If single thread builds are not supported by the
architecture, the MULTITHREADING option should be
prompt-less to block any modifications to it. We
also introduce an explicit ARCH-level Kconfig that
reflects whether the ARCH is capable of single-thread
Zephyr builds.
Signed-off-by: Ioannis Glaropoulos <Ioannis.Glaropoulos@nordicsemi.no>
The cache API currently shipped in Zephyr is assuming that the cache
controller is always on-core thus managed at the arch level. This is not
always the case because many SoCs rely on external cache controllers as
a peripheral external to the core (for example PL310 cache controller
and the L2Cxxx family). In some cases you also want a single driver to
control a whole set of cache controllers.
Rework the cache code introducing support for external cache
controllers.
Signed-off-by: Carlo Caione <ccaione@baylibre.com>
On RISC-V 64-bit, GCC complains about undefined reference
to 'ffs' via __builtin_ffs(). So implement a brute force
way to do it. Once the toolchain has __builtin_ffs(),
this can be reverted.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
CONFIG_FPU: The architecture dependency list is redundant.
Having CPU_HAS_FPU being selected by those archs as a dependency
is sufficient and cleaner.
CONFIG_FPU_SHARING: The default should always be y to be on the safe
side here, but as a compromise for not affecting existing config, let's
move the default selection local to those configs that care, again to
avoid a growing list of conditionals here. Adjust the help text which
applies to more than just Cortex-M.
Signed-off-by: Nicolas Pitre <npitre@baylibre.com>
Due to the use of gperf to generate hash table for kobjects,
the addresses of these kobjects cannot change during the last
few phases of linking (especially between zephyr_prebuilt.elf
and zephyr.elf). Because of this, the gperf generated data
needs to be placed at the end of memory to avoid pushing symbols
around in memory. This prevents moving these generated blocks
to earlier sections, for example, pinned data section needed
for demand paging. So create placeholders for use in
intermediate linking to reserve space for these generated blocks.
Due to uncertainty on the size of these blocks, more space is
being reserved which could result in wasted space. Though, this
retains the use of hash table for faster lookup.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
This adds bits to the paging timing histogram collection routines
so they can use timing functions to collect execution time data.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
The variable tsc_freq is not accessible in user thread
and is thus preventing user threads to convert cycles to ns.
So make tsc_freq available globally in default memory
domain so conversion is possible.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
This adds the bits to record execution time of eviction selection,
and backing store page-in/page-out in histograms.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
This adds more bits to gather statistics on demand paging,
e.g. clean vs dirty pages evicted, # page faults with
IRQ locked/unlocked, etc.
Also extends this to gather per-thread demand paging
statistics.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
Xtensa cores are highly configurable so each SoC may not have
the needed instructions for the hardware assisted atomic
operations. So instead of selecting the arch-specific atomic
operations kconfig, do a "imply" instead. So SoC or board
configs can disable this.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
Split ARM and ARM64 architectures.
Details:
- CONFIG_ARM64 is decoupled from CONFIG_ARM (not a subset anymore)
- Arch and include AArch64 files are in a dedicated directory
(arch/arm64 and include/arch/arm64)
- AArch64 boards and SoC are moved to soc/arm64 and boards/arm64
- AArch64-specific DTS files are moved to dts/arm64
- The A72 support for the bcm_vk/viper board is moved in the
boards/bcm_vk/viper directory
Signed-off-by: Carlo Caione <ccaione@baylibre.com>
The fatal log now contains
- Trap type in human readable representation
- Integer registers visible to the program when trap was taken
- Special register values such as PC and PSR
- Backtrace with PC and SP
If CONFIG_EXTRA_EXCEPTION_INFO is enabled, then all the above is
logged. If not, only the special registers are logged.
The format is inspired by the GRMON debug monitor and TSIM simulator.
A quick guide on how to use the values is in fatal.c.
It now looks like this:
E: tt = 0x02, illegal_instruction
E:
E: INS LOCALS OUTS GLOBALS
E: 0: 00000000 f3900fc0 40007c50 00000000
E: 1: 00000000 40004bf0 40008d30 40008c00
E: 2: 00000000 40004bf4 40008000 00000003
E: 3: 40009158 00000000 40009000 00000002
E: 4: 40008fa8 40003c00 40008fa8 00000008
E: 5: 40009000 f3400fc0 00000000 00000080
E: 6: 4000a1f8 40000050 4000a190 00000000
E: 7: 40002308 00000000 40001fb8 000000c1
E:
E: psr: f30000c7 wim: 00000008 tbr: 40000020 y: 00000000
E: pc: 4000a1f4 npc: 4000a1f8
E:
E: pc sp
E: #0 4000a1f4 4000a190
E: #1 40002308 4000a1f8
E: #2 40003b24 4000a258
Signed-off-by: Martin Åberg <martin.aberg@gaisler.com>
We are setting CONFIG_GEN_PRIV_STACKS when AArch64 actually uses a
statically allocated privileged stack.
This error was not captured by the tests because we only verify whether
a read/write to a privileged stack is failing, but it can fail for a lot
of reasons including when the pointer to the privileged stack is not
initialized at all, like in this case.
With this patch we deselect CONFIG_GEN_PRIV_STACKS and we fix the
mem_protect/userspace test to correctly probe the privileged stack.
Signed-off-by: Carlo Caione <ccaione@baylibre.com>
There actually is no need for a separate kconfig here, as
the kernel VM address and SRAM address can be used to figure
out if the kernel is linked in virtual address space.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
The xtensa atomics layer was written with hand-coded assembly that had
to be called as functions. That's needlessly slow, given that the low
level primitives are a two-instruction sequence. Ideally the compiler
should see this as an inline to permit it to better optimize around
the needed barriers.
There was also a bug with the atomic_cas function, which had a loop
internally instead of returning the old value synchronously on a
failed swap. That's benign right now because our existing spin lock
does nothing but retry it in a tight loop anyway, but it's incorrect
per spec and would have caused a contention hang with more elaborate
algorithms (for example a spinlock with backoff semantics).
Remove the old implementation and replace with a much smaller inline C
one based on just two assembly primitives.
This patch also contains a little bit of refactoring to address the
scheme has been split out into a separate header for each, and the
ATOMIC_OPERATIONS_CUSTOM kconfig has been renamed to
ATOMIC_OPERATIONS_ARCH to better capture what it means.
Signed-off-by: Andy Ross <andrew.j.ross@intel.com>
This adds a new kconfig CONFIG_SRAM_OFFSET to specify the offset
from beginning of SRAM where the kernel begins. On x86 and
PC compatible platforms, the first 1MB of RAM is reserved and
Zephyr should not link anything there. However, this 1MB still
needs to be mapped by the MMU to access various platform related
information. CONFIG_SRAM_OFFSET serves similar function as
CONFIG_KERNEL_VM_OFFSET and is needed for proper phys/virt
address translations.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
For applications that make use of the FPU in cortex m,
we enforce the FPU sharing registers mode, because the
compiler, under certain optimization regimes, may use
FP instructions and create FP context in any thread,
so the unshared registers mode is not practically
supported.
In addition to that we force FPU_SHARING to depend on
MULTITHREADING, as FPU sharing mode does not make sense
outside the normal multi-threaded builds.
Signed-off-by: Ioannis Glaropoulos <Ioannis.Glaropoulos@nordicsemi.no>
Some arches like x86 need all memory mapped so that they can
fetch information placed arbitrarily by firmware, like ACPI
tables.
Ensure that if this is the case, the kernel won't accidentally
clobber it by thinking the relevant virtual memory is unused.
Otherwise this has no effect on page frame management.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
All arch_ APIs and macros are implemented, and the page fault
handling code will call into the core kernel.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
We no longer use a page pool to draw memory pages when doing
memory map operations. We now preallocate the entire virtual
address space so no allocations are ever necessary when mapping
memory.
We still need memory to clone page tables, but this is now
expressed by a new Kconfig X86_MAX_ADDITIONAL_MEM_DOMAINS
which has much clearer semantics than specifying the number
of pages in the pool.
The default address space size is now 8MB, but this can be
tuned by the application.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
This is only needed if the base address of SRAM doesn't
have the same alignment as the base address of the virtual
address space.
Fix the calculations on X86 where this is the case.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
All arch_ APIs and macros are implemented, and the page fault
handling code will call into the core kernel.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
We no longer use a page pool to draw memory pages when doing
memory map operations. We now preallocate the entire virtual
address space so no allocations are ever necessary when mapping
memory.
We still need memory to clone page tables, but this is now
expressed by a new Kconfig X86_MAX_ADDITIONAL_MEM_DOMAINS
which has much clearer semantics than specifying the number
of pages in the pool.
The default address space size is now 8MB, but this can be
tuned by the application.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
This is only needed if the base address of SRAM doesn't
have the same alignment as the base address of the virtual
address space.
Fix the calculations on X86 where this is the case.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
The only two supported operations for data caches in the cache framework
are currently arch_dcache_flush() and arch_dcache_invd().
This is quite restrictive because for some architectures we also want to
control i-cache and in general we want a finer control over what can be
flushed, invalidated or cleaned. To address these needs this patch
expands the set of operations that can be performed on data and
instruction caches, adding hooks for the operations on the whole cache,
a specific level or a specific address range.
Signed-off-by: Carlo Caione <ccaione@baylibre.com>
The new APIs are not only dealing with cache flushing. Rename the
Kconfig symbol to CACHE_MANAGEMENT to better reflect this change.
Signed-off-by: Carlo Caione <ccaione@baylibre.com>
The kconfig options to configure the cache flushing framework are
currently living in the arch-specific kconfigs of ARC and X86 (32-bit)
architectures even though these are defining the same things.
Move the common symbols in one place accessible by all the architectures
and create a menu for those.
Leave the default values in the arch-specific locations.
Signed-off-by: Carlo Caione <ccaione@baylibre.com>
The original idea of using a custom switch to main thread
function is to make sure the buffer to save floating point
registers are aligned correctly or else exception would be
raised when saving/restoring those registers. Since
the struct of the buffer is defined with alignment hint
to toolchain, the alignment will be enforced by toolchain
as long as the k_thread struct variable is a dedicated,
declared variable. So there is no need for the custom
switch to main thread function anymore.
This also allows the stack usage calculation of
the interrupt stack to function properly as the end of
the interrupt stack is not being used for the dummy
thread anymore.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
- Remove SYS_ prefix
- shorten POWER_MANAGEMENT to just PM
- DEVICE_POWER_MANAGEMENT -> PM_DEVICE
and use PM_ as the prefix for all PM related Kconfigs
Signed-off-by: Anas Nashif <anas.nashif@intel.com>
This change adds full shared floating point support for the SPARC
architecture.
All SPARC floating point registers are scratch registers with respect
to function call boundaries. That means we only have to save floating
point registers when switching threads in ISR. The registers are
stored to the corresponding thread stack.
FPU is disabled when calling ISR. Any attempt to use FPU in ISR
will generate the fp_disabled trap which causes Zephyr fatal error.
- This commit adds no new thread state.
- All FPU contest save/restore is synchronous and lazy FPU context
switch is not implemented.
Signed-off-by: Martin Åberg <martin.aberg@gaisler.com>
Adds a new CONFIG_MPU which is set if an MPU is enabled. This
is a menuconfig will some MPU-specific options moved
under it.
MEMORY_PROTECTION and SRAM_REGION_PERMISSIONS have been merged.
This configuration depends on an MMU or MPU. The protection
test is updated accordingly.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
Adds the necessary bits to initialize TLS in the stack
area and sets up CPU registers during context switch. Register g7 is
used to point to the thread data. Thread data is accessed with negative
offsets from g7.
Signed-off-by: Martin Åberg <martin.aberg@gaisler.com>
SPARC is an open and royalty free processor architecture.
This commit provides SPARC architecture support to Zephyr. It is
compatible with the SPARC V8 specification and the SPARC ABI and is
independent of processor implementation.
Functionality specific to SPRAC processor implementations should
go in soc/sparc. One example is the LEON3 SOC which is part of this
patch set.
The architecture port is fully SPARC ABI compatible, including trap
handlers and interrupt context.
Number of implemented register windows can be configured.
Some SPARC V8 processors borrow the CASA (compare-and-swap) atomic
instructions from SPARC V9. An option has been defined in the
architecture port to forward the corresponding code-generation option
to the compiler.
Stack size related config options have been defined in sparc/Kconfig
to match the SPARC ABI.
Co-authored-by: Nikolaus Huber <nikolaus.huber.melk@gmail.com>
Signed-off-by: Martin Åberg <martin.aberg@gaisler.com>
Some platforms may have multiple RAM regions which are
dis-continuous in the physical memory map. We really want
these to be in a continuous virtual region, and we need to
stop assuming that there is just one SRAM region that is
identity-mapped.
We no longer use CONFIG_SRAM_BASE_ADDRESS and CONFIG_SRAM_SIZE
as the bounds of kernel RAM, and no longer assume in the core
kernel that these are identity mapped at boot.
Two new Kconfigs, CONFIG_KERNEL_VM_BASE and
CONFIG_KERNEL_RAM_SIZE now indicate the bounds of this region
in virtual memory.
We are currently only memory-mapping physical device driver
MMIO regions so we do not need virtual-to-physical calculations
to re-map RAM yet. When the time comes an architecture interface
will be defined for this.
Platforms which just have one RAM region may continue to
identity-map it.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
We provide an option for low-memory systems to use a single set
of page tables for all threads. This is only supported if
KPTI and SMP are disabled. This configuration saves a considerable
amount of RAM, especially if multiple memory domains are used,
at a cost of context switching overhead.
Some caching techniques are used to reduce the amount of context
switch updates; the page tables aren't updated if switching to
a supervisor thread, and the page table configuration of the last
user thread switched in is cached.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
- z_x86_userspace_enter() for both 32-bit and 64-bit now
call into C code to clear the stack buffer and set the
US bits in the page tables for the memory range.
- Page tables are now associated with memory domains,
instead of having separate page tables per thread.
A spinlock protects write access to these page tables,
and read/write access to the list of active page
tables.
- arch_mem_domain_init() implemented, allocating and
copying page tables from the boot page tables.
- struct arch_mem_domain defined for x86. It has
a page table link and also a list node for iterating
over them.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
We introduce an option that instructs Zephyr to perform
the initialization of internal architectural state (e.g.
ARCH-level HW registers and system control blocks) during
early boot to the reset values. The option is available
to the application developer but shall depend on whether
the architecture supports the functionality.
Signed-off-by: Ioannis Glaropoulos <Ioannis.Glaropoulos@nordicsemi.no>
Adds the necessary bits to initialize TLS in the stack
area and sets up CPU registers during context switch.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
Adds the necessary bits to initialize TLS in the stack
area and sets up CPU registers during context switch.
Note that since Cortex-M does not have the thread ID or
process ID register needed to store TLS pointer at runtime
for toolchain to access thread data, a global variable is
used instead.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
Adds the necessary bits to initialize TLS in the stack
area and sets up CPU registers during context switch.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
Adds the necessary bits to initialize TLS in the stack
area and sets up CPU registers during context switch.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
Adds the necessary bits to initialize TLS in the stack
area and sets up CPU registers during context switch.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
Adds the necessary bits to initialize TLS in the stack
area and sets up CPU registers during context switch.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
Add kconfigs to indicate whether an architecture has support
for thread local storage (TLS), and to enable TLS in kernel.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
Zephyr SMP kernels need to be able to run on architectures with
incoherent caches. Naive implementation of synchronization on such
architectures requires extensive cache flushing (e.g. flush+invalidate
everything on every spin lock operation, flush on every unlock!) and
is a performance problem.
Instead, many of these systems will have access to separate "coherent"
(usually uncached) and "incoherent" regions of memory. Where this is
available, place all writable data sections by default into the
coherent region. An "__incoherent" attribute flag is defined for data
regions that are known to be CPU-local and which should use the cache.
By default, this is used for stack memory.
Stack memory will be incoherent by default, as by definition it is
local to its current thread. This requires special cache management
on context switch, so an arch API has been added for that.
Also, when enabled, add assertions to strategic places to ensure that
shared kernel data is indeed coherent. We check thread objects, the
_kernel struct, waitq's, timeouts and spinlocks. In practice almost
all kernel synchronization is built on top of these structures, and
any shared data structs will contain at least one of them.
Signed-off-by: Andy Ross <andrew.j.ross@intel.com>
Signed-off-by: Anas Nashif <anas.nashif@intel.com>
We no longer plan to support a split address space with
the kernel in high memory and per-process address spaces.
Because of this, we can simplify some things. System RAM
is now always identity mapped at boot.
We no longer require any virtual-to-physical translation
for page tables, and can remove the dual-mapping logic
from the page table generation script since we won't need
to transition the instruction point off of physical
addresses.
CONFIG_KERNEL_VM_BASE and CONFIG_KERNEL_VM_LIMIT
have been removed. The kernel's address space always
starts at CONFIG_SRAM_BASE_ADDRESS, of a fixed size
specified by CONFIG_KERNEL_VM_SIZE.
Driver MMIOs and other uses of k_mem_map() are still
virtually mapped, and the later introduction of demand
paging will result in only a subset of system RAM being
a fixed identity mapping instead of all of it.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
It implements gdb remote protocol to talk with a host gdb during the
debug session. The implementation is divided in three layers:
1 - The top layer that is responsible for the gdb remote protocol.
2 - An architecture specific layer responsible to write/read registers,
set breakpoints, handle exceptions, ...
3 - A transport layer to be used to communicate with the host
The communication with GDB in the host is synchronous and the systems
stops execution waiting for instructions and return its execution after
a "continue" or "step" command. The protocol has an exception that is
when the host sends a packet to cause an interruption, usually triggered
by a Ctrl-C. This implementation ignores this instruction though.
This initial work supports only X86 using uart as backend.
Signed-off-by: Flavio Ceolin <flavio.ceolin@intel.com>
To debug hard-to-reproduce faults/panics, it's helpful to get the full
register state at the time a fault occurred. This enables recovering
full backtraces and the state of local variables at the time of a
crash.
This PR introduces a new Kconfig option, CONFIG_EXTRA_EXCEPTION_INFO,
to facilitate this use case. The option enables the capturing of the
callee-saved register state (r4-r11 & exc_return) during a fault. The
info is forwarded to `k_sys_fatal_error_handler` in the z_arch_esf_t
parameter. From there, the data can be saved for post-mortem analysis.
To test the functionality a new unit test was added to
tests/arch/arm_interrupt which verifies the register contents passed
in the argument match the state leading up to a crash.
Signed-off-by: Chris Coleman <chris@memfault.com>
Saves us a few bytes of program text on arches that don't need
these implemented, currently all uniprocessor MPU-based systems.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
The x86 ports are linked at their physical address and
the arch_mem_map() implementation currently requires
virtual = physical. This will be removed later.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
If CONFIG_MMU is active, choose whether to separate text,
rodata, and ram into their own page-aligned regions so that
they have have different MMU permissions applied.
If disabled, all RAM pages will have RWX permission to
supervisor mode, but some memory may be saved due to lack
of page alignment padding between these regions.
This used to always happen. This patch adds the Kconfig,
linker script changes to come in a subsequent patch.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
This adds the necessary bits in arch code, and Python scripts
to enable coredump support for ARM Cortex-M.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
This adds a very primitive coredump mechanism under subsys/debug
where during fatal error, register and memory content can be
dumped to coredump backend. One such backend utilizing log
module for output is included. Once the coredump log is converted
to a binary file, it can be used with the ELF output file as
inputs to an overly simplified implementation of a GDB server.
This GDB server can be attached via the target remote command of
GDB and will be serving register and memory content. This allows
using GDB to examine stack and memory where the fatal error
occurred.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
unify how XIP is configured across architectures. Use imply instead of
setting defaults per architecture and imply XIP on riscv arch and remove
XIP configuration from individual defconfig files to match other
architectures.
Signed-off-by: Anas Nashif <anas.nashif@intel.com>
This config indicates that a memory management unit is present
and enabled, which will in turn allow arch APIs to allow
mapping memory to be used.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
x86-32 thread objects require special alignment since they
contain a buffer that is passed to fxsave/fxrstor instructions.
This fell over if the dummy thread is created in a stack frame.
Implement a custom swap to main for x86 which still uses a
dummy thread, but in an unused part of the interrupt stack
with proper alignment.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
This commit renames the Kconfig `FP_SHARING` symbol to `FPU_SHARING`,
since this symbol specifically refers to the hardware FPU sharing
support by means of FPU context preservation, and the "FP" prefix is
not fully descriptive of that; leaving room for ambiguity.
Signed-off-by: Stephanos Ioannidis <root@stephanos.io>
This commit reworks the symbol descriptions for `CONFIG_FPU` and
`CONFIG_FP_SHARING`, in order to provide more details and clarify any
ambiguity between the two symbols.
Signed-off-by: Stephanos Ioannidis <root@stephanos.io>
This commit renames the Kconfig `FLOAT` symbol to `FPU`, since this
symbol only indicates that the hardware Floating Point Unit (FPU) is
used and does not imply and/or indicate the general availability of
toolchain-level floating point support (i.e. this symbol is not
selected when building for an FPU-less platform that supports floating
point operations through the toolchain-provided software floating point
library).
Moreover, given that the symbol that indicates the availability of FPU
is named `CPU_HAS_FPU`, it only makes sense to use "FPU" in the name of
the symbol that enables the FPU.
Signed-off-by: Stephanos Ioannidis <root@stephanos.io>
This change adds full shared floating point support for the RISCV
architecture with minimal impact on threads with floating point
support not enabled.
Signed-off-by: Corey Wharton <coreyw7@fb.com>
This moves enabling XTENSA_HAL to the SoC definitions.
As Xtensa SoCs are highly configurable, it is possible
that the generic Xtensa HAL provided in the tree is
not suitable. So only enable XTENSA_HAL only if
the generic version can be used.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
Now that all posix boards have a dts we can move the selection of
HAS_DTS to the arch level like it is for all the other architectures.
Signed-off-by: Kumar Gala <kumar.gala@linaro.org>
This never needed to be put in a separate gperf table.
Privilege mode stacks can be generated by the main
gen_kobject_list.py logic, which we do here.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
Same deal as in commit eddd98f811 ("kconfig: Replace some single-symbol
'if's with 'depends on'"), for the remaining cases outside defconfig
files. See that commit for an explanation.
Will do the defconfigs separately in case there are any complaints
there.
Signed-off-by: Ulf Magnusson <Ulf.Magnusson@nordicsemi.no>
The existing stack_analyze APIs had some problems:
1. Not properly namespaced
2. Accepted the stack object as a parameter, yet the stack object
does not contain the necessary information to get the associated
buffer region, the thread object is needed for this
3. Caused a crash on certain platforms that do not allow inspection
of unused stack space for the currently running thread
4. No user mode access
5. Separately passed in thread name
We deprecate these functions and add a new API
k_thread_stack_space_get() which addresses all of these issues.
A helper API log_stack_usage() also added which resembles
STACK_ANALYZE() in functionality.
Fixes: #17852
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
All SoCs must now 'select' one of the CONFIG_<arch> symbols. Add an
ARCH_IS_SET helper symbol that's selected by the arch symbols and
checked in CMake, printing a warning otherwise.
Might save people some time until they're used to the new scheme.
Signed-off-by: Ulf Magnusson <Ulf.Magnusson@nordicsemi.no>
All board defconfig files currently set the architecture in addition to
the board and the SoC, by setting e.g. CONFIG_ARM=y. This spams up
defconfig files.
CONFIG_<arch> symbols currently being set in configuration files also
means that they are configurable (can be changed in menuconfig and in
configuration files), even though changing the architecture won't work,
since other things get set from -DBOARD=<board>. Many boards also allow
changing the architecture symbols independently from the SoC symbols,
which doesn't make sense.
Get rid of all assignments to CONFIG_<arch> symbols and clean up the
relationships between symbols and the configuration interface, like
this:
1. Remove the choice with the CONFIG_<arch> symbols in arch/Kconfig and
turn the CONFIG_<arch> symbols into invisible
(promptless/nonconfigurable) symbols instead.
Getting rid of the choice allows the symbols to be 'select'ed (choice
symbols don't support 'select').
2. Select the right CONFIG_<arch> symbol from the SOC_SERIES_* symbols.
This makes sense since you know the architecture if you know the SoC.
Put the select on the SOC_* symbol instead for boards that don't have
a SOC_SERIES_*.
3. Remove all assignments to CONFIG_<arch> symbols. The assignments
would generate errors now, since the symbols are promptless.
The change was done by grepping for assignments to CONFIG_<arch>
symbols, finding the SOC_SERIES_* (or SOC_*) symbol being set in the
same defconfig file, and putting a 'select' on it instead.
See
https://github.com/ulfalizer/zephyr/commits/hide-arch-syms-unsquashed
for a split-up version of this commit, which will make it easier to see
how stuff was done. This needs to go in as one commit though.
This change is safer than it might seem re. outstanding PRs, because any
assignment to CONFIG_<arch> symbols generates an error now, making
outdated stuff easy to catch.
Signed-off-by: Ulf Magnusson <Ulf.Magnusson@nordicsemi.no>
Define there options for runtime error handling:
- assert on all errors (ASSERT_ON_ERRORS)
- no runtime checks (no asserts, no runtime error handling)
(NO_RUNTIME_CHECKS)
- full runtime error handling (the default) (RUNTIME_ERROR_CHECKS)
Signed-off-by: Anas Nashif <anas.nashif@intel.com>
This commit addresses the following issues:
1. Add a new Kconfig configuration for specifying Dual-redundant Core
Lock-step (DCLS) processor topology.
2. Register initialisation is only required when Dual-redundant Core
Lock-step (DCLS) is implemented in hardware. This initialisation is
required on DCLS only because the architectural registers are in an
indeterminate state after reset and therefore the initial register
state of the two parallel executing cores are not guaranteed to be
identical, which can lead to DCCM detecting it as a hardware fault.
A conditional compilation check for this hardware configuration
using the newly added CONFIG_CPU_HAS_DCLS flag has been added.
3. The existing CPU register initialisation code did not take into
account the banked registers for every execution mode. The new
implementation ensures that all architectural registers of every
mode are initialised.
4. Add VFP register initialisation for when floating-point support is
enabled and the core is configured in DCLS topology. This
initialisation sequence is required for the same reason given in
the first issue.
5. Add provision for platform-specific initialisation on Cortex-R
using PLATFORM_SPECIFIC_INIT config and z_platform_init function.
6. Remove seemingly pointless and inadequately defined STACK_MARGIN.
Not only does it violate the 8-byte stack alignment rule, it does
not provide any form of real stack protection.
Signed-off-by: Stephanos Ioannidis <root@stephanos.io>
The SRAM address and size are currently available as both
DT_SRAM_{BASE_ADDRESS,SIZE} and as CONFIG_SRAM_{BASE_ADDRESS,SIZE} (via
the Kconfig preprocessor).
Use the CONFIG_SRAM_* versions everywhere, and remove generation of the
DT_SRAM_* versions from gen_defines.py.
The Kconfig symbols currently depend on 'ARC || ARM || NIOS2 || X86'.
Not sure why, so I removed it.
It looks like no configuration files set CONFIG_SRAM_* at the moment, so
another option might be to use the DT_* symbols everywhere instead. Some
Kconfig.defconfig.series files add defaults to them though.
Also improve the help texts for CONFIG_SRAM_* to say that they normally
come from devicetree rather than configuration files.
Signed-off-by: Ulf Magnusson <Ulf.Magnusson@nordicsemi.no>
How prompts work is better documented nowadays, and these comments might
not be that helpful if you don't know.
There are lots promptless symbols that don't have a comment.
Also fix up some comments in arch/Kconfig that seem misplaced/redundant,
and clean up some whitespace (no blank line after a comment makes it
look like it only applies to the symbol directly after it to me).
Signed-off-by: Ulf Magnusson <Ulf.Magnusson@nordicsemi.no>
This adds the necessary bits to build the Xtensa HAL as
a module, and removes the bits to use the HAL built with
the Zephyr SDK.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
When we build without support for user mode, we do not need
a large number of MPU regions, so we should not allow having
MPU_GAP_FILLING unset. This would allow PRIV code execute from
SRAM, which is an unnecessary compromise on ARMv8-M builds
without USERSPACE support. We update the Kconfig dependencies
and add a sentence for clarification.
Signed-off-by: Ioannis Glaropoulos <Ioannis.Glaropoulos@nordicsemi.no>
This API was only created to facilitate testing of kernel
objects in IRQ context, never for actual applications.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
We introduce MPU_GAP_FILLING Kconfig option that instructs
the MPU driver to enforce a full SRAM partitioning, when it
programs the dynamic MPU regions (user thread stack, PRIV stack
guard and application memory domains) at context-switch. We
allow this to be configurable, in order to increase the number
of MPU regions available for application memory domain programming.
This option is introduced in arch/Kconfig, as it is expected
to serve as a cross-ARCH symbol. The option can be set by the
user during build configuration.
By not enforcing full partition, we may leave part of kernel
SRAM area covered only by the default ARM memory map. This
is fine for User Mode, since the background ARM map does not
allow nPRIV access at all. The difference is that kernel code
will be able to attempt fetching instructions from kernel SRAM
area without this leading directly to a MemManage exception.
Since this does not compromize User Mode, we make the skipping
of full partitioning the default behavior for the ARMv8-M MPU
driver. The application developer may be able to overwrite this.
In the wake of this change we update the macro definitions in
arm_core_mpu_dev.h that derive the maximum number of MPU regions
for application memory domains.
Signed-off-by: Ioannis Glaropoulos <Ioannis.Glaropoulos@nordicsemi.no>
Use this short header style in all Kconfig files:
# <description>
# <copyright>
# <license>
...
Also change all <description>s from
# Kconfig[.extension] - Foo-related options
to just
# Foo-related options
It's clear enough that it's about Kconfig.
The <description> cleanup was done with this command, along with some
manual cleanup (big letter at the start, etc.)
git ls-files '*Kconfig*' | \
xargs sed -i -E '1 s/#\s*Kconfig[\w.-]*\s*-\s*/# /'
Signed-off-by: Ulf Magnusson <Ulf.Magnusson@nordicsemi.no>
Clean up space errors and use a consistent style throughout the Kconfig
files. This makes reading the Kconfig files more distraction-free, helps
with grepping, and encourages the same style getting copied around
everywhere (meaning another pass hopefully won't be needed).
Go for the most common style:
- Indent properties with a single tab, including for choices.
Properties on choices work exactly the same syntactically as
properties on symbols, so not sure how the no-indentation thing
happened.
- Indent help texts with a tab followed by two spaces
- Put a space between 'config' and the symbol name, not a tab. This
also helps when grepping for definitions.
- Do '# A comment' instead of '#A comment'
I tweaked Kconfiglib a bit to find most of the stuff.
Some help texts were reflowed to 79 columns with 'gq' in Vim as well,
though not all, because I was afraid I'd accidentally mess up
formatting.
Signed-off-by: Ulf Magnusson <Ulf.Magnusson@nordicsemi.no>
There are two set of code supporting x86_64: x86_64 using x32 ABI,
and x86 long mode, and this consolidates both into one x86_64
architecture and SoC supporting truly 64-bit mode.
() Removes the x86_64:x32 architecture and SoC, and replaces
them with the existing x86 long mode arch and SoC.
() Replace qemu_x86_64 with qemu_x86_long as qemu_x86_64.
() Updates samples and tests to remove reference to
qemu_x86_long.
() Renames CONFIG_X86_LONGMODE to CONFIG_X86_64.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
We introduce a Kconfig option to signify whether
an Architecture has the capability of detecting
whether execution is, currently, in a nested
exception.
Signed-off-by: Ioannis Glaropoulos <Ioannis.Glaropoulos@nordicsemi.no>
Replace:
dt_chosen_reg_addr
dt_chosen_reg_size
dt_node_reg_addr
dt_node_reg_size
with:
dt_chosen_reg_addr_int
dt_chosen_reg_size_int
dt_chosen_reg_addr_hex
dt_chosen_reg_size_hex
dt_node_reg_addr_int
dt_node_reg_size_int
dt_node_reg_addr_hex
dt_node_reg_size_hex
So that we get the proper formatted string for the type of symbol.
Signed-off-by: Kumar Gala <kumar.gala@linaro.org>
Remove the
# Omit prompt to signify a "hidden" option
comments that appear on some symbols. They seem to have been copy-pasted
at random, as there are lots of promptless symbols that don't have them
(that's confusing in itself, because it might give the idea that the
ones with comments are special in some way).
I suspect those comments wouldn't have helped me much if I didn't know
Kconfig either. There's a lot more Kconfig documentation now too, e.g.
https://docs.zephyrproject.org/latest/guides/kconfig/index.html.
Keep some comments that give more information than the symbol having no
prompt.
Also do some minor drive-by cleanup.
Signed-off-by: Ulf Magnusson <Ulf.Magnusson@nordicsemi.no>
Convert how we get the various chosen properties like "zephyr,console"
to use the new kconfig functions like dt_chosen_to_label.
Because of how kconfig parses things we define a set of variables of the
form DT_CHOSEN_Z_<PROP> since comma's are parsed as field seperators in
macros.
This conversion allows us to remove code in gen_defines.py for the
following chosen properties:
zephyr,console
zephyr,shell-uart
zephyr,bt-uart
zephyr,uart-pipe
zephyr,bt-mon-uart
zephyr,uart-mcumgr
zephyr,bt-c2h-uart
Signed-off-by: Kumar Gala <kumar.gala@linaro.org>
We re-wrote the xtensa arch code, but never got around
to purging the old implementation.
Removed those boards which hadn't been moved to the new
arch code. These were all xt-sim simulator targets and not
real hardware.
Fixes: #18138
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
With the upcoming riscv64 support, it is best to use "riscv" as the
subdirectory name and common symbols as riscv32 and riscv64 support
code is almost identical. Then later decide whether 32-bit or 64-bit
compilation is wanted.
Redirects for the web documentation are also included.
Then zephyrbot complained about this:
"
New files added that are not covered in CODEOWNERS:
dts/riscv/microsemi-miv.dtsi
dts/riscv/riscv32-fe310.dtsi
Please add one or more entries in the CODEOWNERS file to cover
those files
"
So I assigned them to those who created them. Feel free to readjust
as necessary.
Signed-off-by: Nicolas Pitre <npitre@baylibre.com>
The ARM specific _impl_k_thread_abort function only applies to Cortex-M
so move it to the cortex_m specific directory.
Signed-off-by: Bradley Bolen <bbolen@lexmark.com>
* z_NanoFatalErrorHandler() is now moved to common kernel code
and renamed z_fatal_error(). Arches dump arch-specific info
before calling.
* z_SysFatalErrorHandler() is now moved to common kernel code
and renamed k_sys_fatal_error_handler(). It is now much simpler;
the default policy is simply to lock interrupts and halt the system.
If an implementation of this function returns, then the currently
running thread is aborted.
* New arch-specific APIs introduced:
- z_arch_system_halt() simply powers off or halts the system.
* We now have a standard set of fatal exception reason codes,
namespaced under K_ERR_*
* CONFIG_SIMPLE_FATAL_ERROR_HANDLER deleted
* LOG_PANIC() calls moved to k_sys_fatal_error_handler()
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
sw_isr_table has two entries, an argument and an ISR function. The
comment on struct _isr_table_entry in include/sw_isr_table.h says that
"This allows a table entry to be loaded [...] with one ldmia
instruction, on ARM [...]". Some arch, e.g. SPARC, also has a double
word load instruction, "ldd", but the instruct must have address align
to double word or 8 bytes.
This commit makes the table alignment configurable. It allows each
architecture to specify it, if needed. The default value is 0 for no
alignment.
Signed-off-by: Yasushi SHOJI <y-shoji@ispace-inc.com>
The libc hooks for Newlib requires CONFIG_SRAM_SIZE and
the symbol "_end" at the end of memory. This is in preparation
for enabling Newlib for x86_64.
Signed-off-by: Daniel Leung <daniel.leung@intel.com>
Found a few annoying typos and figured I better run script and
fix anything it can find, here are the results...
Signed-off-by: Anas Nashif <anas.nashif@intel.com>
The ARCH_CHOICE symbol on the arch/Kconfig choice for Architecture
selection, allows for multiple definitions of the choice group which
makes it possible for out-of-tree architectures to add entries to the
list as needed.
For example, in $(ARCH_DIR)/$(ARCH)/Kconfig by adding something like;
choice ARCH_CHOICE
config xARCH
bool "xARCH architecture"
endchoice
No functional change expected.
Signed-off-by: Danny Oerndrup <daor@demant.com>
Support for Floating Point (both un-sharing and sharing
registers mode) is currently implemented for ARM and X86
architectures, so reflect this in the Kconfig symbol
definition.
Signed-off-by: Ioannis Glaropoulos <Ioannis.Glaropoulos@nordicsemi.no>
This is the generic symbol to select or otherwise test for when 64-bit
compilation is desired. Two trivial usages of this symbol are also
included.
Signed-off-by: Nicolas Pitre <npitre@baylibre.com>
The original value of 256 was selected more or less randomly
and special cases keep proliferating. Until we have a formal
method of proving maximum syscall stack depth, set to 1024.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
Add SYS_POWER_ prefix to HAS_STATE_SLEEP_, HAS_STATE_DEEP_SLEEP_
options to align them with names of power states they control.
Following is a detailed list of string replacements used:
s/HAS_STATE_SLEEP_(\d)/HAS_SYS_POWER_STATE_SLEEP_$1/
s/HAS_STATE_DEEP_SLEEP_(\d)/HAS_SYS_POWER_STATE_DEEP_SLEEP_$1/
Signed-off-by: Piotr Mienkowski <piotr.mienkowski@gmail.com>
There exists SoCs, e.g. STM32L4, where one of the low power modes
reduces CPU frequency and supply voltage but does not stop the CPU. Such
power modes are currently not supported by Zephyr.
To facilitate adding support for such class of power modes in the future
and to ensure the naming convention makes it clear that the currently
supported power modes stop the CPU this commit renames Low Power States
to Slep States and updates the documentation.
Signed-off-by: Piotr Mienkowski <piotr.mienkowski@gmail.com>
Since #14545 was merged building with USERSPACE and NO_OPTIMIZATIONS
has been broken due to #5226.
To fix#5226 we increase the size of KOBJECT_TEXT_AREA when
NO_OPTIMIZATIONS.
Signed-off-by: Sebastian Bøe <sebastian.boe@nordicsemi.no>
Currently thread abort doesn't work if a thread is currently scheduled
on a different CPU, because we have no way of delivering an interrupt
to the other CPU to force the issue. This patch adds a simple
framework for an architecture to provide such an IPI, implements it
for x86_64, and uses it to implement a spin loop in abort for the case
where a thread is currently scheduled elsewhere.
On SMP architectures (xtensa) where no such IPI is implemented, we
fall back to waiting on an arbitrary interrupt to occur. This "works"
for typical code (and all current tests), but of course it cannot be
guaranteed on such an architecture that k_thread_abort() will return
in finite time (e.g. the other thread on the other CPU might have
taken a spinlock and entered an infinite loop, so it will never
receive an interrupt to terminate itself)!
On non-SMP architectures this patch changes no code paths at all.
Signed-off-by: Andy Ross <andrew.j.ross@intel.com>
Some more were added since the cleanup pass in June 2018. See e.g.
commit 2d50da70a1 ("drivers: ipm: Kconfig: Remove redundant 'default n'
properties") for a motivation. It also avoids people wondering whether
or not they need to put in 'default n'.
Signed-off-by: Ulf Magnusson <Ulf.Magnusson@nordicsemi.no>
CPU_LPS_n name used to indicate a low power state is cryptic and
incorrect. The low power states act on the whole SoC and not exclusively
on the CPU. This patch renames CPU_LPS_n states to LOW_POWER_n. Also
HAS_ pattern for Kconfig options is used in favor of a non standard
_SUPPORTED. Naming of deep sleep states was adjusted accordingly.
Following is a detailed list of string replacements used:
s/SYS_POWER_STATE_CPU_LPS_(\d)_SUPPORTED/HAS_STATE_LOW_POWER_$1/
s/SYS_POWER_STATE_CPU_LPS_(\d)/SYS_POWER_STATE_LOW_POWER_$1/
s/SYS_POWER_STATE_DEEP_SLEEP_(\d)_SUPPORTED/HAS_STATE_DEEP_SLEEP_$1/
Signed-off-by: Piotr Mienkowski <piotr.mienkowski@gmail.com>
This commit removes dependency on SYS_POWER_LOW_POWER_STATES_SUPPORTED,
SYS_POWER_DEEP_SLEEP_STATES_SUPPORTED Kconfig options. Power management
SYS_POWER_LOW_POWER_STATES, SYS_POWER_DEEP_SLEEP_STATES options depend
now directly on specific power states supported by the given SoC. This
simplifies maintenance of SoC Kconfig files.
Signed-off-by: Piotr Mienkowski <piotr.mienkowski@gmail.com>
Instead of having to enable ramfunc support manually, just make it
transparently available to users, keeping the MPU region disabled if not
used to not waste a MPU region. This however wastes 24 bytes of code
area when the MPU is disabled and 48 bytes when it is enabled, and
probably a dozen of CPU cycles during boot. I believe it is something
acceptable.
Note that when XIP is used, code is already in RAM, so the __ramfunc
keyword does nothing, but does not generate an error.
Signed-off-by: Aurelien Jarno <aurelien@aurel32.net>
128 already gets exceeded in a lot of cases, and the binaries
with the new SDK are very slightly larger. Just kick this up
to 256 and get rid of all the exceptions.
Fixes: #13594
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
Some of power states used numerical suffix while otthers not.
This commit adds proper suffix to all power state names.
Signed-off-by: Piotr Zięcik <piotr.ziecik@nordicsemi.no>
f
This commit changes the names of SYS_POWER_DEEP_SLEEP* Kconfig
options in order to match SYS_POWER_LOW_POWER_STATE* naming
scheme.
Signed-off-by: Piotr Zięcik <piotr.ziecik@nordicsemi.no>
The SYS_POWER_LOW_POWER_STATE_SUPPORTED and SYS_POWER_LOW_POWER_STATE
suggests one low power state but these options control multiple
low power state. This commit uses plural in the names to indicate
that.
Signed-off-by: Piotr Zięcik <piotr.ziecik@nordicsemi.no>
Introduces the ARCH_ROOT argument, similar to BOARD_ROOT and SOC_ROOT.
This enables support for out-of-tree architectures.
The ARCH_ROOT out-of-tree layout is expected to be the following:
* ${ARCH_ROOT}/arch/${ARCH}/
* ${ARCH_ROOT}/include/arch/${ARCH}/ (Optional)
Signed-off-by: Klaus Petersen <kape@oticon.com>
This commit introduces a new Kconfig option symbol,
MPU_REQUIRES_NON_OVERLAPPING_REGIONS, to signify the use of an
MPU architecture that requires the active MPU regions be
non-overlapping. This requirement concerns the standard
(unmodified) ARMv8-M MPU implementation. For that, we select
the option in the definition of ARM_MPU, if the CPU architecture
is ARMv8-M (Baseline or Mainline).
Signed-off-by: Ioannis Glaropoulos <Ioannis.Glaropoulos@nordicsemi.no>
In #9717, 777407b9ea
coverage support was broken for all NATIVE_APPLICATION except
native_posix
This includes the nrf52_bsim board
Fix it.
Fixes: #13009
Signed-off-by: Alberto Escolar Piedras <alpi@oticon.com>
Now that all supported xtensa boards use DTS we can move the Kconfig
setting to the arch level. Remove HAS_DTS from board Kconfig files.
Signed-off-by: Kumar Gala <kumar.gala@linaro.org>
dts will now generate DT_SRAM_BASE_ADDRESS, DT_SRAM_SIZE,
DT_FLASH_BASE_ADDRESS, and DT_FLASH_SIZE defines. Kconfig can utilize
these defines to set defaults for the CONFIG_ variants.
Signed-off-by: Kumar Gala <kumar.gala@linaro.org>
This patch adds all the required hooks needed in the kernel to
get the coverage reports from ARM SoCs.
Signed-off-by: Adithya Baglody <adithya.nagaraj.baglody@intel.com>
This patch provides support for generating Code coverage reports.
The prj.conf needs to enable CONFIG_COVERAGE. Once enabled, the
code coverage data dump now comes via UART.
This data dump on the UART is triggered once the main
thread exits.
Next step is to save this data dump on file. Then run
scripts/gen_gcov_files.py with the serial console log as argument.
The last step would be be to run the gcovr. Use the following cmd
gcovr -r . --html -o gcov_report/coverage.html --html-details
Currently supported architectures are ARM and x86.
Signed-off-by: Adithya Baglody <adithya.nagaraj.baglody@intel.com>
This patch adds a x86_64 architecture and qemu_x86_64 board to Zephyr.
Only the basic architecture support needed to run 64 bit code is
added; no drivers are added, though a low-level console exists and is
wired to printk().
The support is built on top of a "X86 underkernel" layer, which can be
built in isolation as a unit test on a Linux host.
Limitations:
+ Right now the SDK lacks an x86_64 toolchain. The build will fall
back to a host toolchain if it finds no cross compiler defined,
which is tested to work on gcc 8.2.1 right now.
+ No x87/SSE/AVX usage is allowed. This is a stronger limitation than
other architectures where the instructions work from one thread even
if the context switch code doesn't support it. We are passing
-no-sse to prevent gcc from automatically generating SSE
instructions for non-floating-point purposes, which has the side
effect of changing the ABI. Future work to handle the FPU registers
will need to be combined with an "application" ABI distinct from the
kernel one (or just to require USERSPACE).
+ Paging is enabled (it has to be in long mode), but is a 1:1 mapping
of all memory. No MMU/USERSPACE support yet.
+ We are building with -mno-red-zone for stack size reasons, but this
is a valuable optimization. Enabling it requires automatic stack
switching, which requires a TSS, which means it has to happen after
MMU support.
+ The OS runs in 64 bit mode, but for compatibility reasons is
compiled to the 32 bit "X32" ABI. So while the full 64 bit
registers and instruction set are available, C pointers are 32 bits
long and Zephyr is constrained to run in the bottom 4G of memory.
Signed-off-by: Andy Ross <andrew.j.ross@intel.com>
As this was written before, a 'FLAOT' menu entry was present, and to
see what kind of features or configuration it had, one had to navigate
into the menu to determine if anything related to 'FLOAT' was enabled
at all.
Now there is an unchecked box on the 'FLOAT' menu when it is disabled,
which clearly expresses that it is disabled without the need to enter
the menu entry.
This change only changes the menu layout, and not the dependencies of
any options.
Signed-off-by: Sebastian Bøe <sebastian.boe@nordicsemi.no>
When code relocation feature with userspace mode is turned on we
need a bit more memory to fit the text section for these 2
generated files.
Signed-off-by: Adithya Baglody <adithya.nagaraj.baglody@intel.com>
This commit exposes k_mem_partition_attr_t outside User Mode, so
we can use struct k_mem_partition for defining memory partitions
outside the scope of user space (for example, to describe thread
stack guards or no-cacheable MPU regions). A requirement is that
the Zephyr build supports Memory protection. To signify this, a
new hidden, all-architecture Kconfig symbol is defined (MPU). In
the wake of exposing k_mem_partition_attr_t, the commit exposes
the MPU architecture-specific access permission attribute macros
outside the User space context (for all ARCHs), so they can be
used in a more generic way.
Signed-off-by: Ioannis Glaropoulos <Ioannis.Glaropoulos@nordicsemi.no>
Add a "nocache" read-write memory section that is configured to
not be cached. This memory section can be used to perform DMA
transfers when cache coherence issues are not optimal or can not
be solved using cache maintenance operations.
This is currently only supported on ARM Cortex M7 with MPU.
Fixes#2927
Signed-off-by: Aurelien Jarno <aurelien@aurel32.net>
This option is useful to have for a flatter hierarchy for one-off SoCs
that aren't split into family and series from the silicon vendor
perspective.
The commit saying it was going to go away is from 2 years ago; it
hasn't happened and it doesn't seem to need to happen. Just delete it.
Signed-off-by: Marti Bolivar <marti@foundries.io>
In the past the capability to install interrupts at runtime was
removed due to lack of use-cases for Zephyr's intended targets.
Now we want to support hypervisor applications like ACRN where
virtual devices are presented to the kernel using PCI enumeration,
and the interrupt configuration is not known at build time.
Signed-off-by: Andrew Boie <andrew.p.boie@intel.com>
