Age | Commit message (Collapse) | Author |
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This fixes bug #154.
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This (unimplemented so far) option is not needed at all, since the
decoder will be able to detect 7/10 bit slave addresses automatically,
the user doesn't have to specify slave address sizes.
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The output format of the slave address is now a PD option. It can be
"shifted" or "unshifted", i.e. bit 0 (which contains a read/write
marker) is either shifted out or not, i.e., the slave address is
displayed as 8bit or 7bit number (or 11bit/10bit number for 10bit slave
addresses).
Data bytes (not address bytes) are always shown as 8bit values, of course.
Add annotation types for the individual I2C components such as
start conditions, stop conditions, ACK/NACK, address read/writes,
data read/writes and so on.
This fixes bug #151.
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Add a short help text for the PD and move the OUTPUT_PROTO docs to pd.py
since they're not meant for the user too see.
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The CS# pin is now optional, it can either be supplied to the PD or not.
If it _is_ supplied, reset the PD state every time it changes. This has
the effect that "incomplete" SPI frames and those where CS# is not
asserted are ignored and not decoded.
This fixes bug #152.
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For now SPI gets the following annotation types:
- MISO/MOSI SPI data
- MISO SPI data
- MOSI SPI data
(i.e. you can see either MISO, or MOSI, or both; the latter is most
useful for CLI usage)
Also, show the hex values as e.g. F5 (upper-case letters, no "0x" prefix).
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This now makes the SPI decoder suitable for use in GUIs.
This fixes bug #150.
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The data format can be specified via the PD's "format" option now, it is
no longer an annotation type.
Also, add and use two annotation types: "Data" and "Warnings".
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This allows GUIs to show different fields in different colors.
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There is one annotation type for the RX side of the communication/data
output now, and another one for the TX side.
This allows GUIs to show them in two different traces, and/or show them in
the same trace but with different colors.
This also has the additional benefit that it is clear which databyte
belongs to which direction. Previously the annotations had to look like
"RX: 5F" or "TX: 11001011", but the "RX: " and "TX: " prefixes are now
no longer required, making the GUI traces (and CLI output too) much more
readable.
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Until now you could get e.g. "d" or "df" as hex output from the UART PD.
This will now be a common-length "0D" and "DF". When all data byte
annotations are of the same lengths the readability in GUI traces is a lot
better. Also, hardcode hex characters to be upper-case (for now).
The same applies to oct ("021" instead of "21") and bin output
("00001001" instead of "1001").
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There are now extra annotation types for data, start/stop/parity bits and
for warnings (e.g. "invalid parity" or "frame error" or such).
This allows users to select which of the annotation types they want to
see (they can select one/multiple/all annotations as needed), and also
allows them to use different visual representation for the different
annotation types in GUIs (e.g. different colors for the blobs, different
fonts, rectangle/round/elliptic blobs, and so on; how the annotation
blobs are displayed is entirely up to the GUI and its configuration by
the user).
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This is information that a user (when viewing PD info in a GUI/CLI)
should not see (and doesn't care to see), it is meant for developers only.
Thus, make it a comment in pd.py instead.
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Move the full details of the protocol to the wiki, the docs in the PD
itself should only be a short description and/or a collection of notes
that could be useful for a user in a GUI (or CLI) to decide which
PD to select, which options to set how, what PDs to stack where, and so on.
The full protocol description (including photos, examples, ...) is here:
http://sigrok.org/wiki/Protocol_decoder:Uart
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Until now we (ab)used annotation types for outputting the same data
(numbers) in different formats (hex, ascii, binary, and so on).
Turn this into a proper PD option, since annotation types should rather be
used for different _types_ of annotations (e.g. "CRC", "Stop bit",
"Preamble", "Sequence counter", "Warnings", and similar things), not
different _formats_ for the same annotation type.
Old sigrok-cli invocation for hex output:
sigrok-cli ... -P uart:rx=0:tx=1 -A uart=hex
New:
sigrok-cli ... -P uart:rx=0:tx=1:format=hex
In GUIs there is now a new "Data format" option where the user can
select the output format for UART data (default is 'ascii').
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The short(est) annotations for "Stop bit" and "Parity bit" have both
been "P" until now, which is confusing for users (on certain zoom levels
in GUIs). Use "T" for stop bits now instead.
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Previously the output was 0x41 or 0o101 or 0b1000001, now it is 41 or
101 or 1000001. We drop these prefixes, since they decrease the readability
of the PD output (especially when displayed in GUIs) and are not needed
anyway since the user knowingly selected the number format before running
the respective PD.
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Assume that the initial pin state is 1/high for the RX and TX lines.
This fixes the decode when an LA triggers on e.g. TX=low (the first
sample would be low in that case, so the falling edge for the start bit
would be missed by the decoder).
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This now makes the UART decoder suitable for use in GUIs.
This fixes bug #148.
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Supply long, middle, and short versions for most annotations, so that
GUIs can show nicely readable and useful annotations on various zoom
levels.
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With this change pretty much all CAN annotations that are currently
output should have the correct values, including single-bit and
multi-bit fields, standard and extended CAN frames, and so on.
This fixes #146.
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Until now the I2C PD was basically ignoring the very first sample, and
using that as the initial 'oldscl'/'oldsda' value.
However, if your logic analyzers trigger on, say, SDA=low that will
result in a file where the first sample is really important since it
is the one which the PD will need to know that there's a falling edge
on SDA.
Thus, assume both SCL and SDA are high/1 when the PD starts. This is
a good assumption since both pins have pullups on them in practice
and are thus high/1 when the bus is idle.
Later on we might want to have config options to let the PD assume
other states of SDA/SCL initially.
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Dallas DS1307 RTC protocol decoder that works stacked
with the I2C PD. Based on the rtc8564 protocol decoder.
Signed-off-by: Matt Ranostay <mranostay@gmail.com>
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The Python module name is determined by the directory name (e.g. dcf77),
the *.py file names in that directory don't matter and can be kept
consistent.
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