This does the basic divemode and setpoint parsing for the EON Steel, and
gets the CCR download right in the big picture.
The cylinder information is still confusing and incorrect, but this is a
big step in the right direction.
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
.. every time I look for a new feature I add debug code to print out all
the descriptors. So let's just do it once and for all.
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
Mares Darwin compatible devices support a nitrox mode. The nitrogen
percentage should only be taken into account when the dive mode is set
to nitrox, because the last used value remains in place for air dives.
The devinfo event with the device serial number is required for the
fingerprint feature. Without this event, applications won't be able to
load (or save) the correct fingerprint. All necessary information is
already available in the initial handshake packet.
A new buffer is allocated for each dive, but only the last one is freed.
Since the code is already prepared to simply re-use the same buffer,
there is no need to allocate those extra buffers.
Just like the D4i and D6i, the new header is a few bytes larger. The
correct variant can again be detected by means of the logbook id tag at
the start of the header.
After adding support for serial number on dc parsers on
libdivecomputer's Subsurface branch, we need to add the serial parameter
to parser calls as well. Just using 0...
Signed-off-by: Miika Turkia <miika.turkia@gmail.com>
Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
Libdivecomputer always uses metric units internally. But when reverse
engineering a device that stores everything using imperial units, it's
very convenient to be able to switch the output to imperial units too.
The Shearwater devices support adding, removing or editing gas mixes
during the dive. The pre-defined gas mixes available in the opening and
closing block are only a snapshot of the configuration at the start and
at the end of the dive. Thus by editing the gas mixes during the dive
it's possible to switch to a gas mix that is not present in the opening
(or even the closing block). The parser doesn't support that.
To avoid this problem, we now collect the available gas mixes from the
sample data. As a side effect we only return those gas mixes that are
effectively used during the dive.
One of the newer D4i and D6i firmware versions (for example v1.5.9),
introduces a new variant of the data format. The new dive header is 8
bytes larger. The correct variant can be detected by means of the
logbook id tag at the start of the header.
By reading the hardware descriptor immediately after entering download
or service mode, we can identify the specific model and adapt to minor
differences in the communication protocol.
The Shearwater devices support adding, removing or editing gas mixes
during the dive. The pre-defined gas mixes available in the opening and
closing block are only a snapshot of the configuration at the start and
at the end of the dive. Thus by editing the gas mixes during the dive
it's possible to switch to a gas mix that is not present in the opening
(or even the closing block). The parser doesn't support that.
To avoid this problem, we now collect the available gas mixes from the
sample data. As a side effect we only return those gas mixes that are
effectively used during the dive.
One of the newer D4i and D6i firmware versions (for example v1.5.9),
introduces a new variant of the data format. The new dive header is 8
bytes larger. The correct variant can be detected by means of the
logbook id tag at the start of the header.
By reading the hardware descriptor immediately after entering download
or service mode, we can identify the specific model and adapt to minor
differences in the communication protocol.
