#include "mtrap.h" #include "atomic.h" #include "vm.h" //#include "fp_emulation.h" #include "bits.h" #include "fdt.h" #include "uart.h" #include "uart16550.h" #include "finisher.h" #include "disabled_hart_mask.h" #include "htif.h" #include #include pte_t* root_page_table; uintptr_t mem_size; volatile uint64_t* mtime; volatile uint32_t* plic_priorities; size_t plic_ndevs; static void mstatus_init() { // Enable FPU if (supports_extension('D') || supports_extension('F')) write_csr(mstatus, MSTATUS_FS); // Enable user/supervisor use of perf counters if (supports_extension('S')) write_csr(scounteren, -1); write_csr(mcounteren, -1); // Enable software interrupts write_csr(mie, MIP_MSIP); // Disable paging if (supports_extension('S')) write_csr(sptbr, 0); } // send S-mode interrupts and most exceptions straight to S-mode static void delegate_traps() { if (!supports_extension('S')) return; uintptr_t interrupts = MIP_SSIP | MIP_STIP | MIP_SEIP; uintptr_t exceptions = (1U << CAUSE_MISALIGNED_FETCH) | (1U << CAUSE_FETCH_PAGE_FAULT) | (1U << CAUSE_BREAKPOINT) | (1U << CAUSE_LOAD_PAGE_FAULT) | (1U << CAUSE_STORE_PAGE_FAULT) | (1U << CAUSE_USER_ECALL); write_csr(mideleg, interrupts); write_csr(medeleg, exceptions); assert(read_csr(mideleg) == interrupts); assert(read_csr(medeleg) == exceptions); } static void fp_init() { if (!supports_extension('D') && !supports_extension('F')) return; assert(read_csr(mstatus) & MSTATUS_FS); #ifdef __riscv_flen // for (int i = 0; i < 32; i++) // init_fp_reg(i); // write_csr(fcsr, 0); #else uintptr_t fd_mask = (1 << ('F' - 'A')) | (1 << ('D' - 'A')); clear_csr(misa, fd_mask); assert(!(read_csr(misa) & fd_mask)); #endif } hls_t* hls_init(uintptr_t id) { hls_t* hls = OTHER_HLS(id); memset(hls, 0, sizeof(*hls)); return hls; } static void memory_init() { mem_size = mem_size / MEGAPAGE_SIZE * MEGAPAGE_SIZE; } static void hart_init() { mstatus_init(); // fp_init(); delegate_traps(); } static void plic_init() { for (size_t i = 1; i <= plic_ndevs; i++) plic_priorities[i] = 1; } static void prci_test() { assert(!(read_csr(mip) & MIP_MSIP)); *HLS()->ipi = 1; assert(read_csr(mip) & MIP_MSIP); *HLS()->ipi = 0; assert(!(read_csr(mip) & MIP_MTIP)); *HLS()->timecmp = 0; assert(read_csr(mip) & MIP_MTIP); *HLS()->timecmp = -1ULL; } static void hart_plic_init() { // clear pending interrupts *HLS()->ipi = 0; *HLS()->timecmp = -1ULL; write_csr(mip, 0); if (!plic_ndevs) return; size_t ie_words = plic_ndevs / sizeof(uintptr_t) + 1; for (size_t i = 0; i < ie_words; i++) HLS()->plic_s_ie[i] = ULONG_MAX; *HLS()->plic_m_thresh = 1; *HLS()->plic_s_thresh = 0; } static void wake_harts() { for (int hart = 0; hart < MAX_HARTS; ++hart) if ((((~disabled_hart_mask & hart_mask) >> hart) & 1)) *OTHER_HLS(hart)->ipi = 1; // wakeup the hart } void init_first_hart(uintptr_t hartid, uintptr_t dtb) { // Confirm console as early as possible query_uart(dtb); query_uart16550(dtb); query_htif(dtb); hart_init(); hls_init(0); // this might get called again from parse_config_string // Find the power button early as well so die() works query_finisher(dtb); query_mem(dtb); query_harts(dtb); query_clint(dtb); query_plic(dtb); wake_harts(); plic_init(); hart_plic_init(); //prci_test(); memory_init(); boot_loader(dtb); } void init_other_hart(uintptr_t hartid, uintptr_t dtb) { hart_init(); hart_plic_init(); boot_other_hart(dtb); } void enter_supervisor_mode(void (*fn)(uintptr_t), uintptr_t arg0, uintptr_t arg1) { // Set up a PMP to permit access to all of memory. // Ignore the illegal-instruction trap if PMPs aren't supported. uintptr_t pmpc = PMP_NAPOT | PMP_R | PMP_W | PMP_X; asm volatile ("la t0, 1f\n\t" "csrrw t0, mtvec, t0\n\t" "csrw pmpaddr0, %1\n\t" "csrw pmpcfg0, %0\n\t" ".align 2\n\t" "1: csrw mtvec, t0" : : "r" (pmpc), "r" (-1UL) : "t0"); uintptr_t mstatus = read_csr(mstatus); mstatus = INSERT_FIELD(mstatus, MSTATUS_MPP, PRV_S); mstatus = INSERT_FIELD(mstatus, MSTATUS_MPIE, 0); write_csr(mstatus, mstatus); write_csr(mscratch, MACHINE_STACK_TOP() - MENTRY_FRAME_SIZE); write_csr(mepc, fn); register uintptr_t a0 asm ("a0") = arg0; register uintptr_t a1 asm ("a1") = arg1; asm volatile ("mret" : : "r" (a0), "r" (a1)); __builtin_unreachable(); }