The macro LOG2_CEIL is intended to be used in the pre-processor phase. If
used run-time it will generate a massive amount of extra code (~3.5K) which
is a problem, as the PMP configuration is quite often executed from a first
stage bootloader with a limited amount of code memory.
Code size differences pre- and post:
Memory region Used Size Region Size %age Used
envm: 112064 B 112384 B 99.72%
Memory region Used Size Region Size %age Used
envm: 108952 B 112384 B 96.95%
This PR adds support for the Bouffalo Lab BL808 SoC, based on T-Head C906 64-bit RISC-V Core. This will be used by the upcoming port of NuttX for PINE64 Ox64 SBC.
Most of the code was derived from NuttX for Star64 JH7110. The UART Driver was derived from BL602 NuttX. The source files are explained in the articles here: https://github.com/lupyuen/nuttx-ox64
`Kconfig`: Added ARCH_CHIP_BL808 for BL808 SoC
`include/bl808/chip.h`: BL808 Definitions
`include/bl808/irq.h`: External Interrupts
`src/bl808/chip.h`: Interrupt Stack Macro
`src/bl808/bl808_allocateheap.c`: Kernel Heap
`src/bl808/bl808_head.S`: Linux Header and Boot Code
`src/bl808/bl808_irq.c`: Configure Interrupts
`src/bl808/bl808_irq_dispatch.c`: Dispatch Interrupts
`src/bl808/bl808_memorymap.h`: Memory Map
`src/bl808/bl808_mm_init.c`, `bl808_mm_init.h`: Memory Mgmt
`src/bl808/bl808_pgalloc.c`: Page Allocator
`src/bl808/bl808_serial.c`, `bl808_serial.h`: UART Driver
`src/bl808/bl808_start.c`: Startup Code
`src/bl808/bl808_timerisr.c`: Timer Interrupt
`src/bl808/hardware/bl808_memorymap.h`: PLIC and UART Base Address
`src/bl808/hardware/bl808_plic.h`: PLIC Register Addresses
`src/bl808/hardware/bl808_uart.h`: UART Register Addresses
`src/bl808/Kconfig`: BL808 Config
`src/bl808/Make.defs`: Makefile
Commit 8a63d29c removed `devif_iob_send` from `udp_sendto_buffered`
workflow, `devif_iob_send` drops too big packet. Now we still need a
place to check the packet length, otherwise a packet larger than MTU
may be sent to the net driver.
In case of similar problem happens somewhere else, this commit also
adds a check in `netdev_upperhalf`, and count these cases into
`NETDEV_TXERRORS`.
Signed-off-by: Zhe Weng <wengzhe@xiaomi.com>
Busy waiting in w25qxxxjv_erase_sector() was without nxsig_usleep and
was causing the entire system to freeze for significant amount of time
as sector erase takes some time.
This commit adds nxsig_usleep into busy waiting to prevent system lock.
Sleep is set to sector erase time based on W25Q series datasheet.
Signed-off-by: Michal Lenc <michallenc@seznam.cz>
we can use uart to debug nuttx,like debugger:
1. read/write memory
2. Use watchpoint,breakpoint,single step.
use up_debugpoint api
3. Ctrl+c to stop, continue, or single step.
hold uart send and receive
4. register a panic event, when crash or assert/panic, we use uart to
debug.
Signed-off-by: anjiahao <anjiahao@xiaomi.com>
Currently RISC-V NuttX supports 32-bit MMU Flags inside a Page Table Entry. This PR extends the MMU Flags to 64-bit, to support T-Head C906 Core and the new RISC-V Svpbmt Extension.
T-Head C906 uses Bits 59 to 63 in a Leaf Page Table Entry to configure the Memory Type: Cacheable / Bufferable / Strongly-Ordered. For the upcoming port of NuttX to PINE64 Ox64 BL808 SBC, we need to set the Memory Type to Strongly-Ordered for I/O Memory, which requires 64-bit MMU Flags.
Details of C906 MMU: https://lupyuen.github.io/articles/plic3#t-head-errata
Newer RISC-V Cores will use the Svpbmt Extension to configure the Memory Type (Cacheable / Strongly-Ordered). Svpbmt uses Bits 61 to 62 in a Leaf Page Table Entry to define the Memory Type. This also requires 64-bit MMU Flags.
Details of Svpbmt: https://github.com/riscv/riscv-isa-manual/blob/main/src/supervisor.adoc#svpbmt
Usage:
1. CONFIG_FS_PROCFS_MAX_STACK_RECORD > 0, such as 32,
2. add '-finstrument-functions' to CFLAGS for What you want to check
stack.
3. mount porcfs
4. cat /proc/<pid>/stack will print backtace & size
Signed-off-by: anjiahao <anjiahao@xiaomi.com>
Add registration function instrumentation API,
which can achieve instrumentation of entering and
exiting functions through the compiler's functionality.
We can use CONFIG_ARCH_INSTRUMENT_ALL to add instrumentation for all
source, or add '-finstrument-functions' to CFLAGS for Part of the
source.
Notice:
1. use CONFIG_ARCH_INSTRUMENT_ALL must mark _start or entry noinstrument_function,
becuase bss not set.
2. Make sure your callbacks are not instrumented recursively.
use instrument_register to register entry function and exit function.
They will be called by the instrumented function
Signed-off-by: anjiahao <anjiahao@xiaomi.com>
Virtio driver can used this api to judge whether the this feature
is supported by both virtio driver and device.
Signed-off-by: Bowen Wang <wangbowen6@xiaomi.com>
Binary nibble to/from ascii hex conversion was buggy on both
lib_slcdencode and lib_slcddecode libraries.
This bug caused the slcd library to fail to decode 5-byte sequence command
which have 'count' argument value bigger than 0x9.
Signed-off-by: Federico Braghiroli <federico.braghiroli@gmail.com>
Revert "ci/docker: Fix " Could not find GN_EXECUTABLEXX using the following names: gn""
This reverts commit d6ac9e1aed.
Revert "tools/ci: Skip copy gn temporary files"
This reverts commit 4673fccece.
If the gap between sp and stack_top is too small,
then the stack will not be output,
modify the conditional loop condition, and fix this problem
Signed-off-by: anjiahao <anjiahao@xiaomi.com>
Previously CONFIG_USBDEV_SOFINTERRUPT existed in many platform
drivers but did nothing. This commit adds a callback function
usbdev_sof_irq() that can be used to take action on this interrupt.
The ADC peripheral can only support up to
50MHz on rev V silicon and 36MHz on Y silicon.
The existing driver always used no prescaler
and kept boost setting at 0.
