Code can now include <rtos/alloc.h> and uses thinly wrapped Zephyr
native for most uses. Wrapping can be removed over time.
Signed-off-by: Liam Girdwood <liam.r.girdwood@linux.intel.com>
fix point math power function having negative and positive values
of base and exponent as function argument. power_int32() support
only integer base and exponential value and it does not support
fractional values for base and exponent.
fix point math base 2 logarithm function using a short lookup
tables
Signed-off-by: ShriramShastry <malladi.sastry@intel.com>
This patch adds for the IIR equalized component a test with
comparison 100 ms of Octave generated output to output of the
component. The test signal is a full scale chirp signal. The
IIR response is both amplifying and attenuating to trigger as
much as possible issues with internal overflows.
All test data was generated by Octave script
cmocka_data_eq_iir.m. Re-run of script updates the used header
files the in cmocka tests directory.
Signed-off-by: Seppo Ingalsuo <seppo.ingalsuo@linux.intel.com>
Align to the new heap memory map and allocator, smaller SYSTEM and
RUNTIME zones are used on apollolake now.
Signed-off-by: Keyon Jie <yang.jie@linux.intel.com>
Several files had multiple blank lines even before the removal of
platform_shared_commit(). Fix them with "cat -s"
Signed-off-by: Liam Girdwood <liam.r.girdwood@linux.intel.com>
Shared memory shouldn't be connected with any cpu core,
because in general such an resource may be shared between
any number of arbitrary chosen cores.
Connecting it with with core 0 heap, leads to unbalanced
heap usage between core 0 and secondary cores.
Moreover operations like alloc and free may be called from
two different cores, what's not possible in current implementation.
Such an situation is especially possibly during handling resources
describing hardware components, eg. DAI or DMA, from two different
cores.
Moving shared memory management to dedicated heap, allows to easily
use another memory region, what may be needed to fulfill platform
specific demands.
Signed-off-by: Karol Trzcinski <karolx.trzcinski@linux.intel.com>
Functions written with metaprogramming are hard to read and debug,
so newly introduced version should be easier to understand for
new developers. Moreover introduced version is more generic and
compact because of usage single logging function implementation
regardless of given parameters number and usage of atomic or
mbox version.
There is no longer a need to heavy test logging function under
UT with different number of arguments, because of it singular
implementation.
Signed-off-by: Karol Trzcinski <karolx.trzcinski@linux.intel.com>
New trace entry parameter is defined: uuid of the source.
Technically, this is an address of uuid entry linked
inside a special section in elf.
Has_ids is removed from the static log entry since eventually
all entries will use uuids and -1 detection is good enough
detection for those who still do not provide ids.
Note: both changes are done in a single patch to avoid two
major dbg-abi version bumps.
Signed-off-by: Marcin Maka <marcin.maka@linux.intel.com>
Moves headers to dedicated directories in sof/include,
arch/include and platform/include. File tree was too flat,
so some of the files has been moved.
Signed-off-by: Tomasz Lauda <tomasz.lauda@linux.intel.com>
This will optimize memory usage and introduces two significant optimizations:
> Separate the memory (heaps, stack) by cores so if we will turn off a specific core we can also turn off all memory of this core.
> Remove fixed defines and gaps, previously stack was at fixed position: end of memory and buffer heap was everything between stack and fw. Now everything will be packed at sof_fw memory segment and takes only this memory which is really needed, everything else we can turn off.
Changelog:
BSS section now includes heaps and stack
Removed many heap fixed position defines
Removed gap before fw text section
memmap init is using real linker positions for heaps
Temporary stack for boot_ldr placed in heap_hp_buffer (safe)
sof fw max_size and segment limited to memory configured by memory banks count
Using new macro to stack init per core
Stack is no longer a one big block for all cores (core_count*stack_size)
System_runtime_heap and system_heap are no longer a one big block for all cores
For suecreek memory it will also introduce similar changes previously introduced
in other platforms
(One shared memory block SOF_FW for SOF_TEXT, SOF_DATA and SOF_BSS sections
Moved fw_ready near to .rodata and .data)
Memory layout for every slave core aligned to hw memory bank:
--align to memory bank--
system_heap
system_runtime_heap
stack
--align to memory bank--
next slave core..
Similar layout applies to master core
Signed-off-by: Adrian Bonislawski <adrian.bonislawski@linux.intel.com>
Fix some build issues with cmocka for host test bench target so that
cmocka UTs can run native on host architecture. This makes it easy for
users to update UTs when APIs change as they dont need architecture
specific version of cmocka.
Signed-off-by: Liam Girdwood <liam.r.girdwood@linux.intel.com>
Added macro functions to make repetitive, nearly identical functions more maintainable via metaprogramming. They generate code in pre-compile, conceptually similar to C++17 if-constexpr. sof/trace, host/trace: rewrote _trace_event/d+ functions using preproc.h. test/cmocka/include/test_group_generator: rewrote macros to not conflict with new ones. Added unit tests to check whether more advanced and less obvious macros do in fact work.
Signed-off-by: Michal Jerzy Wierzbicki <michalx.wierzbicki@linux.intel.com>