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/*
* Early initialization code for riscv virtual memory
*
* Copyright 2015 Google Inc.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; version 2 of
* the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.See the
* GNU General Public License for more details.
*/
#include <arch/barrier.h>
#include <arch/encoding.h>
#include <arch/sbi.h>
#include <atomic.h>
#include <console/console.h>
#include <stdint.h>
#include <vm.h>
#include <symbols.h>
pte_t* root_page_table;
/* Indent the following text by 2*level spaces */
static void indent(int level)
{
int i;
for (i = 0; i < level; i++)
printk(BIOS_DEBUG, " ");
}
/*
* Convert a page table index at a given page table level to a virtual address
* offset
*/
static uintptr_t index_to_virt_addr(int index, int level)
{
/*
* Index is at most RISCV_PGLEVEL_BITS bits wide (not considering the
* leading zeroes. If level==0, the below expression thus shifts index
* into the highest bits of a 64-bit number, and then shifts it down
* with sign extension.
*
* If level>0, then the expression should work as expected, without any
* magic.
*/
return ((intptr_t)index)
<< (64 - RISCV_PGLEVEL_BITS - level * RISCV_PGLEVEL_BITS)
>> (64 - VA_BITS);
}
/* Dump the page table structures to the console -- helper function */
static void print_page_table_at(pte_t *pt, intptr_t virt_addr, int level)
{
int i;
indent(level);
printk(BIOS_DEBUG, "Level %d page table at 0x%p\n", level, pt);
for (i = 0; i < RISCV_PGSIZE / sizeof(pte_t); i++) {
char urwx[8];
uintptr_t pointer;
intptr_t next_virt_addr;
if (!(pt[i] & PTE_V))
continue;
urwx[0] = (pt[i] & PTE_U)? 'u' : '-';
urwx[1] = (pt[i] & PTE_R)? 'r' : '-';
urwx[2] = (pt[i] & PTE_W)? 'w' : '-';
urwx[3] = (pt[i] & PTE_X)? 'x' : '-';
urwx[4] = '\0';
next_virt_addr = virt_addr + index_to_virt_addr(i, level);
pointer = ((uintptr_t)pt[i] >> 10) << RISCV_PGSHIFT;
indent(level + 1);
printk(BIOS_DEBUG, "Valid PTE at index %d (0x%016zx -> 0x%zx), ",
i, (size_t) next_virt_addr, (size_t) pointer);
if (PTE_TABLE(pt[i]))
printk(BIOS_DEBUG, "page table\n");
else
printk(BIOS_DEBUG, "protections %s\n", urwx);
if (PTE_TABLE(pt[i])) {
print_page_table_at((pte_t *)pointer, next_virt_addr, level + 1);
}
}
}
/* Print the page table structures to the console */
void print_page_table(void) {
print_page_table_at((void *)(read_csr(sptbr) << RISCV_PGSHIFT), 0, 0);
}
void flush_tlb(void)
{
asm volatile("sfence.vm");
}
size_t pte_ppn(pte_t pte)
{
return pte >> PTE_PPN_SHIFT;
}
pte_t ptd_create(uintptr_t ppn)
{
return (ppn << PTE_PPN_SHIFT) | PTE_V;
}
pte_t pte_create(uintptr_t ppn, int prot, int user)
{
pte_t pte = (ppn << PTE_PPN_SHIFT) | PTE_R | PTE_V;
if (prot & PTE_W)
pte |= PTE_W;
if (prot & PTE_X)
pte |= PTE_X;
if (user)
pte |= PTE_U;
return pte;
}
void init_vm(uintptr_t virtMemStart, uintptr_t physMemStart, pte_t *sbi_pt)
{
memset(sbi_pt, 0, RISCV_PGSIZE);
// need to leave room for sbi page
uintptr_t memorySize = 0x7F000000; // 0xFFF... - 0xFFFFFFFF81000000 - RISCV_PGSIZE
// middle page table
pte_t* middle_pt = (void*)sbi_pt + RISCV_PGSIZE;
size_t num_middle_pts = 2; // 3 level page table, 39 bit virtual address space for now
// root page table
pte_t* root_pt = (void*)middle_pt + num_middle_pts * RISCV_PGSIZE;
memset(middle_pt, 0, (num_middle_pts + 1) * RISCV_PGSIZE); // 0's out middle_pt and root_pt
for (size_t i = 0; i < num_middle_pts; i++)
root_pt[(1<<RISCV_PGLEVEL_BITS)-num_middle_pts+i] = ptd_create(((uintptr_t)middle_pt >> RISCV_PGSHIFT) + i);
// fill the middle page table
for (uintptr_t vaddr = virtMemStart, paddr = physMemStart;
paddr < physMemStart + memorySize;
vaddr += SUPERPAGE_SIZE, paddr += SUPERPAGE_SIZE) {
int l2_shift = RISCV_PGLEVEL_BITS + RISCV_PGSHIFT;
size_t l2_idx = (virtMemStart >> l2_shift) & ((1 << RISCV_PGLEVEL_BITS)-1);
l2_idx += ((vaddr - virtMemStart) >> l2_shift);
middle_pt[l2_idx] = pte_create(paddr >> RISCV_PGSHIFT,
PTE_U|PTE_R|PTE_W|PTE_X, 0);
}
// map SBI at top of vaddr space
// only need to map a single page for sbi interface
uintptr_t num_sbi_pages = 1;
uintptr_t sbiStartAddress = (uintptr_t) &sbi_page;
uintptr_t sbiAddr = sbiStartAddress;
for (uintptr_t i = 0; i < num_sbi_pages; i++) {
uintptr_t idx = (1 << RISCV_PGLEVEL_BITS) - num_sbi_pages + i;
sbi_pt[idx] = pte_create(sbiAddr >> RISCV_PGSHIFT,
PTE_R|PTE_X, 0);
sbiAddr += RISCV_PGSIZE;
}
pte_t* sbi_pte = middle_pt + ((num_middle_pts << RISCV_PGLEVEL_BITS)-1);
*sbi_pte = ptd_create((uintptr_t)sbi_pt >> RISCV_PGSHIFT);
// IO space.
root_pt[0] = pte_create(0, PTE_W|PTE_R, 0);
root_pt[1] = pte_create(0x40000000>>RISCV_PGSHIFT,
PTE_W|PTE_R, 0);
// Start of RAM
root_pt[2] = pte_create(0x80000000>>RISCV_PGSHIFT,
PTE_W|PTE_R, 0);
mb();
root_page_table = root_pt;
uintptr_t ptbr = ((uintptr_t) root_pt) >> RISCV_PGSHIFT;
write_csr(sptbr, ptbr);
}
void initVirtualMemory(void) {
uintptr_t ms;
ms = read_csr(mstatus);
ms = INSERT_FIELD(ms, MSTATUS_VM, VM_CHOICE);
write_csr(mstatus, ms);
ms = read_csr(mstatus);
if (EXTRACT_FIELD(ms, MSTATUS_VM) != VM_CHOICE) {
printk(BIOS_DEBUG, "We don't have virtual memory...\n");
return;
} else {
printk(BIOS_DEBUG, "-----------------------------\n");
printk(BIOS_DEBUG, "Virtual memory status enabled\n");
printk(BIOS_DEBUG, "-----------------------------\n");
}
// TODO: Figure out how to grab this from cbfs
printk(BIOS_DEBUG, "Initializing virtual memory...\n");
uintptr_t physicalStart = 0x81000000;
uintptr_t virtualStart = 0xffffffff81000000;
init_vm(virtualStart, physicalStart, (pte_t *)_pagetables);
mb();
flush_tlb();
#if IS_ENABLED(CONFIG_DEBUG_PRINT_PAGE_TABLES)
printk(BIOS_DEBUG, "Finished initializing virtual memory, starting walk...\n");
print_page_table();
#else
printk(BIOS_DEBUG, "Finished initializing virtual memory\n");
#endif
}
void mstatus_init(void)
{
uintptr_t ms = 0;
ms = INSERT_FIELD(ms, MSTATUS_FS, 3);
ms = INSERT_FIELD(ms, MSTATUS_XS, 3);
write_csr(mstatus, ms);
clear_csr(mip, MIP_MSIP);
set_csr(mie, MIP_MSIP);
/* Configure which exception causes are delegated to supervisor mode */
set_csr(medeleg, (1 << CAUSE_MISALIGNED_FETCH)
| (1 << CAUSE_FAULT_FETCH)
| (1 << CAUSE_ILLEGAL_INSTRUCTION)
| (1 << CAUSE_BREAKPOINT)
| (1 << CAUSE_FAULT_LOAD)
| (1 << CAUSE_FAULT_STORE)
| (1 << CAUSE_USER_ECALL)
);
/* Enable all user/supervisor-mode counters */
/* We'll turn these on once lowrisc gets their bitstream up to
* 1.9. Right now there's no agreement on the values for these
* architectural registers.
*/
//write_csr(mscounteren, 0b111);
//write_csr(mucounteren, 0b111);
}
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