) and assembled in modules, but lacks some aspects of Acorn DFS behaviour which can cause some compatibility problems. Uses slightly less memory than either DDOS or Acorn DFS. Nothing is known about where this fits into Opus's product timeline or indeed whether it is a genuine Opus release. A third-party patch has since been produced.

Applications that handle the DDOS format

On physical discs

  • Omnidisk / Omniflop, by Sherlock Consulting, reads and writes several native formats, including DDOS, on compatible PCs.
  • Anadisk, by Sydex, Inc. is an older shareware utility to produce a disc image from a physical disc on compatible PCs.

In disc images

  • Omnidisk / Omniflop, by Sherlock Consulting, will also display, add and extract files from DDOS disc images.
  • bbcim, by W.H.Scholten, is a versatile, CLI-based Linux tool to manipulate many types of BBC disc image.

References

beardo 16:11, 16 March 2011 (UTC)