The current implementation of the SCPI DMM driver is conservative about
checking the device's being operational, but the *OPC? queries are found
in unfortunate locations. Run the OPC query right before running the
next "actual" command, not afterwards. And certainly not between sending
requests and potentially gathering responses in subsequent calls.
This commit does not change current behaviour, but improves maintenance
before pending commits.
The "get MQ" helper routine communicates SCPI responses and translates
them to internal "MQ and flag" values. Optionally return the MQ table
entry reference to callers, so they don't have to repeat the table
lookup when the function's default precision is required, or should
future "start acquisition" requests need to refer to the meter's current
function.
Supported SCPI DMM devices will differ in the set of options and whether
parameters can get queried or configured. Use a "generic" set of devopts
during scan and for simpler models, prepare support for other sets of
devopts for more complex models.
Implement the scpi-dmm driver in such a generic way that it could work
with several protocol variants and with differing models which happen to
use any of these protocol variants. Prepare a list of supported models
with their respective SCPI command set, set of DMM functions and their
precision.
Add support for Agilent 34405A. The ten functions of this device got
tested and are operational, in continuous mode as well as with sample
count or capture time limits. The driver can query the current meter's
function, can change the function, and can run acquisitions in either
the current mode or with a user specified function selection. There is
some potential for improvement: AUTO/MIN/MAX/HOLD indicators are not
supported by this implementation.
The SCPI protocol may communicate strings in quoted form, enclosed by a
matching pair of single or double quote characters, and occurances of
this very quote character within the string get doubled (escaped). Add a
common routine to undo the quotes.
Free the SCPI hardware info after successful model detection, too. Only
allocate the device instance when a supported model was found. Link the
device context earlier right after allocation, for easier verification.
The Fluke 45 probe routine tries to detect whether the serial port is
"in echo mode" (which already is questionable before the IDN query).
In the absence of a response, the library segfaults. Fix it.
==214948== 16 bytes in 1 blocks are definitely lost in loss record 161 of 6,440
==214948== at 0x4C2EE0B: malloc (vg_replace_malloc.c:299)
==214948== by 0x650F435: g_malloc (in /usr/lib64/libglib-2.0.so.0.5600.3)
==214948== by 0x6527056: g_slice_alloc (in /usr/lib64/libglib-2.0.so.0.5600.3)
==214948== by 0x65284B0: g_slist_copy_deep (in /usr/lib64/libglib-2.0.so.0.5600.3)
==214948== by 0x592BBA6: sr_session_dev_list (session.c:402)
==214948== by 0x56EF7B5: sigrok::Session::Session(std::shared_ptr<sigrok::Context>, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> >) (classes.cpp:932)
==214948== 16 bytes in 1 blocks are definitely lost in loss record 162 of 6,440
==214948== at 0x4C2EE0B: malloc (vg_replace_malloc.c:299)
==214948== by 0x650F435: g_malloc (in /usr/lib64/libglib-2.0.so.0.5600.3)
==214948== by 0x6527056: g_slice_alloc (in /usr/lib64/libglib-2.0.so.0.5600.3)
==214948== by 0x65284B0: g_slist_copy_deep (in /usr/lib64/libglib-2.0.so.0.5600.3)
==214948== by 0x592BBA6: sr_session_dev_list (session.c:402)
==214948== by 0x56F1EB1: sigrok::Session::devices() (classes.cpp:967)
Align the scaling items such that all numbers are aligned. Drop unneeded
"prefixes" for the 2nd display's tables, the main and sub displays already
have their individual tables which reside in their respective groups.
Add an "eevblog-121gw" subdriver entry for the EEVblog 121GW multimeter.
Use device dependent channel names instead of the default "P1" etc names.
It's assumed that the device's binary packet data is available at a COM
port. This means that an external BT to UART gateway is required until
BLE communication will be one of libsigrok's native connection types.
Introduce the dmm/eev121gw.c source file with parse routines for the
EEVblog 121GW meter's 19-bytes binary packets. Get the values and MQ
properties of the device's several displays (main, sub, bar) in several
individual parse calls.
This commit introduces initial support for the device. Some of the modes
and features are untested, as are some of the device's ranges.
Due to some SCPI command changes that Siglent made, the connection
failed due to the wrong commands being send to the device.
This might fix parts of bug #1242, though initial tests show that
further changes might be needed.
[Note: This commit consists of multiple squashed commits from
marchelh <marchelh@gmail.com> and various fixups and rebasing
operations by Uwe Hermann <uwe@hermann-uwe.de>]
Regular operation of serial DMM drivers optionally can dump packet bytes
after the intialization phase has synchronized to the stream. Failure to
synchronize to the stream left developers without a dump, which complicates
research what went wrong.
Do dump packet content while the serial_stream_detect() routine tries to
synchronize to the stream. Use the spew level since the dump occurs upon
every attempt, which translates to: every received byte until a valid
packet was seen (or the synchronization phase expired).
The previous implementation always dumped 23 data bytes for received
packets. This could result in truncated diagnostics information, and/or
access to invalid buffer content.
Rephrase the packet dump routine such that the specific meter's exact
packet length gets dumped, and use the common hex dump support code.
Introduce common support for hex dumps in the string util collection.
There are explicit allocation and release routines for the textual
representation of the data bytes, so that callers are free to chose
whether and how to decorate the dump and where to send the message.
Keep (part of) previous results around when the VCD input module gets
reset, and check the header of the next import against previous runs to
avoid issues in applications. This addresses the VCD specific part of
bug #1241, and resolves the remaining part of bug #1306.
Applications are not prepared to handle changes in the channel list
between multiple acquisitions from the same source (device drivers
or input modules). Introduce common helpers to compare channels and
channel lists.
There was the sr_channel_new() allocation routine, but releasing that
allocation was open-coded in call sites. Add the sr_channel_free()
routine for code re-use and consistency.
This addresses part of bug #1306. The reset() method of the VCD input
module was incomplete, and did not process new data upon second read.
Improve robustness and add missing reset instructions. Void invalid
pointers and avoid NULL dereferences in cleanup paths.
Example:
In file included from src/hardware/kecheng-kc-330b/protocol.h:26,
from src/hardware/kecheng-kc-330b/api.c:22:
src/hardware/kecheng-kc-330b/api.c: In function ‘config_list’:
src/libsigrok-internal.h:51:34: warning: division ‘sizeof (void *) / sizeof (void)’ does not compute the number of array elements [-Wsizeof-pointer-div]
#define ARRAY_SIZE(a) (sizeof(a) / sizeof((a)[0]))
^
src/libsigrok-internal.h:55:32: note: in expansion of macro ‘ARRAY_SIZE’
#define ARRAY_AND_SIZE(a) (a), ARRAY_SIZE(a)
^~~~~~~~~~
src/libsigrok-internal.h:964:43: note: in expansion of macro ‘ARRAY_AND_SIZE’
std_opts_config_list(key, data, sdi, cg, ARRAY_AND_SIZE(scanopts), \
^~~~~~~~~~~~~~
src/hardware/kecheng-kc-330b/api.c:296:10: note: in expansion of macro ‘STD_CONFIG_LIST’
return STD_CONFIG_LIST(key, data, sdi, cg, NULL, drvopts, devopts);
^~~~~~~~~~~~~~~
Default to the existing "P1" etc naming scheme for analog channels of
serial-dmm subdrivers. Add support for subdriver specific channel names
(which can reference the channel number if they desire). This is useful
for devices with multiple displays, or special purpose devices where
other names than P1 can better reflect the channel's nature.
Commit 556a926d43 introduced support for multiple displays in
subdrivers of serial-dmm, but also changed user visible channel numbers
to start from 0. Restore the previous behaviour, start counting from 1
which users may perceive as more natural (serial-dmm used to start at P1
in the past, scopes start with CH1 as well).