reason:
svc call may trigger hardfault
Background
The origin of this issue is our desire to eliminate the function of storing
"regs" in g_current_regs and instead utilize (*running_task)->xcp.regs for storage.
The benefits of this approach include faster storage speed and
avoiding multiple accesses to g_current_regs during context switching,
thus ensuring that whether returning from an interrupt or an exception,
we consistently use this_task()->xcp.regs
Issue Encountered
However, when storing registers, we must ensure that (running_task)->xcp.regs is invalid
so that it can be safely overwritten.
According to the existing logic, the only scenario where (running_task)->xcp.regs
is valid is during restore_context. We must accurately identify this scenario.
Initially, we used the condition (running_task)==NULL for this purpose, but we deemed
this approach unsatisfactory as it did not align well with the actual logic.
(running_task) should not be NULL. Consequently, we adopted other arch-specific methods for judgment,
but due to special logic in some arch, the judgment was not accurate, leading to this issue.
Solution:
For armv6-m, we haven't found a more suitable solution, so we are sticking with (*running_task)==NULL.
For armv7-m/armv8-m, by removing support for primask, we can achieve accurate judgment.
PRIMASK is a design in armv6-m, that's why arm introduce BASEPRI from armv7-m.
It's wrong to provide this option for armv7-m/armv8-m arch.
Signed-off-by: hujun5 <hujun5@xiaomi.com>
Implement hartid<->cpuid mapping for RISC-V. This is necessary for some
platforms which cannot use 1:1 mapping between logical and physical CPU /
core IDs. One example is MPFS where hart0 cannot be used for NuttX SMP as
it is a less capable "monitor" core (E51) compared to the application
cores hart1...3 (E54).
Why not just use a generic offset then? We also need the physical hart ID
for many things:
- Communication between harts (IPI)
- External interrupt acknowledgment (interrupt claim for specific CPU)
- Communication to SBI
Thus, create procedures that can do this translation:
- The default mapping is still logical=physical.
- Another flavor is to use the existing CONFIG_ARCH_RV_HARTID_BASE config
variable, which is just a simple offset
- The final flavor is to overload hartid<->cpuid on a per chip basis (no
example for this is provided yet)
This implements empty hooks to the arch/chip layer, which can implement
an optional translation between logical<->physical CPU/core id.
The default mapping is 1:1 i.e. logical=physical.
Summary:
Add the default CPU frequency configuration.
Signed-off-by: wangming9 <wangming9@xiaomi.com>
Signed-off-by: lipengfei28 <lipengfei28@xiaomi.com>
The feature depends on ARCH_USE_SEPARATED_SECTION
the different memory area has different access speed and cache
capability, so the arch can custom allocate them based on
section names to achieve performance optimization
test:
sim:elf
sim:sotest
Signed-off-by: dongjiuzhu1 <dongjiuzhu1@xiaomi.com>
Some of PCI drivers require OS interfaces that can't be executed in the INIT context.
In that case we have to postpone PCI drivers probing and call it for example
in board initialization logic.
Signed-off-by: p-szafonimateusz <p-szafonimateusz@xiaomi.com>
reason:
dynaminc create g_irqmap to reduce the use of data segments
CONFIG_ARCH_NUSER_INTERRUPTS should be one more than the number of IRQs actually used
Signed-off-by: hujun5 <hujun5@xiaomi.com>
Intel64 can now boot application cores which is needed for SMP
IMPORTANT: CONFIG_BOARD_LOOPSPERMSEC must be properly configured,
otherwise AP boot sequence can fail due too short delays during the AP startup
Signed-off-by: p-szafonimateusz <p-szafonimateusz@xiaomi.com>
Use GS base regsiter to store reference to CPU private data.
Then we can easily refer to private CPU data using the GS segment.
Required for SMP support.
Signed-off-by: p-szafonimateusz <p-szafonimateusz@xiaomi.com>
This adds SBI specfication v0.3 based `riscv_sbi_system_reset()` to
support SBI firmware based system reset in kernel mode.
Signed-off-by: Yanfeng Liu <yfliu2008@qq.com>
This patch adds definitions to support user space device mappings
that allows devices like frame buffer to be accessible from user
space in kernel mode.
The are mainly two changes:
- in `mm/`:
added vm_map_region(), vm_unmap_region() for drivers to do
device mapping easily.
- in `arch/`:
extended ARCH_SHM_NPAGES as user-space mapping region size.
decoupled ARCH_SHM_MAXREGIONS from region size calculations and
limit its usage only for SysV shm purposes.
Signed-off-by: Yanfeng Liu <yfliu2008@qq.com>
- Add ARCH_KVMA_MAPPING to guard kernel mapping.
- Set dependency from MM_KMAP to ARCH_KVMA_MAPPING, as per commit
70de321de3.
Signed-off-by: Yanfeng Liu <yfliu2008@qq.com>
We can decide whether use trustzone
After this patch, we can support the following mode:
ARCH_HAVE_TRUSTZONE ARCH_TRUSTZONE_DISABLED ARCH_TRUSTZONE_SECURE ARCH_TRUSTZONE_NONSECURE
Without Security Extensions n n n n
CHIP have NO trustzone
With Security Extensions y y n n
Only one bin in sec mode
With Security Extensions y n y n
TEE bin in sec mode
With Security Extensions y n n y
REE bin in non-sec mode
Signed-off-by: ligd <liguiding1@xiaomi.com>
When an application is being loaded `up_addrenv_create ` calls
`create_region` to create the address environment. Only the first
entry is mapped when the region is created. Virtual memory that is
not mapped will trigger an exception when accessed. Other memory
pages are allocated and mapped on-demand. This enables setting
larger heap and stack for the process without compromising the
overall system memory.
Current `CONFIG_PAGING` refers to an experimental implementation
to enable embedded MCUs with some limited RAM space to execute
large programs from some non-random access media.
On-demand paging should be implemented for the kernel mode with
address environment implementation enabled.
enable FPU and implement up_fpucmp to pass ostest
With aggressive optimization enabled (-O2/-O3), ostest FPU test will fail.
This is because the compiler will generate additional vector
instructions between subsequent up_fpucmp() calls (loop vectorization
somewhere in usleep() call), which will consequently overwrite
the expected FPU context (XMM registers).
Signed-off-by: p-szafonimateusz <p-szafonimateusz@xiaomi.com>
Add support for tricore TC397
1. Porting based on AURIX TC397 KIT_A2G_TC397_5V_TFT evaluation board
https://www.infineon.com/cms/en/product/evaluation-boards/kit_a2g_tc397_5v_tft/
2. In order to avoid license and coding style issues, The chip-level code
still uses the implementation of AURIX Development Studio SDK.
The SDK package will be downloaded as a third-party package during compilation:
https://github.com/anchao/tc397_sdk
3. Single core only, SMP implementation will be provided in the future.
4. Implemented the basic System Timer, ASCLIN UART driver.
5. Only the Tasking tool chain is supported (ctc/ltc, license maybe required)
6. 'ostest' can be completed on the TC397 development board.
How to run?
1. Setup the tasking toolchain and license
$ export TSK_LICENSE_KEY_SW160800=d22f-7473-ff5d-1b70
$ export TSK_LICENSE_SERVER=192.168.36.12:9090
2. Build nuttx ELF
$ ./tools/configure.sh tc397/nsh
$ make -j
...
artc I800: creating archive libc_fpu.a
LD: nuttx
3. Switch to windows PC, setup AURIX-studio to Debugger Launcher
4. Replace runing ELF to nuttx, and re-download ELF
Signed-off-by: chao an <anchao@lixiang.com>
The RPTUN_PING option has been replaced by RPMSG_PING but this
use for PERF_EVENTS is left behind, so replace it here as well.
Signed-off-by: Yanfeng Liu <yfliu2008@qq.com>
