TODO

sigrok 0.3

• Remove time/duration left-overs from libsigrok.
• stackable protocol decoder implementation
  • Fix segfault: If "probes = [{}]" is used (for example), i.e., one or more of the dict items are not there, that yields a segfault.
  • How to pass (and what exactly, and in which format) samples and already decoded protocol packets:
    • • From C to Python (i.e. from libsigrokdecode/controller to the lowest-level decoder)
      • From Python to Python (i.e., from one decoder to the next in the stack)
      • From Python to C (i.e., from a decoder back to libsigrokdecode, which then hands it over to the CLI/GUI, which write it to file or display it in the GUI).
  • enforce input/output options in PDs: don't send logic if PD only accepts i2c etc.
  • free all instances at end of session
  • Python exception handling in libsrd: add full traceback support with srd_dbg()
  • Annotations need an additional 'type' field, so that PDs/GUIs can differentiate between different output "things".
    • Types are not yet defined, but could be things like DEFAULT, ERR, WARN, DBG, and others.
    • There will also have to be a type for "sections", i.e. grouped sets of fields that have something in common -- an EDID block, ethernet frame, etc.
  • Test/implement support for multiple outputs of one PD, and stacking different additional PDs on those outputs.
  • Test/implement multiple inputs support.
• APIs:
  • PDs: Change extra_probes to optional_probes (or a shorter name for that).
  • srd: All public functions/names must have srd_ prefix.
  • all libs: Add good Doxygen documentation, validate/review APIs, etc. etc.
• Mac OS X: B460800 is not available it seems. Find the correct header (if any) and/or find a (possibly platform-specific) workaround, or drop this on Mac OS X.
• Make sure all combinations of --enable-*/--disable-* options works for configure.
  • There may be issue if none of the drivers is enabled, print useful error in that case(?)
• libsigrok.h/libsigrokdecode.h: Only list public API functions.

sigrok 0.4

• SRD improvements:
  • Performance: ATM data passed to decode() creates lots of Python objects (-> performance, huge memory usage); find a way to make that more efficient. Use 'bytes' and/or 'memoryview' and the new Python 3 buffer API (?)
  • Test/implement config PD method etc.
• CLI improvements:
  • Stop session if SRD initialization indicates an error at any point.
  • Support for printing/selecting a specific annotation for output (or multiple).
  • Eliminate all printing to stdout, only sample data or decoder output should end up there. Error/debug messages should go to stderr always.
  • Add a --start-sampling (TODO: Better name?) option, which just starts sampling with the supplied or default samplerate. Contrary to --time or --samples you don't need to explicitly specify a duration or number of samples here, that's automatically determined by the available memory of the logic analyzer and the selected samplerate.
    • TODO: Similar to --continuous? Merge both?
    • make it --run
• Wiki improvements:
  • Make a user-friendly protocol list/lookup page, based on a data-only backend
  • Integrate these into the list: http://en.wikipedia.org/wiki/Category:Serial_buses
• Run the code receiving the samples as quickly as possible, run output format code and other non-timing-critical stuff (protocol decoders) in an extra thread. The problem is nicely visible with FX2-based logic analyzers, the longer an output format takes to produce its output, the better your chances to get "oops, I just lost samples" errors.
• modular filter system
  • take arguments in the regular thing:key=value format
  • integrate current probe compression filter
  • resampling module: sample up/down based on factor argument
  • noise filter: filter out pulses shorter than the samplerate's period
• Finish fx2lafw (open-source FX2 firmware).
• Factor out input/output file formats to libsigrokfile.
• change all code to start counting probes at 0, not 1.
• Get rid of the use of manual polling of FDs, which is not portable (doesn't work on Windows). Use g_poll() instead (which spawns a new thread on Windows).
• We will have an extra datafeed type SR_DF_LOGIC_INDEXED, which contains [samplenumber, sample] instead of just raw samples. Samplenumber is a uint64_t, and sample is unchanged (unitsize). Frontends must be able to handle both, and modular filters in libsigrok or the sampling filter in libsigrokdecode may convert from SR_DF_LOGIC to SR_DF_LOGIC_INDEXED at any time.
• ANT8/18e unified driver
• Processing raw logic vs. everything else up the stack: (optionally) deliver pre-sampled by clock or rate?

  Yes, the controller will deliver a clock- or rate-sampled feed instead, if the PD requests this via a configuration option.

• Hardware drivers: Make specification of triggering capabilities more detailed, so that frontends/GUIs can auto-generate GUI forms out of that metadata.
• Windows port:
  • Implement anykey.c replacement.
  • hex output: Not all lines/columns are of the same length (as they are with real LAs).
  • VCD: All samplenumbers are 0 (instead of the proper samplecount).
  • OLS, gnuplot: Hangs on MinGW for some reasons (not sure if related).

Before 1.0

• all output modules should use GString API instead of estimating output size
• VCD input modules
• OLS format input module

Future

• udev:
  • Make udev optional, only build MSO driver if it's available
  • have OLS driver use udev if available, fall back to serial port probing otherwise
  • Find alternative to udev for windows and macos
• Fix/workaround libusb 1.0 Windows port issues:
  • Device renumeration not yet supported (needed for FX2 based LAs)
  • File descriptor / socket based polling not supported in Windows. Workaround (short-term): Use a thread in sigrok.
• Make sure all optional components are really optional in the build system:
  • Only require Python if the users wants protocol decoders, the rest should also build/compile/run fine without Python installed.
• sigrok uses uint64_t as an internal datatype to represent a sample, limiting the number of probes on supported hardware to 64. But high-end logic analyzers can have hundreds of probes. A solution would be to switch to either a roll-our-own byte array type, or use GMP. In any case, the overhead of switching over shouldn't be too bad: the filter code and frontend datafeed callback functions will need to use it, but hardware drivers should have enough with a couple of lightweight wrappers.
• sr_errno:
  • Most functions should return SR_OK or SR_ERR_* (same for SRD_OK etc).
  • Most backend functions return status as an integer, which is SR_OK if all went well, or SR_ERR_* and similar if an error occurred.
  • However there is no way to pass any information back as to what went wrong — and this is important for user-friendliness.
  • Perhaps an error code is not enough; maybe something like sigrok_errno(errorcode, "unsupported device") is better.
• Clean up device-specific globals in hardware drivers, to properly permit multiple devices per driver: asix-sigma, demo (not relevant), link-mso19, openbench-logic-sniffer, saleae-logic, zeroplus-logic-cube
• Python bindings for libsigrok and libsigrokdecode.

Contributors wanted

• Add output for latex package tikz-timing.
• Add output for browser waveform viewer/editor written in javascript/JSON called WaveDrom.
• Linux distro packages for non-Debian distros.
• FreeBSD packages/ports.