C2N Emulator multi-threaded GUI client development started

After work today I started the development of the multi-threaded GUI client for my C2N Emulator device.
I also did some initial testing this evening and I reckon I will be testing some more before releasing binaries officially.

Stay tuned!

C2N Emulator GUI client update

I made another update to the C2NEmu GUI playback client in order to further improve user experience.
Overall I would say I am happy with the user interface but I should plan a partial rewrite using a multi-threaded model as the one I used in the IECHost GUI client: it would improve the responsiveness of the interface so much, especially on older/slower PCs!

For the time being only Windows binaries are available but I will build the Linux version in the next few days.

Stay tuned!

Recording utility for C2NEmu published for Linux too

After work I made a Linux build of my C2N Emulator recording client and tested it successfully:

luigidifraia@shinobi1604:~/Development/embedded/c2n_emulator/software/c2nemu-record/src$ sudo ./c2nemu-record /dev/ttyACM0 helloworld.dmp
C2NEmu record utility, rel 1.0 - (C) 2017 Luigi Di Fraia
Communicates with a C2NEmu device to record tapes

Reading from /dev/ttyACM0
Issue SAVE on the host... OK
Stop the recording chain with spacebar
Filename intercepted: HELLO WORLD!
 Request to stop recording sent
Finished!
Total bytes saved: 85224

The new binary is available here.

I am quite happy with the outcome so far. If anything I am a bit frustrated with the code repetition occurring in my client applications for DC2N4-LC, C2NEmu, and IECHost. In fact, I hadn’t planned to develop any USB-serial device other than DC2N4-LC but things panned out differently so I have been improving code at each new stage of each new device, trying to backport some of the latest rationalisations when I had the time.

In retrospective, if I knew I was going to work at a few USB-serial devices I would have built a library (such as my own libtapf, libcbmhiresf, libd64fs, etc.) and used it within my applications.
I might actually get to build such a library when I get some time. It’s unlikely that I will adapt all existing applications to use it, but at least I might make significant changes to those applications I use the most and I see most value in 🙂

Recording utility published for my Commodore datasette emulator, C2NEmu

It has been a while since I had done any software development for C2NEmu but I thought to publish one missing utility that might be quite handy, albeit not for many: recording DMP files directly from a host computer where a saving process is running (e.g. the BASIC SAVE command or the Cyberload tape masterer is running).

For the time being only the Windows binary is available here.

The way it works is quite simple: users just run the utility on a PC pointing it to the virtual COM port C2NEmu is attached to and select an output filename.

D:\development\embedded\c2n_emulator\software\c2nemu-record\bin>c2nemu-record.exe COM9 helloworld.dmp
C2NEmu record utility, rel 1.0 - (C) 2017 Luigi Di Fraia
Communicates with a C2NEmu device to record tapes

Reading from COM9
Issue SAVE on the host... OK
Stop the recording chain with spacebar
Filename intercepted: HELLO WORLD!
Request to stop recording sent
Finished!
Total bytes saved: 85330

You might notice that the filename interceptor is available (for “CBM ROM Loader” and “Tutbotape 250″) and that multiple files can be saved to a single tape image in order to create a multiload tape or simply group together a few files. Once users are happy with the result, pressing space on the PC side stops the recording process.

Let’s have a look at TAPClean’s report for the file I saved above with SAVE”HELLO WORLD!” from BASIC:

TAPClean version: 0.35-pre8

GENERAL INFO AND TEST RESULTS

TAP Name    : D:\development\embedded\c2n_emulator\software\c2nemu-record\bin\helloworld.dmp
TAP Size    : 42506 bytes (41 kB)
TAP Version : 1
Recognized  : 100%
Data Files  : 4
Pauses      : 3
Gaps        : 0
Magic CRC32 : E594EE40
TAP Time    : 0:22.78
Bootable    : YES (1 part, name: HELLO WORLD!)
Loader ID   : n/a

Overall Result    : FAIL

Header test       : PASS [Sig: OK] [Ver: OK] [Siz: OK]
Recognition test  : PASS [42486 of 42486 bytes accounted for] [100%]
Checksum test     : PASS [4 of 4 checksummed files OK]
Read test         : PASS [0 Errors]
Optimization test : FAIL [0 of 4 files OK]






FILE FREQUENCY TABLE

PAUSE (3)
C64 ROM-TAPE HEADER (2)
C64 ROM-TAPE DATA (2)





FILE DATABASE

---------------------------------
Seq. no.: 1
File Type: PAUSE
Location: $0014 -> $0000 -> $0000 -> $0017
 - Length : 5137160 cycles (5.2141 secs)

---------------------------------
Seq. no.: 2
File Type: C64 ROM-TAPE HEADER
Location: $0018 -> $6ACC -> $79CC -> $79E1
LA: $033C  EA: $03FB  SZ: 192
File Name: HELLO WORLD!
Pilot/Trailer Size: 27136/0
Checkbyte Actual/Expected: $3F/$3F, PASS
Read Errors: 0
Unoptimized Pulses: 29961
CRC32: A104AF98
 - File ID : FIRST
 - DATA FILE type : BASIC
 - DATA FILE Load address : $0801
 - DATA FILE End address : $081E
 - DATA FILE Size (calculated) : 29 bytes

---------------------------------
Seq. no.: 3
File Type: C64 ROM-TAPE HEADER
Location: $79E2 -> $7AE5 -> $89E5 -> $8A48
LA: $033C  EA: $03FB  SZ: 192
File Name: HELLO WORLD!
Pilot/Trailer Size: 79/78
Checkbyte Actual/Expected: $3F/$3F, PASS
Read Errors: 0
Unoptimized Pulses: 2986
CRC32: A104AF98
 - File ID : REPEAT
 - DATA FILE type : BASIC
 - DATA FILE Load address : $0801
 - DATA FILE End address : $081E
 - DATA FILE Size (calculated) : 29 bytes

---------------------------------
Seq. no.: 4
File Type: PAUSE
Location: $8A49 -> $0000 -> $0000 -> $8A4C
 - Length : 327688 cycles (0.3326 secs)

---------------------------------
Seq. no.: 5
File Type: C64 ROM-TAPE DATA
Location: $8A4D -> $A001 -> $A245 -> $A25A
LA: $0801  EA: $081D  SZ: 29
Pilot/Trailer Size: 5376/0
Checkbyte Actual/Expected: $2A/$2A, PASS
Read Errors: 0
Unoptimized Pulses: 5916
CRC32: D1C5C788
 - File ID : FIRST

---------------------------------
Seq. no.: 6
File Type: C64 ROM-TAPE DATA
Location: $A25B -> $A35E -> $A5A2 -> $A605
LA: $0801  EA: $081D  SZ: 29
Pilot/Trailer Size: 79/78
Checkbyte Actual/Expected: $2A/$2A, PASS
Read Errors: 0
Unoptimized Pulses: 686
CRC32: D1C5C788
 - File ID : REPEAT

---------------------------------
Seq. no.: 7
File Type: PAUSE
Location: $A606 -> $0000 -> $0000 -> $A609
 - Length : 322880 cycles (0.3277 secs)






PULSE FREQUENCY TABLE

0x2B (49)
0x2C (3)
0x2D (2254)
0x2E (17459)
0x2F (17400)
0x30 (3)
0x3F (11)
0x40 (873)
0x41 (1185)
0x42 (2751)
0x55 (4)
0x56 (171)
0x57 (311)

And here’s the Data PRG decoded as BASIC program:

1 PRINT"HELLO WORLD!"
2 GOTO1

Not bad, is it? 🙂

C2N Emulator for sale!

I finally decided to make the C2N Emulator available to general users.

C2N Emulator (a.k.a. C2NEmu)

C2NEmu GUI software update

For all details, please have a look at my Sales page.

Thinking of a custom controller for Amiga disks

I was thinking of working at a similar project as my own D1541, but this new one for Amiga disks and 3 and 1/2 inch drives. It would probably be something similar to KryoFlux, i.e. supporting multiple formats, but using the hardware – and my application framework for it – I’ve already widely used for DC2N4-LC, C2NEmu, and IECHost.

Don’t get me wrong: I am not saying that I will make one such devices. I am just thinking of one and you don’t need to tell me there are already a number of projects for doing that: I know that 😉

What I want to do is gather more knowledge about PC floppy drives, MFM encoding and the Amiga DOS. I’ve sort of forgotten a lot about these topics and at a quick glance it is not so immediate to find relevant information on the Web: most search results seem to retrieve material with little to no relevance to what I am after.

As example: when asserting the disk signal for stepping, what’s the minimum duration of the pulse involved? I understand all signals in and out of a standard 3 and 1/2 inch drive are active-low based on their names (such as /STEP and /RDATA), but little I know – or remember – about timings at the moment.

Stay tuned for more.

IECHost DIY kits soon to be up for sale!

Today I received the PCBs for revision 1.1 of IECHost that I plan to make available to generic users and not just to beta testers. They are quite smaller than the ones for revision 1.0 and rather simple to solder together 🙂

IECHost revision 1.1 (bottom) and 1.0 (top)