Currently we silently ignore when the original component is not found
in a hope we can provide at least some meaningful hint. As it turned
out it's not true. Instead of providing misleading hint, just return
error. This adds several checks for situations, which should not happen,
but when they do it should be easier to identify the root cause of the
problem.
For example when hint module received malformed output with extra new
lines, e.g. caused by a bug in RunTool, it wrongly reported the original
component as source component.
This should also fix the tests on Windows.
Signed-off-by: Frantisek Hrbata <frantisek.hrbata@espressif.com>
Currently the component_requirements hint module does not work
as expected if the component list for a project is trimmed down.
With the new "all_component_info" dictionary info in project_description.json,
the module can produce hints even if cmake's COMPONENTS variable is
set.
Signed-off-by: Frantisek Hrbata <frantisek.hrbata@espressif.com>
Add new "all_component_info" dictionary into the
project_description.json file. It contains information about all
registered components presented in the __COMPONENT_TARGETS list.
Since components in this list are not fully evaluated, because only the first
stage of cmakefiles processing is done, it does not contain the same information
as the "build_component_info" dictionary. The "type", "file" and "sources" variables
are missing.
Most of the properties are already attached to the component target, so
this only adds INCLUDE_DIRS property to the target during the first cmakefiles
processing stage.
The "all_component_info" dict is generated in a separate function, even
though the original function for "build_component_info" could be
adjusted. This introduces a little bit of boilerplate, but keeps it
logically separated and probably easier if we want to extend it in the
future.
Signed-off-by: Frantisek Hrbata <frantisek.hrbata@espressif.com>
If there is a component(child) within a component(parent), like for test_apps, the parent
component may be wrongly identified as source component for the failed include. This may
lead to a false bug report if the parent component has component, which provides the missing
header, in requirements.
Fix this by looking for the longest matching source component directory.
Suggested-by: Ivan Grokhotkov <ivan@espressif.com>
Signed-off-by: Frantisek Hrbata <frantisek.hrbata@espressif.com>
1. Fixed BLE 2M phy TX problem causing by phy_wifi_enable_set() on ESP32-C3 and ESP32-S3
2. Fixed BLE CCA bug on ESP32-C2
3. Fixed wifi boot bug at low temp on ESP32-C6
4. Fixed BLE and WIFI could not receive packets after entering light sleep for a long time on ESP32-C3, ESP32-S3, ESP32-C2 and ESP32-C6
Currently RunTool reads command's output with asyncio read, which
returns bytes. This is decoded into python's string and the output already
contains OS specific line endings, which on Windows is CRLF. Problem is
that the command output is saved by using python's text stream/file,
which replaces LF, native python's line ending, with OS specific line ending.
On Windows, and in this particular case, the CRLF from the command output is
translated into CRCRLF and saved in the commands output file. When this
file is read in again, e.g. for hint modules, the CRCRLF is replaced
with LFLF. Again the file is open as text file. Meaning a new emply line
is added.
Fix this by opening the output file with "newline=''", which prevents
this translation. We already have the OS specific line ending in the
command's output.
Signed-off-by: Frantisek Hrbata <frantisek.hrbata@espressif.com>
For C6/H2/P4/C5, there is no SoC specific debug range. Instead the same
address range is part of CPU Subsystem range which contains debug mode
specific code and interrupt config registers (CLINT, PLIC etc.).
For now the PMP entry is provided with RWX permission for both machine
and user mode but we can save this entry and allow the access to only
machine mode for this range.
For P4/C5 case, this PMP entry can have RW permission as the debug mode
specific code is not present in this memory range.
After ets_hmac_disable(), invalidating JTAG register process is ineffective.
So, added call to enable hmac begore invalidating JTAG REG.
And similarly disabled it after invalidation.
