Incorrect addresses only cause error return values instead of assertion.
ExhaustibleBlockDevice has working get/set_erase_cycle functions and an
array preventing programming without erase.
Fixed MBRBlockDevice partitioning function.
ARM microlib is not supported below features
- fflush(NULL) return `-1` instead `0`
- fread with size parameter "Zero".
- if file opened in append mode, file postion starts from the beginning.
In kvstore_init, prior to initializing the kvstore, erase the
underlying block storage device. This ensures that each test run
starts from a consistent state and avoids failures that can result
if a previous test run left the storage in an inconsistent state.
SPIFReducedBlockDevice parameters come from mbed_lib.json if not provided
explicitly.
Introduced an app config file for running filesystem tests with RSPIF
block device
SPIFBlockDevice parameters come from mbed_lib.json if not provided
explicitly.
Introduced an app config file for running filesystem tests with SPIF
modules
QSPIFBlockDevice parameters come from mbed_lib.json if not provided
explicitly.
Introduced an app config file for running filesystem tests with QSPIF
modules
Previous logic was allowing external storage to be tampered by setting
write-protected keys, so values could not be updated, but it was still
used by get().
TDBStore used to rely on Flash devices erase value.
This logic has been removed, and TDBStore can do the entire erase
logic itself, in case the given BlockDevice does not offer erase().
This relies on BlockDevice to properly return -1 in BlockDevice::get_erase_value().
Previous logic caused garbage collection to kick in, if the init() was
called on empty storage. This has effect of erasing areas twice, if both
areas were empty.
Re-write logic so that we erase areas only on garbage_collect() or reset().
The init() logic already chooses the active area, so no need to touch,
until keys are modified.
Removed also the is_erase_unit_erased() as this is working only on
FLASH devices, and TDBStore should be refactored to work on all storages.
Change the "reserved data" logic so that every time we erase and area,
the content of reserved data is then immediately copied to newly erased
area. This keeps two copies of the data.
When data is requested, return only if checksum is matching.
When data is written, only allow if BOTH checksums are incorrect, meaning
that areas are either corrupted or erased.
Only exception is TDBStore::reset() which erases all keys and reserved data.
Removed all logic that tried to detect, if reserved are was erased or
corrupted. Rely entirely on checksum.
Add moduletest for reserved data.
When using MbedCRC, init value must be non-reversed, regardless of
`reflect_data` or `reflect_out` settings. This means we need to reflect
the intermediate output before passing using it as the next init value.
(In GCC this ends up putting in two `RBIT` instructions back-to-back,
because it's implemented as assembler, so it doesn't know how to
optimise. In ARMC6, `__RBIT` is implemented as an intrinsic, so adding
this reflection cancels the existing reflection and makes the code
smaller).
* Make mbed_error use bitwise MbedCRC call rather than local
implementation.
* Remove use of POLY_32BIT_REV_ANSI from LittleFS.
* Move some MbedCRC instances closer to use - construction cost is
trivial, and visibility aids compiler optimisation.
Previously Greentea tests was not initialising its storage
before asking for bd->get_program_size(), causing FlashBlockDevice to
return zero. This caused both TDBStorage's to use zero for both
parameter to SlicingBlockDevice(bd, 0, 0), effetivaly both then
used same addresses for slice. This caused SecureStore tests
to fail, because writes to internal RBP storage overwrote keys
from external storage.
Fine-tune TDBStore sizes, so that all tests can fit into storage.
At least with LPC55S69's default TDBStore configuration it's
impossible to run storage Greentea tests without exhausting the
memory reserved for storing keys.
Fixes an issue where number of keys were removed based on number of
threads which didn't have anything to do with the test case.
Fixes an issue where number of keys were assumed to be constant
but variable number was used for configuration.
In case our are contains data from previous reset() or reset_area(),
we might end up in the situation where free space contains valid
key headers, but we have not erased that area yet. This can cause
failures if the deinit() and init() because new scan of that area
would continue as long as keys are found. This causes keys on the
not-yet-erased area to be included in the new instance of TDBStore.
To prevent this failure, check after each key-write that our free
space does not contain valid key headers. Also make sure that we
erase one program unit sector over the master record. If we erased
just the master record,first key might is still there, causing next
init() to find it. Extend erase area by one program unit, so that
build_ram_table() won't find any keys.
Previously it was 2 pages - 1kB - which isn't sufficient to store
Reserved Area and Master Record. Reserved are requires one page and Master
Record takes two pages. With 512B page size and having two areas, active and
inactive, the minimum size requirement becomes 2 areas * 3 pages = 3kB. That
isn't enough to store any keys though.
* Make mbed_error use bitwise MbedCRC call rather than local
implementation.
* Remove use of POLY_32BIT_REV_ANSI from LittleFS.
* Move some MbedCRC instances closer to use - construction cost is
trivial, and visibility aids compiler optimisation.
The addition of trace logging during greentea tests pushes the multithreaded
read-write test beyond the limits of the stack it allocates for its threads.
The increase of 128 bytes was chosen by experimentation.
_inc_set_handle is new'd in SecureStore::init(), then its members are
referenced in various functions without being explicitly initialized
first. These pre-existing values can confuse the SecureStore's internal
state and cause various undesired behavior.
* Change MBED_ASSERTS() to return valid error code, so that
checks are not bypassed on release builds.
* Fix starting address calculations so that "addr" parameter is always
relative to SlicingDevice and "_start" is only added when calls to
underlying storage block is made.
* Bypass BlockDevice:is_valid_*() to underlying block device.
Slicingblockdevice was just verifying addresses independently, without
verifying those from underlying block storage.
* Refactor some headers to use relative path from Mbed OS root.
* Refactor some data types to compile on 64bit machines.
* Refactor some debug traces to use mbed_trace.
- Enable FLASHIAP for all H7 boards
- Use "TDB_INTERNAL" for all H7 boards
- Define specific internal_base_address only for DISCO_H747I_CM7
(default address is the end of FLASH which is correct for other H7 boards)
- Correct GetSectorBase function with Dual Bank information
As of 722628be02, the "remainder" configuration
also uses the default location near the end of flash. Which makes the two tests
nearly identical with the exception that the "last two sectors" test correctly
handles parts with a low (possibly 1:1) erase size to program size ratio.
Therefore, change the "remainder" test to instead be a "default" test that uses
the tdb_internal_address/size values, so that it
a.) tests something meaningfully different and
b.) tests using the custom TDB address/size values if they are provided.
c.) functions correctly on devices where the default sector-based size computation
does not work (e.g. because of the low erase size to program size ratio)
and therefore a custom location and size has been specified.
The is_conf_tdb_internal variable is unused and therefore removed.
The QSPI spec allows alt to be any size that is a multiple of the
number of data lines. For example, Micron's N25Q128A uses only a
single alt cycle for all read modes (1, 2, or 4 bits depending on
how many data lines are in use).
Return value was ignored, and TDBStore:init() ended up in a
MBED_ERROR() phase after that.
TDBStore API was limited to allow returning of only two separate
errors, which may end up hiding the actual return value. Change
the documentation slightly to allow returning of original error
code from the underlying block device.
Fixes#11591
The default computation assumes that a flash sector is several times
larger than a flash page. On PSoC 6 targets this is not the case
(the two values are the same) so the computed size is too small.
This is a similar change to 1b1f14d36b,
but for devices which implement TDB in internal storage.
Michal Paszta
Pawel Zarembski
Rajkumar Kanagaraj
Anna Bridge
Kyle Kearney
Evelyne Donnaes
Kevin Bracey
Martin Kojtal
ccli8
Veijo Pesonen
Przemyslaw Stekiel
Seppo Takalo
amq
Matthew Macovsky
jeromecoutant
Janne Kiiskila
midd
Christopher Haster
Hugues Kamba
Roman Okhrimenko