An entropy source is required in order to use the PSA Crypto API. The
only devices Mbed OS knows are guaranteed by default to have an entropy
source are those devices with a TRNG. Don't enable the PSA Crypto API by
default for devices that Mbed OS can't know have an entropy source. This
avoids run-time errors when an entropy source is not present on these
targets.
Applications can add their own entropy source by place entropy into
their systems, implementing their own NV Seed read and write callbacks,
and then enabling the MBEDTLS_ENTROPY_NV_SEED configuration option to
notify the PSA Crypto implementation that an entropy source is present
and how to use it.
See https://os.mbed.com/docs/mbed-os/v5.11/porting/entropy-sources.html
for the background on why entropy is fundamental to system security and
how to inject entropy into systems that lack an on-board source of
entropy.
Enabled tickless mode for Sequana PSA M0 core code to allow it to enter
deep sleep mode. This fixes issue #9094 where tests were failing due to
M0 core not entering deep sleep mode, blocking the whole chip.
Fixed incorrect resource management on M0 core, which crashed tickless
mode.
Linker files for LPC11U68 and LPC1549 updated as Mbed OS memory model
1. LPC1549
Has multiple memory banks, 4K bank used for stack exclusively and 16K for Heap
Its is mbed 2 only target hence 4K for stack.
2. LPC11U68
Added Heap and Stack sections in linker files. Resolved build issues.
Port of NUC472/M487 crypto AC mgmt work to M2351:
1. Choose mutex to synchronize access to crypto non-SHA AC
2. Choose atomic flag to synchronize access to crypto SHA AC
1. Removed random i/o glitches occurring during device reconfiguration
2. Fixed hazardous reads occurring at the end of transfer resulting
in incorrect values being received
3. Added spi_free() function
4. Replaced default M0 image with a one ignoring i/o reservation. This is
a workaround for missing proper destructors in Mbed drivers and BlockDevice
tests failing on repeated initialization
Fixes issue #9620.
Add support for listing all the pins of one or more form factors.
This is in preparation for automated testing of the default form
factor.
This patch includes the following:
-A function to get a list of restricted pins which should not be
used for testing due to some caveat.
-The target config "default-form-factor" which can specify which form
factor should be tested
-Form factor information for the arduino form factor
Add the functions qspi_master_sclk_pinmap, qspi_master_ssel_pinmap and
qspi_master_data0_pinmap-qspi_master_data3_pinmap to all targets with
qspi support.
Add prebuilt WICED libraries for the PSoC 6 boards with WICED radios:
* TARGET_CY8CKIT_062_4343W
* TARGET_CY8CKIT_062_WIFI_BT
* TARGET_CY8CPROTO_062_4343W
* TARGET_CYW943012P6EVB_01
Add required extra labels to the PSoC 6 targets in targets.json:
(PSOC6_01/02 labels are used during the library compilation).
Add Cypress HCI driver implementation in TARGET_Cypress directory.
Update targets.json to enable CORDIO stack for Cypress PSoC 6 boards
with CYW43XXX radios with compatible HCI driver implementation:
CYW4343W and CYW43012.
Code generated for pioneer kits:
* CY8CKIT-062-4343W
* CY8CKIT-062-BLE
* CY8CKIT-WIFI-BT
Prototyping boards:
* CY8CPROTO-062-4343W
The source is generated with ModusToolbox Device Configurator.
The origin design.modus files used to produce the GeneratedSource
will be submitted in the consequent pull requests.
Martin Kojtal
Marcin Tomczyk
Cruz Monrreal
Teppo Järvelin
deepikabhavnani
Jaeden Amero
Cai
Leszek Rusinowicz
Oren Cohen
Fahim Alavi
ccli8
Alexander Zilberkant
Russ Butler
Anna Bridge
Volodymyr Medvid
Nir Sonnenschein