Age | Commit message (Collapse) | Author |
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Slightly rearrange some of the methods which are involved in UART frame
inspection. Use a consistent sequence of steps: Grab the signal's
current value, accumulate and process the information, emit respective
annotations, and advance to the next stage in the UART frame inspection.
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After the decode() method got adjusted to call wait() with custom made
conditions and to check .matched[] before inspecting samples, the check
whether a bit time's sample point was reached has become obsolete.
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Since either of the UART signals (RX, TX) is optional, and in the
absence of Decoder.wait() conditions that "will never match", we cannot
construct a constant layout. Instead we need to explicitly keep track of
which item in the list of wait conditions corresponds to which signal.
Once the index in the list of wait conditions is known, inspection of
samples can depend on the Decoder.matched[] attribute. Before this
change, redundant reached_bit() checks kept us from processing samples
that should not have been inspected. Tests pass before and after this
very commit.
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Factor out the logic which inspects samples that were provided by the
PD version 3 query API, and dispatches their processing depending on
the progress of UART frame inspection. "Unroll" a loop over the RX and
TX signals.
This commit replaces some complicated variable assignments by easier to
verify invocations.
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Adjust the UART protocol decoder, to make use of the query based API.
Have edges detected and unrelated samples skipped by common code.
This implementation keeps some redundancy in place (like checking for
having reached specific sample numbers, while the backend managed that
for us). This approach reduces the diff and shall simplify review.
Only some common checks in decode() were moved to the start of the
routine, outside of the sample inspection loop.
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Rephrase the bit slot index calculation for UART frames such that it
becomes more apparent whether a start bit is involved or whether an
array index needs adjustment due to Python range semantics.
This shall improve readability, and reduce the probability of off-by-one
errors during maintenance.
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When the UART frame does not contain a parity bit, then immediately
advance to reception of stop bits after all data bits were received.
This eliminates the necessity to run the parity check routine when
parity does not apply in the first place. Without this change, some
"dummy" sample needs to get inspected for correct operation of the
state machine.
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This is currently just a cosmetic change, but will make the conversion
to the PDv3 API slightly easier and more readable.
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Some PDs were using a temporary workaround for (as it turned out) a
refcounting issue that was fixed in 066fbafdc3ba734a73b5f7fcfa1dbae67ddebf8a.
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This implementation technically uses v3 API calls, but has yet to come
up with appropriate wait() conditions, to spend less time in the decoder
and have more tedious work done in the backend.
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Remove the FSF postal address as it might change (it did in the past).
Reference the gnu.org website instead which is more stable.
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Switch to the v3 decoder API: The decode() methods takes no arguments,
instead it calls wait() and has common code find edges on input signals.
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Introduce a decoder for Atmel's proprietary programming and debugging
interface which got introduced with ATxmega chips. This implementation
supports the UART style physical (two wires PDI_CLK and PDI_DATA).
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This is not entirely correct yet, will be fixed later.
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