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#include "mtrap.h"
#include "frontend.h"
#include "hcall.h"
#include "vm.h"
#include <errno.h>
uintptr_t illegal_insn_trap(uintptr_t mcause, uintptr_t* regs)
{
asm (".pushsection .rodata\n"
"illegal_insn_trap_table:\n"
" .word truly_illegal_insn\n"
" .word emulate_float_load\n"
" .word truly_illegal_insn\n"
" .word truly_illegal_insn\n"
" .word truly_illegal_insn\n"
" .word truly_illegal_insn\n"
" .word truly_illegal_insn\n"
" .word truly_illegal_insn\n"
" .word truly_illegal_insn\n"
" .word emulate_float_store\n"
" .word truly_illegal_insn\n"
" .word truly_illegal_insn\n"
" .word emulate_mul_div\n"
" .word truly_illegal_insn\n"
" .word emulate_mul_div32\n"
" .word truly_illegal_insn\n"
" .word emulate_fmadd\n"
" .word emulate_fmsub\n"
" .word emulate_fnmsub\n"
" .word emulate_fnmadd\n"
" .word emulate_fp\n"
" .word truly_illegal_insn\n"
" .word truly_illegal_insn\n"
" .word truly_illegal_insn\n"
" .word truly_illegal_insn\n"
" .word truly_illegal_insn\n"
" .word truly_illegal_insn\n"
" .word truly_illegal_insn\n"
" .word emulate_system\n"
" .word truly_illegal_insn\n"
" .word truly_illegal_insn\n"
" .word truly_illegal_insn\n"
" .popsection");
uintptr_t mstatus = read_csr(mstatus);
uintptr_t mepc = read_csr(mepc);
insn_fetch_t fetch = get_insn(mcause, mstatus, mepc);
if (fetch.error || (fetch.insn & 3) != 3)
return -1;
extern int32_t illegal_insn_trap_table[];
int32_t* pf = (void*)illegal_insn_trap_table + (fetch.insn & 0x7c);
emulation_func f = (emulation_func)(uintptr_t)*pf;
return f(mcause, regs, fetch.insn, mstatus, mepc);
}
void __attribute__((noreturn)) bad_trap()
{
panic("machine mode: unhandlable trap %d @ %p", read_csr(mcause), read_csr(mepc));
}
uintptr_t htif_interrupt(uintptr_t mcause, uintptr_t* regs)
{
uintptr_t fromhost = swap_csr(fromhost, 0);
if (!fromhost)
return 0;
uintptr_t dev = FROMHOST_DEV(fromhost);
uintptr_t cmd = FROMHOST_CMD(fromhost);
uintptr_t data = FROMHOST_DATA(fromhost);
sbi_device_message* m = MAILBOX()->device_request_queue_head;
sbi_device_message* prev = NULL;
for (size_t i = 0, n = MAILBOX()->device_request_queue_size; i < n; i++) {
if (!supervisor_paddr_valid(m, sizeof(*m))
&& EXTRACT_FIELD(read_csr(mstatus), MSTATUS_PRV1) != PRV_M)
panic("htif: page fault");
sbi_device_message* next = (void*)m->sbi_private_data;
if (m->dev == dev && m->cmd == cmd) {
m->data = data;
// dequeue from request queue
if (prev)
prev->sbi_private_data = (uintptr_t)next;
else
MAILBOX()->device_request_queue_head = next;
MAILBOX()->device_request_queue_size = n-1;
m->sbi_private_data = 0;
// enqueue to response queue
if (MAILBOX()->device_response_queue_tail)
MAILBOX()->device_response_queue_tail->sbi_private_data = (uintptr_t)m;
else
MAILBOX()->device_response_queue_head = m;
MAILBOX()->device_response_queue_tail = m;
// signal software interrupt
set_csr(mstatus, MSTATUS_SSIP);
return 0;
}
prev = m;
m = (void*)atomic_read(&m->sbi_private_data);
}
panic("htif: no record");
}
static uintptr_t hcall_console_putchar(uint8_t ch)
{
while (swap_csr(tohost, TOHOST_CMD(1, 1, ch)) != 0);
while (1) {
uintptr_t fromhost = read_csr(fromhost);
if (FROMHOST_DEV(fromhost) != 1 || FROMHOST_CMD(fromhost) != 1) {
if (fromhost)
htif_interrupt(0, 0);
continue;
}
write_csr(fromhost, 0);
break;
}
return 0;
}
#define printm(str, ...) ({ \
char buf[1024], *p = buf; sprintk(buf, str, __VA_ARGS__); \
while (*p) hcall_console_putchar(*p++); })
static uintptr_t hcall_dev_req(sbi_device_message *m)
{
//printm("req %d %p\n", MAILBOX()->device_request_queue_size, m);
#ifndef __riscv64
return -ENOSYS; // TODO: RV32 HTIF?
#else
if (!supervisor_paddr_valid(m, sizeof(*m))
&& EXTRACT_FIELD(read_csr(mstatus), MSTATUS_PRV1) != PRV_M)
return -EFAULT;
if ((m->dev > 0xFFU) | (m->cmd > 0xFFU) | (m->data > 0x0000FFFFFFFFFFFFU))
return -EINVAL;
while (swap_csr(tohost, TOHOST_CMD(m->dev, m->cmd, m->data)) != 0)
;
m->sbi_private_data = (uintptr_t)MAILBOX()->device_request_queue_head;
MAILBOX()->device_request_queue_head = m;
MAILBOX()->device_request_queue_size++;
return 0;
#endif
}
static uintptr_t hcall_dev_resp()
{
htif_interrupt(0, 0);
sbi_device_message* m = MAILBOX()->device_response_queue_head;
if (m) {
//printm("resp %p\n", m);
sbi_device_message* next = (void*)atomic_read(&m->sbi_private_data);
MAILBOX()->device_response_queue_head = next;
if (!next)
MAILBOX()->device_response_queue_tail = 0;
}
return (uintptr_t)m;
}
uintptr_t hcall_trap(uintptr_t mcause, uintptr_t* regs)
{
if (EXTRACT_FIELD(read_csr(mstatus), MSTATUS_PRV1) < PRV_S)
return -1;
uintptr_t n = regs[10], arg0 = regs[11], retval;
switch (n)
{
case HCALL_HART_ID:
retval = 0; // TODO
break;
case HCALL_CONSOLE_PUTCHAR:
retval = hcall_console_putchar(arg0);
break;
case HCALL_SEND_DEVICE_REQUEST:
retval = hcall_dev_req((sbi_device_message*)arg0);
break;
case HCALL_RECEIVE_DEVICE_RESPONSE:
retval = hcall_dev_resp();
break;
default:
retval = -ENOSYS;
break;
}
regs[10] = retval;
write_csr(mepc, read_csr(mepc) + 4);
return 0;
}
uintptr_t machine_page_fault(uintptr_t mcause, uintptr_t* regs)
{
// See if this trap occurred when emulating an instruction on behalf of
// a lower privilege level.
extern int32_t unprivileged_access_ranges[];
extern int32_t unprivileged_access_ranges_end[];
uintptr_t mepc = read_csr(mepc);
int32_t* p = unprivileged_access_ranges;
do {
if (mepc >= p[0] && mepc < p[1]) {
// Yes. Skip to the end of the unprivileged access region.
// Mark t0 zero so the emulation routine knows this occurred.
regs[5] = 0;
write_csr(mepc, p[1]);
return 0;
}
p += 2;
} while (p < unprivileged_access_ranges_end);
// No. We're boned.
bad_trap();
}
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