Adding the CONFIG_ARCH_PERF_EVENTS configuration to enable
hardware performance counting,solve the problem that some platform
hardware counting support is not perfect, you can choose to use
software interface.
This is configured using CONFIG_ARCH_PERF_EVENTS, so weak_functions
are removed to prevent confusion
To use hardware performance counting, must:
1. Configure CONFIG_ARCH_PERF_EVENTS, default selection
2. Call up_perf_init for initialization
Signed-off-by: wangming9 <wangming9@xiaomi.com>
Summary
Qemu virt board can choice CPU core with boot parameter
and we need to add Konfig option for choice
the change do this
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
Sumary
add hostfs support for arm64, it's a copy
from arm32.
Note:
it's not support for opendir and readdir, command
like ls will not work.
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
1. virtio devics/drivers match and probe/remote mechanism;
2. virtio mmio transport layer based on OpenAmp (Compatible with both
virtio mmio version 1 and 2);
3. virtio-serial driver based on new virtio framework;
4. virtio-rng driver based on new virtio framework;
5. virtio-net driver based on new virtio framework
(IOB Offload implementation);
6. virtio-blk driver based on new virtio framework;
7. Remove the old virtio mmio framework, the old framework only
support mmio transport layer, and the new framwork support
more transport layer and this commit has implemented all the
old virtio drivers;
8. Refresh the the qemu-arm64 and qemu-riscv virtio related
configs, and update its README.txt;
New virtio-net driver has better performance
Compared with previous virtio-mmio-net:
| | master/-c | master/-s | this/-c | this/-s |
| :--------------------: | :-------: | :-------: | :-----: | :-----: |
| qemu-armv8a:netnsh | 539Mbps | 524Mbps | 906Mbps | 715Mbps |
| qemu-armv8a:netnsh_smp | 401Mbps | 437Mbps | 583Mbps | 505Mbps |
| rv-virt:netnsh | 487Mbps | 512Mbps | 760Mbps | 634Mbps |
| rv-virt:netnsh_smp | 387Mbps | 455Mbps | 447Mbps | 502Mbps |
| rv-virt:netnsh64 | 602Mbps | 595Mbps | 881Mbps | 769Mbps |
| rv-virt:netnsh64_smp | 414Mbps | 515Mbps | 491Mbps | 525Mbps |
| rv-virt:knetnsh64 | 515Mbps | 457Mbps | 606Mbps | 540Mbps |
| rv-virt:knetnsh64_smp | 308Mbps | 389Mbps | 415Mbps | 474Mbps |
Note: Both CONFIG_IOB_NBUFFERS=64, using iperf command, all in Mbits/sec
Tested in QEMU 7.2.2
Signed-off-by: wangbowen6 <wangbowen6@xiaomi.com>
Signed-off-by: Zhe Weng <wengzhe@xiaomi.com>
When supporting high-priority interrupts, updating the
g_running_tasks within a high-priority interrupt may be
cause problems. The g_running_tasks should only be updated
when it is determined that a task context switch has occurred.
Signed-off-by: zhangyuan21 <zhangyuan21@xiaomi.com>
In the init phase of the OS, arch_get_current_tcb return NULL. Enable
the memory backatrace default will crash in backtrace function.
Signed-off-by: Bowen Wang <wangbowen6@xiaomi.com>
1. add lib_fork api in libs/libc, we need a fork() api to implement the
fork relative method, such as pthread_atfork
2. rename the assembly fork entry function name to up_fork(), and rename
the up_fork() to arch specific name, such as
sim_fork()/arm_fork()/mips_fork() etc.
Signed-off-by: guoshichao <guoshichao@xiaomi.com>
If -fstack-protector-all is enabled, gcc linker will need GCC
SSP(Stack Smashing Protector) support, Since the implement of SSP
is related to the OS, most of embedded toolchain does not provide
ssp support, so an error will be reported when linking:
enable CONFIG_LTO_FULL && CONFIG_STACK_CANARIES
arm-none-eabi/bin/ld: cannot find -lssp_nonshared: No such file or directory
arm-none-eabi/bin/ld: cannot find -lssp: No such file or directory
https://github.com/gcc-mirror/gcc/blob/master/gcc/gcc.cc#L983-L985
Since nuttx has already implemented SSP related hook functions,
so in this PR, we filter out this option in the link phase to ensure that
the implementation of lssp/lssp_nonshared will not be referenced
Signed-off-by: chao an <anchao@xiaomi.com>
1. as we can use fork to implement vfork, so we rename the vfork to
fork, and use the fork method as the base to implement vfork method
2. create the vfork function as a libc function based on fork
function
Signed-off-by: guoshichao <guoshichao@xiaomi.com>
Fix goldfish build toolchain math library error:
/mnt/yang/vela_Goldfish/nuttx/include/libcxx/cmath:454:9: error: 'nexttowardf' has not been declared in '::'
454 | using ::nexttowardf;
| ^~~~~~~~~~~
/mnt/yang/vela_Goldfish/nuttx/include/libcxx/cmath:472:9: error: 'acosl' has not been declared in '::'
472 | using ::acosl;
| ^~~~~
/mnt/yang/vela_Goldfish/nuttx/include/libcxx/cmath:473:9: error: 'asinl' has not been declared in '::'
473 | using ::asinl;
| ^~~~~
Signed-off-by: yanghuatao <yanghuatao@xiaomi.com>
Summary:
- I noticed that arm64_gic_raise_sgi() is not implemented for
GICv2 which is used for SMP + hypervisor such as qemu + kvm.
- This commit fixes this issue
Impact:
- None
Testing:
- Tested with qemu-7.1 + kvm (linux) and qemu-7.1 + hvf (macOS)
Signed-off-by: Masayuki Ishikawa <Masayuki.Ishikawa@jp.sony.com>
Summary:
- I noticed that pcsi version can not be obtained with qemu + kvm.
- Also, pci_detect hangs with qemu + hvf.
- This commit fixes this issue by using hvc (hypervisor call).
Impact:
- None
Testing:
- Tested with qemu-7.1 + kvm (linux) and qemu-7.1 + hvf (macOS)
Signed-off-by: Masayuki Ishikawa <Masayuki.Ishikawa@jp.sony.com>
Summary:
- During testing with qemu + kvm, I noticed that nuttx hangs
when setting cntfrq_el0. With qemu + kvm, it starts from
EL1 because we can not specify virtualization=on
- However, I noticed that it works without setting cntfrq_el0
- This commit fixes this issue
Impact:
- None
Testing:
- Tested with qemu-7.1 (both with kvm and without kvm)
- NOTE: to work with kvm, GICv2 must be used.
Signed-off-by: Masayuki Ishikawa <Masayuki.Ishikawa@jp.sony.com>
In SMP mode, the fpu owner may switch from core0 to core1,
so it is necessary to force saving the FPU context when a
context switch occurs.
This PR fixed the crash issue mentioned in #8799.
Signed-off-by: zhangyuan21 <zhangyuan21@xiaomi.com>
Summary:
- I noticed that ./tools/configure.sh fvp-armv8r:nsh_smp shows
warning: (ARCH_CHIP_FVP_R52 && ARCH_CHIP_FVP_R82) selects ARMV8R_HAVE_GICv3 which has unmet direct dependencies (ARCH_ARM && ARCH_ARMV8R)
- I think ARMV8R_HAVE_GICv3 is only used for aarch32.
- This commit fixes this issue.
Impact:
- None
Testing:
- Tested with nsh_smp on FVP
Signed-off-by: Masayuki Ishikawa <Masayuki.Ishikawa@jp.sony.com>
armv8r and armv8a have different process affinity,
and sgi affinity needs to be able to adapt all of them.
Signed-off-by: zhangyuan21 <zhangyuan21@xiaomi.com>
Summary
For ARM64, it need to set IRQ type(EDGE or LEVEL). it's specific
for ARM64 PPI or SPI.
The change add arm64_gic_irq_trigger to set IRQ type
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
Summary
add up_affinity_irq/up_trigger_irq/up_prioritize_irq for gicv3
these interface is necessary for some drivers
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
Summary:
GICR_PWRR is a IMPLEMENTATION-DEFINED register for gc700/gc600, which
is following gic v3 and v4.
Please check GICR_PWRR define at TRM of GIC600/GIC700 for more detail
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
The compiler will optimize boot_early_memset to memset,
but memset in libc cannot be used before MMU is enabled.
Therefore, assembly language is used to implement the
initialization of bss to avoid this problem.
Signed-off-by: zhangyuan21 <zhangyuan21@xiaomi.com>
When the MMU/MPU of core0 is enabled while those of other cores are not,
it is unsafe to operate the idle stack simultaneously. The idle stack
of other cores will be flushed by the contents in the cache of core0,
therefore it is necessary to initialize the idle stack and let each
core handle it on its own.
Signed-off-by: zhangyuan21 <zhangyuan21@xiaomi.com>
to avoid the infinite recusive dispatch:
*0 myhandler (signo=27, info=0xf3e38b9c, context=0x0) at ltp/testcases/open_posix_testsuite/conformance/interfaces/sigqueue/7-1.c:39
*1 0x58f1c39e in nxsig_deliver (stcb=0xf4e20f40) at signal/sig_deliver.c:167
*2 0x58fa0664 in up_schedule_sigaction (tcb=0xf4e20f40, sigdeliver=0x58f1bab5 <nxsig_deliver>) at sim/sim_schedulesigaction.c:88
*3 0x58f19907 in nxsig_queue_action (stcb=0xf4e20f40, info=0xf4049334) at signal/sig_dispatch.c:115
*4 0x58f1b089 in nxsig_tcbdispatch (stcb=0xf4e20f40, info=0xf4049334) at signal/sig_dispatch.c:435
*5 0x58f31853 in nxsig_unmask_pendingsignal () at signal/sig_unmaskpendingsignal.c:104
*6 0x58f1ca09 in nxsig_deliver (stcb=0xf4e20f40) at signal/sig_deliver.c:199
*7 0x58fa0664 in up_schedule_sigaction (tcb=0xf4e20f40, sigdeliver=0x58f1bab5 <nxsig_deliver>) at sim/sim_schedulesigaction.c:88
*8 0x58f19907 in nxsig_queue_action (stcb=0xf4e20f40, info=0xf4049304) at signal/sig_dispatch.c:115
*9 0x58f1b089 in nxsig_tcbdispatch (stcb=0xf4e20f40, info=0xf4049304) at signal/sig_dispatch.c:435
*10 0x58f31853 in nxsig_unmask_pendingsignal () at signal/sig_unmaskpendingsignal.c:104
*11 0x58f1ca09 in nxsig_deliver (stcb=0xf4e20f40) at signal/sig_deliver.c:199
*12 0x58fa0664 in up_schedule_sigaction (tcb=0xf4e20f40, sigdeliver=0x58f1bab5 <nxsig_deliver>) at sim/sim_schedulesigaction.c:88
*13 0x58f19907 in nxsig_queue_action (stcb=0xf4e20f40, info=0xf40492d4) at signal/sig_dispatch.c:115
*14 0x58f1b089 in nxsig_tcbdispatch (stcb=0xf4e20f40, info=0xf40492d4) at signal/sig_dispatch.c:435
*15 0x58f31853 in nxsig_unmask_pendingsignal () at signal/sig_unmaskpendingsignal.c:104
*16 0x58f1ca09 in nxsig_deliver (stcb=0xf4e20f40) at signal/sig_deliver.c:199
*17 0x58fa0664 in up_schedule_sigaction (tcb=0xf4e20f40, sigdeliver=0x58f1bab5 <nxsig_deliver>) at sim/sim_schedulesigaction.c:88
*18 0x58f19907 in nxsig_queue_action (stcb=0xf4e20f40, info=0xf40492a4) at signal/sig_dispatch.c:115
*19 0x58f1b089 in nxsig_tcbdispatch (stcb=0xf4e20f40, info=0xf40492a4) at signal/sig_dispatch.c:435
*20 0x58f31853 in nxsig_unmask_pendingsignal () at signal/sig_unmaskpendingsignal.c:104
*21 0x58f1ca09 in nxsig_deliver (stcb=0xf4e20f40) at signal/sig_deliver.c:199
*22 0x58fa0664 in up_schedule_sigaction (tcb=0xf4e20f40, sigdeliver=0x58f1bab5 <nxsig_deliver>) at sim/sim_schedulesigaction.c:88
*23 0x58f19907 in nxsig_queue_action (stcb=0xf4e20f40, info=0xf4049274) at signal/sig_dispatch.c:115
*24 0x58f1b089 in nxsig_tcbdispatch (stcb=0xf4e20f40, info=0xf4049274) at signal/sig_dispatch.c:435
*25 0x58f31853 in nxsig_unmask_pendingsignal () at signal/sig_unmaskpendingsignal.c:104
*26 0x58f1ca09 in nxsig_deliver (stcb=0xf4e20f40) at signal/sig_deliver.c:199
*27 0x58fa0664 in up_schedule_sigaction (tcb=0xf4e20f40, sigdeliver=0x58f1bab5 <nxsig_deliver>) at sim/sim_schedulesigaction.c:88
*28 0x58f19907 in nxsig_queue_action (stcb=0xf4e20f40, info=0xf4049244) at signal/sig_dispatch.c:115
*29 0x58f1b089 in nxsig_tcbdispatch (stcb=0xf4e20f40, info=0xf4049244) at signal/sig_dispatch.c:435
*30 0x58f31853 in nxsig_unmask_pendingsignal () at signal/sig_unmaskpendingsignal.c:104
*31 0x58f1ca09 in nxsig_deliver (stcb=0xf4e20f40) at signal/sig_deliver.c:199
Signed-off-by: Xiang Xiao <xiaoxiang@xiaomi.com>
Currently only Port UART0 is supported for Allwinner A64. This PR adds support for all UART Ports: UART1 to UART4. (Except R-UART, which is a special low-power UART)
This is required for the upcoming LTE Modem Driver (Quectel EG25-G) for PINE64 PinePhone, which uses UART3. [(Details here)](https://lupyuen.github.io/articles/lte2)
The code was adapted from the NuttX UART Driver for Allwinner A1X: [`a1x_serial.c`](https://github.com/apache/nuttx/blob/master/arch/arm/src/a1x/a1x_serial.c)
`arch/arm64/src/a64/a64_serial.c`: Added ports UART1 to UART4, based on [`a1x_serial.c`](https://github.com/apache/nuttx/blob/master/arch/arm/src/a1x/a1x_serial.c)
`arch/arm64/src/a64/a64_serial.h`: Added IRQs for UART1 to UART4. Moved UART Base Addresses to `a64_memorymap.h`
`arch/arm64/src/a64/hardware/a64_memorymap.h`: Added UART Base Addresses for UART0 to UART4
`arch/arm64/src/a64/Kconfig`: Added UART1 to UART4 to Allwinner A64 Peripheral Selection menu
`boards/arm64/a64/pinephone/configs/lcd/defconfig`, `lvgl/defconfig`, `nsh/defconfig`, `sensor/defconfig`: Fixed `UART1_SERIAL_CONSOLE` to `UART0_SERIAL_CONSOLE`
compile error log:
common/arm64_arch_timer.c: In function 'arm64_tick_max_delay':
common/arm64_arch_timer.c:178:12: error: conversion from 'long unsigned int' to 'clock_t' {aka 'unsigned int'} changes value from '18446744073709551615' to '4294967295' [-Werror=overflow]
178 | *ticks = UINT64_MAX;
| ^~~~~~~~~~
Signed-off-by: hujun5 <hujun5@xiaomi.com>
At present, the serial drivers qemu_serial.c and serial_pl011.c on the fvp-v8r and qemu platforms in arm64 are duplicated
and need to be merged. The plan is to place them under the drivers\serial directory to create a common code module,
so that both fvp-v8r and qemu can use the same code.
In the future, if new platforms use pl011 serial ports, they can also be directly reused
Signed-off-by: hujun5 <hujun5@xiaomi.com>
Summary:
Keeping this option out of depend on any common serial.
Using the option, need to implement xxx_lowputc.S/c.
You can also logging the booting message through rewriting
fake arm64_lowputc with other debug method (eg semihosting,
ARM debug channel etc).
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
1. arm64/makefile: preprocess link script to make configure more flexibly
2. arm64/EXTRA_LIBS: link all staging library
Signed-off-by: chao an <anchao@xiaomi.com>
in SMP, signal processing cannot be nested, we use xcp.sigdeliver to identify whether there is currently a signal being processed, but this state does not match the actual situation
One possible scenario is that signal processing has already been completed, but an interrupt occurs, resulting in xcp.sigdeliver not being correctly set to NULL,
At this point, a new signal arrives, which can only be placed in the queue and cannot be processed immediately
Our solution is that signal processing and signal complete status are set in the same critical section, which can ensure status synchronization
Signed-off-by: hujun5 <hujun5@xiaomi.com>
In the interrupt context, we should first save the interrupt context and modify the interrupt register
to execute the signal processing program immediately after exiting the current interrupt
Signed-off-by: hujun5 <hujun5@xiaomi.com>
1. Get the value of sp from dump regs when an exception occurs,
to avoid getting the value of fp from up_getsp and causing
incomplete stack printing.
2. Determine which stack the value belongs to based on the value
of SP to avoid false reports of stack overflow
Signed-off-by: zhangyuan21 <zhangyuan21@xiaomi.com>
CURRENT_REGS may change during assert handling, so pass
in the 'regs' parameter at the entry point of _assert.
Signed-off-by: zhangyuan21 <zhangyuan21@xiaomi.com>
In smp when cpu0 calls up_cpu_resume to release the cpu1 lock, another locked cpu1 did not execute immediately,
and soon cpu0 called up_cpu_resume again, now cpu1 unable to respond to the interrupt at this time, resulting in a deadlock.
Our solution is to restore cpu1 execution from asynchronous to synchronous to ensure that cpu1 is restored.
Signed-off-by: hujun5 <hujun5@xiaomi.com>
Summary:
To reduce the count of FPU context switching will result at a
performance improve with system. it need to balance between
the using of FPU and counts of FPU trap
the PR submit a base method to see performance counts for
the FPU with NuttX procfs
Please read README.txt at chapter of FPU Support and Performance
for more information
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
minidump will backtrace failure when use C code to save user context,
because the stack push operation in C code can disrupt the stack information.
Signed-off-by: zhangyuan21 <zhangyuan21@xiaomi.com>
1 Similar to Linux and zephyr, all implementations are in arm64_arch_timer.c
2 Arm64 tickless is turned off by default. If it needs to be turned on, you need to configure the switch CONFIG_SCHED_TICKLESS ON
3 The implementation strategy for tick/tickless is to use the timer inside the CPU and implement the timer driver based on the ARCH_TIMER framework.
4 We implemented tick_* Callback functions to adapt to the driven interface to avoid time format conversion overhead
5 In arm64_tick_cancel func,The remaining time that is not used, so this value can be ignored without reading the corresponding register to obtain the remaining cycles
6 Currently, tick/tickless can takes effect in SMP and non SMP mode, ostest can pass.
Signed-off-by: hujun5 <hujun5@xiaomi.com>
The text describes an issue related to the running task in code.
The running task is only used when calling the _assert function
to indicate the task that was running before an exception occurred.
However, the current code only updates the running task during
irq_dispatch, which is suitable for ARM-M architecture but not
for ARM-A or ARM-R architecture, because their context switches
are not done through irq handler. Therefore, if the following
process is followed, the value of the running task will be incorrect:
1. task1 is running, this_task()=task1
2. do_irq is executed, setting running task()=task1
3. task1 switches to task2
4. task2 is running and generates a data abort
5. In the data abort, the _assert function is called,
and the running task obtained is still task1, but
the actual task that generated the exception is task2.
Signed-off-by: zhangyuan21 <zhangyuan21@xiaomi.com>
On a GICv2 implementation, setting GICC_CTLR.EOImode to 1 separates
the priority drop and interrupt deactivation operations.
Signed-off-by: zhangyuan21 <zhangyuan21@xiaomi.com>
Summary:
- Support arm64 pmu api, Currently only the cycle counter function is supported.
- Using ARM64 PMU hardware capability to implement perf interface, modify all
perf interface related code.
- Support for pmu init under smp.
Signed-off-by: wangming9 <wangming9@xiaomi.com>
Summary:
add arm64_serialinit/arm64_earlyserialinit function prototype
to arm64_internal.h as common function for arm64 based chip.
Testing with ostest in SP and SMP
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
Summary:
Adding virtual evaluate platform FVP. This FVP board configuration
will be used to emulate generic ARM64v8-R (Cotex-R82)series hardware
platform and provide support for these devices:
- GICv3 interrupt controllers for ARMv8-r
- PL011 UART controller(FVP)
Note:
1. ostest is PASSED at fvp ( single core and SMP)
2. the FVP tools can be download from ARM site, please check FVP
board readme.txt
TODO: merge PL011 UART driver to common place
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
Summary
Different ARM64 Core will use different Affn define, the mpidr_el1
value is not CPU number, So we need to change CPU number to mpid
and vice versa, the patch change the mpid define into platform
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
Summary
For ARM64 architecture, the arch timer is 64-bit,
the CONFIG_SYSTEM_TIME64 need to be enabled just like
x86_64 and risc-v 64
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
Summary
VMPIDR_EL2 holds the value of the Virtualization Multiprocessor ID.
From architecture manual of AArch64, the behave is:
-reading register MPIDR_EL1 in EL2, it's return real MPIDR_EL1
-reading register MPIDR_EL1 in EL1, it's return VMPIDR_EL2
So since NuttX for SMP is running at EL1 to read MPIDR_EL1 for
identify CPU id, it's need to set VMPIDR_EL2 to MPIDR_EL1 for
every CPU at boot EL2 stage.
For some platform, the bootloader or hypervisor will do that at
the EL2 stage, but not all.
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
Summary:
Adding armv8-r(Cortex-R82) support and modify some common code to
fit the change, the change including:
1. ARM Single Security State Support, ARMv8-R support only single
security state, and some GIC configure need to change and fit
2. For ARMv8-R, only have EL0 ~ EL2, the code at EL3 is not necessary
and system register for EL3 is not accessible(gcc will failed when
access these registers)
3. add base MPU configure for the platform.
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
Summary:
The aarch64 have EL0~El3 execute level and NS/S (security state),
the NuttX should be execute at EL1 in NS(ARmv8-A) or S(ARmv8-R)
state. but booting NuttX have different ELs and state while with
different platform, if NuttX runing at wrong ELs or state it will
be not normal anymore. So we need to print something in arm64_head.S
to debug this situation.
Enabling this option will need to implement up_earlyserialinit and
up_lowputc functions just you see in qemu, if you not sure,
keeping the option disable.
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
Summory
This Power State Coordination Interface (PSCI) defines a standard
interface for power management. the PCSI need to implement handling
firmware at EL2 or EL3 for ARM64. the PSCI maybe not applicable
for arm core without PCSI firmware interface implement.
Add configure option for it.
Note:
1. ostest is PASSED at qemu and fvp ( single core and SMP)
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
The function is not relevant any longer, remove it. Also remove
save_addrenv_t, the parameter taken by up_addrenv_restore.
Implement addrenv_select() / addrenv_restore() to handle the temporary
instantiation of address environments, e.g. when a process is being
created.
Summary:
1. to enable Toolchain select Kconfig option, making something depend on
the opton to be configured with menuconfig
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>
This is preparation for moving address environments out of the group
structure into the tcb.
Why move ? Because the group is destroyed very early in the exit phase,
but the MMU mappings are needed until the context switch to the next
process is complete. Otherwise the MMU will lose its mappings and the
system will crash.
There were two issues with signal handling:
- With a kernel stack the "info" parameter was passed from kernel memory.
This is fixed by making a stack frame to the user stack and copying it
there.
- If the signal handler uses a system call, the kernel stack was completely
and unconditionally destroyed, resulting in a crash in the user application
There is also no need to check ustkptr, it is always NULL. Why ? Because
signal delivery is deferred when a system call is being executed.
The dependency should be vice versa; the MM_SHM should depend on the
existence of the virtual memory range allocator.
Create a new CONFIG flag CONFIG_ARCH_VMA_MAPPING, which will define that
there is a virtual memory range allocator. Make MM_SHM select that flag
Signed-off-by: Jukka Laitinen <jukkax@ssrc.tii.ae>
The current implementation of PIO Interrupt for Allwinner A64 is incomplete. This PR fixes the implementation of PIO Interrupt for all supported PIO Ports (PB, PG and PH).
### Modified Files
`arch/arm64/src/a64/a64_pio.c`, `a64_pio.h`: Add implementation of PIO Interrupt
`arch/arm64/include/a64/irq.h`: Add IRQ for PIO Port PH
`arch/arm64/src/a64/hardware/a64_pio.h`: Fix addresses of PIO Interrupt Registers
This PR adds the driver for Xingbangda XBD599 LCD Panel (based on Sitronix ST7703 LCD Controller) on PINE64 PinePhone. This PR also includes:
- The driver for X-Powers AXP803 Power Mgmt IC, which calls our driver for Allwinner A64's Reduced Serial Bus. The PMIC Driver is needed to power on the MIPI DSI Interface for the LCD Panel.
- A simple Display Driver that renders a Test Pattern on the LCD Display at startup. It calls our Allwinner A64 drivers for Display Engine, Timing Controller TCON0 and MIPI Display Serial Interface.
The NuttX Frame Buffer Driver will be implemented in the next PR.
`arch/arm64/src/a64/a64_de.c`, `a64_de.h`: Changed the Frame Buffer pointer to `const` for Allwinner A64 Display Engine
`arch/arm64/src/a64/hardware/a64_memorymap.h`: Added the Base Address for PWM, for controlling the PWM Backlight
`boards/arm64/a64/pinephone/src/pinephone_bringup.c`: Call `fb_register()` to start the Display Driver at startup
`boards/arm64/a64/pinephone/src/Makefile`: Added LCD Driver, PMIC Driver and Display Driver to Makefile
`boards/arm64/a64/pinephone/Kconfig`: Added the Kconfig option for "PINE64 PinePhone > LCD Display" (`CONFIG_PINEPHONE_LCD`) which enables the LCD Driver, PMIC Driver and Display Driver
`boards/arm64/a64/pinephone/src/pinephone_lcd.c`, `pinephone_lcd.h`: Driver for Xingbangda XBD599 LCD Panel
`boards/arm64/a64/pinephone/src/pinephone_pmic.c`, `pinephone_pmic.h`: Driver for X-Powers AXP803 Power Mgmt IC
`boards/arm64/a64/pinephone/src/pinephone_display.c`: Simple Display Driver that renders a Test Pattern in `up_fbinitialize()`
`boards/arm64/a64/pinephone/configs/lcd/defconfig`: New PinePhone Board Configuration `pinephone:lcd` that enables the LCD Driver (`CONFIG_PINEPHONE_LCD`)
`platforms/arm/a64/boards/pinephone/index.rst`: Added PinePhone Board Configuration `pinephone:lcd` that enables the LCD Driver
This PR adds the driver for Reduced Serial Bus (RSB) on Allwinner A64 SoC. The RSB Driver will be called by the upcoming Power Mgmt IC Driver for PINE64 PinePhone, to power on the LCD Display.
`arch/arm64/src/a64/Kconfig`: Added the Kconfig option for "A64 Peripheral Selection > RSB" (`CONFIG_A64_RSB`), which enables the RSB Driver
`arch/arm64/src/a64/hardware/a64_memorymap.h`: Added the Base Address for RSB
`arch/arm64/src/a64/Make.defs`: Added the RSB Driver to the Makefile
`arch/arm64/src/a64/a64_de.c`: Increase PLL Timeout for Allwinner A64 Display Engine
`boards/arm64/a64/pinephone/configs/nsh/defconfig`: Set PinePhone Board Config `CONFIG_BOARD_LOOPSPERMSEC` to the value computed by `calib_udelay`
`arch/arm64/src/a64/a64_rsb.c`, `a64_rsb.h`: RSB Driver for Allwinner A64
`platforms/arm/a64/boards/pinephone/index.rst`: Added RSB as supported peripheral for PinePhone
This PR adds the driver for Display Engine 2.0 on Allwinner A64 SoC. The Display Engine Driver will be called by the upcoming LCD Driver for PINE64 PinePhone.
`arch/arm64/src/a64/Kconfig`: Added the Kconfig option for "A64 Peripheral Selection > DE" (`CONFIG_A64_DE`), which enables the Display Engine Driver
`arch/arm64/src/a64/hardware/a64_memorymap.h`: Added the Base Address for Display Engine
`arch/arm64/src/a64/Make.defs`: Added the Display Engine Driver to the Makefile
`boards/arm64/a64/pinephone/configs/nsh/defconfig`: Removed Scheduler Debug Info (`CONFIG_DEBUG_SCHED_INFO`) from the PinePhone Board Config, because it garbles the Console Output.
`arch/arm64/src/a64/a64_de.c`, `a64_de.h`: Display Engine Driver for Allwinner A64
`platforms/arm/a64/boards/pinephone/index.rst`: Added Display Engine as supported peripheral for PinePhone
This PR adds the driver for TCON0 (Timing Controller) on Allwinner A64 SoC. The TCON0 Driver will be used by the upcoming Display Driver for PINE64 PinePhone.
`arch/arm64/src/a64/Kconfig`: Added the Kconfig option for "A64 Peripheral Selection > TCON0" (`CONFIG_A64_TCON0`), which enables the TCON0 Driver
`arch/arm64/src/a64/hardware/a64_memorymap.h`: Added the Base Address for TCON0
`arch/arm64/src/a64/Make.defs`: Added the TCON0 Driver to the Makefile
`arch/arm64/src/a64/a64_tcon0.c`, `a64_tcon0.h`: TCON0 Driver for Allwinner A64
`platforms/arm/a64/boards/pinephone/index.rst`: Added TCON0 as supported peripheral for PinePhone
This PR adds the driver for Allwinner A64's MIPI Display Serial Interface (DSI) and MIPI Display Physical Layer (D-PHY).
This driver will be used by the upcoming Display Driver for PINE64 PinePhone.
- `include/nuttx/crc16.h`: Added 16-bit CRC-CCITT
- `libs/libc/misc/Make.defs`: Added 16-bit CRC-CCITT to Makefile
- `arch/arm64/src/a64/Kconfig`: Added the Kconfig option for "A64 Peripheral Selection > MIPI DSI" (`CONFIG_A64_MIPI_DSI`), which enables the MIPI DSI Driver
- `arch/arm64/src/a64/hardware/a64_memorymap.h`: Added the Base Address for MIPI DSI
- `arch/arm64/src/a64/Make.defs`: Added the MIPI DSI Driver to the Makefile
- `libs/libc/misc/lib_crc16ccitt.c`: Compute 16-bit CRC-CCITT
- `arch/arm64/src/a64/mipi_dsi.c`, `mipi_dsi.h`: Compose MIPI DSI Packets (Long, Short, Short with Parameter)
- `arch/arm64/src/a64/a64_mipi_dsi.c`, `a64_mipi_dsi.h`: MIPI DSI Driver for Allwinner A64
- `arch/arm64/src/a64/a64_mipi_dphy.c`, `a64_mipi_dphy.h`: MIPI D-PHY Driver for Allwinner A64
- `platforms/arm/a64/boards/pinephone/index.rst`: Added MIPI DSI as supported peripheral for PinePhone
Co-Authored-By: Petro Karashchenko <petro.karashchenko@gmail.com>
Registers S0-S15 (D0-D7, Q0-Q3) do not need to be preserved. They can be used for passing
arguments or returning results in standard procedure-call variants.
Registers D16-D31 (Q8-Q15), do not need to be preserved.
Signed-off-by: zhangyuan21 <zhangyuan21@xiaomi.com>
This PR adds the drivers for Allwinner A64 PIO (Programmable I/O) and PinePhone LEDs (Red / Green / Blue).
The PIO Driver is based on the NuttX PIO Driver for Allwinner A10: [`arch/arm/src/a1x/a1x_pio.c`](https://github.com/apache/nuttx/blob/master/arch/arm/src/a1x/a1x_pio.c)
- `arch/arm64/src/a64/Make.defs`: Add PIO Driver to Makefile
- `boards/Kconfig`: Add `ARCH_HAVE_LEDS` to PinePhone
- `boards/arm64/a64/pinephone/src/pinephone.h`: Define PinePhone LEDs
- `boards/arm64/a64/pinephone/src/pinephone_boardinit.c`: Start Auto LEDs
- `boards/arm64/a64/pinephone/src/pinephone_bringup.c`: Start User LEDs
- `boards/arm64/a64/pinephone/src/Makefile`: Add LED Driver to Makefile
- `boards/arm64/a64/pinephone/configs/nsh/defconfig`: Add `CONFIG_USERLED` to `nsh` config
- `arch/arm64/src/a64/a64_pio.c`, `a64_pio.h`: Allwinner A64 PIO Driver
- `arch/arm64/src/a64/hardware/a64_memorymap.h`: PIO Memory Map
- `arch/arm64/src/a64/hardware/a64_pio.h`: PIO Definitions
- `boards/arm64/a64/pinephone/include/board.h`: Define PinePhone LEDs
- `boards/arm64/a64/pinephone/src/pinephone_autoleds.c`: Driver for Auto LEDs
- `boards/arm64/a64/pinephone/src/pinephone_userleds.c`: Driver for User LEDs
- `introduction/supported_platforms.rst`: Add Allwinner A64 as Supported Platform
- `platforms/arm/a64/boards/pinephone/index.rst`: Add PIO and LEDs to PinePhone
Summary:
- I noticed that the nsh prompt can not be shown when disabling
debug features. Actually, the prompt will be shown when a user
input happens.
- This commit fixes this issue by adding uart_xmitchars() as
other serial drivers do.
Impact:
- None
Testing:
- Tested with qemu-armv8a:netnsh on QEMU-7.1
Signed-off-by: Masayuki Ishikawa <Masayuki.Ishikawa@jp.sony.com>
It takes about 10 cycles to obtain the task list according to the task
status. In most cases, we know the task status, so we can directly
add the task from the specified task list to reduce time consuming.
It takes about 10 cycles to obtain the task list according to the task
status. In most cases, we know the task status, so we can directly
delete the task from the specified task list to reduce time consuming.
Currently NuttX on Arm64 supports Generic Interrupt Controller (GIC) Versions 3 and 4: [`arm64_gicv3.c`](https://github.com/apache/incubator-nuttx/blob/master/arch/arm64/src/common/arm64_gicv3.c), [`arm64_gic.h`](https://github.com/apache/incubator-nuttx/blob/master/arch/arm64/src/common/arm64_gic.h). This PR adds support for GIC Version 2, which is needed by [Pine64 PinePhone](https://lupyuen.github.io/articles/interrupt) based on Allwinner A64 SoC.
This 64-bit implementation of GIC v2 is mostly identical to the existing GIC v2 for 32-bit Armv7-A ([`armv7-a/arm_gicv2.c`](https://github.com/apache/incubator-nuttx/blob/master/arch/arm/src/armv7-a/arm_gicv2.c), [`armv7-a/gic.h`](https://github.com/apache/incubator-nuttx/blob/master/arch/arm/src/armv7-a/gic.h)), with minor modifications to support 64-bit Registers (Interrupt Context).
- `arch/arm64/Kconfig`: Under "ARM64 Options", we added an integer option `ARM_GIC_VERSION` ("GIC version") that selects the GIC Version. Valid values are 2, 3 and 4, default is 3.
- `arch/arm64/src/common/arm64_gicv2.c`: Implements 64-bit GIC v2 based on 32-bit [`armv7-a/arm_gicv2.c`](https://github.com/apache/incubator-nuttx/blob/master/arch/arm/src/armv7-a/arm_gicv2.c) and [`armv7-a/gic.h`](https://github.com/apache/incubator-nuttx/blob/master/arch/arm/src/armv7-a/gic.h), modified to support 64-bit Registers (Interrupt Context).
Function and Macro Names have not been changed, for easier cross-referencing between the 32-bit and 64-bit implementations of GIC v2.
- `arch/arm64/src/common/arm64_gicv3.c`: Added Conditional Compilation for GIC v3. This file will not be compiled if `ARM_GIC_VERSION` is 2.
- `arch/arm64/src/common/arm64_gic.h`: Added the Version Identifier for GIC v2. At startup we read the GIC Version from hardware and verify that it matches `ARM_GIC_VERSION`.
- `arch/arm64/include/qemu/chip.h`: Added the QEMU Base Addresses for GIC v2.
- `arch/arm64/src/common/Make.defs`: Added the source file that implements GIC v2.
- `boards/arm64/qemu/qemu-armv8a/README.txt`: Added the documentation for testing GIC v2 with QEMU.
- `boards/arm64/qemu/qemu-armv8a/configs/nsh_gicv2/defconfig`: Added the Board Configuration `qemu-armv8a:nsh_gicv2` for testing GIC v2 with QEMU. Identical to `qemu-armv8a:nsh`, except that `ARM_GIC_VERSION` is 2.
In the past, header file paths were generated by the incdir command
Now they are generated by concatenating environment variables
In this way, when executing makefile, no shell command will be executed,
it will improve the speed of executing makfile
Signed-off-by: yinshengkai <yinshengkai@xiaomi.com>
This change adds the following:
- Rename the board configuration name from qemu-a53 to qemu-v8a.
- Add the configurations for Cortex-A57 and Cortex-A72.
Signed-off-by: Hidenori Matsubayashi <hidenori.matsubayashi@gmail.com>
Use CONFIG_ARCH_CHIP_QEMU instead of CONFIG_ARCH_CHIP_QEMU_A53. This is because these configurations depend on the hardware configuration of qemu (memory map, irq numbers, etc.).
Signed-off-by: Hidenori Matsubayashi <hidenori.matsubayashi@gmail.com>
This change moves the static vars to the appropriate place to follow the coding standard. It also adds comments as sections and `static` where necessary.
Signed-off-by: Hidenori Matsubayashi <hidenori.matsubayashi@gmail.com>
The default size in QEMU system is 128MB, and the size specified in chip.h is also 128MB. However, the region size for MMU was 512MB, so fixed it.
Signed-off-by: Hidenori Matsubayashi <hidenori.matsubayashi@gmail.com>
Situation:
Assume we have 2 cpus, and busy run task0.
CPU0 CPU1
task0 -> task1 task2 -> task0
1. remove task0 form runninglist
2. take task1 as new tcb
3. add task0 to blocklist
4. clear spinlock
4.1 remove task2 form runninglist
4.2 take task0 as new tcb
4.3 add task2 to blocklist
4.4 use svc ISR swith to task0
4.5 crash
5. use svc ISR swith to task1
Fix:
Move clear spinlock to the end of svc ISR
Signed-off-by: ligd <liguiding1@xiaomi.com>
==2117790==ERROR: AddressSanitizer: global-buffer-overflow on address 0x64d9e3c0 at pc 0x59ac4e16 bp 0xcefe8058 sp 0xcefe8048
READ of size 1 at 0x64d9e3c0 thread T0
#0 0x59ac4e15 in up_nputs sim/up_nputs.c:54
#1 0x59a67e4c in syslog_default_write syslog/syslog_channel.c:220
#2 0x59a67823 in syslog_default_write syslog/syslog_write.c:101
#3 0x59a67f10 in syslog_write syslog/syslog_write.c:153
#4 0x59a651c3 in syslogstream_flush syslog/syslog_stream.c:60
#5 0x59a6564e in syslogstream_addchar syslog/syslog_stream.c:104
#6 0x59a6576f in syslogstream_putc syslog/syslog_stream.c:140
#7 0x5989fc4d in vsprintf_internal stdio/lib_libvsprintf.c:952
#8 0x598a1298 in lib_vsprintf stdio/lib_libvsprintf.c:1379
#9 0x59a64ea4 in nx_vsyslog syslog/vsyslog.c:223
#10 0x598a601a in vsyslog syslog/lib_syslog.c:68
#11 0x59b0e3dc in AIOTJS::logPrintf(int, char const*, ...) src/ajs_log.cpp:45
#12 0x59b03d56 in jse_dump_obj src/jse/quickjs/jse_quickjs.cpp:569
#13 0x59b03ea1 in jse_dump_error1(JSContext*, unsigned long long) src/jse/quickjs/jse_quickjs.cpp:602
#14 0x59b03dd9 in jse_dump_error(JSContext*) src/jse/quickjs/jse_quickjs.cpp:591
#15 0x59bed615 in ferry::DomComponent::callHook(char const*) src/framework/dom/component.cpp:65
#16 0x59bfe0ff in ferry::DomComponent::initialize() src/framework/dom/component.cpp:645
#17 0x59bb141d in dom_create_component(JSContext*, unsigned long long, unsigned long long, unsigned long long) (/home/wangbowen/project/central/vela_miot_bes_m0/bin/audio+0x365c41d)
#18 0x59b4c0d3 in AIOTJS::__createComponent(JSContext*, unsigned long long, int, unsigned long long*) (/home/wangbowen/project/central/vela_miot_bes_m0/bin/audio+0x35f70d3)
#19 0x5a56ec17 in js_call_c_function quickjs/quickjs.c:16108
Signed-off-by: wangbowen6 <wangbowen6@xiaomi.com>
so the user could disable the full image instrumentation,
but enable the instrumentation by files or directories.
Signed-off-by: Xiang Xiao <xiaoxiang@xiaomi.com>
without UBSan
```
text data bss dec hex filename
85612 208 142258 228078 37aee nuttx
```
with UBSan:
```
text data bss dec hex filename
194290 98164 208634 501088 7a560 nuttx
```
```c
int main(int argc, FAR char *argv[])
{
uint32_t ptr[32];
printf("Hello, World!! %lu\n", ptr[64]);
return 0;
}
```
Try to run this sample:
```
nsh> hello
ubsan_prologue: ================================================================================
ubsan_prologue: UBSAN: array-index-out-of-bounds in hello_main.c:39:37
__ubsan_handle_out_of_bounds: index 64 is out of range for type 'uint32_t [32]'
ubsan_epilogue: ================================================================================
Hello, World!! 1070182368
nsh>
```
Signed-off-by: Huang Qi <huangqi3@xiaomi.com>
Summary:
- Since the stack coloration is done for every 32bits
this function should be done in the same way.
Impact:
- None
Testing:
- Tested with qemu-a53:nsh
Signed-off-by: Masayuki Ishikawa <Masayuki.Ishikawa@jp.sony.com>
N/A
Summary:
Arm64 support for NuttX, Features supported:
1. Cortex-a53 single core and SMP support: it's can run into nsh shell at
qemu virt machine.
2. qemu-a53 board configuration support: it's only for evaluate propose
3. FPU support for armv8-a: FPU context switching at NEON/floating-point
TRAP is supported.
4. psci interface, armv8 cache operation(data cache) and smccc support.
5. fix mass code style issue, thank for @xiaoxiang781216, @hartmannathan @pkarashchenko
Please refer to boards/arm64/qemu/qemu-a53/README.txt for detail
Note:
1. GCC MACOS issue
The GCC 11.2 toolchain for MACOS may get crash while compiling
float operation function, the following link describe the issue
and give analyse at the issue:
https://bugs.linaro.org/show_bug.cgi?id=5825
it's seem GCC give a wrong instruction at certain machine which
without architecture features
the new toolchain is not available still, so just disable the MACOS
cibuild check at present
Signed-off-by: qinwei1 <qinwei1@xiaomi.com>