This commit implements a character driver for the general purpose ADC of the BL808, based on the hardware scanning functionality. The driver supports setting different conversion resolutions and the order of channels to be scanned via menuconfig.
It turns out that the D0 core of the BL808 has an IRQ that represents all interrupt sources for the M0 core. This change uses this IRQ to access these sources, eliminating the need for IPC between M0 and D0.
This change implements a system for allowing the D0 core (which runs NuttX) to receive forwarded interrupts from the M0 core. This makes it possible for drivers that rely on interrupts to work with peripherals attached to the M0 core.
To simplify processing, the existed SBI function code is just
invoking the ecall and return the error value. This omits
potential return value in "a1", which is defined in SBI doc.
Add the "sbiret" struct so it can handle all the return value.
In addition, there are some minor improvement:
1. move the SBI related interface to a separate file to make it clean.
2. add all necessary SBI ecall interface macro until version 2.0.
3. add an utilty function to convert sbi error numner to standard
error number.
Signed-off-by: Inochi Amaoto <inochiama@outlook.com>
This PR adds support for the SOPHGO SG2000 SoC, based on T-Head C906 64-bit RISC-V Core. This will be used by the upcoming port of NuttX for Milk-V Duo S SBC.
Most of the code was derived from NuttX for Ox64 BL808. The source files are explained in the articles here: https://github.com/lupyuen/nuttx-sg2000
Modified Files in arch/risc-v:
`Kconfig`: Added ARCH_CHIP_SG2000 for SG2000 SoC
New Files in arch/risc-v:
`include/sg2000/chip.h`: SG2000 Definitions
`include/sg2000/irq.h`: External Interrupts
`src/sg2000/chip.h`: Interrupt Stack Macro
`src/sg2000/sg2000_allocateheap.c`: Kernel Heap
`src/sg2000/sg2000_head.S`: Linux Header and Boot Code
`src/sg2000/sg2000_irq.c`: Configure Interrupts
`src/sg2000/sg2000_irq_dispatch.c`: Dispatch Interrupts
`src/sg2000/sg2000_memorymap.h`: Memory Map
`src/sg2000/sg2000_mm_init.c`, `sg2000_mm_init.h`: Memory Mgmt
`src/sg2000/sg2000_pgalloc.c`: Page Allocator
`src/sg2000/sg2000_start.c`: Startup Code
`src/sg2000/sg2000_timerisr.c`: Timer Interrupt
`src/sg2000/hardware/sg2000_memorymap.h`: PLIC and UART Base Address
`src/sg2000/hardware/sg2000_plic.h`: PLIC Register Addresses
`src/sg2000/Kconfig`: SG2000 Config
`src/sg2000/Make.defs`: Makefile
This applies uintreg_t in risc-v commons and fixes araised ci issues
for multiple devices. The FLAT build runs on qemu-rv64ilp32 target.
Signed-off-by: Yanfeng Liu <yfliu2008@qq.com>
This patch changes how user service calls are executed:
Instead of using the common interrupt logic, execute the user service
call directly.
Why? When a user makes a service call request, all of the service call
parameters are already loaded into the correct registers, thus it makes
no sense to first clobber them and then reload them, which is what the
old logic does. It is much more effective to run the system call directly.
During a user system call the interrupts must be re-enabled, which the
new logic does as soon as we know the exception is a user service call
request.
This patch does NOT change the behavior of reserved system calls (like
switch_context), only the user service call request is affected.
SSTC extension allows nuttx to implement S-mode timer directly,
which is useful for starting at S-mode.
Signed-off-by: Inochi Amaoto <inochiama@outlook.com>
Using CSR name depends on compiler support heavily, but CSR
encoding does not have this problem. It also make it easy to
add new CSR support even if the compiler does not support.
Unify CSR access by using the CSR encoding macro.
Signed-off-by: Inochi Amaoto <inochiama@outlook.com>
This patch adds more debug related CSR definitions
to arch/risc-v/include/csr.h.
These definitions are from the RISC-V Debug Specification
Version 1.0 rc1 (https://github.com/riscv/riscv-debug-spec).
Signed-off-by: Huang Qi <huangqi3@xiaomi.com>
This patch adds inter-processor interrupt support using K230 mailbox
device to improve the RPMsg efficiency. The polling logic has been
dropped.
Major changes:
- in arch/risc-v/include/k230:
- irq.h add IRQ for IPI devices
- in arch/risc-v/src/k230:
- Kconfig add IPI related config, increase polling delay
- Make.defs add k230_ipi.c to CHIP_SRCS
- k230_hart.c fix typo, add notes of zero MISA reading w/ NUTTSBI
- k230_irq.c use K230_PLIC_IRQS as ext IRQ limit to support IPI
- k230_rptun.c use IPI instead of polling
- in boards/risc-v/k230/canmv230/configs
- master enable IPI support
- remote enable IPI, TMPFS, RPMSGFS etc
New additions:
- in arch/risc-v/src/k230:
- k230_ipi.h add K230 IPI related defintions
- k230_ipi.c add K230 IPI driver
Signed-off-by: Yanfeng Liu <yfliu2008@qq.com>
K230 chip has two T-Head C908 RiscV cores, previously we run NuttX
on either little or big cores. This patch runs NuttX on both cores
with OpenAMP support via the RPTUN driver.
New additions:
- in arch/risc-v/src/k230
- k230_rptun.c K230 RPTUN driver
- k230_rptun.h K230 RPTUN driver header file
- in baords/risc-v/k230/canmv230
- configs/master Build config for master node
- configs/remote Build config for remote node
- scripts/ld-rptun.script Build script for RPTUN
Major changes:
- arch/risc-v/Kconfig Select NUTTSBI_LATE_INIT upon NUTTSBI
- in arch/risc-v/include
- k230/irq.h Add UART3 IRQ defs
- in arch/risc-v/src/k230
- Kconfig Add RPTUN related config items
- Make.defs Add k230-rptun.c to sources
- hardware/k230_memorymap.h Add K230 device and CSR defs
- k230_hart.c Add hart ctrl for RPTUN
- k230_hart.h Add hart ctrl for RPTUN
- k230_mm_init.c Add Svpmbt to support RPTUN
- k230_start.c Revised to support RPMsg UART
- in boards/risc-v/k230/canmv230
- scripts/Make.defs Add RPTUN script selection
- src/canmv_init.c Add RPTUN and RPMsg_UART initialization
- in Documentation/platforms/risc-v/k230/boards/canmv230
- index.rst Add AMP usage information.
Signed-off-by: Yanfeng Liu <yfliu2008@qq.com>
add defintions for vector extension and additional user-mode
extension fields for MSTATUS and SSTATUS registers.
Signed-off-by: Yanfeng Liu <yfliu2008@qq.com>
Current LITEX_LAST_IRQ looks like a typo that blocks compilation of
`arty_a7/knsh` configuration.
This fixes the build but I have no such device for test.
Found it was LITEX_IRQ_LAST before commit #ee84ea3 so likely typo was
introduced by then.
Signed-off-by: Yanfeng Liu <yfliu2008@qq.com>
Changes:
- Documentation/platforms/risc-v/k230 revised for both modes
- arch/risc-v/include/k230/irq.h add S-mode IRQs
- under arch/risc-v/src/k230 folder:
- Make.defs drop use of k230_exception_m.S
- hardware/k230_clint.h add S-mode defs, revised freq
- k230_head.S unified flat/kernel mode support
- k230_irq.c add S-mode support with debug dump
- k230_mm_init.c revised for K230 S-mode
- k230_start.c revised for flat/s-mode,
- arch/risc-v/src/k230/k230_timerisr.c unified flat/s-mode support.
- under boards/risc-v/k230/canmv230 folder:
- configs/nsh/defconfig fix RAM size
- include/board_memorymap.h cleanup for S-mode
- src/.gitignore ignore romfs_boot.c
- src/Makefile add romfs support
Renames:
- under boards/risc-v/k230/canmv230/src/ folder:
- canmv_init.c from k230_appinit.c making room for more k230 devices
Dropped:
- under arch/risc-v/src/k230/
- k230_exception_m.S as hybrid mode not ready yet.
New files in boards/riscv/k230/canmv230:
- configs/knsh/defconfig S-mode config
- scripts/ld-kernel.script S-mode linker script
- src/romfs.h User space ROMFS defs needed in S-mode
- src/romfs_stub.c Stub ROMFS image
Signed-off-by: Yanfeng Liu <yfliu2008@qq.com>
The code is mainly derived from the NuttX qemu-rv/rv-virt codebase.
Major changes:
- boards/Kconfig: add new BOARD_K230_CANMV
- arch/risc-v/Kconfig: add new CHIP_K230 chip and ARCH_RV_MMIO_BITS
- arch/risc-v/src/common/riscv_mtimer.c: use ARCH_RV_MMIO_BITS to
select MMIO access width
New additions:
- arch/risc-v/include/k230/: k230 SoC definitions
- arch/risc-v/src/k230/: k230 SoC sources
- boards/risc-v/k230/canmv230/: CanMV-K230 board sources and configs
- Documentation/platforms/risc-v/k230/: simple doc
Note that only FLAT build works for canmv230 now.
This PR has changes in RiscV common layer thus may affect other RiscV ports
It changes the mtime/mtimecmp access control from using config ARCH_RV64 to
newly intorduced config ARCH_RV_MMIO_BITS.
Original design uses ARCH_RV64 to select 64bit MMIO in riscv_mtimer.c, this
can't cope with the situation with K230 --- it has ARCH_RV64 but only can do
32bit MMIO. So a new ARCH_RV_MMIO_BITS config has been introduced. Its value
depicts the MMIO width in bits. The MMIO_BITS defaults to 32/64 for RV32/
RV64 respectively. This allows the macro to replace current use of ARCH_RV64
in riscv_mtimer.c.
The new MMIO_BITS config is a derived one, and for RiscV chips with
equal CPU and MMIO widths there is no need to explicitly set it as the
default rule will do that. Only chips with different CPU and MMIO widths
need set it in Kconfig.
So by design this change should be safe but RiscV ports should be checked.
"ostest" verification has been done for:
- canmv230/nsh
- rv-vivt/nsh
- rv-virt/nsh64
configuration generation and manual check of derived RV_MMIO_BITS has been
done for:
- star64/nsh
- arty_a7/nsh
- bl602evb/nsh
Signed-off-by: Yanfeng Liu <yfliu2008@qq.com>
There is a problem with the current elf loader for risc-v: when a pair of
PCREL_HI20 / LO12 relocations are encountered, it is assumed that these
will follow each other immediately, as follows:
label:
auipc a0, %pcrel_hi(symbol) // R_RISCV_PCREL_HI20
load/store a0, %pcrel_lo(label)(a0) // R_RISCV_PCREL_LO12_I/S
With this assumption, the hi/lo relocations are both done when a hi20
relocation entry is encountered, first to the current instruction (addr)
and to the next instruction (addr + 4).
However, this assumption is wrong. There is nothing in the elf relocation
specification[1] that mandates this. Thus, the hi/lo relocation always
needs to first fixup the hi-part, and when the lo-part is encountered, it
needs to find the corresponding hi relocation entry, via the given "label".
This necessitates (re-)visiting the relocation entries for the current
section as well as looking for "label" in the symbol table.
The NuttX elf loader does not allow such operations to be done in the
machine specific part, so this patch fixes the relocation issue by
introducing an architecture specific cache for the hi20 relocation and
symbol table entries. When a lo12 relocation is encountered, the cache
can be consulted to find the hi20 part.
[1] https://github.com/riscv-non-isa/riscv-elf-psabi-doc/blob/master/riscv-elf.adoc
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
I can never remember whether the static page table list contains the
table's physical or kernel virtual address.. Add the fact as a comment
there.
Also add the limitations that come from this static page table approach
for Sv32.
Previously, GPIO interrupts were not correctly mapped to the peripheral base register responsible for the interrupt.
Change the IRQ number calculation so the interrupts work correctly on all GPIO peripheral bases.
This PR adds support for the StarFive JH7110 RISC-V SoC. This will be used by the upcoming port of NuttX for PINE64 Star64 SBC. [The source files are explained in the articles here](https://github.com/lupyuen/nuttx-star64)
Modified Files in arch/risc-v:
Kconfig: Added ARCH_CHIP_JH7110 for JH7110 SoC
New Files in arch/risc-v:
include/jh7110/chip.h: JH7110 Definitions
include/jh7110/irq.h: Support 127 External Interrupts
src/jh7110/chip.h: Interrupt Stack Macro
src/jh7110/jh7110_allocateheap.c: Kernel Heap
src/jh7110/jh7110_head.S: Linux Header and Boot Code
src/jh7110/jh7110_irq.c: Configure Interrupts
src/jh7110/jh7110_irq_dispatch.c: Dispatch Interrupts
src/jh7110/jh7110_memorymap.h: Memory Map
src/jh7110/jh7110_mm_init.c, jh7110_mm_init.h: Memory Mgmt
src/jh7110/jh7110_pgalloc.c: Page Allocator
src/jh7110/jh7110_start.c: Startup Code
src/jh7110/jh7110_timerisr.c: Timer Interrupt
src/jh7110/hardware/jh7110_memorymap.h: PLIC Base Address
src/jh7110/hardware/jh7110_plic.h: PLIC Register Addresses
src/jh7110/Kconfig: JH7110 Config
src/jh7110/Make.defs: Makefile
- Save the FPU registers into the tcb so they don't get lost if the stack
frame for xcp.regs moves (as it does)
- Handle interger and FPU register save/load separately
- Integer registers are saved/loaded always, like before
- FPU registers are only saved during a context switch:
- Save ONLY if FPU is dirty
- Restore always if FPU has been used (not in FSTATE_OFF, FSTATE_INIT)
- Remove all lazy-FPU related logic from the macros, it is not needed
