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6 commits

Author SHA1 Message Date
80dc438fd0
Drivers: Added start of 16550 UART driver
Seems to work well enough to take over the OpenSBI putchar

TODO: Add some kind of flush() to avoid trashing data still in the FIFO
when we take over from OpenSBI
2022-07-31 23:29:24 -04:00
259d929c13
Drivers: Added Sunxi pinctrl driver
Works well enough to set bank modes and turn on an LED

Very not complete and needs more testing
2022-07-31 23:03:01 -04:00
d100b515d6
Kernel: Disabled dtb stuff for now 2022-07-31 23:01:57 -04:00
8274a93abb
Make: Throwing more random shit at the makefiles
Switched to an acutal cross compiler instead of using the linux gcc

Stole more ideas from managarm

Figured out the "right" way to handle warnings and flags in meson

Removed libgcc dependency because it doesnt exist in riscv64-elf-
will need to figure out how to use things like  __builtin_memcpy
properly
2022-07-31 22:57:40 -04:00
f9ea032b7d
Kernel/OpenSBI: Switched to stdint.h
Not sure when I started typing cstdint but for now I want to stick to
stdint.h
2022-07-31 21:32:11 -04:00
44bfd9c4fb
Kernel: Removed left over example code 2022-07-31 21:20:48 -04:00
17 changed files with 489 additions and 339 deletions

View file

@ -155,7 +155,7 @@ isr:
sd t1, 0x90(s1)
mv a0, s1
jal handle_isr
# jal handle_isr
# Load the saved s1 into sscratch.
ld t0, 0x90(s1)
@ -193,7 +193,7 @@ isr:
sret
2:
jal isr_frame_overflow
# jal isr_frame_overflow
unimp
.section .bss

View file

@ -1,9 +1,10 @@
arch_sources = [
files(
'entry.S'
),
files('entry.S'),
kernel_sources
]
arch_cpp_args = kernel_cpp_args
arch_link_args = kernel_link_args
subdir('platform/' + platform)

View file

@ -1,5 +1,5 @@
cxx = meson.get_compiler('cpp')
gcc_dep = cxx.find_library('gcc', required: true)
# gcc_dep = cxx.find_library('gcc', required: true)
objcopy = find_program('riscv64-linux-gnu-objcopy')
mkimage = find_program('mkimage')
@ -11,10 +11,11 @@ elf = executable(
'kernel.elf',
arch_sources,
include_directories: includes,
dependencies: gcc_dep,
# dependencies: gcc_dep,
cpp_args: arch_cpp_args,
link_args: [
arch_link_args,
'-Wl,-T,' + meson.current_source_dir() + '/platform.ld',
'-static'
],
link_depends: files('platform.ld'),
install: true,

View file

@ -21,7 +21,7 @@ namespace opensbi::legacy {
};
}
SbiRet set_timer(std::uint64_t stime_value) {
SbiRet set_timer(uint64_t stime_value) {
#if __riscv_xlen == 64
return ecall(
static_cast<sbiword_t>(ExtensionId::SET_TIMER),

View file

@ -1,6 +1,6 @@
#pragma once
#include <cstdint>
#include <stdint.h>
namespace drivers {
namespace opensbi {

View file

@ -0,0 +1,38 @@
#include <stdint.h>
namespace drivers {
namespace sunxi_d1_pinctrl {
struct [[gnu::aligned(4)]] Port {
uint32_t config[4];
uint32_t data;
uint32_t drive[4];
uint32_t pull[2];
uint32_t _;
};
struct [[gnu::aligned(4)]] PortInt {
uint32_t config[4];
uint32_t control;
uint32_t status;
uint32_t debounce;
uint32_t _;
};
struct [[gnu::aligned(4)]] PIO {
uint32_t mode;
uint32_t control;
uint32_t value;
uint32_t voltage_select;
};
struct [[gnu::aligned(4)]] Registers {
volatile Port ports[7];
volatile uint32_t _[0x34];
volatile PortInt interrupt[7];
volatile uint32_t __[0x10];
volatile PIO pio;
};
} // End namespace sunxi_d1_pinctrl
} // End namespace drivers

View file

@ -0,0 +1,39 @@
#pragma once
#include "registers.h"
#include <stdint.h>
namespace drivers {
namespace sunxi_d1_pinctrl {
enum Bank {
PA,
PB,
PC,
PD,
PE,
PF,
PG,
};
struct SunxiD1Pinctrl {
SunxiD1Pinctrl(void * const addr);
void set_pin_mode(
const Bank bank,
const uint8_t pin,
const uint8_t mode);
void set_pin_state(
const Bank bank,
const uint8_t pin,
const bool state);
bool get_pin_state(
const Bank bank,
const uint8_t pin);
private:
Registers &m_registers;
};
} // End namespace sunxi_d1_pinctrl
} // End namespace drivers

View file

@ -0,0 +1,9 @@
kernel_sources += [
files(
'sunxi_d1_pinctrl.cpp',
),
]
kernel_includes += include_directories(
'include'
)

View file

@ -0,0 +1,47 @@
#include "sunxi_d1_pinctrl/sunxi_d1_pinctrl.h"
namespace drivers {
namespace sunxi_d1_pinctrl {
SunxiD1Pinctrl::SunxiD1Pinctrl(void * const addr) :
m_registers(*reinterpret_cast<Registers *>(addr)) {}
void SunxiD1Pinctrl::set_pin_mode(
const Bank bank,
const uint8_t pin,
const uint8_t mode) {
// Config banks are split up every 8 GPIO pins
// Each bank is 32 bits and configures up to 8 pins
const int config_bank = pin / 8;
// Each config is 4 bits per pin
const int shift_amount = pin % 8 * 4;
const uint32_t mask = 0b1111 << shift_amount;
auto config = m_registers.ports[bank].config[config_bank];
config &= ~mask;
config |= (mode & 0b1111) << shift_amount;
m_registers.ports[bank].config[config_bank] = config;
}
void SunxiD1Pinctrl::set_pin_state(
const Bank bank,
const uint8_t pin,
const bool state) {
const uint32_t mask = 0b1 << pin;
auto data = m_registers.ports[bank].data;
if(state)
data |= mask;
else
data &= ~mask;
m_registers.ports[bank].data = data;
}
bool SunxiD1Pinctrl::get_pin_state(
const Bank bank,
const uint8_t pin) {
return m_registers.ports[bank].data >> pin & 1;
}
} // End namespace sunxi_d1_pinctrl
} // End namespace drivers

View file

@ -0,0 +1,161 @@
#include <stdint.h>
namespace drivers {
namespace uart_16550 {
struct [[gnu::packed]] IER {
uint8_t data_ready : 1;
uint8_t thr_empty : 1;
uint8_t receiver_line_status : 1;
uint8_t modem_status : 1;
uint8_t : 2;
uint8_t dma_rx_end : 1;
uint8_t dma_tx_end : 1;
};
struct [[gnu::packed]]ISR {
uint8_t status : 1;
uint8_t fifos_enabled : 2;
uint8_t dma_tx_end : 1;
uint8_t dma_rx_end : 1;
uint8_t id_code : 3;
};
struct [[gnu::packed]] FCR {
uint8_t fifo_enable : 1;
uint8_t rx_fifo_reset : 1;
uint8_t tx_fifo_reset : 1;
uint8_t dma_mode : 1;
uint8_t enable_dma_end : 1;
uint8_t : 1;
uint8_t rx_fifo_trigger_level : 2;
};
struct [[gnu::packed]] LCR {
uint8_t word_length : 2;
uint8_t stop_bits : 1;
uint8_t parity_enable : 1;
uint8_t even_parity : 1;
uint8_t force_parity : 1;
uint8_t set_break : 1;
uint8_t dlab : 1;
};
struct [[gnu::packed]] MCR {
uint8_t dtr : 1;
uint8_t rts : 1;
uint8_t out_1 : 1;
uint8_t out2_int_enable : 1;
uint8_t loopback : 1;
uint8_t : 3;
};
struct [[gnu::packed]] LSR {
uint8_t data_ready : 1;
uint8_t overrun : 1;
uint8_t parity : 1;
uint8_t framing : 1;
uint8_t break_interrupt : 1;
uint8_t thr_empty : 1;
uint8_t tx_empty : 1;
uint8_t fifo_data_error : 1;
};
struct [[gnu::packed]] PSD {
uint8_t prescaler_division_factor: 4;
uint8_t : 4;
};
struct [[gnu::packed]] MSR {
uint8_t delta_cts : 1;
uint8_t delta_dsr : 1;
uint8_t trailing_edge_ri : 1;
uint8_t delta_cd : 1;
uint8_t cts : 1;
uint8_t dsr : 1;
uint8_t ri : 1;
uint8_t cd : 1;
};
// TEMP
#define UART_16550_32_BIT
#ifdef UART_16550_32_BIT
struct [[gnu::packed]] Registers {
// 0x00
union {
uint8_t rhr;
uint8_t thr;
uint8_t dcl;
};
uint32_t : 24;
// 0x04
union {
IER ier;
uint8_t dch;
};
uint32_t : 24;
// 0x08
union {
ISR isr;
FCR fcr;
};
uint32_t : 24;
// 0x0C
LCR lcr;
uint32_t : 24;
// 0x10
MCR mcr;
uint32_t : 24;
// 0x14
union {
LSR lsr;
PSD psd;
};
uint32_t : 24;
// 0x18
MSR msr;
uint32_t : 24;
// 0x1C
uint8_t spr;
uint32_t : 24;
};
#else
struct [[gnu::packed]] Registers {
// 0x00
union {
uint8_t rhr;
uint8_t thr;
uint8_t dcl;
};
// 0x01
union {
IER ier;
uint8_t dch;
};
// 0x02
union {
ISR isr;
FCR fcr;
};
// 0x03
LCR lcr;
// 0x04
MCR mcr;
// 0x05
union {
LSR lsr;
PSD psd;
};
// 0x06
MSR msr;
// 0x07
uint8_t spr;
};
#endif
} // End namespace uart_16550
} // End namespace drivers

View file

@ -0,0 +1,116 @@
#pragma once
#include "registers.h"
#include <stdint.h>
namespace drivers {
namespace uart_16550 {
enum class DataBits {
BITS_5,
BITS_6,
BITS_7,
BITS_8,
};
enum class StopBits {
STOP_1,
STOP_1_5,
STOP_2,
};
enum class Parity {
NONE,
EVEN,
ODD,
};
struct Uart16550 {
Uart16550(void * const addr) :
m_registers(*reinterpret_cast<Registers *>(addr)) {
}
void init(
const int baud_rate,
const DataBits data_bits,
const Parity parity,
const StopBits stop_bits) const volatile {
switch(data_bits) {
case DataBits::BITS_5:
m_registers.lcr.word_length = 0;
break;
case DataBits::BITS_6:
m_registers.lcr.word_length = 1;
break;
case DataBits::BITS_7:
m_registers.lcr.word_length = 2;
break;
case DataBits::BITS_8:
m_registers.lcr.word_length = 3;
break;
}
switch(parity) {
case Parity::NONE:
m_registers.lcr.parity_enable = 0;
break;
case Parity::EVEN:
m_registers.lcr.parity_enable = 1;
m_registers.lcr.even_parity = 1;
break;
case Parity::ODD:
m_registers.lcr.parity_enable = 1;
m_registers.lcr.even_parity = 0;
break;
}
switch(stop_bits) {
case StopBits::STOP_1:
m_registers.lcr.stop_bits = 0;
break;
case StopBits::STOP_1_5:
// TODO: Throw error if data_bits isnt BITS_5
m_registers.lcr.stop_bits = 0;
break;
case StopBits::STOP_2:
// TODO: Throw error if data_bits is BITS_5
m_registers.lcr.stop_bits = 1;
break;
}
// Assert DLAB to allow setting the divisor
// TODO: Assert CHCFG_AT_BUSY (UART_HALT[1])?
m_registers.lcr.dlab = 1;
// TODO: Get actual clock from TCC
const uint16_t divisor = 24000000 / baud_rate / 16;
m_registers.dch = divisor >> 8;
m_registers.dcl = divisor & 0xFF;
// TODO: Assert CHANGE_UPDATE (UART_HALT[2])?
// TODO: Wait for CHANGE_UPDATE (UART_HALT[2]) to be deasserted?
// Deassert DLAB to return to normal operation
m_registers.lcr.dlab = 0;
// Disable interrupts
// TODO: Move to its own function
// TODO: Cheese?
reinterpret_cast<volatile uint8_t &>(m_registers.ier) = 0;
// Enable FIFO
// TODO: Move to its own function
m_registers.fcr.fifo_enable = 1;
}
void write(const char c) {
while(m_registers.lsr.thr_empty == 0);
m_registers.thr = c;
}
private:
volatile Registers &m_registers;
};
} // End namespace uart_16550
} // End namespace drivers

View file

@ -0,0 +1,9 @@
kernel_sources += [
files(
'uart_16550.cpp',
),
]
kernel_includes += include_directories(
'include'
)

View file

@ -0,0 +1,8 @@
#include "uart_16550/uart_16550.h"
namespace drivers {
namespace uart_16550 {
} // End namespace uart_16550
} // End namespace drivers

View file

@ -1,7 +1,7 @@
#include <stdarg.h>
#include <inttypes.h>
#include <stdint.h>
#include <dtb/dtb.h>
// #include <dtb/dtb.h>
#include <opensbi/opensbi.h>
#include <opensbi/extensions/legacy.h>
@ -13,32 +13,8 @@
#include <opensbi/extensions/srst.h>
#include <opensbi/extensions/pmu.h>
#define read_csr(csr) \
({ \
unsigned long __v; \
asm volatile ("csrr %0, " csr : "=r"(__v) : : "memory");\
__v;\
})
#define write_csr(csr, v) \
({ \
unsigned long __v = (v); \
asm volatile ("csrw " csr ", %0" : : "r"(__v) : "memory");\
})
#define set_csr_bits(csr, bits) \
({ \
unsigned long __v = (bits); \
asm volatile ("csrs " csr ", %0" : : "r"(__v) : "memory");\
})
#define clear_csr_bits(csr, bits) \
({ \
unsigned long __v = (bits); \
asm volatile ("csrc " csr ", %0" : : "r"(__v) : "memory");\
})
typedef unsigned long sbi_word;
#include <sunxi_d1_pinctrl/sunxi_d1_pinctrl.h>
#include <uart_16550/uart_16550.h>
void fmt(const char *f, ...) {
namespace legacy = drivers::opensbi::legacy;
@ -69,216 +45,12 @@ void fmt(const char *f, ...) {
va_end(va);
}
enum {
pte_valid = 1 << 0,
pte_r = 1 << 1,
pte_w = 1 << 2,
pte_x = 1 << 3,
pte_user = 1 << 4,
pte_access = 1 << 6,
pte_dirty = 1 << 7,
};
enum {
pte_ppn_shift = 10
};
struct pt_t {
unsigned long ptes[512];
} __attribute__((aligned(4096)));
enum {
satp_sv48 = 9UL << 60
};
const char *exception_strings[] = {
"instruction misaligned",
"instruction access fault",
"illegal instruction",
"breakpoint",
"load misaligned",
"load access fault",
"store misaligned",
"store access fault",
"u-mode ecall",
"s-mode ecall",
"reserved (10)",
"reserved (11)",
"instruction page fault",
"load page fault",
"reserved (14)",
"store page fault",
};
enum {
sie_s_software = (1 << 1),
sie_s_timer = (1 << 5)
};
enum {
sstatus_sie = (1 << 1)
};
void cli() {
clear_csr_bits("sstatus", sstatus_sie);
}
void sti() {
set_csr_bits("sstatus", sstatus_sie);
}
typedef struct {
void *sp;
} continuation_t;
struct task_t;
struct isr_frame_t {
task_t *task;
isr_frame_t *next;
unsigned long ra; // Offset 0x10.
unsigned long a[8]; // Offset 0x18.
unsigned long t[7]; // Offset 0x58.
unsigned long s1; // Offset 0x90.
unsigned long sstatus; // Offset 0x98.
unsigned long sepc; // Offset 0xA0.
};
enum {
kernel_stack_size = 0x10000
};
struct task_t {
continuation_t cont;
isr_frame_t isr_frames[2];
isr_frame_t *next_isr;
char kernel_stack[kernel_stack_size];
};
task_t task1;
task_t task2;
task_t *current_task;
continuation_t prepare_stack(void *s_top, void (*mainfn)(continuation_t)) {
void *sp = (void *)((uintptr_t)s_top - 0x78);
*((uint64_t *)((uintptr_t)sp + 0x70)) = (uint64_t)mainfn;
return (continuation_t){.sp = sp};
}
extern "C" void save_stack(void (*f)(void *, continuation_t), void *ctx);
extern "C" void restore_stack(continuation_t c);
void create_task(task_t *task, void (*mainfn)(continuation_t)) {
task->isr_frames[0].task = task;
task->isr_frames[1].task = task;
task->isr_frames[0].next = &task->isr_frames[1];
task->isr_frames[1].next = 0;
task->next_isr = &task->isr_frames[0];
task->cont = prepare_stack((void *)(task->kernel_stack + kernel_stack_size), mainfn);
}
void switch_task(void *ctx, continuation_t c) {
task_t *task = (task_t *)ctx;
if(task) {
task->next_isr = (isr_frame_t *)read_csr("sscratch");
task->cont = c;
}
task_t *next;
if(task == &task1) {
next = &task2;
}else{
next = &task1;
}
current_task = next;
write_csr("sscratch", (unsigned long)next->next_isr);
restore_stack(next->cont);
}
extern "C" void isr();
extern "C" void handle_isr(isr_frame_t *frame) {
namespace legacy = drivers::opensbi::legacy;
namespace timer = drivers::opensbi::timer;
unsigned long cause = read_csr("scause");
unsigned long code = cause & ~(1UL << 63);
if(cause & (1UL << 63)) {
if(code == 1) {
fmt("it's an IPI\n");
clear_csr_bits("sip", sie_s_software);
}else if(code == 5) { // Timer interrupt.
//clear_csr_bits("sie", sie_s_timer);
unsigned long time = read_csr("time");
//drivers::opensbi::ecall(0x54494D45, 0, time + 100000);
timer::set_timer(time + 10000000);
//set_timer(time + 100000);
//save_stack(switch_task, current_task);
}else{
fmt("it's an unhandled interrupt, code: {}\n", code);
}
}else{
if(code == 8) { // Syscall.
legacy::console_putchar(frame->a[0]);
}else{
unsigned long sepc = read_csr("sepc");
fmt("it's an exception at {}\n", sepc);
const char *s = exception_strings[cause];
while(*s)
legacy::console_putchar(*(s++));
while(1)
;
}
}
}
extern "C" void isr_frame_overflow() {
fmt("isr frame overflow\n");
while(1)
;
}
pt_t pml4;
extern "C" void enter_umode(void *entry);
void syscall(int n, unsigned long arg0) {
register sbi_word rArg0 asm("a0") = arg0;
register sbi_word rN asm("a7") = n;
asm volatile("ecall" : "+r"(rArg0) : "r"(rN) : "memory");
if(rArg0)
__builtin_trap();
}
void task1_umode() {
while(1)
syscall(0, '!');
}
void task1_main(continuation_t c) {
fmt("hello from task1\n");
sti();
//syscall(0, '!');
//enter_umode((void *)task1_umode);
}
void task2_main(continuation_t c) {
fmt("hello from task2\n");
sti();
//while(1)
//fmt(".");
}
isr_frame_t global_isr_frames[2];
extern "C" void kmain(unsigned long hart, void *dtb) {
(void)hart;
(void)dtb;
// D1 doesnt give me dtb ptr?
// dtb = (void *)0x5fb38580;
/*
dtb = (void *)0x5fb38580;
dtb::DeviceTree dt;
int res = dtb::validate_and_parse_header(dt, dtb);
@ -288,11 +60,9 @@ extern "C" void kmain(unsigned long hart, void *dtb) {
dtb::print_reserved_regions(dt);
dtb::print_structure_block(dt);
}
*/
namespace legacy = drivers::opensbi::legacy;
namespace base = drivers::opensbi::base;
namespace timer = drivers::opensbi::timer;
namespace ipi = drivers::opensbi::ipi;
fmt("test\n");
@ -338,96 +108,36 @@ extern "C" void kmain(unsigned long hart, void *dtb) {
fmt("imp id: {}\n", ret.value);
}
fmt("uintmax: {} bits\n", sizeof(uintmax_t) * 8);
fmt("HART: {}, DTB: {}\n", hart, dtb);
volatile uint32_t *cfg = (uint32_t *)0x2000060;
volatile uint32_t *dat = (uint32_t *)0x2000070;
// ==================
// == Pinctrl test ==
// ==================
namespace sunxi_d1_pinctrl = drivers::sunxi_d1_pinctrl;
sunxi_d1_pinctrl::SunxiD1Pinctrl pinctrl((void *)0x2000000);
*cfg = 0x10;
*dat = 0xFF;
pinctrl.set_pin_mode(sunxi_d1_pinctrl::Bank::PC, 1, 1);
pinctrl.set_pin_state(sunxi_d1_pinctrl::Bank::PC, 1, true);
//while(1);
// ===============
// == UART test ==
// ===============
namespace uart_16550 = drivers::uart_16550;
uart_16550::Uart16550 uart((void *)0x02500000);
// uart_16550::Uart16550 uart((void *)0x02500400);
uart.init(115200, uart_16550::DataBits::BITS_8, uart_16550::Parity::NONE, uart_16550::StopBits::STOP_1);
cli();
global_isr_frames[0].next = &global_isr_frames[1];
write_csr("sscratch", (unsigned long)&global_isr_frames[0]);
write_csr("stvec", ((unsigned long)&isr));
const char *s;
set_csr_bits("sie", sie_s_software | sie_s_timer);
// Self-IPI.
ipi::send_ipi({ 1UL << hart, 0 });
sti();
unsigned long timea = read_csr("time");
ret = timer::set_timer(timea + 100000);
drivers::opensbi::rfence::remote_fence_i({0, 0});
//ret = drivers::opensbi::hsm::hart_stop();
using drivers::opensbi::srst::ResetType;
using drivers::opensbi::srst::ResetReason;
// ret = drivers::opensbi::srst::system_reset(ResetType::WARM_REBOOT, ResetReason::SYSTEM_FAILURE);
namespace pmu = drivers::opensbi::pmu;
ret = pmu::num_counters();
fmt("Number of counters: {}\n", ret.value);
for(int i = 0; i < ret.value; i++) {
ret = pmu::counter_get_info(i);
fmt("{} err: {}\n", i, ret.error);
fmt("{} val: {}\n", i, ret.value);
while(true) {
uart.write('X');
uart.write('\n');
uint32_t a = 0;
for(a = 0; a < 0x10000000; a++);
}
fmt("HALT\n");
while(1);
cli();
unsigned long time;
//volatile uint32_t *meme = (uint32_t *)0x6011010;
//while(true) {
time = read_csr("time");
fmt("hello world {}\n", time);
//*meme = *meme | (0xA57 << 1) | (1 << 0);
//}
// Identity map the first 512GiB.
pml4.ptes[0] = ((0UL >> 12) << pte_ppn_shift) | pte_valid
| pte_r | pte_w | pte_x | pte_access | pte_dirty | pte_user;
// Map 512GiB -> 0.
pml4.ptes[1] = ((0UL >> 12) << pte_ppn_shift) | pte_valid
| pte_r | pte_w | pte_x | pte_access | pte_dirty | pte_user;
fmt("Writing paging memes\n");
unsigned long pml4p = (unsigned long)&pml4;
fmt("pml4p @ {}\n", pml4p);
fmt("Setting SStatus\n");
set_csr_bits("sstatus", 1 << 18);
fmt("Setting Satp\n");
write_csr("satp", (pml4p >> 12) | satp_sv48);
fmt("Paging might work?...\n");
s = "paging works!\n";
s += 512UL * 1024 * 1024 * 1024;
while(*s)
legacy::console_putchar(*(s++));
create_task(&task1, task1_main);
create_task(&task2, task2_main);
time = read_csr("time");
//set_timer(time + 100000);
//drivers::opensbi::ecall(0x54494D45, 0, time + 100000);
//timer::set_timer(time + 100000);
//save_stack(switch_task, 0);
namespace hsm = drivers::opensbi::hsm;
hsm::hart_stop();
// drivers::opensbi::ecall(8, 0, 0);
while(1);
}

View file

@ -8,11 +8,16 @@ kernel_includes = [
include_directories('include')
]
kernel_c_args = []
kernel_cpp_args = []
kernel_link_args = ['-nostdlib']
subdir('drivers/opensbi')
subdir('common/dtb')
subdir('drivers/uart_16550')
subdir('drivers/sunxi_d1_pinctrl')
# subdir('common/dtb')
includes = [
# arch_includes,
kernel_includes
]

View file

@ -2,8 +2,10 @@ project('riscv-qtech-os', ['c', 'cpp'],
default_options: [
'cpp_std=gnu++20',
'c_std=gnu11',
'c_flags=-Wall -Werror -Wextra',
'cpp_flags=-Wall -Werror -Wextra'
'warning_level=3',
'werror=false',
'buildtype=debugoptimized',
# 'buildtype=release',
]
)
@ -11,6 +13,8 @@ if not meson.is_cross_build()
error('Kernel must be cross compiled')
endif
c = meson.get_compiler('cpp')
cxx = meson.get_compiler('cpp')
arch = host_machine.cpu_family()
platform = 'allwinner-d1'
# platform = 'qemu'

View file

@ -1,6 +1,6 @@
[binaries]
c = 'riscv64-linux-gnu-gcc'
cpp = 'riscv64-linux-gnu-g++'
c = 'riscv64-elf-gcc'
cpp = 'riscv64-elf-g++'
[host_machine]
system = 'riscv-qtech-os'
@ -8,9 +8,11 @@ cpu_family = 'riscv64'
cpu = 'rv64'
endian = 'little'
[built-in options]
[constants]
args = ['-ffreestanding', '-march=rv64gc', '-mabi=lp64d', '-mcmodel=medany']
c_args = '-march=rv64gc -mabi=lp64d -mcmodel=medany -ffreestanding'
c_link_args = '-march=rv64gc -mabi=lp64d -mcmodel=medany -nostdlib'
cpp_args = '-march=rv64gc -mabi=lp64d -mcmodel=medany -ffreestanding'
cpp_link_args = '-march=rv64gc -mabi=lp64d -mcmodel=medany -nostdlib'
[built-in options]
c_args = args
c_link_args = args
cpp_args = args
cpp_link_args = args