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153 Commits
qd ... FluxEngine

Author SHA1 Message Date
David Given
dce0a26820 Merge pull request #136 from davidgiven/ibm 
Finally add write support for IBM disks.
 2020-02-18 23:20:57 +01:00
David Given
14e0a67e7d IBM write support gets the much vaunted unicorn. 2020-02-18 23:10:09 +01:00
David Given
1656947764 Disable write precompensation, as it actually seems to make things worse. 2020-02-18 22:49:12 +01:00
David Given
647862cdbd Update the firmware for the new cruncher. 2020-02-18 22:13:41 +01:00
David Given
4a8d83838c Add IBM write support documentation. 2020-02-18 22:12:56 +01:00
David Given
8acf8e181d Rework the crunch encoding to be, hopefully, smaller and use less bandwidth for 
HD disks.
 2020-02-18 21:37:32 +01:00
David Given
2df9920209 Rename test bulktransport to test bandwidth; avoid watchdog failures while the 
bandwidth test is running.
 2020-02-18 19:12:52 +01:00
David Given
1a6c6b5420 The bandwidth tester now tests bandwidth in both directions. It looks like my 
default USB port only gets about 500kB/s write bandwidth. However, when plugged
into a port with 850kB/s, I still get underrun errors...
 2020-02-17 23:58:40 +01:00
David Given
edc56d44d6 Non-functioning archive checkin: You can only have 120-odd DMA buffers, so my 
last 'fix' was in fact non-functional.
 2020-02-17 23:28:40 +01:00
David Given
ef4eff0195 So writing now works, but only if USB DMA is enabled. But that breaks reading. 
I've worked round this in a simple but brute force manner and it now looks as
if reading *and* writing work, more or less. There does still seem to be the
odd bad sector when writing 1440kB disks.
 2020-02-17 21:41:01 +01:00
David Given
df8d45bf66 Rework the output fifo to be a bit more correct about the sync signals, which 
in turn allows the sequencer to lose less time --- this gets the effective
clock rate down to about 1.01us. However we still seem to lose the last sector
on 18-sector disks and there are some disk reads so something is still wrong.
 2020-02-17 00:13:13 +01:00
David Given
89a27619ff Correctly propagate MFM encoding state. 2020-02-15 21:47:01 +01:00
David Given
387a86969a Some verilog optimisations which shave off a few p-terms. 2020-02-15 12:15:51 +01:00
David Given
acb5059d17 Rewrite the sampler *again* to, hopefully, be more stable and not lose ticks. 
Luckily, we have just enough space in the FPGA to use an actual logic counter,
which simplifies things hugely.
 2020-02-15 12:09:19 +01:00
David Given
a4002d2617 Fix a few encoder issues; but while 720kB disks work fine in a real machine, 
1440kB disks don't.
 2020-02-14 22:47:15 +01:00
David Given
a63a90bbd0 Only attempt to remove the old file on overwrite if it actually exists. 2020-02-14 22:30:46 +01:00
David Given
d25f96dd24 The IBM encoder now works well enough that my USB floppy drive thinks the disk 
is formatted... but has trouble reading sectors above about 1000. Also remember
that encoding MFM needs to keep one bit of state at all times.
 2020-02-14 00:06:51 +01:00
David Given
e8febe6508 Allow converting Bytes to bits, and slicing until the end of an object. 2020-02-14 00:04:31 +01:00
David Given
ad3a930c6a Do the boilerplate of the IBM encoder. 2020-02-09 23:56:20 +01:00
David Given
be41c1de76 You now need to explicitly specify whether flux files get merged or 
overwritten, because the old behaviour was weird. Reader uses SqliteFluxSink to
write flux files, rather than raw database accesses.
 2020-02-08 12:41:50 +01:00
David Given
d528978667 Merge pull request #135 from davidgiven/docs 
Update docs.
 2020-02-08 11:53:31 +01:00
David Given
827fcf69d2 Another typo fix. 2020-02-08 11:52:39 +01:00
David Given
711ff545e0 Typo fix. 2020-02-08 11:51:19 +01:00
David Given
5befa31050 Document the GreaseWeazle. 2020-02-08 11:50:09 +01:00
David Given
8e5c2d0ebb Merge from trunk. 2020-02-08 11:35:31 +01:00
David Given
f95fceeb3d Finally document IBM disks. 2020-02-08 11:34:57 +01:00
David Given
003b20dbf0 Merge pull request #133 from davidgiven/fixing 
Display RPM values correctly
 2020-01-29 00:52:04 +01:00
David Given
cd9bbaa4b6 Merge from trunk. 2020-01-29 00:42:06 +01:00
David Given
71e622bf72 Fix the fe-rpm RPM display, which didn't get updated when we switched to 
nanoseconds internally.

Fixes #132
 2020-01-29 00:41:58 +01:00
David Given
2a065a08df Remember to ship brother240tool with Windows. 2020-01-28 00:45:04 +01:00
David Given
6087228378 Merge pull request #131 from davidgiven/fixing 
Debug builds are now debuggable.
 2020-01-28 00:40:39 +01:00
David Given
efd74e0d7b Stop trying to make Github CI on Windows work. It just doesn't seem to be 
running mingw via ninja.
 2020-01-28 00:33:30 +01:00
David Given
b68a9dcc4f Looks like there is no pacman.exe in the image, so we have to go with the 
additional download.
 2020-01-28 00:30:48 +01:00
David Given
008855daa9 ...more... 2020-01-28 00:27:21 +01:00
David Given
7a9d36de2a ... 2020-01-28 00:23:59 +01:00
David Given
c56e982c9a ... 2020-01-28 00:22:18 +01:00
David Given
002cc171a2 More sigh. 2020-01-28 00:19:39 +01:00
David Given
32e721b47a Sigh. 2020-01-28 00:15:31 +01:00
David Given
1e82f697a9 Temporarily disable AppVeyor to prevent spurious builds. 2020-01-28 00:14:45 +01:00
David Given
fa09631e32 More exploration. 2020-01-28 00:13:38 +01:00
David Given
e06436ce1e Okay, that's not working. What's available? 2020-01-28 00:05:23 +01:00
David Given
b2f443e1ad Let's try this, but with the right path. 2020-01-27 23:57:48 +01:00
David Given
2e07be0cf7 Let's try this instead. 2020-01-27 23:56:55 +01:00
David Given
bf0b14d094 Okay, changing the path didn't help. 2020-01-27 23:51:22 +01:00
David Given
c9f5803194 The system is installing, but it's not finding mingw32. 2020-01-27 23:47:30 +01:00
David Given
5293560c02 Try enabling the windows CI build again. 2020-01-27 23:41:03 +01:00
David Given
c49823aa9d Now the optimised binaries are optimised and the debug binaries aren't. 2020-01-27 23:36:33 +01:00
David Given
c4ef4882ae Merge pull request #130 from davidgiven/fixing 
Fix a nasty firmware memory corruption bug
 2020-01-27 23:15:20 +01:00
David Given
a8eca06cf0 Don't hang if we hit the end of stream while waiting for a data record. 2020-01-27 23:09:29 +01:00
David Given
065257b5aa Remove stray tracing. 2020-01-27 23:09:07 +01:00
David Given
29bdfc043a Allow fractional revolutions and non-synced reading. Find more things which 
need fixing in the firmware sampler.
 2020-01-27 22:52:25 +01:00
David Given
933ffe7ab4 Find and attempt to fix a memory corruption error when sampling --- if the next 
fragment arrives from the sampler before usbbuffer has finished being
transmitted via USB, it'll get overwritten. I've disabled DMA USB to make the
code easier to understand and made sure that we flush things more rigorously.
This may help the weird pipe errors, too.
 2020-01-27 21:40:27 +01:00
David Given
e517f28563 Merge pull request #129 from davidgiven/fixing 
Make decoding more robust
 2020-01-27 01:21:40 +01:00
David Given
91ffcf59c3 When reading data records, retry if we get an UNKNOWN record to work the 
occasional false positive (which happens now and again with MFM).
 2020-01-27 01:15:14 +01:00
David Given
51c618f325 Merge from trunk. 2020-01-26 23:53:29 +01:00
David Given
9dc1067032 Add --dump-sectors. Sector positions are recorded correctly. 2020-01-26 18:30:35 +01:00
David Given
9e75dc3af1 Merge pull request #127 from davidgiven/fixing 
Fix an issue where HD IBM disks can't be read
 2020-01-26 18:06:15 +01:00
David Given
efa4c933b3 Made the MFM marker byte detection a lot more robust --- prevents false 
positives; it looks like the new sampler is producing a little bit of wobble
which randomly spoofs a marker byte now and again. This prevents this from
happening (so far).
 2020-01-26 17:58:08 +01:00
David Given
6af80d1e5e Improve some messaging. A data record is always pushed, even if it's empty (to 
help debugging).
 2020-01-26 17:49:12 +01:00
David Given
0c48897814 Add a minimum clock threshold. 2020-01-26 17:48:33 +01:00
David Given
60e5e35947 Merge pull request #124 from davidgiven/tweaks 
Several index pulse fixes
 2020-01-12 01:42:39 +01:00
David Given
86c4e959ca Mac error fix. 2020-01-12 01:38:19 +01:00
David Given
b0c675c589 Improved error messages when using fe-rpm and it doesn't work. 2020-01-12 01:34:12 +01:00
David Given
d77841c3b7 Add the ability to fake the index pulse source, allowing old drives to be used 
with FluxEngine.
 2020-01-12 01:23:47 +01:00
David Given
4ed1fb6bac Document the extra index pulses. 2020-01-10 21:23:33 +01:00
David Given
bcc9e9d9a5 Bump the protocol number (I forgot last time I changed the protocol). 2020-01-10 21:04:33 +01:00
David Given
ec327e25a4 Merge pull request #121 from davidgiven/amiga 
Add support for writing Amiga disks.
 2019-12-14 21:55:00 +01:00
David Given
d0ed5b32f7 Add support for 528-byte sectors. Adjust the post-index gap to (try?) and fit 
all the data in one revolution. I think my write clock is a bit slow.
 2019-12-14 21:49:31 +01:00
David Given
7c66e1b0d4 Don't recalibrate after drive errors --- it's really annoying and I don't think it helps. 2019-12-14 21:43:48 +01:00
David Given
4475e9f085 Increase the default bit-error-threshold to 0.4, because that's the value I 
almost always end up using.
 2019-12-14 21:33:39 +01:00
David Given
5c9639ec5a Document the Amiga write support. 2019-12-14 21:15:47 +01:00
David Given
792cc88192 The Amiga writer now generates valid flux files --- but it looks like the 
writer's broken (both the Amiga and the Brother have failed).
 2019-12-14 20:44:48 +01:00
David Given
21fe586724 Update OSX build instructions. 2019-12-14 11:37:43 +01:00
David Given
5a0fb2761a Update OSX build instructions. 2019-12-14 11:37:43 +01:00
David Given
ef4581ed39 Merge from trunk. 2019-12-13 23:59:03 +01:00
David Given
73419704c2 Merge pull request #118 from davidgiven/fixing 
Fix a few minor build tweaks.
 2019-12-13 23:56:12 +01:00
David Given
a8b92d4780 This works; final tweaking. 2019-12-13 23:53:42 +01:00
David Given
98140b0646 More testing. 2019-12-13 23:50:33 +01:00
David Given
4429ce1f84 More build tweaks. 2019-12-13 23:48:17 +01:00
David Given
1f50941a2c Merge from trunk. 2019-12-13 23:45:17 +01:00
David Given
a7de04848c Merge pull request #117 from davidgiven/githubci 
Convert to Github CI instead of Travis.
 2019-12-13 23:43:03 +01:00
David Given
c264fec6e9 The Windows stuff doesn't work, so let's shelve it for now. 2019-12-13 23:38:49 +01:00
David Given
4488b2542f Update MSYS build environment. 2019-12-13 23:24:23 +01:00
David Given
2f1a5189d6 Oh, yeah, let's actually check out our project! 2019-12-13 23:21:58 +01:00
David Given
effaeff51e Something's not right --- test. 2019-12-13 23:19:48 +01:00
David Given
1210549f59 Try Windows builds on github. 2019-12-13 23:12:29 +01:00
David Given
7200de9702 Add more Homebrew packages. 2019-12-13 23:02:13 +01:00
David Given
5dd5c8516a Don't do builds on push_request, because these always coincide with pushes. 2019-12-13 23:01:08 +01:00
David Given
f7fb2a844b Github's OSX doesn't install pkg-config by default? 2019-12-13 23:00:10 +01:00
David Given
20b1b2a4a8 More YAML syntax fiddling? 2019-12-13 22:58:28 +01:00
David Given
f8b8bc2295 Fiddle with YAML syntax. 2019-12-13 22:57:29 +01:00
David Given
2d4d56d09f Try Github CI for OSX builds instead of Travis. 2019-12-13 22:55:37 +01:00
David Given
39599b76c8 Stop building the Ubuntu version with Travis. 2019-12-13 22:52:30 +01:00
David Given
c2c40ccfbb Also remember to install ninja-build. 2019-12-13 22:48:48 +01:00
David Given
ab42eb23f4 Remember to run apt as sudo. 2019-12-13 22:47:20 +01:00
David Given
05eff0e528 Try to build using github CI. 2019-12-13 22:44:58 +01:00
David Given
23311b4b68 Start looking at Github CI. 2019-12-13 22:41:19 +01:00
David Given
5e97df8d15 Better diagnostics when a package can't be found. 2019-12-13 22:39:58 +01:00
David Given
898e8c551c Produce a build-time error if the pkg-config packages aren't available. 2019-12-13 22:34:24 +01:00
David Given
ad69c6bd27 Fix stupid (but thankfully harmless) typo. 2019-12-13 22:33:39 +01:00
David Given
661399cc83 Update document with the new flippy mod doc; explain how Mac disks are broken. 2019-12-12 21:04:42 +01:00
David Given
edbb4b1daa Merge pull request #115 from davidgiven/reading 
Rewrite the entire sampler.
 2019-12-12 20:46:12 +01:00
David Given
6389e8a756 Update pin number (which was wrong). 2019-12-12 20:35:20 +01:00
David Given
c187b79d80 Add a 300RPM clock on 3[0] and a 360RPM clock on 3[1], for use with faking 
index pulses to the drive.
 2019-12-12 20:34:44 +01:00
David Given
edbe624c5a Hopefully, finally, fix the hang-on-read issue. 2019-12-12 20:09:49 +01:00
David Given
44e2334815 Typo fix. Make sure that both drives get deselected when the motor stops (to 
make the LEDs go out).
 2019-12-12 00:17:59 +01:00
David Given
b448ab7917 Finally squeeze everything in to the Verilog sampler. It does seem to work 
better... the the USB hangup problem persists. Mac disks are still
nigh-unreadable.
 2019-12-12 00:12:20 +01:00
David Given
072a097003 Archival (non-functioning) checkin of Verilog-based sampler code. Sadly, we've 
run into size limits for the device, and I need to slim down.
 2019-12-11 22:51:27 +01:00
David Given
a66e704bab Start ripping out the awful UDB-based sampler code, replacing it with a Verilog 
one and a standalone FIFO. This gets the FIFO working.
 2019-12-11 21:13:57 +01:00
David Given
ed0d578b18 Merge pull request #114 from davidgiven/fixing1 
Add support for measuring signal line voltages.
 2019-12-11 00:28:13 +01:00
David Given
32bb956710 Detect voltage levels *correctly*. 2019-12-11 00:05:34 +01:00
David Given
f436d6b582 Add a feature where we can measure the FDD bus signal voltages using the PSoC's 
ADCs. Increase the track step pulse width to 6us, because.
 2019-12-10 22:36:18 +01:00
David Given
d2f8c27cb6 Add checksum routine. 2019-12-01 09:11:36 +01:00
David Given
eaa3c57425 Non-functional boilerplate of Amiga write support. 2019-12-01 09:07:43 +01:00
David Given
549f12a2ab Merge from master. 2019-12-01 08:36:44 +01:00
David Given
aea254fbe7 Made the AES Lanier reader work again. 2019-12-01 08:35:25 +01:00
David Given
8ee6eed4dc Merge pull request #112 from davidgiven/fixing 
Rework the sequencer completely, because bizarrely writing disks just stopped working
 2019-11-29 22:02:44 +01:00
David Given
3094c5c919 Add missing files. 2019-11-29 18:49:22 +01:00
David Given
1e012699af Clean up the Verilog a bit. 2019-11-25 20:54:13 +01:00
David Given
91d6e9aeb9 Rewrite the sequencer engine with a separate fifo component and a pure verilog 
sequencer --- much easier to understand. We can write disks again!
 2019-11-25 20:52:13 +01:00
David Given
a40b26ff46 Archival checkin for trying to figure out why writes no longer work. 2019-11-24 15:14:32 +01:00
David Given
ebcb9c4bb0 Switch the output lines to open-drain drive low. 2019-11-24 02:06:45 +01:00
David Given
2520834b18 Add the brother240tool program. 2019-11-24 01:46:02 +01:00
David Given
a1f3087046 Add an 8" drive datasheet. 2019-11-24 01:45:43 +01:00
David Given
e9670e205e Don't erroneously crash out if the t and s parameters are omitted from the rpm 
command.
 2019-10-14 22:25:43 +02:00
David Given
658e2b7295 Properly initialise flags. 
Fixes: #109
 2019-09-22 21:55:37 +02:00
David Given
7b4a8d6de2 Merge pull request #108 from davidgiven/scp 
Add very beta support for scp import and export
 2019-09-21 22:32:52 +02:00
David Given
e8f7b51aef Another documentation tweak. 2019-09-21 22:15:44 +02:00
David Given
9d6bc57a5f Update documentation. 2019-08-31 12:32:52 +02:00
David Given
73766f92b4 Fix the flux to scp converter. 2019-08-31 12:31:33 +02:00
David Given
80badf3b54 Remember to check in the build file changes... 2019-08-31 12:09:11 +02:00
David Given
116529f85a Archival, non-working checkin of the flux to scp converter (it appears to 
produce garbage).
 2019-08-31 01:41:11 +02:00
David Given
5a2b2bc07a Allow support for command lines with non-argument filenames. 2019-08-31 01:40:44 +02:00
David Given
41070395c0 Merge pull request #105 from davidgiven/scp 
Add conversion support for Supercard Pro scp files.
 2019-08-28 23:52:27 +02:00
David Given
4304d1eede Add the Supercard Pro decoder. 2019-08-28 23:32:09 +02:00
David Given
46f1b0aef4 Merge pull request #104 from davidgiven/sampler 
Fix a nasty sampler bug leading to corrupted data
 2019-08-28 00:23:21 +02:00
David Given
9923d67a7c Merge pull request #103 from davidgiven/visualiser 
Add a simple disk visualiser.
 2019-08-28 00:20:49 +02:00
David Given
99335a84fd Add documentation for the visualiser. 2019-08-28 00:19:18 +02:00
David Given
c266779433 Fix a bug where index pulses where being turned into flux pulses on read, 
leading to completely broken data whenever an index pulse happened.
 2019-08-27 23:58:07 +02:00
David Given
bdcc12cd53 Correctly import M_PI. 2019-08-27 23:08:13 +02:00
David Given
7988d0fe24 Don't replace bad sectors with more bad sectors. This means that if a sector is 
permanently bad, the one which wins and goes into the output SectorSet is the
first one, not the last one. Frequently the last sector is truncated by the end
of read and so it isn't useful.
 2019-08-27 22:39:24 +02:00
David Given
27f5c294b1 The visualiser period can now be specified in a flag. 2019-08-27 01:21:49 +02:00
David Given
b9a53e0d1c First draft of the visualiser. 2019-08-27 01:07:57 +02:00
David Given
f8b6d5e6fb Merge. 2019-08-25 00:24:34 +02:00
David Given
04ff31c348 Add a flag to the IBM decoder to tell it to ignore the logical sector IDs (some 
formats don't use these).
 2019-08-25 00:24:02 +02:00
David Given
77b4aebd1b Fix crashing bug when reading Kryoflux streams. 2019-08-24 23:53:22 +02:00
David Given
4056364300 Merge pull request #99 from davidgiven/extensions 
Validate image extensions before reading, not after.
 2019-08-22 22:09:42 +02:00
David Given
60bfe050d3 Refactor the way image extensions are handled to be generally cleaner. Add 
support for validating ImageSpecs before we actually want to read/write an
image, so as to allow us to check the extension *before* wasting time reading a
disk. Make .d81 an alias of .img.
 2019-08-21 00:45:10 +02:00
David Given
28d0ce765e Merge pull request #93 from davidgiven/hex 
Add precompiled firmware
 2019-08-15 22:26:50 +02:00
David Given
4954d33307 Add documentation for using the precompiled firmware. 2019-08-15 22:19:30 +02:00
David Given
55f3354287 Add precompiled hex for the firmware. 2019-08-15 21:52:11 +02:00
David Given
d6ae373fa8 Merge pull request #92 from davidgiven/d64 
Add write-only support for D64 disk images.
 2019-08-15 20:46:02 +02:00
David Given
a626d5f9a0 Add write-only support for D64 disk images. 2019-08-15 20:30:07 +02:00
103 changed files with 10416 additions and 2814 deletions
Expand all files Collapse all files

2
.appveyor.yml
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@@ -15,7 +15,7 @@ install:
build_script:
- make
- zip -9 fluxengine.zip fluxengine.exe brother120tool.exe
- zip -9 fluxengine.zip fluxengine.exe brother120tool.exe brother240tool.exe FluxEngine.cydsn/CortexM3/ARM_GCC_541/Release/FluxEngine.hex
artifacts:
- path: fluxengine.zip

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.github/workflows/ccpp.yml vendored Normal file
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@@ -0,0 +1,41 @@
name: C/C++ CI
on: [push]
jobs:
build-linux:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v1
with:
fetch-depth: 1
- name: apt
run: sudo apt install libusb-1.0-0-dev libsqlite3-dev ninja-build
- name: make
run: make
build-macos:
runs-on: macos-latest
steps:
- uses: actions/checkout@v1
with:
fetch-depth: 1
- name: brew
run: brew install sqlite pkg-config libusb ninja
- name: make
run: make
# build-windows:
# runs-on: windows-latest
# steps:
# - uses: numworks/setup-msys2@v1
# with:
# path-type: inherit
# - uses: actions/checkout@v1
# - name: pacman
# run: |
# msys2do pacman -S --noconfirm --needed make ninja mingw-w64-i686-libusb mingw-w64-i686-sqlite3 mingw-w64-i686-zlib mingw-w64-i686-gcc zip
# - name: build
# run: |
# msys2do make

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.travis.yml
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@@ -1,39 +0,0 @@
language: shell
git:
depth: 1
matrix:
include:
-
os: linux
sudo: false
dist: xenial
compiler: gcc
env: CXX=g++-8
script:
- make
-
os: osx
osx_image: xcode10.2
compiler: clang
env:
- HOMEBREW_NO_INSTALL_CLEANUP=1
addons:
apt:
sources:
- llvm-toolchain-precise-3.8
- ubuntu-toolchain-r-test
packages:
- ninja-build
- libusb-1.0-0-dev
- libsqlite3-dev
- g++-8
homebrew:
packages:
- ninja
script:
- make

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FluxEngine.cydsn/FIFOin/API/c.c Normal file
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@@ -0,0 +1,27 @@
#include "cyfitter_cfg.h"
#include "cydevice_trm.h"
#include "cyfitter.h"
#include "`$INSTANCE_NAME`_h.h"
void `$INSTANCE_NAME`_Start()
{
`$INSTANCE_NAME`_Init();
}
void `$INSTANCE_NAME`_Stop()
{
`$INSTANCE_NAME`_Disable();
}
void `$INSTANCE_NAME`_Init()
{
`$INSTANCE_NAME`_Enable();
}
void `$INSTANCE_NAME`_Enable()
{
}
void `$INSTANCE_NAME`_Disable()
{
}

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FluxEngine.cydsn/FIFOin/API/h.h Normal file
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@@ -0,0 +1,50 @@
#if !defined(`$INSTANCE_NAME`_H)
#define `$INSTANCE_NAME`_H
#include "cytypes.h"
#include "cyfitter.h"
#include "CyLib.h"
#define `$INSTANCE_NAME`_FIFO_PTR ((reg8 *) `$INSTANCE_NAME`_dp__F0_REG)
/* Macros to clear DP FIFOs.*/
#define `$INSTANCE_NAME`_CLEAR do { \
CY_SET_XTND_REG8(\
((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG), 0x01u | \
CY_GET_XTND_REG8(((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG)));\
CY_SET_XTND_REG8(\
((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG), 0xfeu & \
CY_GET_XTND_REG8(((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG)));\
} while(0)
/* Macros to set FIFO level mode. See the TRM for details */
#define `$INSTANCE_NAME`_SET_LEVEL_NORMAL \
CY_SET_XTND_REG8(\
((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG), 0xfbu & \
CY_GET_XTND_REG8(((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG)))
#define `$INSTANCE_NAME`_SET_LEVEL_MID \
CY_SET_XTND_REG8(\
((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG), 0x04u | \
CY_GET_XTND_REG8(((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG)))
/* Macros to set FIFO to single-buffer mode. */
#define `$INSTANCE_NAME`_SINGLE_BUFFER_SET \
CY_SET_XTND_REG8(\
((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG), 0x01u | \
CY_GET_XTND_REG8(((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG)))
/* Macros to return the FIFO to normal mode. */
#define `$INSTANCE_NAME`_SINGLE_BUFFER_UNSET \
CY_SET_XTND_REG8(\
((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG), 0xfeu & \
CY_GET_XTND_REG8(((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG)))
void `$INSTANCE_NAME`_Enable();
void `$INSTANCE_NAME`_Disable();
void `$INSTANCE_NAME`_Start();
void `$INSTANCE_NAME`_Stop();
void `$INSTANCE_NAME`_Init();
#endif
/* [] END OF FILE */

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FluxEngine.cydsn/FIFOin/FIFOin.v Normal file
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@@ -0,0 +1,128 @@
//`#start header` -- edit after this line, do not edit this line
`include "cypress.v"
//`#end` -- edit above this line, do not edit this line
/* Ultra-simple FIFO in component: a byte is shifted in every clock when req
* is high. */
module FIFOin (drq, clk, d, req);
output drq;
input clk;
input [7:0] d;
input req;
//`#start body` -- edit after this line, do not edit this line
wire [7:0] pi;
assign pi = d;
wire load;
assign load = req;
cy_psoc3_dp #(.cy_dpconfig(
{
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM0: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM1: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM2: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM3: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM4: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM5: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM6: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM7: */
8'hFF, 8'h00, /*CFG9: */
8'hFF, 8'hFF, /*CFG11-10: */
`SC_CMPB_A1_D1, `SC_CMPA_A1_D1, `SC_CI_B_ARITH,
`SC_CI_A_ARITH, `SC_C1_MASK_DSBL, `SC_C0_MASK_DSBL,
`SC_A_MASK_DSBL, `SC_DEF_SI_0, `SC_SI_B_DEFSI,
`SC_SI_A_DEFSI, /*CFG13-12: */
`SC_A0_SRC_PIN, `SC_SHIFT_SL, 1'h0,
1'h0, `SC_FIFO1_BUS, `SC_FIFO0_ALU,
`SC_MSB_DSBL, `SC_MSB_BIT0, `SC_MSB_NOCHN,
`SC_FB_NOCHN, `SC_CMP1_NOCHN,
`SC_CMP0_NOCHN, /*CFG15-14: */
10'h00, `SC_FIFO_CLK__DP,`SC_FIFO_CAP_AX,
`SC_FIFO_LEVEL,`SC_FIFO__SYNC,`SC_EXTCRC_DSBL,
`SC_WRK16CAT_DSBL /*CFG17-16: */
}
)) dp(
/* input */ .clk(clk),
/* input [02:00] */ .cs_addr(3'b0), // Program counter
/* input */ .route_si(1'b0), // Shift in
/* input */ .route_ci(1'b0), // Carry in
/* input */ .f0_load(load), // Load FIFO 0
/* input */ .f1_load(1'b0), // Load FIFO 1
/* input */ .d0_load(1'b0), // Load Data Register 0
/* input */ .d1_load(1'b0), // Load Data Register 1
/* output */ .ce0(), // Accumulator 0 = Data register 0
/* output */ .cl0(), // Accumulator 0 < Data register 0
/* output */ .z0(), // Accumulator 0 = 0
/* output */ .ff0(), // Accumulator 0 = FF
/* output */ .ce1(), // Accumulator [0|1] = Data register 1
/* output */ .cl1(), // Accumulator [0|1] < Data register 1
/* output */ .z1(), // Accumulator 1 = 0
/* output */ .ff1(), // Accumulator 1 = FF
/* output */ .ov_msb(), // Operation over flow
/* output */ .co_msb(), // Carry out
/* output */ .cmsb(), // Carry out
/* output */ .so(), // Shift out
/* output */ .f0_bus_stat(drq), // not empty
/* output */ .f0_blk_stat(full),// full
/* output */ .f1_bus_stat(), // FIFO 1 status to uP
/* output */ .f1_blk_stat(), // FIFO 1 status to DP
/* input */ .ci(1'b0), // Carry in from previous stage
/* output */ .co(), // Carry out to next stage
/* input */ .sir(1'b0), // Shift in from right side
/* output */ .sor(), // Shift out to right side
/* input */ .sil(1'b0), // Shift in from left side
/* output */ .sol(), // Shift out to left side
/* input */ .msbi(1'b0), // MSB chain in
/* output */ .msbo(), // MSB chain out
/* input [01:00] */ .cei(2'b0), // Compare equal in from prev stage
/* output [01:00] */ .ceo(), // Compare equal out to next stage
/* input [01:00] */ .cli(2'b0), // Compare less than in from prv stage
/* output [01:00] */ .clo(), // Compare less than out to next stage
/* input [01:00] */ .zi(2'b0), // Zero detect in from previous stage
/* output [01:00] */ .zo(), // Zero detect out to next stage
/* input [01:00] */ .fi(2'b0), // 0xFF detect in from previous stage
/* output [01:00] */ .fo(), // 0xFF detect out to next stage
/* input [01:00] */ .capi(2'b0), // Capture in from previous stage
/* output [01:00] */ .capo(), // Capture out to next stage
/* input */ .cfbi(1'b0), // CRC Feedback in from previous stage
/* output */ .cfbo(), // CRC Feedback out to next stage
/* input [07:00] */ .pi(pi), // Parallel data port
/* output [07:00] */ .po() // Parallel data port
);
//`#end` -- edit above this line, do not edit this line
endmodule
//`#start footer` -- edit after this line, do not edit this line
//`#end` -- edit above this line, do not edit this line

27
FluxEngine.cydsn/FIFOout/API/c.c Normal file
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@@ -0,0 +1,27 @@
#include "cyfitter_cfg.h"
#include "cydevice_trm.h"
#include "cyfitter.h"
#include "`$INSTANCE_NAME`_h.h"
void `$INSTANCE_NAME`_Start()
{
`$INSTANCE_NAME`_Init();
}
void `$INSTANCE_NAME`_Stop()
{
`$INSTANCE_NAME`_Disable();
}
void `$INSTANCE_NAME`_Init()
{
`$INSTANCE_NAME`_Enable();
}
void `$INSTANCE_NAME`_Enable()
{
}
void `$INSTANCE_NAME`_Disable()
{
}

50
FluxEngine.cydsn/FIFOout/API/h.h Normal file
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@@ -0,0 +1,50 @@
#if !defined(`$INSTANCE_NAME`_H)
#define `$INSTANCE_NAME`_H
#include "cytypes.h"
#include "cyfitter.h"
#include "CyLib.h"
#define `$INSTANCE_NAME`_FIFO_PTR ((reg8 *) `$INSTANCE_NAME`_dp__F0_REG)
/* Macros to clear DP FIFOs.*/
#define `$INSTANCE_NAME`_CLEAR do { \
CY_SET_XTND_REG8(\
((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG), 0x01u | \
CY_GET_XTND_REG8(((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG)));\
CY_SET_XTND_REG8(\
((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG), 0xfeu & \
CY_GET_XTND_REG8(((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG)));\
} while(0)
/* Macros to set FIFO level mode. See the TRM for details */
#define `$INSTANCE_NAME`_SET_LEVEL_NORMAL \
CY_SET_XTND_REG8(\
((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG), 0xfbu & \
CY_GET_XTND_REG8(((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG)))
#define `$INSTANCE_NAME`_SET_LEVEL_MID \
CY_SET_XTND_REG8(\
((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG), 0x04u | \
CY_GET_XTND_REG8(((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG)))
/* Macros to set FIFO to single-buffer mode. */
#define `$INSTANCE_NAME`_SINGLE_BUFFER_SET \
CY_SET_XTND_REG8(\
((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG), 0x01u | \
CY_GET_XTND_REG8(((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG)))
/* Macros to return the FIFO to normal mode. */
#define `$INSTANCE_NAME`_SINGLE_BUFFER_UNSET \
CY_SET_XTND_REG8(\
((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG), 0xfeu & \
CY_GET_XTND_REG8(((reg8 *) `$INSTANCE_NAME`_dp__DP_AUX_CTL_REG)))
void `$INSTANCE_NAME`_Enable();
void `$INSTANCE_NAME`_Disable();
void `$INSTANCE_NAME`_Start();
void `$INSTANCE_NAME`_Stop();
void `$INSTANCE_NAME`_Init();
#endif
/* [] END OF FILE */

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FluxEngine.cydsn/FIFOout/FIFOout.v Normal file
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@@ -0,0 +1,169 @@
//`#start header` -- edit after this line, do not edit this line
`include "cypress.v"
//`#end` -- edit above this line, do not edit this line
// Generated on 11/16/2017 at 15:44
// Component: FIFOout
module FIFOout (
input req,
input clk,
output [7:0] d,
output drq,
output empty,
output ack
);
//`#start body` -- edit after this line, do not edit this line
/* Reads from the FIFO are done based on the FIFO being not empty. */
wire [7:0] po;
assign d = po;
localparam STATE_WAITFORREQ = 0;
localparam STATE_READFROMFIFO = 1;
localparam STATE_WAITFORNREQ = 2;
reg [1:0] state;
wire readfromfifo;
assign ack = (state == STATE_WAITFORNREQ);
assign readfromfifo = (state == STATE_READFROMFIFO);
always @(posedge clk)
begin
case (state)
/* opcode is not valid; req is low; wait for req to go high. */
STATE_WAITFORREQ:
begin
if (!empty && req)
state <= STATE_READFROMFIFO;
end
/* Fetch a single value from the FIFO. */
STATE_READFROMFIFO:
state <= STATE_WAITFORNREQ;
/* opcode is valid; ack is high. Wait for req to go low. */
STATE_WAITFORNREQ:
if (!req)
state <= STATE_WAITFORREQ;
endcase
end
cy_psoc3_dp #(.cy_dpconfig(
{
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM0: idle */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC___F0, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM1: read from fifo */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM2: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM3: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM4: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM5: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM6: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM7: */
8'hFF, 8'h00, /*CFG9: */
8'hFF, 8'hFF, /*CFG11-10: */
`SC_CMPB_A1_D1, `SC_CMPA_A1_D1, `SC_CI_B_ARITH,
`SC_CI_A_ARITH, `SC_C1_MASK_DSBL, `SC_C0_MASK_DSBL,
`SC_A_MASK_DSBL, `SC_DEF_SI_0, `SC_SI_B_DEFSI,
`SC_SI_A_DEFSI, /*CFG13-12: */
`SC_A0_SRC_ACC, `SC_SHIFT_SL, 1'h0,
1'h0, `SC_FIFO1_BUS, `SC_FIFO0_BUS,
`SC_MSB_DSBL, `SC_MSB_BIT0, `SC_MSB_NOCHN,
`SC_FB_NOCHN, `SC_CMP1_NOCHN,
`SC_CMP0_NOCHN, /*CFG15-14: */
10'h00, `SC_FIFO_CLK__DP,`SC_FIFO_CAP_AX,
`SC_FIFO_LEVEL,`SC_FIFO_ASYNC,`SC_EXTCRC_DSBL,
`SC_WRK16CAT_DSBL /*CFG17-16: */
}
)) dp(
/* input */ .reset(1'b0),
/* input */ .clk(clk),
/* input [02:00] */ .cs_addr({2'b0, readfromfifo}),
/* input */ .route_si(1'b0),
/* input */ .route_ci(1'b0),
/* input */ .f0_load(1'b0),
/* input */ .f1_load(1'b0),
/* input */ .d0_load(1'b0),
/* input */ .d1_load(1'b0),
/* output */ .ce0(),
/* output */ .cl0(),
/* output */ .z0(),
/* output */ .ff0(),
/* output */ .ce1(),
/* output */ .cl1(),
/* output */ .z1(),
/* output */ .ff1(),
/* output */ .ov_msb(),
/* output */ .co_msb(),
/* output */ .cmsb(),
/* output */ .so(),
/* output */ .f0_bus_stat(drq), // not full
/* output */ .f0_blk_stat(empty), // empty
/* output */ .f1_bus_stat(),
/* output */ .f1_blk_stat(),
/* input */ .ci(1'b0), // Carry in from previous stage
/* output */ .co(),// Carry out to next stage
/* input */ .sir(1'b0), // Shift in from right side
/* output */ .sor(), // Shift out to right side
/* input */ .sil(1'b0), // Shift in from left side
/* output */ .sol(), // Shift out to left side
/* input */ .msbi(1'b0), // MSB chain in
/* output */ .msbo(), // MSB chain out
/* input [01:00] */ .cei(2'b0), // Compare equal in from prev stage
/* output [01:00] */ .ceo(), // Compare equal out to next stage
/* input [01:00] */ .cli(2'b0), // Compare less than in from prv stage
/* output [01:00] */ .clo(), // Compare less than out to next stage
/* input [01:00] */ .zi(2'b0), // Zero detect in from previous stage
/* output [01:00] */ .zo(), // Zero detect out to next stage
/* input [01:00] */ .fi(2'b0), // 0xFF detect in from previous stage
/* output [01:00] */ .fo(), // 0xFF detect out to next stage
/* input [01:00] */ .capi(2'b0), // Software capture from previous stage
/* output [01:00] */ .capo(), // Software capture to next stage
/* input */ .cfbi(1'b0), // CRC Feedback in from previous stage
/* output */ .cfbo(), // CRC Feedback out to next stage
/* input [07:00] */ .pi(8'b0), // Parallel data port
/* output [07:00] */ .po(po) // Parallel data port
);
//`#end` -- edit above this line, do not edit this line
endmodule
//`#start footer` -- edit after this line, do not edit this line
//`#end` -- edit above this line, do not edit this line

268
FluxEngine.cydsn/FluxEngine.cydwr
View File

@@ -28,6 +28,54 @@
<Data key="sync_with_bus_clk" value="True" />
<Data key="user_set_domain" value="False" />
</Group>
<Group key="1a7e8637-3b6b-4e84-839c-0dfc18fdaf5b">
<Data key="check_tolerance" value="True" />
<Data key="clock_version" value="v1" />
<Data key="derive_type" value="NAMED_DIVIDER" />
<Data key="desired_freq" value="0" />
<Data key="desired_unit" value="15" />
<Data key="divider" value="0" />
<Data key="domain" value="DIGITAL" />
<Data key="enabled" value="True" />
<Data key="minus_accuracy" value="0.25" />
<Data key="minus_tolerance" value="5" />
<Data key="name" value="Clock_5" />
<Data key="named_src_direct_connect" value="True" />
<Data key="netlist_name" value="Clock_5" />
<Data key="placement" value="AUTO" />
<Data key="plus_accuracy" value="0.25" />
<Data key="plus_tolerance" value="5" />
<Data key="scope" value="LOCAL" />
<Data key="src_clk_id" value="75C2148C-3656-4d8a-846D-0CAE99AB6FF7" />
<Data key="src_clk_name" value="BUS_CLK" />
<Data key="start_on_reset" value="True" />
<Data key="sync_with_bus_clk" value="True" />
<Data key="user_set_domain" value="False" />
</Group>
<Group key="3f3708ae-fb62-4012-919b-9a3b9a1dfbc2">
<Data key="check_tolerance" value="True" />
<Data key="clock_version" value="v1" />
<Data key="derive_type" value="NAMED_DIVIDER" />
<Data key="desired_freq" value="0" />
<Data key="desired_unit" value="15" />
<Data key="divider" value="0" />
<Data key="domain" value="DIGITAL" />
<Data key="enabled" value="True" />
<Data key="minus_accuracy" value="0.25" />
<Data key="minus_tolerance" value="5" />
<Data key="name" value="Clock_8" />
<Data key="named_src_direct_connect" value="True" />
<Data key="netlist_name" value="Clock_8" />
<Data key="placement" value="AUTO" />
<Data key="plus_accuracy" value="0.25" />
<Data key="plus_tolerance" value="5" />
<Data key="scope" value="LOCAL" />
<Data key="src_clk_id" value="75C2148C-3656-4d8a-846D-0CAE99AB6FF7" />
<Data key="src_clk_name" value="BUS_CLK" />
<Data key="start_on_reset" value="True" />
<Data key="sync_with_bus_clk" value="True" />
<Data key="user_set_domain" value="False" />
</Group>
<Group key="4eef02b9-8ad1-43c4-85f1-b3335faa5fc4">
<Data key="check_tolerance" value="True" />
<Data key="clock_version" value="v1" />
@@ -147,6 +195,54 @@
<Data key="sync_with_bus_clk" value="True" />
<Data key="user_set_domain" value="False" />
</Group>
<Group key="71bc291d-84a7-40a8-b7b2-1c8a34326a31">
<Data key="check_tolerance" value="True" />
<Data key="clock_version" value="v1" />
<Data key="derive_type" value="NAMED_FREQ" />
<Data key="desired_freq" value="300" />
<Data key="desired_unit" value="0" />
<Data key="divider" value="65536" />
<Data key="domain" value="DIGITAL" />
<Data key="enabled" value="True" />
<Data key="minus_accuracy" value="0.25" />
<Data key="minus_tolerance" value="5" />
<Data key="name" value="CLOCK300" />
<Data key="named_src_direct_connect" value="False" />
<Data key="netlist_name" value="CLOCK300" />
<Data key="placement" value="AUTO" />
<Data key="plus_accuracy" value="0.25" />
<Data key="plus_tolerance" value="5" />
<Data key="scope" value="LOCAL" />
<Data key="src_clk_id" value="CEF43CFB-0213-49b9-B980-2FFAB81C5B47" />
<Data key="src_clk_name" value="IMO" />
<Data key="start_on_reset" value="True" />
<Data key="sync_with_bus_clk" value="True" />
<Data key="user_set_domain" value="False" />
</Group>
<Group key="90ce0c72-9f10-44ef-a049-f0f525d59bea">
<Data key="check_tolerance" value="True" />
<Data key="clock_version" value="v1" />
<Data key="derive_type" value="NAMED_FREQ" />
<Data key="desired_freq" value="128" />
<Data key="desired_unit" value="0" />
<Data key="divider" value="65536" />
<Data key="domain" value="DIGITAL" />
<Data key="enabled" value="True" />
<Data key="minus_accuracy" value="0.25" />
<Data key="minus_tolerance" value="5" />
<Data key="name" value="CLOCK8" />
<Data key="named_src_direct_connect" value="False" />
<Data key="netlist_name" value="CLOCK8" />
<Data key="placement" value="AUTO" />
<Data key="plus_accuracy" value="0.25" />
<Data key="plus_tolerance" value="5" />
<Data key="scope" value="LOCAL" />
<Data key="src_clk_id" value="CEF43CFB-0213-49b9-B980-2FFAB81C5B47" />
<Data key="src_clk_name" value="IMO" />
<Data key="start_on_reset" value="True" />
<Data key="sync_with_bus_clk" value="True" />
<Data key="user_set_domain" value="False" />
</Group>
<Group key="349ffa20-8576-4ac3-9a6f-34ef606de6cf">
<Data key="check_tolerance" value="True" />
<Data key="clock_version" value="v1" />
@@ -170,6 +266,29 @@
<Data key="sync_with_bus_clk" value="True" />
<Data key="user_set_domain" value="False" />
</Group>
<Group key="4033c29d-f4bc-4e94-ac95-aa587e869f88/696a0979-21fc-4185-bf38-6c79febcde7a">
<Data key="check_tolerance" value="False" />
<Data key="clock_version" value="v1" />
<Data key="derive_type" value="AUTO" />
<Data key="desired_freq" value="1600000" />
<Data key="desired_unit" value="0" />
<Data key="divider" value="40" />
<Data key="domain" value="DIGITAL" />
<Data key="enabled" value="True" />
<Data key="minus_accuracy" value="0.25" />
<Data key="minus_tolerance" value="5" />
<Data key="name" value="OUTPUT_VOLTAGE_ADC_theACLK" />
<Data key="netlist_name" value="\OUTPUT_VOLTAGE_ADC:theACLK\" />
<Data key="placement" value="AUTO" />
<Data key="plus_accuracy" value="0.25" />
<Data key="plus_tolerance" value="5" />
<Data key="scope" value="LOCAL" />
<Data key="src_clk_id" value="61737EF6-3B74-48f9-8B91-F7473A442AE7" />
<Data key="src_clk_name" value="MASTER_CLK" />
<Data key="start_on_reset" value="True" />
<Data key="sync_with_bus_clk" value="True" />
<Data key="user_set_domain" value="False" />
</Group>
<Group key="6616e828-6611-4893-a674-66c861d79d6c">
<Data key="check_tolerance" value="True" />
<Data key="clock_version" value="v1" />
@@ -241,6 +360,53 @@
<Data key="sync_with_bus_clk" value="True" />
<Data key="user_set_domain" value="False" />
</Group>
<Group key="09974428-e912-491f-8d2f-361ba50e7599">
<Data key="check_tolerance" value="True" />
<Data key="clock_version" value="v1" />
<Data key="derive_type" value="NAMED_DIVIDER" />
<Data key="desired_freq" value="0" />
<Data key="desired_unit" value="15" />
<Data key="divider" value="0" />
<Data key="domain" value="DIGITAL" />
<Data key="enabled" value="True" />
<Data key="minus_accuracy" value="0.25" />
<Data key="minus_tolerance" value="5" />
<Data key="name" value="Clock_6" />
<Data key="named_src_direct_connect" value="True" />
<Data key="netlist_name" value="Clock_6" />
<Data key="placement" value="AUTO" />
<Data key="plus_accuracy" value="0.25" />
<Data key="plus_tolerance" value="5" />
<Data key="scope" value="LOCAL" />
<Data key="src_clk_id" value="75C2148C-3656-4d8a-846D-0CAE99AB6FF7" />
<Data key="src_clk_name" value="BUS_CLK" />
<Data key="start_on_reset" value="True" />
<Data key="sync_with_bus_clk" value="True" />
<Data key="user_set_domain" value="False" />
</Group>
<Group key="a5825a94-fa18-4e4f-a843-bc687cacbd56/696a0979-21fc-4185-bf38-6c79febcde7a">
<Data key="check_tolerance" value="False" />
<Data key="clock_version" value="v1" />
<Data key="derive_type" value="AUTO" />
<Data key="desired_freq" value="1600000" />
<Data key="desired_unit" value="0" />
<Data key="divider" value="40" />
<Data key="domain" value="DIGITAL" />
<Data key="enabled" value="True" />
<Data key="minus_accuracy" value="0.25" />
<Data key="minus_tolerance" value="5" />
<Data key="name" value="INPUT_VOLTAGE_ADC_theACLK" />
<Data key="netlist_name" value="\INPUT_VOLTAGE_ADC:theACLK\" />
<Data key="placement" value="AUTO" />
<Data key="plus_accuracy" value="0.25" />
<Data key="plus_tolerance" value="5" />
<Data key="scope" value="LOCAL" />
<Data key="src_clk_id" value="61737EF6-3B74-48f9-8B91-F7473A442AE7" />
<Data key="src_clk_name" value="MASTER_CLK" />
<Data key="start_on_reset" value="True" />
<Data key="sync_with_bus_clk" value="True" />
<Data key="user_set_domain" value="False" />
</Group>
<Group key="b762c287-7f87-4b21-982e-84be01dc5115">
<Data key="check_tolerance" value="True" />
<Data key="clock_version" value="v1" />
@@ -288,6 +454,30 @@
<Data key="sync_with_bus_clk" value="True" />
<Data key="user_set_domain" value="False" />
</Group>
<Group key="b722443b-8f81-46dc-bf9b-c95eb62bc181">
<Data key="check_tolerance" value="True" />
<Data key="clock_version" value="v1" />
<Data key="derive_type" value="NAMED_DIVIDER" />
<Data key="desired_freq" value="0" />
<Data key="desired_unit" value="15" />
<Data key="divider" value="0" />
<Data key="domain" value="DIGITAL" />
<Data key="enabled" value="True" />
<Data key="minus_accuracy" value="0.25" />
<Data key="minus_tolerance" value="5" />
<Data key="name" value="Clock_1" />
<Data key="named_src_direct_connect" value="True" />
<Data key="netlist_name" value="Clock_1" />
<Data key="placement" value="AUTO" />
<Data key="plus_accuracy" value="0.25" />
<Data key="plus_tolerance" value="5" />
<Data key="scope" value="LOCAL" />
<Data key="src_clk_id" value="75C2148C-3656-4d8a-846D-0CAE99AB6FF7" />
<Data key="src_clk_name" value="BUS_CLK" />
<Data key="start_on_reset" value="True" />
<Data key="sync_with_bus_clk" value="True" />
<Data key="user_set_domain" value="False" />
</Group>
<Group key="cb7e877c-9fb4-4fc1-a708-f1e48eb5a68c">
<Data key="check_tolerance" value="True" />
<Data key="clock_version" value="v1" />
@@ -312,6 +502,30 @@
<Data key="sync_with_bus_clk" value="True" />
<Data key="user_set_domain" value="False" />
</Group>
<Group key="d3075dc6-05c8-4dc9-9959-cf7014c0e66f">
<Data key="check_tolerance" value="True" />
<Data key="clock_version" value="v1" />
<Data key="derive_type" value="NAMED_DIVIDER" />
<Data key="desired_freq" value="0" />
<Data key="desired_unit" value="15" />
<Data key="divider" value="0" />
<Data key="domain" value="DIGITAL" />
<Data key="enabled" value="True" />
<Data key="minus_accuracy" value="0.25" />
<Data key="minus_tolerance" value="5" />
<Data key="name" value="Clock_7" />
<Data key="named_src_direct_connect" value="True" />
<Data key="netlist_name" value="Clock_7" />
<Data key="placement" value="AUTO" />
<Data key="plus_accuracy" value="0.25" />
<Data key="plus_tolerance" value="5" />
<Data key="scope" value="LOCAL" />
<Data key="src_clk_id" value="75C2148C-3656-4d8a-846D-0CAE99AB6FF7" />
<Data key="src_clk_name" value="BUS_CLK" />
<Data key="start_on_reset" value="True" />
<Data key="sync_with_bus_clk" value="True" />
<Data key="user_set_domain" value="False" />
</Group>
<Group key="e4a53a4c-40e1-4747-a72a-10193ffdf31c">
<Data key="check_tolerance" value="True" />
<Data key="clock_version" value="v1" />
@@ -609,18 +823,27 @@
<Group key="DWRInstGuidMapping">
<Group key="Clock">
<Data key="0b2f9bbb-00ce-4115-a788-ffb9d046a9e5" value="Clock_4" />
<Data key="1a7e8637-3b6b-4e84-839c-0dfc18fdaf5b" value="Clock_5" />
<Data key="3f3708ae-fb62-4012-919b-9a3b9a1dfbc2" value="Clock_8" />
<Data key="4eef02b9-8ad1-43c4-85f1-b3335faa5fc4" value="Clock_3" />
<Data key="06c4d5d4-f15f-4b29-a1d0-c24b2e38b1ec" value="CounterClock" />
<Data key="24cd38f7-f472-4403-837f-86807c8f5333" value="PULSE_CLOCK" />
<Data key="63ed4137-0b09-4256-8a27-35c9a2653f1a" value="Clock_2" />
<Data key="66f14071-bddd-4b4d-a9aa-a129cceaa7b6" value="Clock_3" />
<Data key="71bc291d-84a7-40a8-b7b2-1c8a34326a31" value="CLOCK300" />
<Data key="90ce0c72-9f10-44ef-a049-f0f525d59bea" value="CLOCK8" />
<Data key="349ffa20-8576-4ac3-9a6f-34ef606de6cf" value="Clock_1" />
<Data key="4033c29d-f4bc-4e94-ac95-aa587e869f88/696a0979-21fc-4185-bf38-6c79febcde7a" value="OUTPUT_VOLTAGE_ADC_theACLK" />
<Data key="6616e828-6611-4893-a674-66c861d79d6c" value="SignalSamplingClock" />
<Data key="12664fc6-9d70-44b1-8a49-887a292e1b7f" value="Clock_3" />
<Data key="75187c05-9501-4450-b306-6ccdd3bb77db" value="Clock_5" />
<Data key="09974428-e912-491f-8d2f-361ba50e7599" value="Clock_6" />
<Data key="a5825a94-fa18-4e4f-a843-bc687cacbd56/696a0979-21fc-4185-bf38-6c79febcde7a" value="INPUT_VOLTAGE_ADC_theACLK" />
<Data key="b762c287-7f87-4b21-982e-84be01dc5115" value="Clock_2" />
<Data key="b0162966-0060-4af5-82d1-fcb491ad7619/be0a0e37-ad17-42ca-b5a1-1a654d736358" value="UART_IntClock" />
<Data key="b722443b-8f81-46dc-bf9b-c95eb62bc181" value="Clock_1" />
<Data key="cb7e877c-9fb4-4fc1-a708-f1e48eb5a68c" value="CounterClock" />
<Data key="d3075dc6-05c8-4dc9-9959-cf7014c0e66f" value="Clock_7" />
<Data key="e4a53a4c-40e1-4747-a72a-10193ffdf31c" value="Clock_1" />
<Data key="efd5f185-0c32-4824-ba72-3ceb5356f5a7" value="Clock_1" />
</Group>
@@ -628,6 +851,7 @@
<Data key="4a398466-709f-4228-9500-96178658e13e" value="RDATA" />
<Data key="5a3407c1-b434-4438-a7b4-b9dfd2280495" value="MOTEA" />
<Data key="8d318d8b-cf7b-4b6b-b02c-ab1c5c49d0ba" value="SW1" />
<Data key="8fc20a4f-e4d1-44b3-a5d4-546e8628d61e" value="LED" />
<Data key="12e00eac-69b5-4717-85c8-25ef6b224d4c" value="DEBUG_PINS" />
<Data key="41e2d8ed-5494-4d8c-8ff7-f4f789cece51" value="REDWC" />
<Data key="264be2d3-9481-494b-8d9c-c1905a45e9cc" value="FDD" />
@@ -638,16 +862,18 @@
<Data key="a5d987c6-e45b-45b9-ad93-656fab06d720" value="TRK00" />
<Data key="a93ef5b3-00f4-42c0-8fad-0e275a7e2537" value="MOTEB" />
<Data key="b8380fb7-fdb8-449f-bd8d-c4ca96cdf55a" value="DEBUG_PINS" />
<Data key="bc2e8987-db82-469c-bf6f-22fd3464cc70" value="DEBUG_PINS" />
<Data key="bc5d52a1-1b25-4aa0-9ba9-3f81d122772f" value="DEBUG_PINS" />
<Data key="beca5e2d-f70f-4900-a4db-7eca1ed3126e/8b77a6c4-10a0-4390-971c-672353e2a49c" value="USBFS_Dm" />
<Data key="beca5e2d-f70f-4900-a4db-7eca1ed3126e/618a72fc-5ddd-4df5-958f-a3d55102db42" value="USBFS_Dp" />
<Data key="c5367cde-21d5-4866-9a32-d16abfea0c61" value="WPT" />
<Data key="d19368c5-6855-41bb-a9ff-808938abef00" value="INDEX" />
<Data key="e9f14b5a-b2bf-49b8-98f3-d7b5a43ace8d" value="DRVSB" />
<Data key="e851a3b9-efb8-48be-bbb8-b303b216c393" value="LED" />
<Data key="e851a3b9-efb8-48be-bbb8-b303b216c393" value="INDEX300" />
<Data key="e51063a9-4fad-40c7-a06b-7cc4b137dc18" value="DSKCHG" />
<Data key="ea7ee228-8b3f-426c-8bb8-cd7a81937769" value="DIR" />
<Data key="ed092b9b-d398-4703-be89-cebf998501f6" value="UartTx" />
<Data key="f9a7371a-8a7d-4144-8b08-69e3d2a3a663" value="INDEX360" />
<Data key="fbd1f839-40f9-498e-a48b-5f3048ea5c3d/52f31aa9-2f0a-497d-9a1f-1424095e13e6" value="UART_tx" />
<Data key="fede1767-f3fd-4021-b3d7-8f9d88f36f9b" value="DRVSA" />
<Data key="fff78075-035e-43d7-8577-bc5be4d21926" value="WGATE" />
@@ -3752,6 +3978,11 @@
<Data key="Port Format" value="2,2" />
</Group>
</Group>
<Group key="8fc20a4f-e4d1-44b3-a5d4-546e8628d61e">
<Group key="0">
<Data key="Port Format" value="2,1" />
</Group>
</Group>
<Group key="12e00eac-69b5-4717-85c8-25ef6b224d4c">
<Group key="0">
<Data key="Port Format" value="2,2" />
@@ -3859,6 +4090,32 @@
<Data key="Port Format" value="2,3" />
</Group>
</Group>
<Group key="bc2e8987-db82-469c-bf6f-22fd3464cc70">
<Group key="0">
<Data key="Port Format" value="0,0" />
</Group>
<Group key="1">
<Data key="Port Format" value="0,1" />
</Group>
<Group key="2">
<Data key="Port Format" value="0,2" />
</Group>
<Group key="3">
<Data key="Port Format" value="0,3" />
</Group>
<Group key="4">
<Data key="Port Format" value="0,4" />
</Group>
<Group key="5">
<Data key="Port Format" value="0,5" />
</Group>
<Group key="6">
<Data key="Port Format" value="0,6" />
</Group>
<Group key="7">
<Data key="Port Format" value="0,7" />
</Group>
</Group>
<Group key="bc5d52a1-1b25-4aa0-9ba9-3f81d122772f">
<Group key="0">
<Data key="Port Format" value="0,5" />
@@ -3894,7 +4151,7 @@
</Group>
<Group key="e851a3b9-efb8-48be-bbb8-b303b216c393">
<Group key="0">
<Data key="Port Format" value="2,1" />
<Data key="Port Format" value="3,0" />
</Group>
</Group>
<Group key="e51063a9-4fad-40c7-a06b-7cc4b137dc18">
@@ -3912,9 +4169,14 @@
<Data key="Port Format" value="12,7" />
</Group>
</Group>
<Group key="f9a7371a-8a7d-4144-8b08-69e3d2a3a663">
<Group key="0">
<Data key="Port Format" value="3,1" />
</Group>
</Group>
<Group key="fbd1f839-40f9-498e-a48b-5f3048ea5c3d/52f31aa9-2f0a-497d-9a1f-1424095e13e6">
<Group key="0">
<Data key="Port Format" value="2,5" />
<Data key="Port Format" value="12,7" />
</Group>
</Group>
<Group key="fede1767-f3fd-4021-b3d7-8f9d88f36f9b">

3765
FluxEngine.cydsn/FluxEngine.cyprj
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FluxEngine.cydsn/UdbSequencer/UdbSequencer.cysym → FluxEngine.cydsn/Sampler/Sampler.cysym
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111
FluxEngine.cydsn/Sampler/Sampler.v Normal file
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@@ -0,0 +1,111 @@
//`#start header` -- edit after this line, do not edit this line
`include "cypress.v"
`include "../SuperCounter/SuperCounter.v"
//`#end` -- edit above this line, do not edit this line
// Generated on 12/11/2019 at 21:18
// Component: Sampler
module Sampler (
output [2:0] debug_state,
output reg [7:0] opcode,
output req,
input clock,
input index,
input rdata,
input reset,
input sampleclock
);
//`#start body` -- edit after this line, do not edit this line
localparam STATE_RESET = 0;
localparam STATE_WAITING = 1;
localparam STATE_OPCODE = 2;
reg [1:0] state;
reg [6:0] counter;
reg oldsampleclock;
wire sampleclocked;
assign sampleclocked = !oldsampleclock && sampleclock;
reg oldindex;
wire indexed;
assign indexed = !oldindex && index;
wire rdataed;
reg oldrdata;
assign rdataed = !oldrdata && rdata;
assign req = (state == STATE_OPCODE);
always @(posedge clock)
begin
if (reset)
begin
state <= STATE_RESET;
opcode <= 0;
oldsampleclock <= 0;
oldindex <= 0;
oldrdata <= 0;
counter <= 0;
end
else
case (state)
STATE_RESET:
state <= STATE_WAITING;
STATE_WAITING:
begin
/* If something has happened, emit any necessary interval byte. */
if ((rdataed || indexed) && (counter != 0))
begin
opcode <= {0, counter};
state <= STATE_OPCODE;
end
else if (indexed)
begin
oldindex <= 1;
opcode <= 8'h81;
state <= STATE_OPCODE;
end
else if (rdataed)
begin
oldrdata <= 1;
opcode <= 8'h80;
state <= STATE_OPCODE;
end
else if (sampleclocked)
begin
oldsampleclock <= 1;
if (counter == 7'h7f)
begin
opcode <= {0, counter};
state <= STATE_OPCODE;
end
counter <= counter + 1;
end
/* Reset state once we've done the thing. */
if (oldrdata && !rdata)
oldrdata <= 0;
if (oldindex && !index)
oldindex <= 0;
if (oldsampleclock && !sampleclock)
oldsampleclock <= 0;
end
STATE_OPCODE: /* opcode or interval byte sent here */
begin
state <= STATE_WAITING;
counter <= 0;
end
endcase
end
//`#end` -- edit above this line, do not edit this line
endmodule
//`#start footer` -- edit after this line, do not edit this line
//`#end` -- edit above this line, do not edit this line

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FluxEngine.cydsn/UdbSampler/UdbSampler.cysym → FluxEngine.cydsn/Sequencer/Sequencer.cysym
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105
FluxEngine.cydsn/Sequencer/Sequencer.v Normal file
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@@ -0,0 +1,105 @@
//`#start header` -- edit after this line, do not edit this line
`include "cypress.v"
//`#end` -- edit above this line, do not edit this line
// Generated on 11/24/2019 at 17:25
// Component: Sequencer
module Sequencer (
output req, /* request new data on leading edge */
output wdata,
output [2:0] debug_state,
input clock,
input dataclock, /* incoming data on leading edge */
input [7:0] opcode,
input index,
input sampleclock,
input reset
);
//`#start body` -- edit after this line, do not edit this line
localparam STATE_LOAD = 0;
localparam STATE_WAITING = 1;
localparam STATE_PULSING = 2;
localparam STATE_INDEXING = 3;
localparam OPCODE_PULSE = 8'h80;
localparam OPCODE_INDEX = 8'h81;
reg [1:0] state;
reg [6:0] countdown;
assign req = (!reset && (state == STATE_LOAD));
assign wdata = (state == STATE_PULSING);
assign debug_state = state;
reg olddataclock;
wire dataclocked;
always @(posedge clock) olddataclock <= dataclock;
assign dataclocked = !olddataclock && dataclock;
reg oldsampleclock;
reg sampleclocked;
reg oldindex;
wire indexed;
always @(posedge clock) oldindex <= index;
assign indexed = !oldindex && index;
always @(posedge clock)
begin
if (reset)
begin
state <= STATE_LOAD;
countdown <= 0;
end
else
begin
if (!oldsampleclock && sampleclock)
sampleclocked <= 1;
oldsampleclock <= sampleclock;
case (state)
STATE_LOAD:
/* Wait for a posedge on dataclocked, indicating an opcode has
* arrived. */
if (dataclocked)
case (opcode)
OPCODE_PULSE:
state <= STATE_PULSING;
OPCODE_INDEX:
state <= STATE_INDEXING;
default:
begin
countdown <= opcode[6:0];
state <= STATE_WAITING;
end
endcase
STATE_WAITING:
if (sampleclocked)
begin
sampleclocked <= 0;
countdown <= countdown - 1;
/* Nasty fudge factor here to account for one to two
* sample ticks lost per pulse. */
if (countdown <= 2)
state <= STATE_LOAD;
end
STATE_PULSING:
state <= STATE_LOAD;
STATE_INDEXING:
if (indexed)
state <= STATE_LOAD;
endcase
end
end
//`#end` -- edit above this line, do not edit this line
endmodule
//`#start footer` -- edit after this line, do not edit this line
//`#end` -- edit above this line, do not edit this line

BIN
FluxEngine.cydsn/SuperCounter/SuperCounter.cysym Normal file
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156
FluxEngine.cydsn/SuperCounter/SuperCounter.v Normal file
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@@ -0,0 +1,156 @@
//`#start header` -- edit after this line, do not edit this line
`include "cypress.v"
//`#end` -- edit above this line, do not edit this line
// Generated on 11/16/2017 at 15:44
// Component: FIFOout
module SuperCounter (
input clk,
input reset,
input count,
output [7:0] d,
output drq,
output empty,
output ack
);
//`#start body` -- edit after this line, do not edit this line
parameter ResetValue = 0;
parameter Delta = 1;
wire [7:0] po;
assign d = po;
localparam STATE_RESET = 0;
localparam STATE_WAIT = 1;
localparam STATE_ADD = 2;
reg oldcount;
wire counted;
assign counted = count && !oldcount;
always @(posedge clk) oldcount <= count;
wire [2:0] cs;
assign cs = reset ? STATE_RESET : (counted ? STATE_ADD : STATE_WAIT);
cy_psoc3_dp #(.d0_init(ResetValue), .d1_init(Delta),
.cy_dpconfig(
{
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC___D0, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM0: STATE_RESET*/
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC__ALU, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM1: STATE_WAIT*/
`CS_ALU_OP__ADD, `CS_SRCA_A0, `CS_SRCB_D1,
`CS_SHFT_OP_PASS, `CS_A0_SRC__ALU, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM2: STATE_ADD*/
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM3: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM4: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM5: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM6: */
`CS_ALU_OP_PASS, `CS_SRCA_A0, `CS_SRCB_D0,
`CS_SHFT_OP_PASS, `CS_A0_SRC_NONE, `CS_A1_SRC_NONE,
`CS_FEEDBACK_DSBL, `CS_CI_SEL_CFGA, `CS_SI_SEL_CFGA,
`CS_CMP_SEL_CFGA, /*CFGRAM7: */
8'hFF, 8'h00, /*CFG9: */
8'hFF, 8'hFF, /*CFG11-10: */
`SC_CMPB_A1_D1, `SC_CMPA_A1_D1, `SC_CI_B_ARITH,
`SC_CI_A_ARITH, `SC_C1_MASK_DSBL, `SC_C0_MASK_DSBL,
`SC_A_MASK_DSBL, `SC_DEF_SI_0, `SC_SI_B_DEFSI,
`SC_SI_A_DEFSI, /*CFG13-12: */
`SC_A0_SRC_ACC, `SC_SHIFT_SL, 1'h0,
1'h0, `SC_FIFO1_BUS, `SC_FIFO0_BUS,
`SC_MSB_DSBL, `SC_MSB_BIT0, `SC_MSB_NOCHN,
`SC_FB_NOCHN, `SC_CMP1_NOCHN,
`SC_CMP0_NOCHN, /*CFG15-14: */
10'h00, `SC_FIFO_CLK__DP,`SC_FIFO_CAP_AX,
`SC_FIFO_LEVEL,`SC_FIFO_ASYNC,`SC_EXTCRC_DSBL,
`SC_WRK16CAT_DSBL /*CFG17-16: */
}
)) dp(
/* input */ .reset(1'b0),
/* input */ .clk(clk),
/* input [02:00] */ .cs_addr(cs),
/* input */ .route_si(1'b0),
/* input */ .route_ci(1'b0),
/* input */ .f0_load(1'b0),
/* input */ .f1_load(1'b0),
/* input */ .d0_load(1'b0),
/* input */ .d1_load(1'b0),
/* output */ .ce0(),
/* output */ .cl0(),
/* output */ .z0(),
/* output */ .ff0(),
/* output */ .ce1(),
/* output */ .cl1(),
/* output */ .z1(),
/* output */ .ff1(),
/* output */ .ov_msb(),
/* output */ .co_msb(),
/* output */ .cmsb(),
/* output */ .so(),
/* output */ .f0_bus_stat(),
/* output */ .f0_blk_stat(),
/* output */ .f1_bus_stat(),
/* output */ .f1_blk_stat(),
/* input */ .ci(1'b0), // Carry in from previous stage
/* output */ .co(),// Carry out to next stage
/* input */ .sir(1'b0), // Shift in from right side
/* output */ .sor(), // Shift out to right side
/* input */ .sil(1'b0), // Shift in from left side
/* output */ .sol(), // Shift out to left side
/* input */ .msbi(1'b0), // MSB chain in
/* output */ .msbo(), // MSB chain out
/* input [01:00] */ .cei(2'b0), // Compare equal in from prev stage
/* output [01:00] */ .ceo(), // Compare equal out to next stage
/* input [01:00] */ .cli(2'b0), // Compare less than in from prv stage
/* output [01:00] */ .clo(), // Compare less than out to next stage
/* input [01:00] */ .zi(2'b0), // Zero detect in from previous stage
/* output [01:00] */ .zo(), // Zero detect out to next stage
/* input [01:00] */ .fi(2'b0), // 0xFF detect in from previous stage
/* output [01:00] */ .fo(), // 0xFF detect out to next stage
/* input [01:00] */ .capi(2'b0), // Software capture from previous stage
/* output [01:00] */ .capo(), // Software capture to next stage
/* input */ .cfbi(1'b0), // CRC Feedback in from previous stage
/* output */ .cfbo(), // CRC Feedback out to next stage
/* input [07:00] */ .pi(8'b0), // Parallel data port
/* output [07:00] */ .po(po) // Parallel data port
);
//`#end` -- edit above this line, do not edit this line
endmodule
//`#start footer` -- edit after this line, do not edit this line
//`#end` -- edit above this line, do not edit this line

BIN
FluxEngine.cydsn/TopDesign/TopDesign.cysch
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BIN
FluxEngine.cydsn/UdbSampler/UdbSampler.cyudb
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BIN
FluxEngine.cydsn/UdbSequencer/UdbSequencer.cyudb
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655
FluxEngine.cydsn/main.c
View File

@@ -12,32 +12,32 @@
#define STEP_SETTLING_TIME 50 /* ms */
#define DISKSTATUS_WPT 1
#define DISKSTATUS_READY 2 /* Only used on QuickDisk drives */
#define DISKSTATUS_DSKCHG 2
#define STEP_TOWARDS0 1
#define STEP_AWAYFROM0 0
static volatile uint32_t clock = 0;
static volatile uint32_t clock = 0; /* ms */
static volatile bool index_irq = false;
static bool motor_on = false;
static uint32_t motor_on_time = 0;
static bool homed = false;
static int current_track = 0;
static uint8_t current_drive_flags = 0;
static struct set_drive_frame current_drive_flags;
#define BUFFER_COUNT 16
#define BUFFER_COUNT 64 /* the maximum */
#define BUFFER_SIZE 64
static uint8_t td[BUFFER_COUNT];
static uint8_t dma_buffer[BUFFER_COUNT][BUFFER_SIZE] __attribute__((aligned()));
static uint8_t usb_buffer[BUFFER_SIZE] __attribute__((aligned()));
static uint8_t xfer_buffer[BUFFER_SIZE] __attribute__((aligned()));
static uint8_t dma_channel;
#define NEXT_BUFFER(b) (((b)+1) % BUFFER_COUNT)
static volatile int dma_writing_to_td = 0;
static volatile int dma_reading_from_td = 0;
static volatile bool dma_underrun = false;
static crunch_state_t cs = {};
#define DECLARE_REPLY_FRAME(STRUCT, TYPE) \
STRUCT r = {.f = { .type = TYPE, .size = sizeof(STRUCT) }}
@@ -46,6 +46,21 @@ static void system_timer_cb(void)
{
CyGlobalIntDisable;
clock++;
static int counter300rpm = 0;
counter300rpm++;
if (counter300rpm == 200)
counter300rpm = 0;
static int counter360rpm = 0;
counter360rpm++;
if (counter360rpm == 167)
counter360rpm = 0;
FAKE_INDEX_GENERATOR_REG_Write(
((counter300rpm == 0) ? 1 : 0)
| ((counter360rpm == 0) ? 2 : 0));
CyGlobalIntEnable;
}
@@ -86,10 +101,22 @@ static void print(const char* msg, ...)
UART_PutCRLF();
}
static void set_drive_flags(struct set_drive_frame* flags)
{
if (current_drive_flags.drive != flags->drive)
homed = false;
current_drive_flags = *flags;
DRIVESELECT_REG_Write(flags->drive ? 2 : 1); /* select drive 1 or 0 */
DENSITY_REG_Write(flags->high_density); /* density bit */
INDEX_REG_Write(flags->index_mode);
}
static void start_motor(void)
{
if (!motor_on)
{
set_drive_flags(&current_drive_flags);
MOTOR_REG_Write(1);
CyDelay(1000);
homed = false;
@@ -100,6 +127,16 @@ static void start_motor(void)
CyWdtClear();
}
static void stop_motor(void)
{
if (motor_on)
{
MOTOR_REG_Write(0);
DRIVESELECT_REG_Write(0); /* deselect all drives */
motor_on = false;
}
}
static void wait_until_writeable(int ep)
{
while (USBFS_GetEPState(ep) != USBFS_IN_BUFFER_EMPTY)
@@ -139,25 +176,36 @@ static void cmd_get_version(struct any_frame* f)
static void step(int dir)
{
STEP_REG_Write(dir);
CyDelayUs(1);
STEP_REG_Write(dir | 2);
CyDelayUs(1);
STEP_REG_Write(dir);
STEP_REG_Write(dir); /* step high */
CyDelayUs(6);
STEP_REG_Write(dir | 2); /* step low */
CyDelayUs(6);
STEP_REG_Write(dir); /* step high again, drive moves now */
CyDelay(STEP_INTERVAL_TIME);
}
static void home(void)
{
for (int i=0; i<100; i++)
{
/* Don't keep stepping forever, because if a drive's
* not connected bad things happen. */
if (TRACK0_REG_Read())
break;
step(STEP_TOWARDS0);
}
/* Step to -1, which should be a nop, to reset the disk on disk change. */
step(STEP_TOWARDS0);
}
static void seek_to(int track)
{
start_motor();
if (!homed)
if (!homed || (track == 0))
{
print("homing");
while (!TRACK0_REG_Read())
step(STEP_TOWARDS0);
/* Step to -1, which should be a nop, to reset the disk on disk change. */
step(STEP_TOWARDS0);
home();
homed = true;
current_track = 0;
@@ -168,11 +216,7 @@ static void seek_to(int track)
while (track != current_track)
{
if (TRACK0_REG_Read())
{
if (current_track != 0)
print("unexpectedly detected track 0");
current_track = 0;
}
if (track > current_track)
{
@@ -209,26 +253,40 @@ static void cmd_measure_speed(struct any_frame* f)
{
start_motor();
index_irq = false;
while (!index_irq)
;
index_irq = false;
int start_clock = clock;
int elapsed = 0;
while (!index_irq)
;
int end_clock = clock;
{
elapsed = clock - start_clock;
if (elapsed > 1000)
{
elapsed = 0;
break;
}
}
if (elapsed != 0)
{
index_irq = false;
start_clock = clock;
while (!index_irq)
elapsed = clock - start_clock;
}
DECLARE_REPLY_FRAME(struct speed_frame, F_FRAME_MEASURE_SPEED_REPLY);
r.period_ms = end_clock - start_clock;
r.period_ms = elapsed;
send_reply((struct any_frame*) &r);
}
static void cmd_bulk_test(struct any_frame* f)
static void cmd_bulk_write_test(struct any_frame* f)
{
uint8_t buffer[64];
wait_until_writeable(FLUXENGINE_DATA_IN_EP_NUM);
for (int x=0; x<64; x++)
{
CyWdtClear();
for (int y=0; y<256; y++)
{
for (unsigned z=0; z<sizeof(buffer); z++)
@@ -237,11 +295,50 @@ static void cmd_bulk_test(struct any_frame* f)
wait_until_writeable(FLUXENGINE_DATA_IN_EP_NUM);
USBFS_LoadInEP(FLUXENGINE_DATA_IN_EP_NUM, buffer, sizeof(buffer));
}
}
DECLARE_REPLY_FRAME(struct any_frame, F_FRAME_BULK_TEST_REPLY);
DECLARE_REPLY_FRAME(struct any_frame, F_FRAME_BULK_WRITE_TEST_REPLY);
send_reply(&r);
}
static void cmd_bulk_read_test(struct any_frame* f)
{
uint8_t buffer[64];
bool passed = true;
for (int x=0; x<64; x++)
{
CyWdtClear();
for (int y=0; y<256; y++)
{
USBFS_EnableOutEP(FLUXENGINE_DATA_OUT_EP_NUM);
while (USBFS_GetEPState(FLUXENGINE_DATA_OUT_EP_NUM) != USBFS_OUT_BUFFER_FULL)
;
USBFS_ReadOutEP(FLUXENGINE_DATA_OUT_EP_NUM, buffer, sizeof(buffer));
while (USBFS_GetEPState(FLUXENGINE_DATA_OUT_EP_NUM) != USBFS_OUT_BUFFER_EMPTY)
;
for (unsigned z=0; z<sizeof(buffer); z++)
{
if (buffer[z] != (uint8)(x+y+z))
{
print("fail %d+%d+%d == %d, not %d", x, y, z, buffer[z], (uint8)(x+y+z));
passed = false;
}
}
}
}
print("passed=%d", passed);
if (passed)
{
DECLARE_REPLY_FRAME(struct any_frame, F_FRAME_BULK_READ_TEST_REPLY);
send_reply(&r);
}
else
send_error(F_ERROR_INVALID_VALUE);
}
static void deinit_dma(void)
{
for (int i=0; i<BUFFER_COUNT; i++)
@@ -250,7 +347,7 @@ static void deinit_dma(void)
static void init_capture_dma(void)
{
dma_channel = CAPTURE_DMA_DmaInitialize(
dma_channel = SAMPLER_DMA_DmaInitialize(
2 /* bytes */,
true /* request per burst */,
HI16(CYDEV_PERIPH_BASE),
@@ -265,103 +362,11 @@ static void init_capture_dma(void)
nexti = 0;
CyDmaTdSetConfiguration(td[i], BUFFER_SIZE, td[nexti],
CY_DMA_TD_INC_DST_ADR | CAPTURE_DMA__TD_TERMOUT_EN);
CyDmaTdSetAddress(td[i], LO16((uint32)&SAMPLER_DATAPATH_F0_REG), LO16((uint32)&dma_buffer[i]));
CY_DMA_TD_INC_DST_ADR | SAMPLER_DMA__TD_TERMOUT_EN);
CyDmaTdSetAddress(td[i], LO16((uint32)SAMPLER_FIFO_FIFO_PTR), LO16((uint32)&dma_buffer[i]));
}
}
static void init_capture(void)
{
SAMPLER_CONTROL_Write(1); /* reset */
{
uint8_t i = CyEnterCriticalSection();
SAMPLER_DATAPATH_F0_SET_LEVEL_MID;
SAMPLER_DATAPATH_F0_CLEAR;
SAMPLER_DATAPATH_F0_SINGLE_BUFFER_UNSET;
CyExitCriticalSection(i);
}
wait_until_writeable(FLUXENGINE_DATA_IN_EP_NUM);
init_capture_dma();
}
static void start_capture(void)
{
memset(&cs, 0, sizeof(crunch_state_t));
cs.outputptr = usb_buffer;
cs.outputlen = BUFFER_SIZE;
dma_writing_to_td = 0;
dma_reading_from_td = -1;
dma_underrun = false;
SAMPLER_CONTROL_Write(0); /* !reset */
CAPTURE_CONTROL_Write(1);
CyDmaChSetInitialTd(dma_channel, td[dma_writing_to_td]);
CyDmaClearPendingDrq(dma_channel);
CyDmaChEnable(dma_channel, 1);
/* Wait for the first DMA transfer to complete, after which we can start
* the USB transfer. */
while (dma_writing_to_td == 0)
;
dma_reading_from_td = 0;
}
/* returns true if capture is aborted */
static bool do_capture_chunk(void)
{
/* Wait for the next block to be read. */
while (dma_reading_from_td == dma_writing_to_td)
{
/* On an underrun, give up immediately. */
if (dma_underrun)
return true;
}
uint8_t dma_buffer_usage = 0;
while (dma_buffer_usage < BUFFER_SIZE)
{
cs.inputptr = dma_buffer[dma_reading_from_td] + dma_buffer_usage;
cs.inputlen = BUFFER_SIZE - dma_buffer_usage;
crunch(&cs);
dma_buffer_usage += BUFFER_SIZE - cs.inputlen;
if (cs.outputlen == 0)
{
while (USBFS_GetEPState(FLUXENGINE_DATA_IN_EP_NUM) != USBFS_IN_BUFFER_EMPTY)
{
if (dma_underrun)
return true;
}
USBFS_LoadInEP(FLUXENGINE_DATA_IN_EP_NUM, usb_buffer, BUFFER_SIZE);
cs.outputptr = usb_buffer;
cs.outputlen = BUFFER_SIZE;
}
}
dma_reading_from_td = NEXT_BUFFER(dma_reading_from_td);
return false;
}
static void stop_capture(void)
{
CAPTURE_CONTROL_Write(0);
CyDmaChSetRequest(dma_channel, CY_DMA_CPU_TERM_CHAIN);
while (CyDmaChGetRequest(dma_channel))
;
donecrunch(&cs);
wait_until_writeable(FLUXENGINE_DATA_IN_EP_NUM);
if (cs.outputlen != BUFFER_SIZE)
USBFS_LoadInEP(FLUXENGINE_DATA_IN_EP_NUM, usb_buffer, BUFFER_SIZE-cs.outputlen);
if ((cs.outputlen == BUFFER_SIZE) || (cs.outputlen == 0))
USBFS_LoadInEP(FLUXENGINE_DATA_IN_EP_NUM, NULL, 0);
wait_until_writeable(FLUXENGINE_DATA_IN_EP_NUM);
deinit_dma();
}
static void cmd_read(struct read_frame* f)
{
SIDE_REG_Write(f->side);
@@ -369,102 +374,146 @@ static void cmd_read(struct read_frame* f)
/* Do slow setup *before* we go into the real-time bit. */
init_capture();
{
uint8_t i = CyEnterCriticalSection();
SAMPLER_FIFO_SET_LEVEL_NORMAL;
SAMPLER_FIFO_CLEAR;
SAMPLER_FIFO_SINGLE_BUFFER_UNSET;
CyExitCriticalSection(i);
}
/* Wait for the beginning of a rotation. */
wait_until_writeable(FLUXENGINE_DATA_IN_EP_NUM);
init_capture_dma();
/* Wait for the beginning of a rotation, if requested. */
index_irq = false;
while (!index_irq)
if (f->synced)
{
index_irq = false;
while (!index_irq)
;
index_irq = false;
}
crunch_state_t cs = {};
cs.outputptr = xfer_buffer;
cs.outputlen = BUFFER_SIZE;
dma_writing_to_td = 0;
dma_reading_from_td = -1;
dma_underrun = false;
int count = 0;
CyDmaChSetInitialTd(dma_channel, td[dma_writing_to_td]);
CyDmaClearPendingDrq(dma_channel);
CyDmaChEnable(dma_channel, 1);
/* Wait for the first DMA transfer to complete, after which we can start the
* USB transfer. */
while (dma_writing_to_td == 0)
;
index_irq = false;
dma_reading_from_td = 0;
bool dma_running = true;
/* Start transferring. */
start_capture();
int revolutions = f->revolutions;
while (!dma_underrun)
uint32_t start_time = clock;
for (;;)
{
CyWdtClear();
/* Have we reached the index pulse? */
if (index_irq)
/* If the sample session is over, stop reading but continue processing until
* the DMA chain is empty. */
if ((clock - start_time) >= f->milliseconds)
{
index_irq = false;
revolutions--;
if (revolutions == 0)
break;
if (dma_running)
{
CyDmaChSetRequest(dma_channel, CY_DMA_CPU_TERM_CHAIN);
while (CyDmaChGetRequest(dma_channel))
;
dma_running = false;
dma_underrun = false;
}
}
if (do_capture_chunk())
/* If there's an underrun event, stop immediately. */
if (dma_underrun)
goto abort;
/* If there are no more blocks to be read, check to see if we've finished. */
if (dma_reading_from_td == dma_writing_to_td)
{
/* Also if we've run out of blocks to send. */
if (!dma_running)
goto abort;
}
else
{
/* Otherwise, there's a block waiting, so attempt to send it. */
uint8_t dma_buffer_usage = 0;
while (dma_buffer_usage < BUFFER_SIZE)
{
cs.inputptr = dma_buffer[dma_reading_from_td] + dma_buffer_usage;
cs.inputlen = BUFFER_SIZE - dma_buffer_usage;
crunch(&cs);
dma_buffer_usage += BUFFER_SIZE - cs.inputlen;
count++;
/* If there is no available space in the output buffer, flush the buffer via
* USB and go again. */
if (cs.outputlen == 0)
{
wait_until_writeable(FLUXENGINE_DATA_IN_EP_NUM);
memcpy(usb_buffer, xfer_buffer, FRAME_SIZE);
USBFS_LoadInEP(FLUXENGINE_DATA_IN_EP_NUM, usb_buffer, BUFFER_SIZE);
cs.outputptr = xfer_buffer;
cs.outputlen = BUFFER_SIZE;
}
}
dma_reading_from_td = NEXT_BUFFER(dma_reading_from_td);
}
}
abort:;
stop_capture();
bool saved_dma_underrun = dma_underrun;
if (dma_underrun)
donecrunch(&cs);
wait_until_writeable(FLUXENGINE_DATA_IN_EP_NUM);
/* If there's a complete packet waiting, send it. */
if (cs.outputlen != BUFFER_SIZE)
{
USBFS_LoadInEP(FLUXENGINE_DATA_IN_EP_NUM, usb_buffer, BUFFER_SIZE);
wait_until_writeable(FLUXENGINE_DATA_IN_EP_NUM);
}
if ((cs.outputlen != 0) && (cs.outputlen != BUFFER_SIZE))
{
/* If there's a partial packet waiting, send it; this will also terminate the transfer. */
USBFS_LoadInEP(FLUXENGINE_DATA_IN_EP_NUM, usb_buffer, BUFFER_SIZE-cs.outputlen);
}
else
{
/* Otherwise just terminate the transfer. */
USBFS_LoadInEP(FLUXENGINE_DATA_IN_EP_NUM, NULL, 0);
}
wait_until_writeable(FLUXENGINE_DATA_IN_EP_NUM);
deinit_dma();
if (saved_dma_underrun)
{
print("underrun after %d packets");
send_error(F_ERROR_UNDERRUN);
}
else
{
DECLARE_REPLY_FRAME(struct any_frame, F_FRAME_READ_REPLY);
send_reply(&r);
}
}
static void cmd_read_qd(struct read_frame* f)
{
SIDE_REG_Write(f->side);
/* Do slow setup *before* we go into the real-time bit. */
init_capture();
/* Reset the drive. */
STEP_REG_Write(2);
CyDelay(10); /* ms */
STEP_REG_Write(0);
/* Motor on, and wait for ready. */
MOTOR_REG_Write(1);
while (!(DISKSTATUS_REG_Read() & DISKSTATUS_READY))
;
/* Turning the motor off has no effect until the head hits the stop,
* at which point it'll stop automatically. */
MOTOR_REG_Write(0);
/* Start transferring. */
start_capture();
while (!dma_underrun)
{
CyWdtClear();
/* Have we reached the end? */
if (!(DISKSTATUS_REG_Read() & DISKSTATUS_READY))
break;
if (do_capture_chunk())
goto abort;
}
abort:;
stop_capture();
/* Reset the drive again to ensure the motor stops. */
STEP_REG_Write(2);
CyDelay(10); /* ms */
STEP_REG_Write(0);
if (dma_underrun)
send_error(F_ERROR_UNDERRUN);
else
{
DECLARE_REPLY_FRAME(struct any_frame, F_FRAME_READ_QD_REPLY);
send_reply(&r);
}
print("count=%d i=%d d=%d", count, index_irq, dma_underrun);
}
static void init_replay_dma(void)
@@ -485,25 +534,28 @@ static void init_replay_dma(void)
CyDmaTdSetConfiguration(td[i], BUFFER_SIZE, td[nexti],
CY_DMA_TD_INC_SRC_ADR | SEQUENCER_DMA__TD_TERMOUT_EN);
CyDmaTdSetAddress(td[i], LO16((uint32)&dma_buffer[i]), LO16((uint32)&SEQUENCER_DATAPATH_F0_REG));
CyDmaTdSetAddress(td[i], LO16((uint32)&dma_buffer[i]), LO16((uint32)REPLAY_FIFO_FIFO_PTR));
}
}
static void cmd_write(struct write_frame* f)
{
print("cmd_write");
if (f->bytes_to_write % FRAME_SIZE)
{
send_error(F_ERROR_INVALID_VALUE);
return;
}
SEQUENCER_CONTROL_Write(1); /* put the sequencer into reset */
SIDE_REG_Write(f->side);
SEQUENCER_CONTROL_Write(1); /* reset */
{
uint8_t i = CyEnterCriticalSection();
SEQUENCER_DATAPATH_F0_SET_LEVEL_NORMAL;
SEQUENCER_DATAPATH_F0_CLEAR;
SEQUENCER_DATAPATH_F0_SINGLE_BUFFER_UNSET;
uint8_t i = CyEnterCriticalSection();
REPLAY_FIFO_SET_LEVEL_MID;
REPLAY_FIFO_CLEAR;
REPLAY_FIFO_SINGLE_BUFFER_UNSET;
CyExitCriticalSection(i);
}
seek_to(current_track);
@@ -514,6 +566,7 @@ static void cmd_write(struct write_frame* f)
int packets = f->bytes_to_write / FRAME_SIZE;
int count_written = 0;
int count_read = 0;
int packetwaiting = 0;
dma_writing_to_td = 0;
dma_reading_from_td = -1;
dma_underrun = false;
@@ -525,6 +578,22 @@ static void cmd_write(struct write_frame* f)
int old_reading_from_td = -1;
for (;;)
{
CyWdtClear();
/* Make sure that we always have a USB read in progress whenever possible. */
if (!finished && !packetwaiting)
{
/* There is no read in progress; has data arrived in the external USB buffer? */
if (USBFS_GetEPState(FLUXENGINE_DATA_OUT_EP_NUM) == USBFS_OUT_BUFFER_FULL)
{
/* Yes, data has arrived, so initiate the copy. */
packetwaiting = USBFS_ReadOutEP(FLUXENGINE_DATA_OUT_EP_NUM, usb_buffer, FRAME_SIZE);
}
}
/* Read data from USB into the buffers. */
if (NEXT_BUFFER(dma_writing_to_td) != dma_reading_from_td)
@@ -541,26 +610,33 @@ static void cmd_write(struct write_frame* f)
/* There's no more data to read, so fake some. */
for (int i=0; i<BUFFER_SIZE; i++)
usb_buffer[i+0] = 0x7f;
cs.inputptr = usb_buffer;
xfer_buffer[i+0] = 0x7f;
cs.inputptr = xfer_buffer;
cs.inputlen = BUFFER_SIZE;
}
else
else if (packetwaiting)
{
while (USBFS_GetEPState(FLUXENGINE_DATA_OUT_EP_NUM) != USBFS_OUT_BUFFER_FULL)
/* There's a USB read into usb_buffer in progress, so check if it's finished. */
if (USBFS_GetEPState(FLUXENGINE_DATA_OUT_EP_NUM) == USBFS_OUT_BUFFER_EMPTY)
{
if (writing && (dma_underrun || index_irq))
goto abort;
/* It's done, so copy out the data. */
memcpy(xfer_buffer, usb_buffer, FRAME_SIZE);
cs.inputptr = xfer_buffer;
cs.inputlen = packetwaiting;
count_read++;
if ((packetwaiting < FRAME_SIZE) || (count_read == packets))
finished = true;
else
{
/* Wait for more USB data to show up. */
packetwaiting = 0;
USBFS_EnableOutEP(FLUXENGINE_DATA_OUT_EP_NUM);
}
}
int length = usb_read(FLUXENGINE_DATA_OUT_EP_NUM, usb_buffer);
cs.inputptr = usb_buffer;
cs.inputlen = length;
USBFS_EnableOutEP(FLUXENGINE_DATA_OUT_EP_NUM);
count_read++;
if ((length < FRAME_SIZE) || (count_read == packets))
finished = true;
}
}
@@ -579,7 +655,8 @@ static void cmd_write(struct write_frame* f)
}
}
/* If we have a full buffer, start writing. */
/* Once all the buffers are full, start writing. */
if ((dma_reading_from_td == -1) && (dma_writing_to_td == BUFFER_COUNT-1))
{
dma_reading_from_td = old_reading_from_td = 0;
@@ -594,7 +671,7 @@ static void cmd_write(struct write_frame* f)
/* Wait for the index marker. While this happens, the DMA engine
* will prime the FIFO. */
index_irq = false;
while (!index_irq)
;
@@ -605,7 +682,7 @@ static void cmd_write(struct write_frame* f)
SEQUENCER_CONTROL_Write(0); /* start writing! */
}
}
if (writing && (dma_underrun || index_irq))
goto abort;
@@ -616,6 +693,7 @@ static void cmd_write(struct write_frame* f)
}
}
abort:
print("done %d %d", dma_reading_from_td, dma_writing_to_td);
SEQUENCER_DMA_FINISHED_IRQ_Disable();
SEQUENCER_CONTROL_Write(1); /* reset */
@@ -628,10 +706,12 @@ abort:
CyDmaChDisable(dma_channel);
}
//debug("p=%d cr=%d cw=%d f=%d l=%d w=%d index=%d underrun=%d", packets, count_read, count_written, finished, listening, writing, index_irq, dma_underrun);
print("p=%d cr=%d cw=%d f=%d w=%d index=%d underrun=%d", packets, count_read, count_written, finished, writing, index_irq, dma_underrun);
if (!finished)
{
while (count_read < packets)
/* There's still some data to read, so just read and blackhole it ---
* easier than trying to terminate the connection. */
while (count_read != packets)
{
if (USBFS_GetEPState(FLUXENGINE_DATA_OUT_EP_NUM) == USBFS_OUT_BUFFER_FULL)
{
@@ -646,6 +726,7 @@ abort:
}
deinit_dma();
print("write finished");
if (dma_underrun)
{
@@ -680,17 +761,101 @@ static void cmd_erase(struct erase_frame* f)
static void cmd_set_drive(struct set_drive_frame* f)
{
if (current_drive_flags != f->drive_flags)
{
current_drive_flags = f->drive_flags;
DRIVE_REG_Write(current_drive_flags);
homed = false;
}
set_drive_flags(f);
DECLARE_REPLY_FRAME(struct any_frame, F_FRAME_SET_DRIVE_REPLY);
send_reply((struct any_frame*) &r);
}
static uint16_t read_output_voltage_mv(void)
{
OUTPUT_VOLTAGE_ADC_StartConvert();
OUTPUT_VOLTAGE_ADC_IsEndConversion(OUTPUT_VOLTAGE_ADC_WAIT_FOR_RESULT);
uint16_t samples = OUTPUT_VOLTAGE_ADC_GetResult16();
return OUTPUT_VOLTAGE_ADC_CountsTo_mVolts(samples);
}
static void read_output_voltages(struct voltages* v)
{
SIDE_REG_Write(1); /* set DIR to low (remember this is inverted) */
CyDelay(100);
v->logic0_mv = read_output_voltage_mv();
SIDE_REG_Write(0);
CyDelay(100);
v->logic1_mv = read_output_voltage_mv();
}
static uint16_t read_input_voltage_mv(void)
{
INPUT_VOLTAGE_ADC_StartConvert();
INPUT_VOLTAGE_ADC_IsEndConversion(INPUT_VOLTAGE_ADC_WAIT_FOR_RESULT);
uint16_t samples = INPUT_VOLTAGE_ADC_GetResult16();
return INPUT_VOLTAGE_ADC_CountsTo_mVolts(samples);
}
static void read_input_voltages(struct voltages* v)
{
home();
CyDelay(50);
v->logic0_mv = read_input_voltage_mv();
step(STEP_AWAYFROM0);
CyDelay(50);
v->logic1_mv = read_input_voltage_mv();
}
static void cmd_measure_voltages(void)
{
stop_motor();
INPUT_VOLTAGE_ADC_Start();
INPUT_VOLTAGE_ADC_SetPower(INPUT_VOLTAGE_ADC__HIGHPOWER);
OUTPUT_VOLTAGE_ADC_Start();
OUTPUT_VOLTAGE_ADC_SetPower(OUTPUT_VOLTAGE_ADC__HIGHPOWER);
DECLARE_REPLY_FRAME(struct voltages_frame, F_FRAME_MEASURE_VOLTAGES_REPLY);
CyWdtClear();
MOTOR_REG_Write(0); /* should be ignored anyway */
DRIVESELECT_REG_Write(0); /* deselect both drives */
CyDelay(200); /* wait for things to settle */
read_output_voltages(&r.output_both_off);
read_input_voltages(&r.input_both_off);
CyWdtClear();
DRIVESELECT_REG_Write(1); /* select drive 0 */
CyDelay(50);
read_output_voltages(&r.output_drive_0_selected);
read_input_voltages(&r.input_drive_0_selected);
MOTOR_REG_Write(1);
CyDelay(300);
CyWdtClear();
read_output_voltages(&r.output_drive_0_running);
read_input_voltages(&r.input_drive_0_running);
MOTOR_REG_Write(0);
CyDelay(300);
CyWdtClear();
DRIVESELECT_REG_Write(2); /* select drive 1 */
CyDelay(50);
read_output_voltages(&r.output_drive_1_selected);
read_input_voltages(&r.input_drive_1_selected);
MOTOR_REG_Write(1);
CyDelay(300);
CyWdtClear();
read_output_voltages(&r.output_drive_1_running);
read_input_voltages(&r.input_drive_1_running);
MOTOR_REG_Write(0);
CyDelay(300);
CyWdtClear();
DRIVESELECT_REG_Write(0);
homed = false;
INPUT_VOLTAGE_ADC_Stop();
OUTPUT_VOLTAGE_ADC_Stop();
send_reply((struct any_frame*) &r);
}
static void handle_command(void)
{
static uint8_t input_buffer[FRAME_SIZE];
@@ -712,18 +877,18 @@ static void handle_command(void)
cmd_measure_speed(f);
break;
case F_FRAME_BULK_TEST_CMD:
cmd_bulk_test(f);
case F_FRAME_BULK_WRITE_TEST_CMD:
cmd_bulk_write_test(f);
break;
case F_FRAME_BULK_READ_TEST_CMD:
cmd_bulk_read_test(f);
break;
case F_FRAME_READ_CMD:
cmd_read((struct read_frame*) f);
break;
case F_FRAME_READ_QD_CMD:
cmd_read_qd((struct read_frame*) f);
break;
case F_FRAME_WRITE_CMD:
cmd_write((struct write_frame*) f);
break;
@@ -739,6 +904,10 @@ static void handle_command(void)
case F_FRAME_SET_DRIVE_CMD:
cmd_set_drive((struct set_drive_frame*) f);
break;
case F_FRAME_MEASURE_VOLTAGES_CMD:
cmd_measure_voltages();
break;
default:
send_error(F_ERROR_BAD_COMMAND);
@@ -751,9 +920,11 @@ int main(void)
CySysTickStart();
CySysTickSetCallback(4, system_timer_cb);
INDEX_IRQ_StartEx(&index_irq_cb);
CAPTURE_DMA_FINISHED_IRQ_StartEx(&capture_dma_finished_irq_cb);
SAMPLER_DMA_FINISHED_IRQ_StartEx(&capture_dma_finished_irq_cb);
SEQUENCER_DMA_FINISHED_IRQ_StartEx(&replay_dma_finished_irq_cb);
DRIVE_REG_Write(0);
INPUT_VOLTAGE_ADC_Stop();
OUTPUT_VOLTAGE_ADC_Stop();
DRIVESELECT_REG_Write(0);
UART_Start();
USBFS_Start(0, USBFS_DWR_VDDD_OPERATION);
@@ -769,10 +940,7 @@ int main(void)
{
uint32_t time_on = clock - motor_on_time;
if (time_on > MOTOR_ON_TIME)
{
MOTOR_REG_Write(0);
motor_on = false;
}
stop_motor();
}
if (!USBFS_GetConfiguration() || USBFS_IsConfigurationChanged())
@@ -786,6 +954,7 @@ int main(void)
if (USBFS_GetEPState(FLUXENGINE_CMD_OUT_EP_NUM) == USBFS_OUT_BUFFER_FULL)
{
set_drive_flags(&current_drive_flags);
handle_command();
USBFS_EnableOutEP(FLUXENGINE_CMD_OUT_EP_NUM);
print("idle");

18
Makefile
View File

@@ -1,8 +1,13 @@
PACKAGES = zlib sqlite3 libusb-1.0
export CFLAGS = -O3 -g --std=c++14 \
-ffunction-sections -fdata-sections
export LDFLAGS = -O3
export CFLAGS = --std=c++14 -ffunction-sections -fdata-sections
export LDFLAGS =
export COPTFLAGS = -Os
export LDOPTFLAGS = -Os -s
export CDBGFLAGS = -O0 -g
export LDDBGFLAGS = -O0 -g
ifeq ($(OS), Windows_NT)
export CXX = /mingw32/bin/g++
@@ -13,6 +18,13 @@ export LDFLAGS +=
export LIBS = -static -lz -lsqlite3 -lusb-1.0
export EXTENSION = .exe
else
packages-exist = $(shell pkg-config --exists $(PACKAGES) && echo yes)
ifneq ($(packages-exist),yes)
$(warning These pkg-config packages are installed: $(shell pkg-config --list-all | sort | awk '{print $$1}'))
$(error You must have these pkg-config packages installed: $(PACKAGES))
endif
export CXX = g++
export AR = ar rcs
export STRIP = strip

16
README.md
View File

@@ -79,20 +79,24 @@ people who've had it work).
| Format | Read? | Write? | Notes |
|:-----------------------------------------|:-----:|:------:|-------|
| IBM PC compatible | 🦄 | | and compatibles (like the Atari ST) |
| [Acorn ADFS](doc/disk-acornadfs.md) | 🦄 | | single- and double- sided |
| [Acorn DFS](doc/disk-acorndfs.md) | 🦄 | | |
| [Ampro Little Board](doc/disk-ampro.md) | 🦖 | | |
| [IBM PC compatible](doc/disk-ibm.md) | 🦄 | 🦄 | and compatibles (like the Atari ST) |
| [Acorn ADFS](doc/disk-acornadfs.md) | 🦄 | 🦖* | single- and double- sided |
| [Acorn DFS](doc/disk-acorndfs.md) | 🦄 | 🦖* | |
| [Ampro Little Board](doc/disk-ampro.md) | 🦖 | 🦖* | |
| [Apple II DOS 3.3](doc/disk-apple2.md) | 🦄 | | doesn't do logical sector remapping |
| [Amiga](doc/disk-amiga.md) | 🦄 | | |
| [Commodore 64 1541](doc/disk-c64.md) | 🦖 | | and probably the other GCR formats |
| [Brother 120kB](doc/disk-brother.md) | 🦄 | | |
| [Brother 240kB](doc/disk-brother.md) | 🦄 | 🦄 | |
| [Brother FB-100](doc/disk-fb100.md) | 🦖 | | Tandy Model 100, Husky Hunter, knitting machines |
| [Macintosh 800kB](doc/disk-macintosh.md) | 🦄 | | and probably the 400kB too |
| [TRS-80](doc/disk-trs80.md) | 🦖 | | a minor variation of the IBM scheme |
| [Macintosh 800kB](doc/disk-macintosh.md) | 🦖 | | and probably the 400kB too |
| [TRS-80](doc/disk-trs80.md) | 🦖 | 🦖* | a minor variation of the IBM scheme |
{: .datatable }
`*`: these formats are variations of the generic IBM format, and since the
IBM writer is completely generic, it should be configurable for these
formats... theoretically. I don't have the hardware to try it.
### Even older disk formats
These formats are for particularly old, weird architectures, even by the

101
arch/amiga/amiga.cc Normal file
View File

@@ -0,0 +1,101 @@
#include "globals.h"
#include "record.h"
#include "decoders/decoders.h"
#include "amiga.h"
#include "bytes.h"
#include "fmt/format.h"
uint32_t amigaChecksum(const Bytes& bytes)
{
ByteReader br(bytes);
uint32_t checksum = 0;
assert((bytes.size() & 3) == 0);
while (!br.eof())
checksum ^= br.read_be32();
return checksum & 0x55555555;
}
static uint8_t everyother(uint16_t x)
{
/* aabb ccdd eeff gghh */
x &= 0x6666; /* 0ab0 0cd0 0ef0 0gh0 */
x >>= 1; /* 00ab 00cd 00ef 00gh */
x |= x << 2; /* abab cdcd efef ghgh */
x &= 0x3c3c; /* 00ab cd00 00ef gh00 */
x >>= 2; /* 0000 abcd 0000 efgh */
x |= x >> 4; /* 0000 abcd abcd efgh */
return x;
}
Bytes amigaInterleave(const Bytes& input)
{
Bytes output;
ByteWriter bw(output);
/* Write all odd bits. (Numbering starts at 0...) */
{
ByteReader br(input);
while (!br.eof())
{
uint16_t x = br.read_be16();
x &= 0xaaaa; /* a0b0 c0d0 e0f0 g0h0 */
x |= x >> 1; /* aabb ccdd eeff gghh */
x = everyother(x); /* 0000 0000 abcd efgh */
bw.write_8(x);
}
}
/* Write all even bits. */
{
ByteReader br(input);
while (!br.eof())
{
uint16_t x = br.read_be16();
x &= 0x5555; /* 0a0b 0c0d 0e0f 0g0h */
x |= x << 1; /* aabb ccdd eeff gghh */
x = everyother(x); /* 0000 0000 abcd efgh */
bw.write_8(x);
}
}
return output;
}
Bytes amigaDeinterleave(const uint8_t*& input, size_t len)
{
assert(!(len & 1));
const uint8_t* odds = &input[0];
const uint8_t* evens = &input[len/2];
Bytes output;
ByteWriter bw(output);
for (size_t i=0; i<len/2; i++)
{
uint8_t o = *odds++;
uint8_t e = *evens++;
/* This is the 'Interleave bits with 64-bit multiply' technique from
* http://graphics.stanford.edu/~seander/bithacks.html#InterleaveBMN
*/
uint16_t result =
(((e * 0x0101010101010101ULL & 0x8040201008040201ULL)
* 0x0102040810204081ULL >> 49) & 0x5555) |
(((o * 0x0101010101010101ULL & 0x8040201008040201ULL)
* 0x0102040810204081ULL >> 48) & 0xAAAA);
bw.write_be16(result);
}
input += len;
return output;
}
Bytes amigaDeinterleave(const Bytes& input)
{
const uint8_t* ptr = input.cbegin();
return amigaDeinterleave(ptr, input.size());
}

21
arch/amiga/amiga.h
View File

@@ -1,12 +1,17 @@
#ifndef AMIGA_H
#define AMIGA_H
#include "encoders/encoders.h"
#define AMIGA_SECTOR_RECORD 0xaaaa44894489LL
#define AMIGA_TRACKS_PER_DISK 80
#define AMIGA_SECTORS_PER_TRACK 11
#define AMIGA_RECORD_SIZE 0x21f
class Sector;
class Fluxmap;
class SectorSet;
class AmigaDecoder : public AbstractDecoder
{
@@ -17,4 +22,20 @@ public:
void decodeSectorRecord();
};
class AmigaEncoder : public AbstractEncoder
{
public:
virtual ~AmigaEncoder() {}
public:
std::unique_ptr<Fluxmap> encode(int physicalTrack, int physicalSide, const SectorSet& allSectors);
};
extern FlagGroup amigaEncoderFlags;
extern uint32_t amigaChecksum(const Bytes& bytes);
extern Bytes amigaInterleave(const Bytes& input);
extern Bytes amigaDeinterleave(const uint8_t*& input, size_t len);
extern Bytes amigaDeinterleave(const Bytes& input);
#endif

55
arch/amiga/decoder.cc
View File

@@ -21,47 +21,6 @@
static const FluxPattern SECTOR_PATTERN(48, AMIGA_SECTOR_RECORD);
static Bytes deinterleave(const uint8_t*& input, size_t len)
{
assert(!(len & 1));
const uint8_t* odds = &input[0];
const uint8_t* evens = &input[len/2];
Bytes output;
ByteWriter bw(output);
for (size_t i=0; i<len/2; i++)
{
uint8_t o = *odds++;
uint8_t e = *evens++;
/* This is the 'Interleave bits with 64-bit multiply' technique from
* http://graphics.stanford.edu/~seander/bithacks.html#InterleaveBMN
*/
uint16_t result =
(((e * 0x0101010101010101ULL & 0x8040201008040201ULL)
* 0x0102040810204081ULL >> 49) & 0x5555) |
(((o * 0x0101010101010101ULL & 0x8040201008040201ULL)
* 0x0102040810204081ULL >> 48) & 0xAAAA);
bw.write_be16(result);
}
input += len;
return output;
}
static uint32_t checksum(const Bytes& bytes)
{
ByteReader br(bytes);
uint32_t checksum = 0;
assert((bytes.size() & 3) == 0);
while (!br.eof())
checksum ^= br.read_be32();
return checksum & 0x55555555;
}
AbstractDecoder::RecordType AmigaDecoder::advanceToNextRecord()
{
_sector->clock = _fmr->seekToPattern(SECTOR_PATTERN);
@@ -78,22 +37,22 @@ void AmigaDecoder::decodeSectorRecord()
const uint8_t* ptr = bytes.begin() + 3;
Bytes header = deinterleave(ptr, 4);
Bytes recoveryinfo = deinterleave(ptr, 16);
Bytes header = amigaDeinterleave(ptr, 4);
Bytes recoveryinfo = amigaDeinterleave(ptr, 16);
_sector->logicalTrack = header[1] >> 1;
_sector->logicalSide = header[1] & 1;
_sector->logicalSector = header[2];
uint32_t wantedheaderchecksum = deinterleave(ptr, 4).reader().read_be32();
uint32_t gotheaderchecksum = checksum(rawbytes.slice(6, 40));
uint32_t wantedheaderchecksum = amigaDeinterleave(ptr, 4).reader().read_be32();
uint32_t gotheaderchecksum = amigaChecksum(rawbytes.slice(6, 40));
if (gotheaderchecksum != wantedheaderchecksum)
return;
uint32_t wanteddatachecksum = deinterleave(ptr, 4).reader().read_be32();
uint32_t gotdatachecksum = checksum(rawbytes.slice(62, 1024));
uint32_t wanteddatachecksum = amigaDeinterleave(ptr, 4).reader().read_be32();
uint32_t gotdatachecksum = amigaChecksum(rawbytes.slice(62, 1024));
_sector->data.clear();
_sector->data.writer().append(deinterleave(ptr, 512)).append(recoveryinfo);
_sector->data.writer().append(amigaDeinterleave(ptr, 512)).append(recoveryinfo);
_sector->status = (gotdatachecksum == wanteddatachecksum) ? Sector::OK : Sector::BAD_CHECKSUM;
}

129
arch/amiga/encoder.cc Normal file
View File

@@ -0,0 +1,129 @@
#include "globals.h"
#include "record.h"
#include "decoders/decoders.h"
#include "encoders/encoders.h"
#include "amiga.h"
#include "crc.h"
#include "sectorset.h"
#include "writer.h"
FlagGroup amigaEncoderFlags;
static DoubleFlag clockRateUs(
{ "--clock-rate" },
"Encoded data clock rate (microseconds).",
2.00);
static DoubleFlag postIndexGapMs(
{ "--post-index-gap" },
"Post-index gap before first sector header (milliseconds).",
0.5);
static bool lastBit;
static int charToInt(char c)
{
if (isdigit(c))
return c - '0';
return 10 + tolower(c) - 'a';
}
static void write_bits(std::vector<bool>& bits, unsigned& cursor, const std::vector<bool>& src)
{
for (bool bit : src)
{
if (cursor < bits.size())
bits[cursor++] = bit;
}
}
static void write_bits(std::vector<bool>& bits, unsigned& cursor, uint64_t data, int width)
{
cursor += width;
for (int i=0; i<width; i++)
{
unsigned pos = cursor - i - 1;
if (pos < bits.size())
bits[pos] = data & 1;
data >>= 1;
}
}
static void write_interleaved_bytes(std::vector<bool>& bits, unsigned& cursor, const Bytes& bytes)
{
assert(!(bytes.size() & 3));
Bytes interleaved = amigaInterleave(bytes);
encodeMfm(bits, cursor, interleaved, lastBit);
}
static void write_interleaved_bytes(std::vector<bool>& bits, unsigned& cursor, uint32_t data)
{
Bytes b(4);
ByteWriter bw(b);
bw.write_be32(data);
write_interleaved_bytes(bits, cursor, b);
}
static void write_sector(std::vector<bool>& bits, unsigned& cursor, const Sector* sector)
{
if ((sector->data.size() != 512) && (sector->data.size() != 528))
Error() << "unsupported sector size --- you must pick 512 or 528";
write_bits(bits, cursor, AMIGA_SECTOR_RECORD, 6*8);
std::vector<bool> headerBits(20*16);
unsigned headerCursor = 0;
Bytes header =
{
0xff, /* Amiga 1.0 format byte */
(uint8_t) ((sector->logicalTrack<<1) | sector->logicalSide),
(uint8_t) sector->logicalSector,
(uint8_t) (AMIGA_SECTORS_PER_TRACK - sector->logicalSector)
};
write_interleaved_bytes(headerBits, headerCursor, header);
Bytes recoveryInfo(16);
if (sector->data.size() == 528)
recoveryInfo = sector->data.slice(512, 16);
write_interleaved_bytes(headerBits, headerCursor, recoveryInfo);
std::vector<bool> dataBits(512*16);
unsigned dataCursor = 0;
write_interleaved_bytes(dataBits, dataCursor, sector->data);
write_bits(bits, cursor, headerBits);
uint32_t headerChecksum = amigaChecksum(toBytes(headerBits));
write_interleaved_bytes(bits, cursor, headerChecksum);
uint32_t dataChecksum = amigaChecksum(toBytes(dataBits));
write_interleaved_bytes(bits, cursor, dataChecksum);
write_bits(bits, cursor, dataBits);
}
std::unique_ptr<Fluxmap> AmigaEncoder::encode(
int physicalTrack, int physicalSide, const SectorSet& allSectors)
{
if ((physicalTrack < 0) || (physicalTrack >= AMIGA_TRACKS_PER_DISK))
return std::unique_ptr<Fluxmap>();
int bitsPerRevolution = 200000.0 / clockRateUs;
std::vector<bool> bits(bitsPerRevolution);
unsigned cursor = 0;
fillBitmapTo(bits, cursor, postIndexGapMs * 1000 / clockRateUs, { true, false });
lastBit = false;
for (int sectorId=0; sectorId<AMIGA_SECTORS_PER_TRACK; sectorId++)
{
const auto& sectorData = allSectors.get(physicalTrack, physicalSide, sectorId);
write_sector(bits, cursor, sectorData);
}
if (cursor >= bits.size())
Error() << "track data overrun";
fillBitmapTo(bits, cursor, bits.size(), { true, false });
std::unique_ptr<Fluxmap> fluxmap(new Fluxmap);
fluxmap->appendBits(bits, clockRateUs*1e3);
return fluxmap;
}

2
arch/brother/encoder.cc
View File

@@ -154,7 +154,7 @@ std::unique_ptr<Fluxmap> BrotherEncoder::encode(
write_sector_data(bits, cursor, sectorData->data);
}
if (cursor > bits.size())
if (cursor >= bits.size())
Error() << "track data overrun";
fillBitmapTo(bits, cursor, bits.size(), { true, false });

10
arch/ibm/decoder.cc
View File

@@ -73,8 +73,10 @@ const FluxPattern FM_TRS80DAM2_PATTERN(16, 0xf56c);
* encoding (you can't do 10 00). So this can't be spoofed by user data.
*
* shifted: 10 00 10 01 00 01 00 1
*
* It's repeated three times.
*/
const FluxPattern MFM_PATTERN(16, 0x4489);
const FluxPattern MFM_PATTERN(48, 0x448944894489LL);
const FluxMatchers ANY_RECORD_PATTERN(
{
@@ -100,7 +102,8 @@ AbstractDecoder::RecordType IbmDecoder::advanceToNextRecord()
if (_currentHeaderLength > 0)
readRawBits(_currentHeaderLength*16);
auto idbits = readRawBits(16);
uint8_t id = decodeFmMfm(idbits).slice(0, 1)[0];
const Bytes idbytes = decodeFmMfm(idbits);
uint8_t id = idbytes.slice(0, 1)[0];
seek(here);
switch (id)
@@ -134,6 +137,9 @@ void IbmDecoder::decodeSectorRecord()
uint16_t gotCrc = crc16(CCITT_POLY, bytes.slice(0, _currentHeaderLength + 5));
if (wantCrc == gotCrc)
_sector->status = Sector::DATA_MISSING; /* correct but unintuitive */
if (_ignoreSideByte)
_sector->logicalSide = _sector->physicalSide;
}
void IbmDecoder::decodeDataRecord()

235
arch/ibm/encoder.cc Normal file
View File

@@ -0,0 +1,235 @@
#include "globals.h"
#include "record.h"
#include "decoders/decoders.h"
#include "encoders/encoders.h"
#include "ibm.h"
#include "crc.h"
#include "sectorset.h"
#include "writer.h"
#include "fmt/format.h"
#include <ctype.h>
/* IAM record separator:
* 0xC2 is:
* data: 1 1 0 0 0 0 1 0 = 0xc2
* mfm: 01 01 00 10 10 10 01 00 = 0x5254
* special: 01 01 00 10 00 10 01 00 = 0x5224
*/
#define MFM_IAM_SEPARATOR 0x5224
/* FM IAM record:
* flux: XXXX-XXX-XXXX-X- = 0xf77a
* clock: X X - X - X X X = 0xd7
* data: X X X X X X - - = 0xfc
*/
#define FM_IAM_RECORD 0xf77a
/* MFM IAM record:
* data: 1 1 1 1 1 1 0 0 = 0xfc
* flux: 01 01 01 01 01 01 00 10 = 0x5552
*/
#define MFM_IAM_RECORD 0x5552
/* MFM record separator:
* 0xA1 is:
* data: 1 0 1 0 0 0 0 1 = 0xa1
* mfm: 01 00 01 00 10 10 10 01 = 0x44a9
* special: 01 00 01 00 10 00 10 01 = 0x4489
* ^^^^^
* When shifted out of phase, the special 0xa1 byte becomes an illegal
* encoding (you can't do 10 00). So this can't be spoofed by user data.
*
* shifted: 10 00 10 01 00 01 00 1
*
* It's repeated three times.
*/
#define MFM_RECORD_SEPARATOR 0x4489
#define MFM_RECORD_SEPARATOR_BYTE 0xa1
/* MFM IDAM byte:
* data: 1 1 1 1 1 1 1 0 = 0xfe
* mfm: 01 01 01 01 01 01 01 00 = 0x5554
*/
/* MFM DAM byte:
* data: 1 1 1 1 1 0 1 1 = 0xfb
* mfm: 01 01 01 01 01 00 01 01 = 0x5545
*/
static int charToInt(char c)
{
if (isdigit(c))
return c - '0';
return 10 + tolower(c) - 'a';
}
void IbmEncoder::writeRawBits(uint32_t data, int width)
{
_cursor += width;
_lastBit = data & 1;
for (int i=0; i<width; i++)
{
unsigned pos = _cursor - i - 1;
if (pos < _bits.size())
_bits[pos] = data & 1;
data >>= 1;
}
}
void IbmEncoder::writeBytes(const Bytes& bytes)
{
if (_parameters.useFm)
encodeFm(_bits, _cursor, bytes);
else
encodeMfm(_bits, _cursor, bytes, _lastBit);
}
void IbmEncoder::writeBytes(int count, uint8_t byte)
{
Bytes bytes = { byte };
for (int i=0; i<count; i++)
writeBytes(bytes);
}
static uint8_t decodeUint16(uint16_t raw)
{
Bytes b;
ByteWriter bw(b);
bw.write_be16(raw);
return decodeFmMfm(b.toBits())[0];
}
std::unique_ptr<Fluxmap> IbmEncoder::encode(
int physicalTrack, int physicalSide, const SectorSet& allSectors)
{
double clockRateUs = 1e3 / _parameters.clockRateKhz;
if (!_parameters.useFm)
clockRateUs /= 2.0;
int bitsPerRevolution = (_parameters.trackLengthMs * 1000.0) / clockRateUs;
_bits.resize(bitsPerRevolution);
_cursor = 0;
uint8_t idamUnencoded = decodeUint16(_parameters.idamByte);
uint8_t damUnencoded = decodeUint16(_parameters.damByte);
uint8_t sectorSize = 0;
{
int s = _parameters.sectorSize >> 7;
while (s > 1)
{
s >>= 1;
sectorSize += 1;
}
}
uint8_t gapFill = _parameters.useFm ? 0x00 : 0x4e;
writeBytes(_parameters.gap0, gapFill);
if (_parameters.emitIam)
{
writeBytes(_parameters.useFm ? 6 : 12, 0x00);
if (!_parameters.useFm)
{
for (int i=0; i<3; i++)
writeRawBits(MFM_IAM_SEPARATOR, 16);
}
writeRawBits(_parameters.useFm ? FM_IAM_RECORD : MFM_IAM_RECORD, 16);
writeBytes(_parameters.gap1, gapFill);
}
bool first = true;
for (char sectorChar : _parameters.sectorSkew)
{
int sectorId = charToInt(sectorChar);
if (!first)
writeBytes(_parameters.gap3, gapFill);
first = false;
const auto& sectorData = allSectors.get(physicalTrack, physicalSide, sectorId);
if (!sectorData)
Error() << fmt::format("format tried to find sector {} which wasn't in the input file", sectorId);
/* Writing the sector and data records are fantastically annoying.
* The CRC is calculated from the *very start* of the record, and
* include the malformed marker bytes. Our encoder doesn't know
* about this, of course, with the result that we have to construct
* the unencoded header, calculate the checksum, and then use the
* same logic to emit the bytes which require special encoding
* before encoding the rest of the header normally. */
{
Bytes header;
ByteWriter bw(header);
writeBytes(_parameters.useFm ? 6 : 12, 0x00);
if (!_parameters.useFm)
{
for (int i=0; i<3; i++)
bw.write_8(MFM_RECORD_SEPARATOR_BYTE);
}
bw.write_8(idamUnencoded);
bw.write_8(sectorData->logicalTrack);
bw.write_8(sectorData->logicalSide);
bw.write_8(sectorData->logicalSector + _parameters.startSectorId);
bw.write_8(sectorSize);
uint16_t crc = crc16(CCITT_POLY, header);
bw.write_be16(crc);
int conventionalHeaderStart = 0;
if (!_parameters.useFm)
{
for (int i=0; i<3; i++)
writeRawBits(MFM_RECORD_SEPARATOR, 16);
conventionalHeaderStart += 3;
}
writeRawBits(_parameters.idamByte, 16);
conventionalHeaderStart += 1;
writeBytes(header.slice(conventionalHeaderStart));
}
writeBytes(_parameters.gap2, gapFill);
{
Bytes data;
ByteWriter bw(data);
writeBytes(_parameters.useFm ? 6 : 12, 0x00);
if (!_parameters.useFm)
{
for (int i=0; i<3; i++)
bw.write_8(MFM_RECORD_SEPARATOR_BYTE);
}
bw.write_8(damUnencoded);
Bytes truncatedData = sectorData->data.slice(0, _parameters.sectorSize);
bw += truncatedData;
uint16_t crc = crc16(CCITT_POLY, data);
bw.write_be16(crc);
int conventionalHeaderStart = 0;
if (!_parameters.useFm)
{
for (int i=0; i<3; i++)
writeRawBits(MFM_RECORD_SEPARATOR, 16);
conventionalHeaderStart += 3;
}
writeRawBits(_parameters.damByte, 16);
conventionalHeaderStart += 1;
writeBytes(data.slice(conventionalHeaderStart));
}
}
if (_cursor >= _bits.size())
Error() << "track data overrun";
while (_cursor < _bits.size())
writeBytes(1, gapFill);
std::unique_ptr<Fluxmap> fluxmap(new Fluxmap);
fluxmap->appendBits(_bits, clockRateUs*1e3);
return fluxmap;
}

81
arch/ibm/ibm.h
View File

@@ -2,6 +2,7 @@
#define IBM_H
#include "decoders/decoders.h"
#include "encoders/encoders.h"
/* IBM format (i.e. ordinary PC floppies). */
@@ -31,8 +32,9 @@ struct IbmIdam
class IbmDecoder : public AbstractDecoder
{
public:
IbmDecoder(unsigned sectorBase):
_sectorBase(sectorBase)
IbmDecoder(unsigned sectorBase, bool ignoreSideByte=false):
_sectorBase(sectorBase),
_ignoreSideByte(ignoreSideByte)
{}
RecordType advanceToNextRecord();
@@ -41,56 +43,51 @@ public:
private:
unsigned _sectorBase;
bool _ignoreSideByte;
unsigned _currentSectorSize;
unsigned _currentHeaderLength;
};
#if 0
class AbstractIbmDecoder : public AbstractSoftSectorDecoder
struct IbmParameters
{
int trackLengthMs;
int sectorSize;
bool emitIam;
int startSectorId;
int clockRateKhz;
bool useFm;
uint16_t idamByte;
uint16_t damByte;
int gap0;
int gap1;
int gap2;
int gap3;
std::string sectorSkew;
};
class IbmEncoder : public AbstractEncoder
{
public:
AbstractIbmDecoder(unsigned sectorIdBase):
_sectorIdBase(sectorIdBase)
{}
virtual ~AbstractIbmDecoder() {}
IbmEncoder(const IbmParameters& parameters):
_parameters(parameters)
{}
SectorVector decodeToSectors(const RawRecordVector& rawRecords, unsigned physicalTrack, unsigned physicalSide);
virtual ~IbmEncoder() {}
protected:
virtual int skipHeaderBytes() const = 0;
public:
std::unique_ptr<Fluxmap> encode(int physicalTrack, int physicalSide, const SectorSet& allSectors);
private:
unsigned _sectorIdBase;
void writeRawBits(uint32_t data, int width);
void writeBytes(const Bytes& bytes);
void writeBytes(int count, uint8_t value);
void writeSync();
private:
IbmParameters _parameters;
std::vector<bool> _bits;
unsigned _cursor;
bool _lastBit;
};
class IbmFmDecoder : public AbstractIbmDecoder
{
public:
IbmFmDecoder(unsigned sectorIdBase):
AbstractIbmDecoder(sectorIdBase)
{}
int recordMatcher(uint64_t fifo) const;
protected:
int skipHeaderBytes() const
{ return 0; }
};
class IbmMfmDecoder : public AbstractIbmDecoder
{
public:
IbmMfmDecoder(unsigned sectorIdBase):
AbstractIbmDecoder(sectorIdBase)
{}
nanoseconds_t guessClock(Fluxmap& fluxmap) const;
int recordMatcher(uint64_t fifo) const;
protected:
int skipHeaderBytes() const
{ return 3; }
};
#endif
#endif

BIN
doc/Index_sensor_mod_FDD_1.1.pdf Normal file
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Binary file not shown.

47
doc/building.md
View File

@@ -103,7 +103,43 @@ the unconnected pins and solder a short piece of wire to a GND pin on the
board. Alternatively you'll need to splice it into your drive's power supply
cable somehow. (The black one.)
## Building the firmware
## Programming the board
You've got two options here. You can either use the precompiled firmware
supplied with the source, or else install the Cypress SDK and build it
yourself. If you want to hack the firmware source you need the latter, but
if you trust me to do it for you use the precompiled firmware. In either
case you'll need Windows and have to install some Cypress stuff.
**Before you read this:** If you're on Windows, good news! You can download a
precompiled version of the FluxEngine client and precompiled firmware [from
the GitHub releases
page](https://github.com/davidgiven/fluxengine/releases/latest). Simply unzip
it somewhere and run the `.exe` files from a `cmd` window (or other shell).
Follow the instructions below to program the board with the firmware.
### Using the precompiled firmware
On your Windows machine, [install the PSoC
Programmer](https://www.cypress.com/products/psoc-programming-solutions).
**Note:** _not_ the Cypress Programmer, which is for a different board!
Cypress will make you register.
Once done, run it. Plug the blunt end of the FluxEngine board into a USB
port (the end which is a USB connector). The programmer should detect it
and report it as a KitProg. You may be prompted to upgrade the programmer
hardware; if so, follow the instructions and do it.
Now go to File -> File Load and open
`FluxEngine.cydsn/CortexM3/ARM_GCC_541/Release/FluxEngine.hex` in the
project. If you're on Windows, the precompiled zipfile also contains a copy
of this file. Press the Program button (the one in the toolbar marked with a
down arrow). Stuff will happen and you should be left with three green boxes
in the status bar and 'Programming Succeeded' at the top of the log window.
You're done. You can unplug the board and close the programmer.
### Building the firmware yourself
On your Windows machine, [install the Cypress SDK and CY8CKIT-059
BSP](http://www.cypress.com/documentation/development-kitsboards/cy8ckit-059-psoc-5lp-prototyping-kit-onboard-programmer-and).
@@ -118,7 +154,7 @@ tutorial and making the LED on your board flash. It'll tell you where all the
controls are and how to program the board. Remember that the big end of the
board plugs into your computer for programming.
When you're ready, open the `FluxEngine.cydsn/FluxEngine.cywrk` workspace,
When you're ready, open the `FluxEngine.cydsn/FluxEngine.cyprj` project,
pick 'Program' from the menu, and the firmware should compile and be
programmed onto your board.
@@ -139,11 +175,6 @@ the port and proceed normally.
## Building the client
**Before you read this:** If you're on Windows, good news! You can download a
*precompiled version of the FluxEngine client [from the GitHub releases
*page](https://github.com/davidgiven/fluxengine/releases/latest). Simply unzip
*it somewhere and run it from a `cmd` window (or other shell).
The client software is where the intelligence, such as it is, is. It's pretty
generic libusb stuff and should build and run on Windows, Linux and OSX as
well, although on Windows it'll need MSYS2 and mingw32. You'll need to
@@ -151,7 +182,7 @@ install some support packages.
- For Linux (this is Ubuntu, but this should apply to Debian too):
`ninja-build`, `libusb-1.0-0-dev`, `libsqlite3-dev`.
- For OSX with Homebrew: `ninja`.
- For OSX with Homebrew: `ninja`, `libusb`, `pkg-config`, `sqlite`.
- For Windows with MSYS2: `make`, `ninja`, `mingw-w64-i686-libusb`,
`mingw-w64-i686-sqlite3`, `mingw-w64-i686-zlib`, `mingw-w64-i686-gcc`.

24
doc/disk-amiga.md
View File

@@ -10,7 +10,7 @@ Bizarrely, the data in each sector is stored with all the odd bits first, and
then all the even bits. This is tied into the checksum algorithm, which is
distinctly subpar and not particularly good at detecting errors.
Reading discs
Reading disks
-------------
Just do:
@@ -34,6 +34,28 @@ You will end up with a 929280 byte long image which you probably _can't_ use
in an emulator; each sector will contain the 512 bytes of user payload
followed by the 16 bytes of metadata.
Writing disks
-------------
Just do:
```
fluxengine write amiga -i amiga.adf
```
This will rake a normal 901120 byte long ADF file and write it to a DD disk.
Note that writing to an HD disk will probably not work (this will depend on
your drive and disk and potential FluxEngine bugs I'm still working on ---
please [get in touch](https://github.com/davidgiven/fluxengine/issues/new) if
you have any insight here).
If you want to write the metadata as well, specify a 528 byte sector size for
the output image and supply a 929280 byte long file as described above.
```
fluxengine write amiga -i amiga.adf:b=528
```
Useful references
-----------------

4
doc/disk-brother.md
View File

@@ -129,8 +129,8 @@ reverse engineered it to find out.
Standard Linux mtools will access the filesystem image and allow you to move
files in and out. However, you'll need to change the media type bytes at
offsets 0x015 and 0x100 from 0x58 to 0xf0 before mtools will touch it. Once
done, this will work:
offsets 0x015 and 0x100 from 0x58 to 0xf0 before mtools will touch it. The
supplied `brother240tool` will do this. Once done, this will work:
```
mdir -i brother.img

15
doc/disk-c64.md
View File

@@ -23,7 +23,7 @@ computer](https://ilesj.wordpress.com/2014/05/14/1541-why-so-complicated/) of
300 bytes per second (!). (The drive itself could transfer data reasonably
quickly.)
A standard 1541 disk has 35 tracks of 17 to 20 sectors, each 256 bytes long.
A standard 1541 disk has 35 tracks of 17 to 21 sectors, each 256 bytes long.
Reading discs
-------------
@@ -34,15 +34,14 @@ Just do:
fluxengine read c64
```
You should end up with an `c64.img` which is 187136 bytes long (for a normal
1541 disk).
You should end up with an `c64.d64` file which is 174848 bytes long. You can
load this straight into a Commodore 64 emulator such as
[VICE](http://vice-emu.sourceforge.net/).
**Big warning!** The image may not work in an emulator. Commodore 64 disk images are
**Big warning!** Commodore 64 disk images are
complicated due to the way the tracks are different sizes and the odd sector
size. FluxEngine chooses to store them in a simple 256 x 20 x 35 layout,
with holes where missing sectors should be. This was easiest. If anyone can
suggest a better way, please [get in
touch](https://github.com/davidgiven/fluxengine/issues/new).
size, so you need the special D64 or LDBS output formats to represent them
sensibly. Don't use IMG unless you know what you're doing.
Useful references
-----------------

143
doc/disk-ibm.md Normal file
View File

@@ -0,0 +1,143 @@
Disk: Generic IBM
=================
IBM scheme disks are _the_ most common disk format, ever. They're used by a
huge variety of different systems, and they come in a huge variety of different
forms, but they're all fundamentally the same: either FM or MFM, either single
or double sided, with distinct sector header and data records and no sector
metadata. Systems which use IBM scheme disks include but are not limited to:
- IBM PCs (naturally)
- Atari ST
- late era Apple machines
- Acorn machines
- the TRS-80
- late era Commodore machines (the 1571 and so on)
- most CP/M machines
- etc
FluxEngine supports reading these. However, some variants are more peculiar
than others, and as a result there are specific decoders which set the defaults
correctly for certain formats (for example: on PC disks the sector numbers
start from 1, but on [Acorn](disk-acorndfs.md) disks they start from 0). The
IBM decoder described here is the generic one, and is suited for 'conventional'
PC disks. While you can read all the variant formats with it if you use the
right set of arguments, it's easier to use the specific decoder.
The generic decoder is mostly self-configuring, and will detect the format of
your disk for you.
Reading disks
-------------
Just do:
fluxengine read ibm
...and you'll end up with an `ibm.img` file. This should work on most PC disks
(including FM 360kB disks, 3.5" 1440kB disks, 5.25" 1200kB disks, etc.) The size
of the disk image will vary depending on the format.
Configuration options you'll want include:
- `--sector-id-base`: specifies the ID of the first sector; this defaults
to 1. Some formats (like the Acorn ones) start at 0. This can't be
autodetected because FluxEngine can't distinguish between a disk which
starts at sector 1 and a disk which starts at sector 0 but all the sector
0s are missing.
- `--ignore-side-byte`: each sector header describes the location of the
sector: sector ID, track and side. Some formats use the wrong side ID, so
the sectors on side 1 are labelled as belonging to side 0. This causes
FluxEngine to see duplicate sectors (as it can't distinguish between the
two sides). This option tells FluxEngine to ignore the side byte completely
and use the physical side instead.
Writing disks
-------------
FluxEngine can also write IBM scheme disks. Unfortunately the format is
incredibly flexible and you need to specify every single parameter, which
makes things slightly awkward.
The syntax is:
fluxengine write ibm -i input.img <options>
The format of `input.img` will vary depending on the kind of disk you're
writing, which is configured by the options. There are some presets, which
you will almost certainly want to use if possible:
- `--ibm-preset-720`: a standard 720kB DS DD 3.5" disk, with 80 cylinders,
2 sides, and 9 sectors per track.
- `--ibm-preset-1440`: a standard 1440kB DS HD 3.5" disk, with 80
cylinders, 2 sides, and 18 sectors per track.
These options simply preset the following, lower-level options. Note that
options are processed left to right, so it's possible to use a preset and
then change some settings. To see the values for a preset, simply append
`--help`.
- `--ibm-track-length-ms=N`: one disk rotation, in milliseconds. This is used
to determine whether all the data will fit on a track or not. `fluxengine
rpm` will tell you this; it'll be 200 for a normal 3.5" drive and 166 for a
normal 5.25" drive.
- `--ibm-sector-size=N`: the size of a sector, in bytes. Must be a power of
two.
- `--ibm-emit-iam=true|false`: whether to emit the IAM record at the top of
the track. The standard format requires it, but it's ignored by absolutely
everyone and you can fit a bit more data on the disk without it.
- `--ibm-start-sector-id=N`: the sector ID of the first sector. Normally 1,
except for non-standard formats like Acorn's, which use 0.
- `--ibm-use-fm=true|false`: uses FM rather than MFM.
- `--ibm-idam-byte=N`: the sixteen-bit raw bit pattern used for the IDAM ID
byte. Big-endian, clock bit first.
- `--ibm-dam-byte-N`: the sixteen-bit raw bit pattern used for the DAM ID
byte. Big-endian, clock bit first.
- `--ibm-gap0-bytes=N`: the size of gap 0 in bytes (between the start of
the track and the IAM record).
- `--ibm-gap1-bytes=N`: the size of gap 1 in bytes (between the IAM record
and the first sector record).
- `--ibm-gap2-bytes=N`: the size of gap 2 in bytes (between each sector
record and the data record).
- `--ibm-gap3-bytes=N`: the size of gap 3 in bytes (between the data record
and the next sector record).
- `--ibm-sector-skew=0123...`: a string representing the order in which to
write sectors: each character represents on sector, with `0` being the
first (always, regardless of `--ibm-start-sector-id` above). Sectors 10 and
above are represented as latters from `A` up.
Mixed-format disks
------------------
Some disks, usually those belonging to early CP/M machines, have more than one
format on the disk at once. Typically, the first few tracks will be low-density
FM encoded and will be read by the machine's ROM; those tracks contain new
floppy drive handling code capable of coping with MFM data, and so the rest of
the disk will use that, allowing them to store more data.
FluxEngine copes with these fine, but the disk images are a bit weird. If track
0 is FM and contains five sectors, but track 1 is MFM with nine sectors (MFM is
more efficient and the sectors are physically smaller, allowing you to get more
on), then the resulting image will have nine sectors per track... but track 0
will only contain data in the first five.
This is typically what you want as it makes locating the sectors in the image
easier, but emulators will typically require a different format. Please [get
in touch](https://github.com/davidgiven/fluxengine/issues/new) if you have
specific requirements (nothing's come up yet). Alternatively, you can tell
FluxEngine to write a [`.ldbs`
file](http://www.seasip.info/Unix/LibDsk/ldbs.html) and then use
[libdsk](http://www.seasip.info/Unix/LibDsk/) to convert it to something
useful.
One easy option when reading these is to simply read the two sections of the
disk into two different image files.
FluxEngine can write these too, but in two different passes with different
options. It's possible to assemble a flux file by judicious use of `-D
something.flux --merge`, which can then be written in a single pass with
`fluxengine writeflux`, but it's usually not worth the bother: just write the
boot tracks, then write the data tracks, possibly with a script for automation.

12
doc/disk-macintosh.md
View File

@@ -28,8 +28,16 @@ for example the Commodore 64 1541 drive, changed bitrate this way.
But Macintosh disks used a constant bitrate and changed the speed that the
disk spun instead to achieve the same effect...
_Anyway_: FluxEngine will read them fine on a conventional drive. Because
it's clever.
_Anyway_: FluxEngine will read them fine on conventional drives.
Because it's clever.
**Big note.** Apparently --- and I'm still getting to the bottom of this ---
some drives work and some don't. My drives produce about 90% good reads of
known good disks. One rumour I've heard is that drives sometimes include
filters which damage the signals at very particular intervals which Mac disks
use, but frankly this seems unlikely; it could be a software issue at my end
and I'm investigating. If you have any insight, please [get in
touch](https://github.com/davidgiven/fluxengine/issues/new).
Reading discs
-------------

20
doc/faq.md
View File

@@ -48,7 +48,7 @@ haven't had the chance to try it end-for-end. I really need a hard-sectored
**Q.** Does it work with flippy disks?
Uhhh... probably not.
Uhhh... maybe?
So the problem with flippy disks (5.25" single-sided disks which could be
inserted upside down to read the second side) is the index hole. Trouble is,
@@ -79,16 +79,26 @@ the other. But a flippy disk has both sets of tracks in the same place,
because they're both accessed using the side 0 head...
The only real way round this is to modify a 5.25" drive. That's _seriously_
not in FluxEngine's remit. Sorry.
not in FluxEngine's remit, but I've had some [excellent documentation
contributed](Index_sensor_mod_FDD_1.1.pdf) on how to do this. I've never done
it myself; if you try this and it works/doesn't work, as always, [get in
touch](https://github.com/davidgiven/fluxengine/issues/new).
**Q.** Is this like KryoFlux / Catweasel / DiskFerret? Do you support KryoFlux
Another option is to fake the index signal to the drive completely. The
FluxEngine emits suitable pulses for a 300RPM drive on pin 3[0] and the
equivalent pulses for a 360RPM drive on pin 3[1]. Disclaimer: I have never used
these.
**Q.** Is this like Supercard Pro / KryoFlux / Catweasel / DiskFerret? Do you
*support KryoFlux
stream files?
**A.** It's very like all of these; the idea's old, and lots of people have
tried it (you can get away with any sufficiently fast microcontroller and
enough RAM). FluxEngine can read from KryoFlux stream files natively, and
there's a tool which will let you convert at least one kind of Catweasel file
to FluxEngine's native flux file format.
there's a tool which will let you convert at least one kind of Catweasel
files and Supercard Pro files to and from FluxEngine's native flux file
format.
**Q.** Can I use this to make exact copies of disks?

73
doc/technical.md
View File

@@ -59,53 +59,42 @@ Some useful and/or interesting numbers:
## Why don't I use an Arduino / STM32 / ESP32 / Raspberry Pi / etc?
I've got a _lot_ of questions on this, and multiple Github issues of people
-I've got a _lot_ of questions on this, and multiple Github issues of people
debating it. It's complicated, but it's essentially a tradeoff between speed
and complexity.
and complexity.-
FluxEngine's read process involves generating a lot of data using a fairly
brute force sampling approach --- about 150kB per disk revolution, and
sometimes it needs to record multiple revolutions. Most microcontrollers
don't have enough RAM to buffer this, so instead I have to stream it over USB
back to the host PC in real time. The disk won't wait, so I need to stream data faster
than the disk is producing it: the total is about 800kB/s.
**Update as of 2020-01-08:**
Handling USB is pretty CPU-hungry, so my candidate microntroller has to be
able to cope with the ruinously strict real-time requirements of the
sampler's 12MHz clock as well as keeping up with 13,000 USB interrupts a
second (one for each 64-byte frame) in order to transfer the data.
Right. Well.
The Atmels and STM32s I found were perfectly capable of doing the real-time
sampling, using hand-tool assembly, but I very much doubt whether they could
do the USB streaming as well (although I want to move away from the Cypress
onto something less proprietary and easier to source, so I'd like to be
proven wrong here).
This section used to have a long explanation as to why these other platforms
were unsuitable --- essentially, they're generally missing out on either the
realtimeness to sample the data correctly (Raspberry Pi) or enough CPU to
stream the data over USB while also sampling it (Arduino).
The Raspberry Pi easily has enough processing power and memory, but it's also
got terrible GPIO pin read performance --- [about
1kHz](https://raspberrypi.stackexchange.com/questions/9646/how-fast-is-gpiodma-multi-i2s-input/10197#10197).
That's a long way from the 12MHz I need.
This is correct, but it turns out that the STM32 has some built-in features
which support the FluxEngine's use case almost exactly: you can configure the
DMA engine to sample the interval between pulses and write them directly into
memory, and you can configure the PWM engine the read samples from memory and
use them to time pulses to the output. There's a bit less functionality, so you
can't do things like measure the signal voltages, and they're less convenient
as you need an adapter cable or board, but this will allow you to replicate the
FluxEngine hardware on a $2 Blue Pill.
The PSoC5LP part I'm using has enough CPU to handle the USB side of things,
and it _also_ has a whole set of FPGA-like soft programmable features,
including 24 mini-ALU systems that are ideally suited to exactly this kind of
sampling. I can read the disk and generate the byte stream describing the
flux pattern entirely in 'hardware', without involving the main CPU at all.
This is then DMAed directly into a set of ring buffers read for the USB
system to pick up and relay back to the PC. It's incredibly simple and works
well. (The same applies to writing flux back onto the disk.)
I am _not_ planning on replacing the PSoC5 with a Blue Pill, because someone
already has: [the GreaseWeazle](https://github.com/keirf/Greaseweazle/wiki) is
a completely open source firmware package which will read and write Supercard
Pro files via a standard Blue Pill. The GreaseWeazle's USB protocol is
different from the FluxEngine's so they're not directly interchangeable. You
can, however, read a Supercard Pro file with a GreaseWeazle and then use the
FluxEngine client to decode it. It should work the other way around, too, but
FluxEngine's SCP export [is curently
broken](https://github.com/davidgiven/fluxengine/issues/134).
The development board I'm using, the
[CY8CKIT-059](https://www.cypress.com/documentation/development-kitsboards/cy8ckit-059-psoc-5lp-prototyping-kit-onboard-programmer-and),
also has another big advantage: it's the right shape. It's got 17 holes in a
row connected to GPIO pins, and it's a native 5V part, which means I can just
connect a floppy drive connector directly to the board without needing to
build any hardware. No adapter board, no level shifting, no special cable,
nothing. This makes the FluxEngine hardware incredibly easy to assemble,
which therefore means cheap.
I _am_ considering adding direct support for the GreaseWeazle to the FluxEngine
client, which will let you just plug one in and make it go as a direct
replacement to the FluxEngine hardware.
Speaking of which, the CY8CKIT-059 is $10. (Before shipping, which is
admittedly expensive.)
### Some useful links
@@ -123,8 +112,12 @@ admittedly expensive.)
sheet](http://www.bitsavers.org/pdf/mitsubishi/floppy/M4851/TJ2-G30211A_M4851_DSHH_48TPI_OEM_Manual_Nov83.pdf):
the equivalent data sheet for a representative 5.25" drive.
- [The DRG Business Machines YD-174 manual](https://electrickery.hosting.philpem.me.uk/comp/divcomp/doc/YE_Data_YD-174_8inchFloppyDriveTechnicalManual.pdf):
the equivalent manual (data sheets hadn't been invented then) for a
representative 8" drive.
- [KryoFlux stream file
documentation](https://www.kryoflux.com/download/kryoflux_stream_protocol_rev1.1.pdf):
the format of KryoFlux stream files (partially supported by FluxEngine)

100
doc/using.md
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@@ -51,7 +51,7 @@ In order to do anything useful, you have to plug it in to a floppy disk drive (o
rpm for a 3.5" disk, or 360 rpm for a 5.25" disk. If it doesn't, please
[get in touch](https://github.com/davidgiven/fluxengine/issues/new).
7. Do `fluxengine testbulktransport` from the shell. It'll measure your USB
7. Do `fluxengine test bandwidth` from the shell. It'll measure your USB
bandwidth. Ideally you should be getting above 900kB/s. FluxEngine needs
about 850kB/s, so if you're getting less than this, try a different USB
port.
@@ -64,6 +64,16 @@ In order to do anything useful, you have to plug it in to a floppy disk drive (o
9. Profit!
## Bonus hardware features
For advanced users, the board has a few extra signals which are useful for special purposes.
- Pin 3[0] produces short pulses every 200ms. This is useful for spoofing
index signals to 300 RPM drives; for example, to read flippy disks.
- Pin 3[1] is the same, but produces the pulses every 166ms; this works with
360 RPM drives.
## The programs
I'm sorry to say that the client program is very badly documented --- it's
@@ -148,6 +158,15 @@ based on the extension:
it doesn't store a lot of the more esoteric LDBS features like format
types, timings, and data rates.
- `.d64`: the venerable Commodore 64 disk image format as used by the 1540,
1541, etc. This is a special-purpose format due to the weird layout of
1540 disks and while you can use this for non-Commodore disks the result
will be gibberish. Use this to image Commodore 64 disks and load the
result into an emulator.
FluxEngine's D64 support is currently limited to write only. It will work
with up to 40 logical tracks.
### High density disks
High density disks use a different magnetic medium to low and double density
@@ -167,6 +186,23 @@ case, and reading the disk label is much more reliable.
[Lots more information on high density vs double density disks can be found
here.](http://www.retrotechnology.com/herbs_stuff/guzis.html)
### Other important flags
These flags apply to many operations and are useful for modifying the overall
behaviour.
- `--revolutions=X`: when reading, spin the disk X times. Many formats
require `--revolutions=2` (which should happen automatically); or you can
increase the number to sample more data.
- `--index-source=X`, `--write-index-source=X`: set the source of index
pulses when reading or writing respectively. This is for use with drives
which don't produce index pulse data. Use 0 to get index pulses from the
drive, 1 to fake 300RPM pulses, or 2 to fake 360RPM pulses. Note this has
no effect on the _drive_, so it doesn't help with flippy disks, but is
useful for using very old drives with FluxEngine itself. If you use this
option, then any index marks in the sampled flux are, of course, garbage.
### The commands
The FluxEngine client software is a largely undocumented set of small tools.
@@ -180,12 +216,13 @@ directory.
- `fluxengine inspect`: dumps the raw pulsetrain / bitstream to stdout.
Mainly useful for debugging.
- `fluxengine read*`: reads various formats of disk. See the per-format
- `fluxengine read *`: reads various formats of disk. See the per-format
documentation linked from the table above. These all take an optional
`--write-flux` option which will cause the raw flux to be written to the
specified file.
specified file. There are various `--dump` options for showing raw data
during the decode process.
- `fluxengine write*`: writes various formats of disk. Again, see the
- `fluxengine write *`: writes various formats of disk. Again, see the
per-format documentation above.
- `fluxengine writeflux`: writes raw flux files. This is much less useful
@@ -204,18 +241,50 @@ directory.
- `fluxengine seek`: moves the head. Mainly useful for finding out whether
your drive can seek to track 82. (Mine can't.)
- `fluxengine testbulktransport`: measures your USB throughput. You need
about 600kB/s for FluxEngine to work. You don't need a disk in the drive
for this one.
- `fluxengine test bandwidth`: measures your USB throughput. You need about
600kB/s for FluxEngine to work for DD disks, and 900 to 950kB/s for HD
disks. You don't need a disk in the drive for this one.
- `fluxengine test voltages`: measures your FDD bus signal voltages, which
is useful for testing for termination issues.
- `fluxengine upgradefluxfile`: occasionally I need to upgrade the flux
file format in a non-backwards-compatible way; this tool will upgrade flux
files to the new format.
- `fluxengine convert`: converts flux files from various formats to various
other formats. You can use this to convert Catweasel flux files to
FluxEngine's native format, FluxEngine flux files to various other formats
useful for debugging (including VCD which can be loaded into
[sigrok](http://sigrok.org)), and bidirectional conversion to and from
Supercard Pro `.scp` format.
**Important SCP note:** import (`fluxengine convert scptoflux`) should be
fairly robust, but export (`fluxengine convert fluxtoscp`) should only be
done with great caution as FluxEngine files contain features which can't be
represented very well in `.scp` format and they're probably pretty dubious.
As ever, please [get in
touch](https://github.com/davidgiven/fluxengine/issues/new) with any reports.
Commands which normally take `--source` or `--dest` get a sensible default if
left unspecified. `fluxengine read ibm` on its own will read drive 0 and
write an `ibm.img` file.
## Visualisation
When doing a read (either from a real disk or from a flux file) you can use
`--write-svg=output.svg` to write out a graphical visualisation of where the
sectors are on the disk. Here's a IBM PC 1232kB disk:
![A disk visualisation](./visualiser.svg)
Blue represents data, light blue a header, and red is a bad sector. Side zero
is on the left and side one is on the right.
The visualiser is extremely primitive and you have to explicitly tell it how
big your disk is, in milliseconds. The default is 200ms (for a normal 3.5"
disk). For a 5.25" disk, use `--visualiser-period=166`.
## Extra programs
Supplied with FluxEngine, but not part of FluxEngine, are some little tools I
@@ -223,25 +292,24 @@ wrote to do useful things. These are built alongside FluxEngine.
- `brother120tool`: extracts files from a 120kB Brother filesystem image.
- `cwftoflux`: converts (one flavour of) CatWeasel flux file into a
FluxEngine flux file.
## The recommended workflow
So you've just received, say, a huge pile of old Brother word processor disks containing valuable historical data, and you want to read them.
So you've just received, say, a huge pile of old Brother word processor disks
containing valuable historical data, and you want to read them.
Typically I do this:
```
$ fluxengine read brother -s :d=0 -o brother.img --write-flux=brother.flux
$ fluxengine read brother -s :d=0 -o brother.img --write-flux=brother.flux --overwrite --write-svg=brother.svg
```
This will read the disk in drive 0 and write out a filesystem image. It'll
also copy the flux to brother.flux. If I then need to tweak the settings, I
can rerun the decode without having to physically touch the disk like this:
This will read the disk in drive 0 and write out a filesystem image. It'll also
copy the flux to `brother.flux` (replacing any old one) and write out an SVG
visualisation. If I then need to tweak the settings, I can rerun the decode
without having to physically touch the disk like this:
```
$ fluxengine read brother -s brother.flux -o brother.img
$ fluxengine read brother -s brother.flux -o brother.img --write-svg=brother.svg
```
Apart from being drastically faster, this avoids touching the (potentially

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22
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@@ -147,6 +147,28 @@ Bytes Bytes::slice(unsigned start, unsigned len) const
}
}
Bytes Bytes::slice(unsigned start) const
{
int len = 0;
if (start < size())
len = size() - start;
return slice(start, len);
}
std::vector<bool> Bytes::toBits() const
{
std::vector<bool> bits;
for (uint8_t byte : *this)
{
for (int i=0; i<8; i++)
{
bits.push_back(byte & 0x80);
byte <<= 1;
}
}
return bits;
}
uint8_t toByte(
std::vector<bool>::const_iterator start,
std::vector<bool>::const_iterator end)

2
lib/bytes.h
View File

@@ -47,11 +47,13 @@ public:
{ resize(0); return *this; }
Bytes slice(unsigned start, unsigned len) const;
Bytes slice(unsigned start) const;
Bytes swab() const;
Bytes compress() const;
Bytes decompress() const;
Bytes crunch() const;
Bytes uncrunch() const;
std::vector<bool> toBits() const;
ByteReader reader() const;
ByteWriter writer();

61
lib/common/crunch.c
View File

@@ -9,14 +9,37 @@ void crunch(crunch_state_t* state)
uint8_t data = *state->inputptr++;
state->inputlen--;
if (data & 0x80)
if (data == 0x80)
{
/* Multiple 0x80s in a row get swallowed as they're
* meaningless. */
state->haspending = true;
}
else if (data & 0x80)
{
state->fifo = (state->fifo << 2) | 2 | (data & 1);
state->fifolen += 2;
if (state->haspending)
{
state->fifo = (state->fifo << 3) | 4;
state->fifolen += 3;
state->haspending = false;
}
state->fifo = (state->fifo << 3) | 4 | (data & 1);
state->fifolen += 3;
}
else
{
state->fifo = (state->fifo << 8) | data;
if (state->haspending && (data >= 0x40))
{
state->fifo = (state->fifo << 3) | 4;
state->fifolen += 3;
state->haspending = false;
}
state->fifo = (state->fifo << 8) | data;
if (state->haspending)
state->fifo |= 0xc0;
state->haspending = false;
state->fifolen += 8;
}
@@ -45,6 +68,14 @@ void uncrunch(crunch_state_t* state)
{
while (state->inputlen && state->outputlen)
{
if (state->haspending)
{
*state->outputptr++ = state->pendingbyte;
state->outputlen--;
state->haspending = false;
continue;
}
if (state->fifolen < 8)
{
if (state->inputlen)
@@ -58,13 +89,21 @@ void uncrunch(crunch_state_t* state)
}
uint8_t data = state->fifo >> (state->fifolen - 8);
if (data & 0x80)
{
data = ((data >> 6) & 0x01) | 0x80;
state->fifolen -= 2;
}
else
state->fifolen -= 8;
switch (data & 0xc0)
{
case 0x80:
data = ((data >> 5) & 0x01) | 0x80;
state->fifolen -= 3;
break;
case 0xc0:
state->haspending = true;
state->pendingbyte = data & 0x3f;
data = 0x80;
/* fall through */
default:
state->fifolen -= 8;
}
if (data)
{

7
lib/common/crunch.h
View File

@@ -11,7 +11,8 @@ extern "C" {
* sending it over USB. The encoding used is:
*
* 0nnn.nnnn: value 0x00..0x7f
* 1n : value 0x80|n
* 11nn.nnnn: value 0x80 then 0x00..0x3f
* 10n : value 0x80|n
*
* The end of the buffer is terminated with zeroes, which are ignored
* (not written to the output).
@@ -25,8 +26,10 @@ typedef struct crunch_state_t
uint32_t inputlen;
uint8_t* outputptr;
uint32_t outputlen;
uint16_t fifo;
uint32_t fifo;
uint8_t fifolen;
bool haspending;
uint8_t pendingbyte;
}
crunch_state_t;

3
lib/dataspec.cc
View File

@@ -112,7 +112,6 @@ FluxSpec::FluxSpec(const DataSpec& spec)
locations.clear();
quickdisk = spec.has("qd") && spec.at("qd").only();
const auto& drives = spec.at("d").data;
if (drives.size() != 1)
Error() << "you must specify exactly one drive";
@@ -129,7 +128,7 @@ FluxSpec::FluxSpec(const DataSpec& spec)
for (const auto& e : spec.modifiers)
{
const auto name = e.second.name;
if ((name != "t") && (name != "s") && (name != "d") && (name != "qd"))
if ((name != "t") && (name != "s") && (name != "d"))
Error() << fmt::format("unknown fluxspec modifier '{}'", name);
}
}

1
lib/dataspec.h
View File

@@ -73,7 +73,6 @@ public:
std::string filename;
std::vector<Location> locations;
unsigned drive;
bool quickdisk : 1;
};
class ImageSpec

27
lib/decoders/decoders.cc
View File

@@ -25,7 +25,7 @@ void AbstractDecoder::decodeToSectors(Track& track)
beginTrack();
for (;;)
{
Fluxmap::Position recordStart = sector.position = fmr.tell();
Fluxmap::Position recordStart = fmr.tell();
sector.clock = 0;
sector.status = Sector::MISSING;
sector.data.clear();
@@ -41,21 +41,32 @@ void AbstractDecoder::decodeToSectors(Track& track)
/* Read the sector record. */
recordStart = fmr.tell();
sector.position = recordStart = fmr.tell();
decodeSectorRecord();
pushRecord(recordStart, fmr.tell());
Fluxmap::Position recordEnd = fmr.tell();
pushRecord(recordStart, recordEnd);
if (sector.status == Sector::DATA_MISSING)
{
/* The data is in a separate record. */
r = advanceToNextRecord();
sector.headerStartTime = recordStart.ns();
sector.headerEndTime = recordEnd.ns();
for (;;)
{
r = advanceToNextRecord();
if (r != UNKNOWN_RECORD)
break;
if (fmr.readNextMatchingOpcode(F_OP_PULSE) == 0)
break;
}
recordStart = fmr.tell();
if (r == DATA_RECORD)
{
recordStart = fmr.tell();
decodeDataRecord();
pushRecord(recordStart, fmr.tell());
}
recordEnd = fmr.tell();
pushRecord(recordStart, recordEnd);
}
sector.dataStartTime = recordStart.ns();
sector.dataEndTime = recordEnd.ns();
if (sector.status != Sector::MISSING)
track.sectors.push_back(sector);

2
lib/decoders/decoders.h
View File

@@ -20,6 +20,8 @@ extern void setDecoderManualClockRate(double clockrate_us);
extern Bytes decodeFmMfm(std::vector<bool>::const_iterator start,
std::vector<bool>::const_iterator end);
extern void encodeMfm(std::vector<bool>& bits, unsigned& cursor, const Bytes& input, bool& lastBit);
extern void encodeFm(std::vector<bool>& bits, unsigned& cursor, const Bytes& input);
static inline Bytes decodeFmMfm(const std::vector<bool> bits)
{ return decodeFmMfm(bits.begin(), bits.end()); }

11
lib/decoders/fluxmapreader.cc
View File

@@ -18,13 +18,18 @@ DoubleFlag pulseDebounceThreshold(
static DoubleFlag clockDecodeThreshold(
{ "--bit-error-threshold" },
"Amount of error to tolerate in pulse timing, in fractions of a clock.",
0.20);
0.40);
static DoubleFlag clockIntervalBias(
{ "--clock-interval-bias" },
"Adjust intervals between pulses by this many clocks before decoding.",
-0.02);
static DoubleFlag minimumClockUs(
{ "--minimum-clock-us" },
"Refuse to detect clocks shorter than this, to avoid false positives.",
0.75);
int FluxmapReader::readOpcode(unsigned& ticks)
{
ticks = 0;
@@ -222,7 +227,9 @@ nanoseconds_t FluxmapReader::seekToPattern(const FluxMatcher& pattern, const Flu
seek(positions[intervalCount-match.intervals]);
_pos.zeroes = match.zeroes;
matching = match.matcher;
return match.clock * NS_PER_TICK;
nanoseconds_t detectedClock = match.clock * NS_PER_TICK;
if (detectedClock > (minimumClockUs*1000))
return match.clock * NS_PER_TICK;
}
for (unsigned i=0; i<intervalCount; i++)

45
lib/decoders/fmmfm.cc
View File

@@ -51,3 +51,48 @@ Bytes decodeFmMfm(
return bytes;
}
void encodeFm(std::vector<bool>& bits, unsigned& cursor, const Bytes& input)
{
if (bits.size() == 0)
return;
unsigned len = bits.size()-1;
for (uint8_t b : input)
{
for (int i=0; i<8; i++)
{
bool bit = b & 0x80;
b <<= 1;
if (cursor >= len)
return;
bits[cursor++] = true;
bits[cursor++] = bit;
}
}
}
void encodeMfm(std::vector<bool>& bits, unsigned& cursor, const Bytes& input, bool& lastBit)
{
if (bits.size() == 0)
return;
unsigned len = bits.size()-1;
for (uint8_t b : input)
{
for (int i=0; i<8; i++)
{
bool bit = b & 0x80;
b <<= 1;
if (cursor >= len)
return;
bits[cursor++] = !lastBit && !bit;
bits[cursor++] = bit;
lastBit = bit;
}
}
}

96
lib/flags.cc
View File

@@ -1,5 +1,6 @@
#include "globals.h"
#include "flags.h"
#include "fmt/format.h"
static FlagGroup* currentFlagGroup;
static std::vector<Flag*> all_flags;
@@ -29,7 +30,7 @@ void FlagGroup::addFlag(Flag* flag)
_flags.push_back(flag);
}
void FlagGroup::parseFlags(int argc, const char* argv[])
std::vector<std::string> FlagGroup::parseFlagsWithFilenames(int argc, const char* argv[])
{
if (_initialised)
throw std::runtime_error("called parseFlags() twice");
@@ -66,6 +67,7 @@ void FlagGroup::parseFlags(int argc, const char* argv[])
/* Now actually parse them. */
std::vector<std::string> filenames;
int index = 1;
while (index < argc)
{
@@ -76,52 +78,73 @@ void FlagGroup::parseFlags(int argc, const char* argv[])
std::string value;
bool usesthat = false;
if ((thisarg.size() == 0) || (thisarg[0] != '-'))
Error() << "non-option parameter " << thisarg << " seen (try --help)";
if ((thisarg.size() > 1) && (thisarg[1] == '-'))
if (thisarg.size() == 0)
{
/* Long option. */
auto equals = thisarg.rfind('=');
if (equals != std::string::npos)
{
key = thisarg.substr(0, equals);
value = thisarg.substr(equals+1);
}
else
{
key = thisarg;
value = thatarg;
usesthat = true;
}
/* Ignore this argument. */
}
else if (thisarg[0] != '-')
{
/* This is a filename. */
filenames.push_back(thisarg);
}
else
{
/* Short option. */
/* This is a flag. */
if (thisarg.size() > 2)
if ((thisarg.size() > 1) && (thisarg[1] == '-'))
{
key = thisarg.substr(0, 2);
value = thisarg.substr(2);
/* Long option. */
auto equals = thisarg.rfind('=');
if (equals != std::string::npos)
{
key = thisarg.substr(0, equals);
value = thisarg.substr(equals+1);
}
else
{
key = thisarg;
value = thatarg;
usesthat = true;
}
}
else
{
key = thisarg;
value = thatarg;
usesthat = true;
/* Short option. */
if (thisarg.size() > 2)
{
key = thisarg.substr(0, 2);
value = thisarg.substr(2);
}
else
{
key = thisarg;
value = thatarg;
usesthat = true;
}
}
auto flag = flags_by_name.find(key);
if (flag == flags_by_name.end())
Error() << "unknown flag '" << key << "'; try --help";
flag->second->set(value);
if (usesthat && flag->second->hasArgument())
index++;
}
auto flag = flags_by_name.find(key);
if (flag == flags_by_name.end())
Error() << "unknown flag '" << key << "'; try --help";
flag->second->set(value);
index++;
if (usesthat && flag->second->hasArgument())
index++;
}
return filenames;
}
void FlagGroup::parseFlags(int argc, const char* argv[])
{
auto filenames = parseFlagsWithFilenames(argc, argv);
if (!filenames.empty())
Error() << "non-option parameter " << *filenames.begin() << " seen (try --help)";
}
void FlagGroup::checkInitialised() const
@@ -135,6 +158,8 @@ Flag::Flag(const std::vector<std::string>& names, const std::string helptext):
_names(names),
_helptext(helptext)
{
if (!currentFlagGroup)
Error() << "no flag group defined for " << *names.begin();
_group.addFlag(this);
}
@@ -148,6 +173,11 @@ void BoolFlag::set(const std::string& value)
Error() << "can't parse '" << value << "'; try 'true' or 'false'";
}
const std::string HexIntFlag::defaultValueAsString() const
{
return fmt::format("0x{:x}", _defaultValue);
}
static void doHelp()
{
std::cout << "FluxEngine options:" << std::endl;

14
lib/flags.h
View File

@@ -14,6 +14,7 @@ public:
public:
void parseFlags(int argc, const char* argv[]);
std::vector<std::string> parseFlagsWithFilenames(int argc, const char* argv[]);
void addFlag(Flag* flag);
void checkInitialised() const;
@@ -134,6 +135,17 @@ public:
void set(const std::string& value) { _value = std::stoi(value); }
};
class HexIntFlag : public IntFlag
{
public:
HexIntFlag(const std::vector<std::string>& names, const std::string helptext,
int defaultValue = 0):
IntFlag(names, helptext, defaultValue)
{}
const std::string defaultValueAsString() const;
};
class DoubleFlag : public ValueFlag<double>
{
public:
@@ -146,7 +158,7 @@ public:
void set(const std::string& value) { _value = std::stod(value); }
};
class BoolFlag : public ValueFlag<double>
class BoolFlag : public ValueFlag<bool>
{
public:
BoolFlag(const std::vector<std::string>& names, const std::string helptext,

7
lib/fluxsink/fluxsink.h
View File

@@ -1,6 +1,11 @@
#ifndef FLUXSINK_H
#define FLUXSINK_H
#include "flags.h"
extern FlagGroup hardwareFluxSinkFlags;
extern FlagGroup sqliteFluxSinkFlags;
class Fluxmap;
class FluxSpec;
@@ -9,11 +14,9 @@ class FluxSink
public:
virtual ~FluxSink() {}
private:
static std::unique_ptr<FluxSink> createSqliteFluxSink(const std::string& filename);
static std::unique_ptr<FluxSink> createHardwareFluxSink(unsigned drive);
public:
static std::unique_ptr<FluxSink> create(const FluxSpec& spec);
public:

9
lib/fluxsink/hardwarefluxsink.cc
View File

@@ -4,8 +4,15 @@
#include "usb.h"
#include "fluxsink/fluxsink.h"
FlagGroup hardwareFluxSinkFlags;
static bool high_density = false;
static IntFlag indexMode(
{ "--write-index-mode" },
"index pulse source (0=drive, 1=300 RPM fake source, 2=360 RPM fake source",
0);
void setHardwareFluxSinkDensity(bool high_density)
{
::high_density = high_density;
@@ -26,7 +33,7 @@ public:
public:
void writeFlux(int track, int side, Fluxmap& fluxmap)
{
usbSetDrive(_drive, high_density);
usbSetDrive(_drive, high_density, indexMode);
usbSeek(track);
Bytes crunched = fluxmap.rawBytes().crunch();

23
lib/fluxsink/sqlitefluxsink.cc
View File

@@ -2,14 +2,37 @@
#include "fluxmap.h"
#include "sql.h"
#include "fluxsink/fluxsink.h"
#include "flags.h"
#include "fmt/format.h"
#include <unistd.h>
FlagGroup sqliteFluxSinkFlags;
static SettableFlag mergeFlag(
{ "--merge" },
"merge new data into existing flux file");
static SettableFlag overwriteFlag(
{ "--overwrite" },
"overwrite existing flux file");
class SqliteFluxSink : public FluxSink
{
public:
SqliteFluxSink(const std::string& filename)
{
if (mergeFlag && overwriteFlag)
Error() << "you can't specify --merge and --overwrite";
if (!mergeFlag)
{
if (!overwriteFlag && (access(filename.c_str(), F_OK) == 0))
Error() << "cowardly refusing to overwrite flux file without --merge or --overwrite specified";
if ((access(filename.c_str(), F_OK) == 0) && (remove(filename.c_str()) != 0))
Error() << fmt::format("failed to overwrite flux file");
}
_outdb = sqlOpen(filename, SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE);
int oldVersion = sqlReadIntProperty(_outdb, "version");
if ((oldVersion != 0) && (oldVersion != FLUX_VERSION_CURRENT))
Error() << fmt::format("that flux file is version {}, but this client is for version {}",

7
lib/fluxsource/fluxsource.cc
View File

@@ -15,12 +15,7 @@ std::unique_ptr<FluxSource> FluxSource::create(const FluxSpec& spec)
const auto& filename = spec.filename;
if (filename.empty())
{
if (spec.quickdisk)
return createQuickdiskFluxSource(spec.drive);
else
return createHardwareFluxSource(spec.drive);
}
return createHardwareFluxSource(spec.drive);
else if (ends_with(filename, ".flux"))
return createSqliteFluxSource(filename);
else if (ends_with(filename, "/"))

5
lib/fluxsource/fluxsource.h
View File

@@ -4,7 +4,6 @@
#include "flags.h"
extern FlagGroup hardwareFluxSourceFlags;
extern FlagGroup quickdiskFluxSourceFlags;
class Fluxmap;
class FluxSpec;
@@ -17,7 +16,6 @@ public:
private:
static std::unique_ptr<FluxSource> createSqliteFluxSource(const std::string& filename);
static std::unique_ptr<FluxSource> createHardwareFluxSource(unsigned drive);
static std::unique_ptr<FluxSource> createQuickdiskFluxSource(unsigned drive);
static std::unique_ptr<FluxSource> createStreamFluxSource(const std::string& path);
public:
@@ -29,8 +27,9 @@ public:
virtual bool retryable() { return false; }
};
extern void setHardwareFluxSourceRevolutions(int revolutions);
extern void setHardwareFluxSourceRevolutions(double revolutions);
extern void setHardwareFluxSourceDensity(bool high_density);
extern void setHardwareFluxSourceSynced(bool synced);
#endif

31
lib/fluxsource/hardwarefluxsource.cc
View File

@@ -3,13 +3,24 @@
#include "fluxmap.h"
#include "usb.h"
#include "fluxsource/fluxsource.h"
#include "fmt/format.h"
FlagGroup hardwareFluxSourceFlags;
static IntFlag revolutions(
static DoubleFlag revolutions(
{ "--revolutions" },
"read this many revolutions of the disk",
1);
1.25);
static BoolFlag synced(
{ "--sync-with-index" },
"whether to wait for an index pulse before started to read",
false);
static IntFlag indexMode(
{ "--index-mode" },
"index pulse source (0=drive, 1=300 RPM fake source, 2=360 RPM fake source",
0);
static bool high_density = false;
@@ -24,6 +35,10 @@ public:
HardwareFluxSource(unsigned drive):
_drive(drive)
{
usbSetDrive(_drive, high_density, indexMode);
std::cerr << "Measuring rotational speed... " << std::flush;
_oneRevolution = usbGetRotationalPeriod();
std::cerr << fmt::format("{}ms\n", _oneRevolution / 1e6);
}
~HardwareFluxSource()
@@ -33,9 +48,9 @@ public:
public:
std::unique_ptr<Fluxmap> readFlux(int track, int side)
{
usbSetDrive(_drive, high_density);
usbSetDrive(_drive, high_density, indexMode);
usbSeek(track);
Bytes crunched = usbRead(side, revolutions);
Bytes crunched = usbRead(side, synced, revolutions * _oneRevolution);
auto fluxmap = std::make_unique<Fluxmap>();
fluxmap->appendBytes(crunched.uncrunch());
return fluxmap;
@@ -54,13 +69,19 @@ public:
private:
unsigned _drive;
unsigned _revolutions;
nanoseconds_t _oneRevolution;
};
void setHardwareFluxSourceRevolutions(int revolutions)
void setHardwareFluxSourceRevolutions(double revolutions)
{
::revolutions.setDefaultValue(revolutions);
}
void setHardwareFluxSourceSynced(bool synced)
{
::synced.setDefaultValue(synced);
}
std::unique_ptr<FluxSource> FluxSource::createHardwareFluxSource(unsigned drive)
{
return std::unique_ptr<FluxSource>(new HardwareFluxSource(drive));

50
lib/fluxsource/quickdiskfluxsource.cc
View File

@@ -1,50 +0,0 @@
#include "globals.h"
#include "flags.h"
#include "fluxmap.h"
#include "usb.h"
#include "fluxsource/fluxsource.h"
FlagGroup quickdiskFluxSourceFlags;
class QuickdiskFluxSource : public FluxSource
{
public:
QuickdiskFluxSource(unsigned drive):
_drive(drive)
{
}
~QuickdiskFluxSource()
{
}
public:
std::unique_ptr<Fluxmap> readFlux(int track, int side)
{
usbSetDrive(_drive, false);
Bytes crunched = usbReadQD(side);
auto fluxmap = std::make_unique<Fluxmap>();
fluxmap->appendBytes(crunched.uncrunch());
return fluxmap;
}
void recalibrate()
{
}
bool retryable()
{
return true;
}
private:
unsigned _drive;
};
std::unique_ptr<FluxSource> FluxSource::createQuickdiskFluxSource(unsigned drive)
{
return std::unique_ptr<FluxSource>(new QuickdiskFluxSource(drive));
}

2
lib/fluxsource/streamfluxsource.cc
View File

@@ -24,7 +24,7 @@ public:
void recalibrate() {}
private:
const std::string& _path;
const std::string _path;
};
std::unique_ptr<FluxSource> FluxSource::createStreamFluxSource(const std::string& path)

2
lib/globals.h
View File

@@ -22,7 +22,7 @@ extern void hexdumpForSrp16(std::ostream& stream, const Bytes& bytes);
class Error
{
public:
~Error()
[[ noreturn ]] ~Error()
{
std::cerr << "Error: " << _stream.str() << std::endl;
exit(1);

31
lib/imagereader/imagereader.cc
View File

@@ -7,6 +7,13 @@
#include "imagereader/imagereader.h"
#include "fmt/format.h"
std::map<std::string, ImageReader::Constructor> ImageReader::formats =
{
{".adf", ImageReader::createImgImageReader},
{".d81", ImageReader::createImgImageReader},
{".img", ImageReader::createImgImageReader},
};
static bool ends_with(const std::string& value, const std::string& ending)
{
if (ending.size() > value.size())
@@ -14,15 +21,29 @@ static bool ends_with(const std::string& value, const std::string& ending)
return std::equal(ending.rbegin(), ending.rend(), value.rbegin());
}
std::unique_ptr<ImageReader> ImageReader::create(const ImageSpec& spec)
ImageReader::Constructor ImageReader::findConstructor(const ImageSpec& spec)
{
const auto& filename = spec.filename;
if (ends_with(filename, ".img") || ends_with(filename, ".adf"))
return createImgImageReader(spec);
for (const auto& e : formats)
{
if (ends_with(filename, e.first))
return e.second;
}
Error() << "unrecognised image filename extension";
return std::unique_ptr<ImageReader>();
return NULL;
}
std::unique_ptr<ImageReader> ImageReader::create(const ImageSpec& spec)
{
verifyImageSpec(spec);
return findConstructor(spec)(spec);
}
void ImageReader::verifyImageSpec(const ImageSpec& spec)
{
if (!findConstructor(spec))
Error() << "unrecognised image filename extension";
}
ImageReader::ImageReader(const ImageSpec& spec):

11
lib/imagereader/imagereader.h
View File

@@ -12,10 +12,21 @@ public:
public:
static std::unique_ptr<ImageReader> create(const ImageSpec& spec);
static void verifyImageSpec(const ImageSpec& spec);
private:
typedef
std::function<
std::unique_ptr<ImageReader>(const ImageSpec& spec)
>
Constructor;
static std::map<std::string, Constructor> formats;
static std::unique_ptr<ImageReader> createImgImageReader(const ImageSpec& spec);
static Constructor findConstructor(const ImageSpec& spec);
public:
virtual SectorSet readImage() = 0;

64
lib/imagewriter/d64imagewriter.cc Normal file
View File

@@ -0,0 +1,64 @@
#include "globals.h"
#include "image.h"
#include "flags.h"
#include "dataspec.h"
#include "sector.h"
#include "sectorset.h"
#include "imagewriter/imagewriter.h"
#include "fmt/format.h"
#include "ldbs.h"
#include <algorithm>
#include <iostream>
#include <fstream>
static int sectors_per_track(int track)
{
if (track < 17)
return 21;
if (track < 24)
return 19;
if (track < 30)
return 18;
return 17;
}
class D64ImageWriter : public ImageWriter
{
public:
D64ImageWriter(const SectorSet& sectors, const ImageSpec& spec):
ImageWriter(sectors, spec)
{}
void writeImage()
{
std::cout << "writing D64 triangular image\n";
std::ofstream outputFile(spec.filename, std::ios::out | std::ios::binary);
if (!outputFile.is_open())
Error() << "cannot open output file";
uint32_t offset = 0;
for (int track = 0; track < 40; track++)
{
int sectorCount = sectors_per_track(track);
for (int sectorId = 0; sectorId < sectorCount; sectorId++)
{
const auto& sector = sectors.get(track, 0, sectorId);
if (sector)
{
outputFile.seekp(offset);
outputFile.write((const char*) sector->data.cbegin(), 256);
}
offset += 256;
}
}
}
};
std::unique_ptr<ImageWriter> ImageWriter::createD64ImageWriter(
const SectorSet& sectors, const ImageSpec& spec)
{
return std::unique_ptr<ImageWriter>(new D64ImageWriter(sectors, spec));
}

35
lib/imagewriter/imagewriter.cc
View File

@@ -7,6 +7,15 @@
#include "imagewriter/imagewriter.h"
#include "fmt/format.h"
std::map<std::string, ImageWriter::Constructor> ImageWriter::formats =
{
{".adf", ImageWriter::createImgImageWriter},
{".d64", ImageWriter::createD64ImageWriter},
{".d81", ImageWriter::createImgImageWriter},
{".img", ImageWriter::createImgImageWriter},
{".ldbs", ImageWriter::createLDBSImageWriter},
};
static bool ends_with(const std::string& value, const std::string& ending)
{
if (ending.size() > value.size())
@@ -14,17 +23,29 @@ static bool ends_with(const std::string& value, const std::string& ending)
return std::equal(ending.rbegin(), ending.rend(), value.rbegin());
}
std::unique_ptr<ImageWriter> ImageWriter::create(const SectorSet& sectors, const ImageSpec& spec)
ImageWriter::Constructor ImageWriter::findConstructor(const ImageSpec& spec)
{
const auto& filename = spec.filename;
if (ends_with(filename, ".img") || ends_with(filename, ".adf"))
return createImgImageWriter(sectors, spec);
else if (ends_with(filename, ".ldbs"))
return createLDBSImageWriter(sectors, spec);
for (const auto& e : formats)
{
if (ends_with(filename, e.first))
return e.second;
}
Error() << "unrecognised image filename extension";
return std::unique_ptr<ImageWriter>();
return NULL;
}
std::unique_ptr<ImageWriter> ImageWriter::create(const SectorSet& sectors, const ImageSpec& spec)
{
verifyImageSpec(spec);
return findConstructor(spec)(sectors, spec);
}
void ImageWriter::verifyImageSpec(const ImageSpec& spec)
{
if (!findConstructor(spec))
Error() << "unrecognised image filename extension";
}
ImageWriter::ImageWriter(const SectorSet& sectors, const ImageSpec& spec):

13
lib/imagewriter/imagewriter.h
View File

@@ -12,12 +12,25 @@ public:
public:
static std::unique_ptr<ImageWriter> create(const SectorSet& sectors, const ImageSpec& spec);
static void verifyImageSpec(const ImageSpec& filename);
private:
typedef
std::function<
std::unique_ptr<ImageWriter>(const SectorSet& sectors, const ImageSpec& spec)
>
Constructor;
static std::map<std::string, Constructor> formats;
static std::unique_ptr<ImageWriter> createImgImageWriter(
const SectorSet& sectors, const ImageSpec& spec);
static std::unique_ptr<ImageWriter> createLDBSImageWriter(
const SectorSet& sectors, const ImageSpec& spec);
static std::unique_ptr<ImageWriter> createD64ImageWriter(
const SectorSet& sectors, const ImageSpec& spec);
static Constructor findConstructor(const ImageSpec& spec);
public:
virtual void adjustGeometry();

79
lib/reader.cc
View File

@@ -2,6 +2,7 @@
#include "flags.h"
#include "usb.h"
#include "fluxsource/fluxsource.h"
#include "fluxsink/fluxsink.h"
#include "reader.h"
#include "fluxmap.h"
#include "sql.h"
@@ -9,14 +10,22 @@
#include "decoders/decoders.h"
#include "sector.h"
#include "sectorset.h"
#include "visualiser.h"
#include "record.h"
#include "image.h"
#include "bytes.h"
#include "decoders/rawbits.h"
#include "track.h"
#include "imagewriter/imagewriter.h"
#include "fmt/format.h"
FlagGroup readerFlags { &hardwareFluxSourceFlags, &quickdiskFluxSourceFlags, &fluxmapReaderFlags };
FlagGroup readerFlags
{
&hardwareFluxSourceFlags,
&sqliteFluxSinkFlags,
&fluxmapReaderFlags,
&visualiserFlags
};
static DataSpecFlag source(
{ "--source", "-s" },
@@ -33,13 +42,22 @@ static StringFlag destination(
"write the raw magnetic flux to this file",
"");
static StringFlag visualise(
{ "--write-svg" },
"write a visualisation of the disk to this file",
"");
static SettableFlag justRead(
{ "--just-read" },
"just read the disk and do no further processing");
static SettableFlag dumpRecords(
{ "--dump-records" },
"Dump the parsed records.");
"Dump the parsed but undecoded records.");
static SettableFlag dumpSectors(
{ "--dump-sectors" },
"Dump the decoded sectors.");
static IntFlag retries(
{ "--retries" },
@@ -50,7 +68,7 @@ static SettableFlag highDensityFlag(
{ "--high-density", "--hd" },
"set the drive to high density mode");
static sqlite3* outdb;
static std::unique_ptr<FluxSink> outputFluxSink;
void setReaderDefaultSource(const std::string& source)
{
@@ -75,8 +93,8 @@ void Track::readFluxmap()
"{0} ms in {1} bytes\n",
int(fluxmap->duration()/1e6),
fluxmap->bytes());
if (outdb)
sqlWriteFlux(outdb, physicalTrack, physicalSide, *fluxmap);
if (outputFluxSink)
outputFluxSink->writeFlux(physicalTrack, physicalSide, *fluxmap);
}
std::vector<std::unique_ptr<Track>> readTracks()
@@ -85,24 +103,16 @@ std::vector<std::unique_ptr<Track>> readTracks()
std::cout << "Reading from: " << source << std::endl;
if (!destination.get().empty())
{
outdb = sqlOpen(destination, SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE);
std::cout << "Writing a copy of the flux to " << destination.get() << std::endl;
sqlPrepareFlux(outdb);
sqlStmt(outdb, "BEGIN;");
sqlWriteIntProperty(outdb, "version", FLUX_VERSION_CURRENT);
atexit([]()
{
sqlStmt(outdb, "COMMIT;");
sqlClose(outdb);
}
);
}
setHardwareFluxSourceDensity(highDensityFlag);
if (!destination.get().empty())
{
std::cout << "Writing a copy of the flux to " << destination.get() << std::endl;
outputFluxSink = FluxSink::createSqliteFluxSink(destination.get());
}
std::shared_ptr<FluxSource> fluxSource = FluxSource::create(spec);
std::vector<std::unique_ptr<Track>> tracks;
for (const auto& location : spec.locations)
{
@@ -141,7 +151,7 @@ static void replace_sector(std::unique_ptr<Sector>& replacing, Sector& replaceme
return;
}
}
if (!replacing || (replacing->status != Sector::OK))
if (!replacing || ((replacing->status != Sector::OK) && (replacement.status == Sector::OK)))
{
if (!replacing)
replacing.reset(new Sector);
@@ -152,7 +162,8 @@ static void replace_sector(std::unique_ptr<Sector>& replacing, Sector& replaceme
void readDiskCommand(AbstractDecoder& decoder)
{
const ImageSpec outputSpec(output);
ImageWriter::verifyImageSpec(outputSpec);
bool failures = false;
SectorSet allSectors;
auto tracks = readTracks();
@@ -210,10 +221,7 @@ void readDiskCommand(AbstractDecoder& decoder)
std::cout << "giving up" << std::endl
<< " ";
else
{
std::cout << retry << " retries remaining" << std::endl;
track->fluxsource->recalibrate();
}
}
if (dumpRecords)
@@ -221,13 +229,27 @@ void readDiskCommand(AbstractDecoder& decoder)
std::cout << "\nRaw (undecoded) records follow:\n\n";
for (auto& record : track->rawrecords)
{
std::cout << fmt::format("I+{:.2f}us", record.position.ns() / 1000.0)
<< std::endl;
std::cout << fmt::format("I+{:.2f}us with {:.2f}us clock\n",
record.position.ns() / 1000.0, record.clock / 1000.0);
hexdump(std::cout, record.data);
std::cout << std::endl;
}
}
if (dumpSectors)
{
std::cout << "\nDecoded sectors follow:\n\n";
for (auto& i : readSectors)
{
auto& sector = i.second;
std::cout << fmt::format("{}.{:02}.{:02}: I+{:.2f}us with {:.2f}us clock\n",
sector->logicalTrack, sector->logicalSide, sector->logicalSector,
sector->position.ns() / 1000.0, sector->clock / 1000.0);
hexdump(std::cout, sector->data);
std::cout << std::endl;
}
}
int size = 0;
bool printedTrack = false;
for (auto& i : readSectors)
@@ -250,6 +272,9 @@ void readDiskCommand(AbstractDecoder& decoder)
std::cout << size << " bytes decoded." << std::endl;
}
if (!visualise.get().empty())
visualiseSectorsToFile(allSectors, visualise.get());
writeSectorsToFile(allSectors, outputSpec);
if (failures)
std::cerr << "Warning: some sectors could not be decoded." << std::endl;

4
lib/sector.h
View File

@@ -27,6 +27,10 @@ public:
Status status = Status::INTERNAL_ERROR;
Fluxmap::Position position;
nanoseconds_t clock = 0;
nanoseconds_t headerStartTime = 0;
nanoseconds_t headerEndTime = 0;
nanoseconds_t dataStartTime = 0;
nanoseconds_t dataEndTime = 0;
int physicalTrack = 0;
int physicalSide = 0;
int logicalTrack = 0;

3
lib/sectorset.h
View File

@@ -17,6 +17,9 @@ public:
std::unique_ptr<Sector>& get(int track, int head, int sector);
Sector* get(int track, int head, int sector) const;
const std::map<const key_t, std::unique_ptr<Sector>>& get() const
{ return _data; }
void calculateSize(
unsigned& numTracks, unsigned& numHeads, unsigned& numSectors,
unsigned& sectorSize) const;

117
lib/usb.cc
View File

@@ -76,7 +76,7 @@ static void bad_reply(void)
{
struct error_frame* f = (struct error_frame*) buffer;
if (f->f.type != F_FRAME_ERROR)
Error() << fmt::format("bad USB reply 0x{:02x}", f->f.type);
Error() << fmt::format("bad USB reply 0x{:2x}", f->f.type);
switch (f->error)
{
case F_ERROR_BAD_COMMAND:
@@ -149,7 +149,7 @@ nanoseconds_t usbGetRotationalPeriod(void)
usb_cmd_send(&f, f.f.size);
auto r = await_reply<struct speed_frame>(F_FRAME_MEASURE_SPEED_REPLY);
return r->period_ms * 1000;
return r->period_ms * 1000000;
}
static int large_bulk_transfer(int ep, Bytes& bytes)
@@ -161,11 +161,11 @@ static int large_bulk_transfer(int ep, Bytes& bytes)
return len;
}
void usbTestBulkTransport()
void usbTestBulkWrite()
{
usb_init();
struct any_frame f = { .f = {.type = F_FRAME_BULK_TEST_CMD, .size = sizeof(f)} };
struct any_frame f = { .f = {.type = F_FRAME_BULK_WRITE_TEST_CMD, .size = sizeof(f)} };
usb_cmd_send(&f, f.f.size);
/* These must match the device. */
@@ -180,9 +180,9 @@ void usbTestBulkTransport()
std::cout << "Transferred "
<< bulk_buffer.size()
<< " bytes in "
<< " bytes from FluxEngine -> PC in "
<< int(elapsed_time * 1000.0)
<< " ("
<< " ms ("
<< int((bulk_buffer.size() / 1024.0) / elapsed_time)
<< " kB/s)"
<< std::endl;
@@ -199,35 +199,56 @@ void usbTestBulkTransport()
<< x << '.' << y << '.' << z << '.';
}
await_reply<struct any_frame>(F_FRAME_BULK_TEST_REPLY);
await_reply<struct any_frame>(F_FRAME_BULK_WRITE_TEST_REPLY);
}
Bytes usbRead(int side, int revolutions)
void usbTestBulkRead()
{
usb_init();
struct any_frame f = { .f = {.type = F_FRAME_BULK_READ_TEST_CMD, .size = sizeof(f)} };
usb_cmd_send(&f, f.f.size);
/* These must match the device. */
const int XSIZE = 64;
const int YSIZE = 256;
const int ZSIZE = 64;
Bytes bulk_buffer(XSIZE*YSIZE*ZSIZE);
for (int x=0; x<XSIZE; x++)
for (int y=0; y<YSIZE; y++)
for (int z=0; z<ZSIZE; z++)
{
int offset = x*XSIZE*YSIZE + y*ZSIZE + z;
bulk_buffer[offset] = uint8_t(x+y+z);
}
double start_time = getCurrentTime();
large_bulk_transfer(FLUXENGINE_DATA_OUT_EP, bulk_buffer);
double elapsed_time = getCurrentTime() - start_time;
std::cout << "Transferred "
<< bulk_buffer.size()
<< " bytes from PC -> FluxEngine in "
<< int(elapsed_time * 1000.0)
<< " ms ("
<< int((bulk_buffer.size() / 1024.0) / elapsed_time)
<< " kB/s)"
<< std::endl;
await_reply<struct any_frame>(F_FRAME_BULK_READ_TEST_REPLY);
}
Bytes usbRead(int side, bool synced, nanoseconds_t readTime)
{
struct read_frame f = {
.f = { .type = F_FRAME_READ_CMD, .size = sizeof(f) },
.side = (uint8_t) side,
.revolutions = (uint8_t) revolutions
};
usb_cmd_send(&f, f.f.size);
auto fluxmap = std::unique_ptr<Fluxmap>(new Fluxmap);
Bytes buffer(1024*1024);
int len = large_bulk_transfer(FLUXENGINE_DATA_IN_EP, buffer);
buffer.resize(len);
await_reply<struct any_frame>(F_FRAME_READ_REPLY);
return buffer;
}
Bytes usbReadQD(int side)
{
struct read_frame f = {
.f = { .type = F_FRAME_READ_QD_CMD, .size = sizeof(f) },
.side = (uint8_t) side,
.revolutions = 1
.synced = (uint8_t) synced
};
uint16_t milliseconds = readTime / 1e6;
((uint8_t*)&f.milliseconds)[0] = milliseconds;
((uint8_t*)&f.milliseconds)[1] = milliseconds >> 8;
usb_cmd_send(&f, f.f.size);
auto fluxmap = std::unique_ptr<Fluxmap>(new Fluxmap);
@@ -272,15 +293,51 @@ void usbErase(int side)
await_reply<struct any_frame>(F_FRAME_ERASE_REPLY);
}
void usbSetDrive(int drive, bool high_density)
void usbSetDrive(int drive, bool high_density, int index_mode)
{
usb_init();
struct set_drive_frame f = {
{ .type = F_FRAME_SET_DRIVE_CMD, .size = sizeof(f) },
.drive_flags = (uint8_t)((drive ? DRIVE_1 : DRIVE_0) | (high_density ? DRIVE_HD : DRIVE_DD)),
.drive = (uint8_t) drive,
.high_density = high_density,
.index_mode = (uint8_t) index_mode
};
usb_cmd_send(&f, f.f.size);
await_reply<struct any_frame>(F_FRAME_SET_DRIVE_REPLY);
}
/* Hacky: the board always operates in little-endian mode. */
static uint16_t read_short_from_usb(uint16_t usb)
{
uint8_t* p = (uint8_t*)&usb;
return p[0] | (p[1] << 8);
}
static void convert_voltages_from_usb(const struct voltages& vin, struct voltages& vout)
{
vout.logic0_mv = read_short_from_usb(vin.logic0_mv);
vout.logic1_mv = read_short_from_usb(vin.logic1_mv);
}
void usbMeasureVoltages(struct voltages_frame* voltages)
{
usb_init();
struct any_frame f = {
{ .type = F_FRAME_MEASURE_VOLTAGES_CMD, .size = sizeof(f) },
};
usb_cmd_send(&f, f.f.size);
struct voltages_frame* r = await_reply<struct voltages_frame>(F_FRAME_MEASURE_VOLTAGES_REPLY);
convert_voltages_from_usb(r->input_both_off, voltages->input_both_off);
convert_voltages_from_usb(r->input_drive_0_selected, voltages->input_drive_0_selected);
convert_voltages_from_usb(r->input_drive_1_selected, voltages->input_drive_1_selected);
convert_voltages_from_usb(r->input_drive_0_running, voltages->input_drive_0_running);
convert_voltages_from_usb(r->input_drive_1_running, voltages->input_drive_1_running);
convert_voltages_from_usb(r->output_both_off, voltages->output_both_off);
convert_voltages_from_usb(r->output_drive_0_selected, voltages->output_drive_0_selected);
convert_voltages_from_usb(r->output_drive_1_selected, voltages->output_drive_1_selected);
convert_voltages_from_usb(r->output_drive_0_running, voltages->output_drive_0_running);
convert_voltages_from_usb(r->output_drive_1_running, voltages->output_drive_1_running);
}

9
lib/usb.h
View File

@@ -8,11 +8,12 @@ extern int usbGetVersion();
extern void usbRecalibrate();
extern void usbSeek(int track);
extern nanoseconds_t usbGetRotationalPeriod();
extern void usbTestBulkTransport();
extern Bytes usbRead(int side, int revolutions);
extern Bytes usbReadQD(int side);
extern void usbTestBulkWrite();
extern void usbTestBulkRead();
extern Bytes usbRead(int side, bool synced, nanoseconds_t readTime);
extern void usbWrite(int side, const Bytes& bytes);
extern void usbErase(int side);
extern void usbSetDrive(int drive, bool high_density);
extern void usbSetDrive(int drive, bool high_density, int index_mode);
extern void usbMeasureVoltages(struct voltages_frame* voltages);
#endif

95
lib/visualiser.cc Normal file
View File

@@ -0,0 +1,95 @@
#define _USE_MATH_DEFINES
#include "globals.h"
#include "image.h"
#include "sector.h"
#include "sectorset.h"
#include "visualiser.h"
#include "fmt/format.h"
#include "flags.h"
#include <iostream>
#include <fstream>
#include <math.h>
FlagGroup visualiserFlags;
static IntFlag period(
{ "--visualiser-period" },
"rotational period for use by the visualiser (milliseconds)",
200);
static const int SIZE = 480;
static const int BORDER = 10;
static const int RADIUS = (SIZE/2) - (BORDER/2);
static const int CORE = 50;
static const int TRACKS = 83;
static const double TRACK_SPACING = double(RADIUS-CORE) / TRACKS;
void visualiseSectorsToFile(const SectorSet& sectors, const std::string& filename)
{
std::cout << "writing visualisation\n";
std::ofstream f(filename, std::ios::out);
if (!f.is_open())
Error() << "cannot open visualisation file";
f << fmt::format("<svg xmlns=\"http://www.w3.org/2000/svg\" viewBox=\"{0} {1} {2} {3}\">",
0, 0, SIZE*2, SIZE);
const double radians_per_ns = 2.0*M_PI / (period*1e6);
auto drawSide = [&](int side)
{
f << fmt::format("<g transform='matrix(1 0 0 -1 {} {})'>", SIZE/2 + (side*SIZE), SIZE/2);
f << fmt::format("<circle cx='0' cy='0' r='{}' stroke='none' fill='#ccc'/>", RADIUS);
for (int physicalTrack = 0; physicalTrack < TRACKS; physicalTrack++)
{
double radius = CORE + physicalTrack*TRACK_SPACING;
f << fmt::format("<circle cx='0' cy='0' r='{}' stroke='#888' stroke-width='0.5' fill='none'/>", radius);
auto drawArc = [&](const std::unique_ptr<Sector>& sector, nanoseconds_t start, nanoseconds_t end, const std::string& colour)
{
start %= period*1000000;
end %= period*1000000;
if (end < start)
end += period*1000000;
double theta1 = start * radians_per_ns;
double theta2 = end * radians_per_ns;
int large = (theta2 - theta1) >= M_PI;
f << fmt::format("\n<!-- {} {} = {} {} -->", start, end, theta1, theta2);
f << fmt::format("<path fill='none' stroke='{}' stroke-width='1.5' d='", colour);
f << fmt::format("M {} {} ", cos(theta1)*radius, sin(theta1)*radius);
f << fmt::format("A {0} {0} 0 {3} 1 {1} {2}", radius, cos(theta2)*radius, sin(theta2)*radius, large);
f << fmt::format("'><title>Track {} Head {} Sector {}; {}ms to {}ms</title></path>",
sector->logicalTrack, sector->logicalSide, sector->logicalSector,
start/1e6, end/1e6);
};
/* Sadly, SectorSets aren't indexable by physical track. */
for (const auto& e : sectors.get())
{
const auto& sector = e.second;
if ((sector->physicalSide == side) && (sector->physicalTrack == physicalTrack))
{
const char* colour = "#f00";
if (sector->status == Sector::OK)
colour = "#00f";
if (sector->headerStartTime && sector->headerEndTime)
drawArc(sector, sector->headerStartTime, sector->headerEndTime, "#0ff");
if (sector->dataStartTime && sector->dataEndTime)
drawArc(sector, sector->dataStartTime, sector->dataEndTime, colour);
}
}
}
f << "</g>";
};
f << fmt::format("<rect x='0' y='0' width='{}' height='{}' stroke='none' fill='#fff'/>", SIZE*2, SIZE);
drawSide(0);
drawSide(1);
f << "</svg>";
}

12
lib/visualiser.h Normal file
View File

@@ -0,0 +1,12 @@
#ifndef VISUALISER_H
#define VISUALISER_H
#include "flags.h"
class SectorSet;
extern FlagGroup visualiserFlags;
extern void visualiseSectorsToFile(const SectorSet& sectors, const std::string& filename);
#endif

6
lib/writer.cc
View File

@@ -15,7 +15,7 @@
#include "sector.h"
#include "sectorset.h"
FlagGroup writerFlags { &hardwareFluxSourceFlags };
FlagGroup writerFlags { &hardwareFluxSourceFlags, &hardwareFluxSinkFlags };
static DataSpecFlag dest(
{ "--dest", "-d" },
@@ -84,7 +84,9 @@ void writeTracks(
}
else
{
fluxmap->precompensate(PRECOMPENSATION_THRESHOLD_TICKS, 2);
/* Precompensation actually seems to make things worse, so let's leave
* it disabled for now. */
//fluxmap->precompensate(PRECOMPENSATION_THRESHOLD_TICKS, 2);
if (outdb)
sqlWriteFlux(outdb, location.track, location.side, *fluxmap);
else

60
mkninja.sh
View File

@@ -44,18 +44,27 @@ buildlibrary() {
esac
done
local objs
objs=
local oobjs
local dobjs
oobjs=
dobjs=
for src in "$@"; do
local obj
obj="$OBJDIR/${src%%.c*}.o"
objs="$objs $obj"
obj="$OBJDIR/opt/${src%%.c*}.o"
oobjs="$oobjs $obj"
echo build $obj : cxx $src
echo " flags=$flags"
echo " flags=$flags $COPTFLAGS"
obj="$OBJDIR/dbg/${src%%.c*}.o"
dobjs="$dobjs $obj"
echo build $obj : cxx $src
echo " flags=$flags $CDBGFLAGS"
done
echo build $OBJDIR/$lib : library $objs
echo build $OBJDIR/opt/$lib : library $oobjs
echo build $OBJDIR/dbg/$lib : library $dobjs
}
buildprogram() {
@@ -77,16 +86,21 @@ buildprogram() {
esac
done
local objs
objs=
local oobjs
local dobjs
oobjs=
dobjs=
for src in "$@"; do
objs="$objs $OBJDIR/$src"
oobjs="$oobjs $OBJDIR/opt/$src"
dobjs="$dobjs $OBJDIR/dbg/$src"
done
echo build $prog-debug$EXTENSION : link $objs
echo " flags=$flags"
echo build $prog-debug$EXTENSION : link $dobjs
echo " flags=$flags $LDDBGFLAGS"
echo build $prog$EXTENSION : link $oobjs
echo " flags=$flags $LDOPTFLAGS"
echo build $prog$EXTENSION : strip $prog-debug$EXTENSION
}
buildsimpleprogram() {
@@ -139,11 +153,14 @@ buildlibrary libfmt.a \
buildlibrary libbackend.a \
lib/imagereader/imagereader.cc \
lib/imagereader/imgimagereader.cc \
lib/imagewriter/d64imagewriter.cc \
lib/imagewriter/imagewriter.cc \
lib/imagewriter/imgimagewriter.cc \
lib/imagewriter/ldbsimagewriter.cc \
arch/aeslanier/decoder.cc \
arch/amiga/decoder.cc \
arch/amiga/encoder.cc \
arch/amiga/amiga.cc \
arch/apple2/decoder.cc \
arch/brother/decoder.cc \
arch/brother/encoder.cc \
@@ -151,6 +168,7 @@ buildlibrary libbackend.a \
arch/f85/decoder.cc \
arch/fb100/decoder.cc \
arch/ibm/decoder.cc \
arch/ibm/encoder.cc \
arch/macintosh/decoder.cc \
arch/mx/decoder.cc \
arch/victor9k/decoder.cc \
@@ -170,7 +188,6 @@ buildlibrary libbackend.a \
lib/fluxsink/sqlitefluxsink.cc \
lib/fluxsource/fluxsource.cc \
lib/fluxsource/hardwarefluxsource.cc \
lib/fluxsource/quickdiskfluxsource.cc \
lib/fluxsource/kryoflux.cc \
lib/fluxsource/sqlitefluxsource.cc \
lib/fluxsource/streamfluxsource.cc \
@@ -183,12 +200,14 @@ buildlibrary libbackend.a \
lib/sectorset.cc \
lib/sql.cc \
lib/usb.cc \
lib/visualiser.cc \
lib/writer.cc \
buildlibrary libfrontend.a \
src/fe-cwftoflux.cc \
src/fe-erase.cc \
src/fe-fluxtoau.cc \
src/fe-fluxtoscp.cc \
src/fe-fluxtovcd.cc \
src/fe-inspect.cc \
src/fe-readadfs.cc \
@@ -204,14 +223,17 @@ buildlibrary libfrontend.a \
src/fe-readibm.cc \
src/fe-readmac.cc \
src/fe-readmx.cc \
src/fe-readqd.cc \
src/fe-readvictor9k.cc \
src/fe-readzilogmcz.cc \
src/fe-rpm.cc \
src/fe-scptoflux.cc \
src/fe-seek.cc \
src/fe-testbulktransport.cc \
src/fe-testbandwidth.cc \
src/fe-testvoltages.cc \
src/fe-upgradefluxfile.cc \
src/fe-writeamiga.cc \
src/fe-writebrother.cc \
src/fe-writeibm.cc \
src/fe-writeflux.cc \
src/fe-writetestpattern.cc \
src/fluxengine.cc \
@@ -231,6 +253,13 @@ buildsimpleprogram brother120tool \
libemu.a \
libfmt.a \
buildsimpleprogram brother240tool \
-Idep/emu \
tools/brother240tool.cc \
libbackend.a \
libemu.a \
libfmt.a \
runtest bitaccumulator-test tests/bitaccumulator.cc
runtest bytes-test tests/bytes.cc
runtest compression-test tests/compression.cc
@@ -241,3 +270,4 @@ runtest fluxpattern-test tests/fluxpattern.cc
runtest fmmfm-test tests/fmmfm.cc
runtest kryoflux-test tests/kryoflux.cc
runtest ldbs-test tests/ldbs.cc
runtest amiga-test tests/amiga.cc

47
protocol.h
View File

@@ -3,7 +3,7 @@
enum
{
FLUXENGINE_VERSION = 9,
FLUXENGINE_VERSION = 12,
FLUXENGINE_VID = 0x1209,
FLUXENGINE_PID = 0x6e00,
@@ -50,12 +50,12 @@ enum
F_FRAME_SEEK_REPLY, /* any_frame */
F_FRAME_MEASURE_SPEED_CMD, /* any_frame */
F_FRAME_MEASURE_SPEED_REPLY, /* speed_frame */
F_FRAME_BULK_TEST_CMD, /* any_frame */
F_FRAME_BULK_TEST_REPLY, /* any_frame */
F_FRAME_BULK_WRITE_TEST_CMD, /* any_frame */
F_FRAME_BULK_WRITE_TEST_REPLY, /* any_frame */
F_FRAME_BULK_READ_TEST_CMD, /* any_frame */
F_FRAME_BULK_READ_TEST_REPLY, /* any_frame */
F_FRAME_READ_CMD, /* read_frame */
F_FRAME_READ_REPLY, /* any_frame */
F_FRAME_READ_QD_CMD, /* read_frame */
F_FRAME_READ_QD_REPLY, /* any_frame */
F_FRAME_WRITE_CMD, /* write_frame */
F_FRAME_WRITE_REPLY, /* any_frame */
F_FRAME_ERASE_CMD, /* erase_frame */
@@ -64,6 +64,8 @@ enum
F_FRAME_RECALIBRATE_REPLY, /* any_frame */
F_FRAME_SET_DRIVE_CMD, /* setdrive_frame */
F_FRAME_SET_DRIVE_REPLY, /* any_frame */
F_FRAME_MEASURE_VOLTAGES_CMD, /* any_frame */
F_FRAME_MEASURE_VOLTAGES_REPLY, /* voltages_frame */
};
enum
@@ -75,6 +77,13 @@ enum
F_ERROR_INTERNAL,
};
enum
{
F_INDEX_REAL,
F_INDEX_300,
F_INDEX_360
};
enum
{
F_OP_PULSE = 0x80,
@@ -126,7 +135,8 @@ struct read_frame
{
struct frame_header f;
uint8_t side;
uint8_t revolutions;
uint8_t synced;
uint16_t milliseconds;
};
struct write_frame
@@ -145,7 +155,30 @@ struct erase_frame
struct set_drive_frame
{
struct frame_header f;
uint8_t drive_flags;
uint8_t drive;
uint8_t high_density;
uint8_t index_mode;
};
struct voltages
{
uint16_t logic0_mv;
uint16_t logic1_mv;
};
struct voltages_frame
{
struct frame_header f;
struct voltages output_both_off;
struct voltages output_drive_0_selected;
struct voltages output_drive_1_selected;
struct voltages output_drive_0_running;
struct voltages output_drive_1_running;
struct voltages input_both_off;
struct voltages input_drive_0_selected;
struct voltages input_drive_1_selected;
struct voltages input_drive_0_running;
struct voltages input_drive_1_running;
};
#endif

2
src/fe-erase.cc
View File

@@ -3,7 +3,7 @@
#include "fluxmap.h"
#include "writer.h"
static FlagGroup flags;
static FlagGroup flags { &writerFlags };
int mainErase(int argc, const char* argv[])
{

188
src/fe-fluxtoscp.cc Normal file
View File

@@ -0,0 +1,188 @@
#include "globals.h"
#include "flags.h"
#include "fluxmap.h"
#include "sql.h"
#include "bytes.h"
#include "protocol.h"
#include "dataspec.h"
#include "fmt/format.h"
#include "decoders/fluxmapreader.h"
#include "scp.h"
#include <fstream>
#include <algorithm>
static FlagGroup flags { };
static SettableFlag fortyTrackMode(
{ "--48", "-4" },
"set 48 tpi mode; only every other physical track is emitted"
);
static SettableFlag singleSided(
{ "--single-sided", "-s" },
"only emit side 0"
);
static IntFlag diskType(
{ "--disk-type" },
"sets the SCP disk type byte",
0xff
);
static sqlite3* inputDb;
static void syntax()
{
std::cout << "Syntax: fluxengine convert fluxtoscp <fluxfile> <scpfile>\n";
exit(0);
}
static void write_le32(uint8_t dest[4], uint32_t v)
{
dest[0] = v;
dest[1] = v >> 8;
dest[2] = v >> 16;
dest[3] = v >> 24;
}
static int strackno(int track, int side)
{
if (fortyTrackMode)
track /= 2;
if (singleSided)
return track;
else
return (track << 1) | side;
}
int mainConvertFluxToScp(int argc, const char* argv[])
{
auto filenames = flags.parseFlagsWithFilenames(argc, argv);
if (filenames.size() != 2)
syntax();
inputDb = sqlOpen(filenames[0], SQLITE_OPEN_READONLY);
auto tracks = sqlFindFlux(inputDb);
int maxTrack = 0;
int maxSide = 0;
for (auto p : tracks)
{
if (singleSided && (p.second == 1))
continue;
maxTrack = std::max(maxTrack, (int)p.first);
maxSide = std::max(maxSide, (int)p.second);
}
int maxStrack = strackno(maxTrack, maxSide);
std::cout << fmt::format("Writing {} {} SCP file containing {} SCP tracks\n",
fortyTrackMode ? "48 tpi" : "96 tpi",
singleSided ? "single sided" : "double sided",
maxStrack + 1
);
ScpHeader fileheader = {0};
fileheader.file_id[0] = 'S';
fileheader.file_id[1] = 'C';
fileheader.file_id[2] = 'P';
fileheader.version = 0x18; /* Version 1.8 of the spec */
fileheader.type = diskType;
fileheader.revolutions = 5;
fileheader.start_track = 0;
fileheader.end_track = maxStrack;
fileheader.flags = SCP_FLAG_INDEXED | (fortyTrackMode ? 0 : SCP_FLAG_96TPI);
fileheader.cell_width = 0;
fileheader.heads = singleSided ? 1 : 0;
Bytes trackdata;
ByteWriter trackdataWriter(trackdata);
int trackstep = 1 + fortyTrackMode;
int maxside = singleSided ? 0 : 1;
for (int track = 0; track <= maxTrack; track += trackstep)
{
for (int side = 0; side <= maxside; side++)
{
int strack = strackno(track, side);
std::cout << fmt::format("FE track {}.{}, SCP track {}: ", track, side, strack) << std::flush;
auto fluxmap = sqlReadFlux(inputDb, track, side);
ScpTrack trackheader = {0};
trackheader.track_id[0] = 'T';
trackheader.track_id[1] = 'R';
trackheader.track_id[2] = 'K';
trackheader.strack = strack;
FluxmapReader fmr(*fluxmap);
Bytes fluxdata;
ByteWriter fluxdataWriter(fluxdata);
int revolution = 0;
unsigned revTicks = 0;
unsigned totalTicks = 0;
unsigned ticksSinceLastPulse = 0;
uint32_t startOffset = 0;
while (revolution < 5)
{
unsigned ticks;
int opcode = fmr.readOpcode(ticks);
if (ticks)
{
ticksSinceLastPulse += ticks;
totalTicks += ticks;
revTicks += ticks;
}
switch (opcode)
{
case -1: /* end of flux, treat like an index marker */
case F_OP_INDEX:
{
auto* revheader = &trackheader.revolution[revolution];
write_le32(revheader->offset, startOffset + sizeof(ScpTrack));
write_le32(revheader->length, (fluxdataWriter.pos - startOffset) / 2);
write_le32(revheader->index, revTicks * NS_PER_TICK / 25);
revolution++;
revheader++;
revTicks = 0;
startOffset = fluxdataWriter.pos;
break;
}
case F_OP_PULSE:
{
unsigned t = ticksSinceLastPulse * NS_PER_TICK / 25;
while (t >= 0x10000)
{
fluxdataWriter.write_be16(0);
t -= 0x10000;
}
fluxdataWriter.write_be16(t);
ticksSinceLastPulse = 0;
break;
}
}
}
write_le32(fileheader.track[strack], trackdataWriter.pos + sizeof(ScpHeader));
trackdataWriter += Bytes((uint8_t*)&trackheader, sizeof(trackheader));
trackdataWriter += fluxdata;
std::cout << fmt::format("{} ms in {} bytes\n",
totalTicks * MS_PER_TICK,
fluxdata.size());
}
}
sqlClose(inputDb);
std::cout << "Writing output file...\n";
std::ofstream of(filenames[1], std::ios::out | std::ios::binary);
if (!of.is_open())
Error() << "cannot open output file";
of.write((const char*) &fileheader, sizeof(fileheader));
of.write((const char*) trackdata.begin(), trackdata.size());
of.close();
return 0;
}

5
src/fe-readaeslanier.cc
View File

@@ -12,11 +12,6 @@
static FlagGroup flags { &readerFlags };
static StringFlag outputFilename(
{ "--output", "-o" },
"The output image file to write to.",
"aeslanier.img");
int mainReadAESLanier(int argc, const char* argv[])
{
setReaderDefaultSource(":t=0-79:s=0");

2
src/fe-readc64.cc
View File

@@ -16,7 +16,7 @@ static FlagGroup flags { &readerFlags };
int mainReadC64(int argc, const char* argv[])
{
setReaderDefaultSource(":t=0-79x2:s=0");
setReaderDefaultOutput("c64.img");
setReaderDefaultOutput("c64.d64");
setReaderRevolutions(2);
flags.parseFlags(argc, argv);

7
src/fe-readibm.cc
View File

@@ -17,13 +17,18 @@ static IntFlag sectorIdBase(
"Sector ID of the first sector.",
1);
static BoolFlag ignoreSideByte(
{ "--ignore-side-byte" },
"Ignore the side byte in the sector ID, and use the physical side instead.",
false);
int mainReadIBM(int argc, const char* argv[])
{
setReaderDefaultSource(":t=0-79:s=0-1");
setReaderDefaultOutput("ibm.img");
flags.parseFlags(argc, argv);
IbmDecoder decoder(sectorIdBase);
IbmDecoder decoder(sectorIdBase, ignoreSideByte);
readDiskCommand(decoder);
return 0;
}

1
src/fe-readmx.cc
View File

@@ -8,7 +8,6 @@
#include "sector.h"
#include "sectorset.h"
#include "record.h"
#include <fmt/format.h>
static FlagGroup flags { &readerFlags };

26
src/fe-readqd.cc
View File

@@ -1,26 +0,0 @@
#include "globals.h"
#include "flags.h"
#include "reader.h"
#include "fluxmap.h"
#include "decoders/decoders.h"
#include "image.h"
#include "sector.h"
#include "sectorset.h"
#include "record.h"
#include "ibm/ibm.h"
#include "fmt/format.h"
static FlagGroup flags { &readerFlags };
int mainReadQd(int argc, const char* argv[])
{
setReaderDefaultSource(":qd=1");
setReaderDefaultOutput("qd.img");
setReaderRevolutions(2);
flags.parseFlags(argc, argv);
IbmDecoder decoder(0);
readDiskCommand(decoder);
return 0;
}

16
src/fe-rpm.cc
View File

@@ -2,22 +2,32 @@
#include "flags.h"
#include "usb.h"
#include "dataspec.h"
#include "protocol.h"
static FlagGroup flags;
static DataSpecFlag source(
{ "--source", "-s" },
"source for data",
":d=0");
":d=0:t=0:s=0");
int mainRpm(int argc, const char* argv[])
{
flags.parseFlags(argc, argv);
FluxSpec spec(source);
usbSetDrive(spec.drive, false);
usbSetDrive(spec.drive, false, F_INDEX_REAL);
nanoseconds_t period = usbGetRotationalPeriod();
std::cout << "Rotational period is " << period/1000 << " ms (" << 60e6/period << " rpm)" << std::endl;
if (period != 0)
std::cout << "Rotational period is " << period/1000000 << " ms (" << 60e9/period << " rpm)" << std::endl;
else
{
std::cout << "No index pulses detected from the disk. Common causes of this are:\n"
" - no drive is connected\n"
" - the drive doesn't have an index sensor (e.g. BBC Micro drives)\n"
" - the disk has no index holes (e.g. reversed flippy disks)\n"
" - (most common) no disk is inserted in the drive!\n";
}
return 0;
}

142
src/fe-scptoflux.cc Normal file
View File

@@ -0,0 +1,142 @@
#include "globals.h"
#include "fluxmap.h"
#include "sql.h"
#include "bytes.h"
#include "protocol.h"
#include "fmt/format.h"
#include "scp.h"
#include <fstream>
static std::ifstream inputFile;
static sqlite3* outputDb;
static ScpHeader header;
static nanoseconds_t resolution;
static int startSide;
static int endSide;
static void syntax()
{
std::cout << "Syntax: fluxengine convert cwftoflux <cwffile> <fluxfile>\n";
exit(0);
}
static void check_for_error()
{
if (inputFile.fail())
Error() << fmt::format("I/O error: {}", strerror(errno));
}
static int trackno(int strack)
{
if (startSide == endSide)
return strack;
return strack >> 1;
}
static int headno(int strack)
{
if (startSide == endSide)
return startSide;
return strack & 1;
}
static void read_header()
{
inputFile.read((char*) &header, sizeof(header));
check_for_error();
if ((header.file_id[0] != 'S')
|| (header.file_id[1] != 'C')
|| (header.file_id[2] != 'P'))
Error() << "input not a SCP file";
resolution = 25 * (header.resolution + 1);
startSide = (header.heads == 2) ? 1 : 0;
endSide = (header.heads == 1) ? 0 : 1;
if ((header.cell_width != 0) && (header.cell_width != 16))
Error() << "currently only 16-bit cells are supported";
std::cout << fmt::format("tracks {}-{}, heads {}-{}\n",
trackno(header.start_track), trackno(header.end_track), startSide, endSide);
std::cout << fmt::format("sample resolution: {} ns\n", resolution);
}
static void read_track(int strack)
{
uint32_t offset = Bytes(header.track[strack], 4).reader().read_le32();
ScpTrack trackheader;
inputFile.seekg(offset, std::ios::beg);
inputFile.read((char*) &trackheader, sizeof(trackheader));
check_for_error();
if ((trackheader.track_id[0] != 'T')
|| (trackheader.track_id[1] != 'R')
|| (trackheader.track_id[2] != 'K'))
Error() << "corrupt SCP file";
std::cout << fmt::format("{}.{}: ", trackno(strack), headno(strack))
<< std::flush;
Fluxmap fluxmap;
nanoseconds_t pending = 0;
unsigned inputBytes = 0;
for (int revolution = 0; revolution < header.revolutions; revolution++)
{
if (revolution != 0)
fluxmap.appendIndex();
uint32_t datalength = Bytes(trackheader.revolution[revolution].length, 4).reader().read_le32();
uint32_t dataoffset = Bytes(trackheader.revolution[revolution].offset, 4).reader().read_le32();
Bytes data(datalength*2);
inputFile.seekg(dataoffset + offset, std::ios::beg);
inputFile.read((char*) data.begin(), data.size());
check_for_error();
ByteReader br(data);
for (int cell = 0; cell < datalength; cell++)
{
uint16_t interval = br.read_be16();
if (interval)
{
fluxmap.appendInterval((interval + pending) * resolution / NS_PER_TICK);
fluxmap.appendPulse();
pending = 0;
}
else
pending += 0x10000;
}
inputBytes += datalength*2;
}
std::cout << fmt::format(" {} ms in {} input bytes and {} output bytes\n",
fluxmap.duration() / 1e6, inputBytes, fluxmap.bytes());
sqlWriteFlux(outputDb, trackno(strack), headno(strack), fluxmap);
}
int mainConvertScpToFlux(int argc, const char* argv[])
{
if (argc != 3)
syntax();
inputFile.open(argv[1], std::ios::in | std::ios::binary);
if (!inputFile.is_open())
Error() << fmt::format("cannot open input file '{}'", argv[1]);
outputDb = sqlOpen(argv[2], SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE);
sqlPrepareFlux(outputDb);
sqlWriteIntProperty(outputDb, "version", FLUX_VERSION_CURRENT);
sqlStmt(outputDb, "BEGIN;");
read_header();
inputFile.seekg(sizeof(header), std::ios::beg);
for (unsigned i=header.start_track; i<=header.end_track; i++)
read_track(i);
sqlStmt(outputDb, "COMMIT;");
sqlClose(outputDb);
return 0;
}

3
src/fe-seek.cc
View File

@@ -1,6 +1,7 @@
#include "globals.h"
#include "flags.h"
#include "usb.h"
#include "protocol.h"
static FlagGroup flags;
@@ -18,7 +19,7 @@ int mainSeek(int argc, const char* argv[])
{
flags.parseFlags(argc, argv);
usbSetDrive(drive, false);
usbSetDrive(drive, false, F_INDEX_REAL);
usbSeek(track);
return 0;
}

5
src/fe-testbulktransport.cc → src/fe-testbandwidth.cc
View File

@@ -4,9 +4,10 @@
static FlagGroup flags;
int mainTestBulkTransport(int argc, const char* argv[])
int mainTestBandwidth(int argc, const char* argv[])
{
flags.parseFlags(argc, argv);
usbTestBulkTransport();
usbTestBulkWrite();
usbTestBulkRead();
return 0;
}

47
src/fe-testvoltages.cc Normal file
View File

@@ -0,0 +1,47 @@
#include "globals.h"
#include "flags.h"
#include "usb.h"
#include "protocol.h"
#include <fmt/format.h>
static FlagGroup flags;
static std::string display_voltages(struct voltages& v)
{
return fmt::format(
" Logic 1 / 0: {:.2f}V / {:.2f}V\n",
v.logic0_mv / 1000.0,
v.logic1_mv / 1000.0);
}
int mainTestVoltages(int argc, const char* argv[])
{
flags.parseFlags(argc, argv);
struct voltages_frame f;
usbMeasureVoltages(&f);
std::cout << "Output voltages:\n"
<< " Both drives deselected\n"
<< display_voltages(f.output_both_off)
<< " Drive 0 selected\n"
<< display_voltages(f.output_drive_0_selected)
<< " Drive 1 selected\n"
<< display_voltages(f.output_drive_1_selected)
<< " Drive 0 running\n"
<< display_voltages(f.output_drive_0_running)
<< " Drive 1 running\n"
<< display_voltages(f.output_drive_1_running)
<< "Input voltages:\n"
<< " Both drives deselected\n"
<< display_voltages(f.input_both_off)
<< " Drive 0 selected\n"
<< display_voltages(f.input_drive_0_selected)
<< " Drive 1 selected\n"
<< display_voltages(f.input_drive_1_selected)
<< " Drive 0 running\n"
<< display_voltages(f.input_drive_0_running)
<< " Drive 1 running\n"
<< display_voltages(f.input_drive_1_running);
return 0;
}

23
src/fe-writeamiga.cc Normal file
View File

@@ -0,0 +1,23 @@
#include "globals.h"
#include "flags.h"
#include "decoders/decoders.h"
#include "amiga/amiga.h"
#include "writer.h"
#include "fmt/format.h"
#include "image.h"
#include <fstream>
static FlagGroup flags { &writerFlags, &amigaEncoderFlags };
int mainWriteAmiga(int argc, const char* argv[])
{
setWriterDefaultInput(":c=80:h=2:s=11:b=512");
setWriterDefaultDest(":d=0:t=0-79:s=0-1");
flags.parseFlags(argc, argv);
AmigaEncoder encoder;
writeDiskCommand(encoder);
return 0;
}

139
src/fe-writeibm.cc Normal file
View File

@@ -0,0 +1,139 @@
#include "globals.h"
#include "flags.h"
#include "decoders/decoders.h"
#include "encoders/encoders.h"
#include "ibm/ibm.h"
#include "writer.h"
#include "fmt/format.h"
#include "image.h"
#include <fstream>
static FlagGroup flags { &writerFlags };
static IntFlag trackLengthMs(
{ "--ibm-track-length-ms" },
"Length of a track in milliseconds.",
0);
static IntFlag sectorSize(
{ "--ibm-sector-size" },
"Size of the sectors to write (bytes).",
0);
static BoolFlag emitIam(
{ "--ibm-emit-iam" },
"Whether to emit an IAM record at the start of the track.",
false);
static IntFlag startSectorId(
{ "--ibm-start-sector-id" },
"Sector ID of first sector.",
1);
static IntFlag clockRateKhz(
{ "--ibm-clock-rate-khz" },
"Clock rate of data to write.",
0);
static BoolFlag useFm(
{ "--ibm-use-fm" },
"Write in FM mode, rather than MFM.",
false);
static HexIntFlag idamByte(
{ "--ibm-idam-byte" },
"16-bit RAW bit pattern to use for the IDAM ID byte",
0);
static HexIntFlag damByte(
{ "--ibm-dam-byte" },
"16-bit RAW bit pattern to use for the DAM ID byte",
0);
static IntFlag gap0(
{ "--ibm-gap0-bytes" },
"Size of gap 0 (the pre-index gap)",
0);
static IntFlag gap1(
{ "--ibm-gap1-bytes" },
"Size of gap 1 (the post-index gap).",
0);
static IntFlag gap2(
{ "--ibm-gap2-bytes" },
"Size of gap 2 (the post-ID gap).",
0);
static IntFlag gap3(
{ "--ibm-gap3-bytes" },
"Size of gap 3 (the post-data or format gap).",
0);
static StringFlag sectorSkew(
{ "--ibm-sector-skew" },
"Order to emit sectors.",
"");
static ActionFlag preset1440(
{ "--ibm-preset-1440" },
"Preset parameters to a 3.5\" 1440kB disk.",
[] {
setWriterDefaultInput(":c=80:h=2:s=18:b=512");
trackLengthMs.setDefaultValue(200);
sectorSize.setDefaultValue(512);
emitIam.setDefaultValue(true);
clockRateKhz.setDefaultValue(500);
idamByte.setDefaultValue(0x5554);
damByte.setDefaultValue(0x5545);
gap0.setDefaultValue(80);
gap1.setDefaultValue(50);
gap2.setDefaultValue(22);
gap3.setDefaultValue(108);
sectorSkew.setDefaultValue("0123456789abcdefgh");
});
static ActionFlag preset720(
{ "--ibm-preset-720" },
"Preset parameters to a 3.5\" 720kB disk.",
[] {
setWriterDefaultInput(":c=80:h=2:s=9:b=512");
trackLengthMs.setDefaultValue(200);
sectorSize.setDefaultValue(512);
emitIam.setDefaultValue(true);
clockRateKhz.setDefaultValue(250);
idamByte.setDefaultValue(0x5554);
damByte.setDefaultValue(0x5545);
gap0.setDefaultValue(80);
gap1.setDefaultValue(50);
gap2.setDefaultValue(22);
gap3.setDefaultValue(80);
sectorSkew.setDefaultValue("012345678");
});
int mainWriteIbm(int argc, const char* argv[])
{
setWriterDefaultDest(":d=0:t=0-79:s=0-1");
flags.parseFlags(argc, argv);
IbmParameters parameters;
parameters.trackLengthMs = trackLengthMs;
parameters.sectorSize = sectorSize;
parameters.emitIam = emitIam;
parameters.startSectorId = startSectorId;
parameters.clockRateKhz = clockRateKhz;
parameters.useFm = useFm;
parameters.idamByte = idamByte;
parameters.damByte = damByte;
parameters.gap0 = gap0;
parameters.gap1 = gap1;
parameters.gap2 = gap2;
parameters.gap3 = gap3;
parameters.sectorSkew = sectorSkew;
IbmEncoder encoder(parameters);
writeDiskCommand(encoder);
return 0;
}

25
src/fluxengine.cc
View File

@@ -5,7 +5,9 @@ typedef int command_cb(int agrc, const char* argv[]);
extern command_cb mainErase;
extern command_cb mainConvertCwfToFlux;
extern command_cb mainConvertFluxToAu;
extern command_cb mainConvertFluxToScp;
extern command_cb mainConvertFluxToVcd;
extern command_cb mainConvertScpToFlux;
extern command_cb mainInspect;
extern command_cb mainReadADFS;
extern command_cb mainReadAESLanier;
@@ -20,14 +22,16 @@ extern command_cb mainReadFB100;
extern command_cb mainReadIBM;
extern command_cb mainReadMac;
extern command_cb mainReadMx;
extern command_cb mainReadQd;
extern command_cb mainReadVictor9K;
extern command_cb mainReadZilogMCZ;
extern command_cb mainRpm;
extern command_cb mainSeek;
extern command_cb mainTestBulkTransport;
extern command_cb mainTestBandwidth;
extern command_cb mainTestVoltages;
extern command_cb mainUpgradeFluxFile;
extern command_cb mainWriteAmiga;
extern command_cb mainWriteBrother;
extern command_cb mainWriteIbm;
extern command_cb mainWriteFlux;
extern command_cb mainWriteTestPattern;
@@ -41,6 +45,7 @@ struct Command
static command_cb mainRead;
static command_cb mainWrite;
static command_cb mainConvert;
static command_cb mainTest;
static std::vector<Command> commands =
{
@@ -50,7 +55,7 @@ static std::vector<Command> commands =
{ "read", mainRead, "Reads a disk, producing a sector image.", },
{ "rpm", mainRpm, "Measures the disk rotational speed.", },
{ "seek", mainSeek, "Moves the disk head.", },
{ "testbulktransport", mainTestBulkTransport, "Measures your USB bandwidth.", },
{ "test", mainTest, "Various testing commands.", },
{ "upgradefluxfile", mainUpgradeFluxFile, "Upgrades a flux file from a previous version of this software.", },
{ "write", mainWrite, "Writes a sector image to a disk.", },
{ "writeflux", mainWriteFlux, "Writes a raw flux file. Warning: you can't use this to copy disks.", },
@@ -72,23 +77,32 @@ static std::vector<Command> readables =
{ "ibm", mainReadIBM, "Reads the ubiquitous IBM format disks.", },
{ "mac", mainReadMac, "Reads Apple Macintosh disks.", },
{ "mx", mainReadMx, "Reads MX disks.", },
{ "qd", mainReadQd, "Reads QuickDisk disks.", },
{ "victor9k", mainReadVictor9K, "Reads Victor 9000 disks.", },
{ "zilogmcz", mainReadZilogMCZ, "Reads Zilog MCZ disks.", },
};
static std::vector<Command> writeables =
{
{ "amiga", mainWriteAmiga, "Writes Amiga disks.", },
{ "brother", mainWriteBrother, "Writes 120kB and 240kB Brother word processor disks.", },
{ "ibm", mainWriteIbm, "Writes the ubiquitous IBM format disks.", },
};
static std::vector<Command> convertables =
{
{ "cwftoflux", mainConvertCwfToFlux, "Converts CatWeasel stream files to flux.", },
{ "scptoflux", mainConvertScpToFlux, "Converts Supercard Pro stream files to flux.", },
{ "fluxtoau", mainConvertFluxToAu, "Converts (one track of a) flux file to an .au audio file.", },
{ "fluxtoscp", mainConvertFluxToScp, "Converrt a flux file to a Supercard Pro file.", },
{ "fluxtovcd", mainConvertFluxToVcd, "Converts (one track of a) flux file to a VCD file.", },
};
static std::vector<Command> testables =
{
{ "bandwidth", mainTestBandwidth, "Measures your USB bandwidth.", },
{ "voltages", mainTestVoltages, "Measures the FDD bus voltages.", },
};
static void extendedHelp(std::vector<Command>& subcommands, const std::string& command)
{
std::cout << "fluxengine: syntax: fluxengine " << command << " <format> [<flags>...]\n"
@@ -129,6 +143,9 @@ static int mainWrite(int argc, const char* argv[])
static int mainConvert(int argc, const char* argv[])
{ return mainExtended(convertables, "convert", argc, argv); }
static int mainTest(int argc, const char* argv[])
{ return mainExtended(testables, "test", argc, argv); }
static void help()
{
std::cout << "fluxengine: syntax: fluxengine <command> [<flags>...]\n"

43
src/scp.h Normal file
View File

@@ -0,0 +1,43 @@
#ifndef SCP_H
#define SCP_H
struct ScpHeader
{
char file_id[3]; // file ID - 'SCP'
uint8_t version; // major/minor in nibbles
uint8_t type; // disk type - subclass/class in nibbles
uint8_t revolutions; // up to 5
uint8_t start_track; // 0..165
uint8_t end_track; // 0..165
uint8_t flags; // see below
uint8_t cell_width; // in bits, 0 meaning 16
uint8_t heads; // 0 = both, 1 = side 0 only, 2 = side 1 only
uint8_t resolution; // 25ns * (resolution+1)
uint8_t checksum[4]; // of data after this point
uint8_t track[165][4]; // track offsets, not necessarily 165
};
enum
{
SCP_FLAG_INDEXED = (1<<0),
SCP_FLAG_96TPI = (1<<1),
SCP_FLAG_360RPM = (1<<2),
SCP_FLAG_NORMALIZED = (1<<3),
SCP_FLAG_READWRITE = (1<<4),
SCP_FLAG_FOOTER = (1<<5)
};
struct ScpTrack
{
char track_id[3]; // 'TRK'
uint8_t strack; // SCP track number
struct
{
uint8_t index[4]; // time for one revolution
uint8_t length[4]; // number of bitcells
uint8_t offset[4]; // offset to bitcell data, relative to track header
}
revolution[5];
};
#endif

38
tests/amiga.cc Normal file
View File

@@ -0,0 +1,38 @@
#include "globals.h"
#include "bytes.h"
#include "record.h"
#include "decoders/decoders.h"
#include "arch/amiga/amiga.h"
#include <assert.h>
static const Bytes testData = {
0x52, /* 0101 0010 */
0xff, /* 1111 1111 */
0x4a, /* 0100 1010 */
0x22, /* 0010 0010 */
};
static const Bytes testDataInterleaved = {
0x1f, /* 0001 1111 */
0x35, /* 0011 0101 */
0xcf, /* 1100 1111 */
0x80, /* 1000 0000 */
};
static void testInterleave(void)
{
Bytes interleaved = amigaInterleave(testData);
assert(interleaved == testDataInterleaved);
}
static void testDeinterleave(void)
{
Bytes deinterleaved = amigaDeinterleave(testDataInterleaved);
assert(deinterleaved == testData);
}
int main(int argc, const char* argv[])
{
testDeinterleave();
testInterleave();
return 0;
}

10
tests/bytes.cc
View File

@@ -115,6 +115,15 @@ static void test_slice()
assert((bs == Bytes{ 0, 0 }));
}
static void test_tobits()
{
Bytes b = {1, 2};
assert(b.toBits() == (std::vector<bool>{
false, false, false, false, false, false, false, true,
false, false, false, false, false, false, true, false
}));
}
int main(int argc, const char* argv[])
{
test_bounds();
@@ -123,5 +132,6 @@ int main(int argc, const char* argv[])
test_reads();
test_writes();
test_slice();
test_tobits();
return 0;
}

8
tests/crunch.cc
View File

@@ -7,7 +7,7 @@ static uint8_t outputbuffer[64];
static void test_crunch()
{
crunch_state_t cs = {};
Bytes inputdata = { 0x01, 0x7f, 0x80, 0x81, 0x01 };
Bytes inputdata = { 0x01, 0x7f, 0x80, 0x05, 0x80, 0x81, 0x01 };
cs.inputptr = inputdata.begin();
cs.inputlen = inputdata.size();
cs.outputptr = outputbuffer;
@@ -16,13 +16,13 @@ static void test_crunch()
donecrunch(&cs);
Bytes outputdata(outputbuffer, cs.outputptr - outputbuffer);
assert((outputdata == Bytes{ 0x01, 0x7f, 0xb0, 0x10 }));
assert((outputdata == Bytes{ 0x01, 0x7f, 0xc5, 0x94, 0x04 }));
}
static void test_uncrunch()
{
crunch_state_t cs = {};
Bytes inputdata = { 0x01, 0x7f, 0xb0, 0x10 };
Bytes inputdata = { 0x01, 0x7f, 0xc5, 0x94, 0x04 };
cs.inputptr = inputdata.begin();
cs.inputlen = inputdata.size();
cs.outputptr = outputbuffer;
@@ -31,7 +31,7 @@ static void test_uncrunch()
doneuncrunch(&cs);
Bytes outputdata(outputbuffer, cs.outputptr - outputbuffer);
assert((outputdata == Bytes { 0x01, 0x7f, 0x80, 0x81, 0x01 }));
assert((outputdata == Bytes { 0x01, 0x7f, 0x80, 0x05, 0x80, 0x81, 0x01 }));
}
int main(int argc, const char* argv[])

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