zynq-rs/libcortex_a9/src/cache.rs
2020-06-10 12:54:50 +08:00

177 lines
5.4 KiB
Rust

/// Invalidate TLBs
#[inline(always)]
pub fn tlbiall() {
unsafe {
llvm_asm!("mcr p15, 0, $0, c8, c7, 0" :: "r" (0) :: "volatile");
}
}
/// Invalidate I-Cache
#[inline(always)]
pub fn iciallu() {
unsafe {
llvm_asm!("mcr p15, 0, $0, c7, c5, 0" :: "r" (0) :: "volatile");
}
}
/// Invalidate Branch Predictor Array
#[inline(always)]
pub fn bpiall() {
unsafe {
llvm_asm!("mcr p15, 0, $0, c7, c5, 6" :: "r" (0) :: "volatile");
}
}
/// Data cache clean by set/way
#[inline(always)]
pub fn dccsw(setway: u32) {
unsafe {
llvm_asm!("mcr p15, 0, $0, c7, c10, 2" :: "r" (setway) :: "volatile");
}
}
/// Data cache invalidate by set/way
#[inline(always)]
pub fn dcisw(setway: u32) {
unsafe {
// acc. to ARM Architecture Reference Manual, Figure B3-32;
// also see example code (for DCCISW, but DCISW will be
// analogous) "Example code for cache maintenance operations"
// on pages B2-1286 and B2-1287.
llvm_asm!("mcr p15, 0, $0, c7, c6, 2" :: "r" (setway) :: "volatile");
}
}
/// A made-up "instruction": invalidate all of the L1 D-Cache
#[inline(always)]
pub fn dciall() {
// the cache associativity could be read from a register, but will
// always be 4 in L1 data cache of a cortex a9
let ways = 4;
let bit_pos_of_way = 30; // 32 - log2(ways)
// the cache sets could be read from a register, but are always
// 256 for the cores in the zync-7000; in general, 128 or 512 are
// also possible.
let sets = 256;
let bit_pos_of_set = 5; // for a line size of 8 words = 2^5 bytes
// select L1 data cache
unsafe {
llvm_asm!("mcr p15, 2, $0, c0, c0, 0" :: "r" (0) :: "volatile");
}
// Invalidate entire D-Cache by iterating every set and every way
for set in 0..sets {
for way in 0..ways {
dcisw((set << bit_pos_of_set) | (way << bit_pos_of_way));
}
}
}
const CACHE_LINE: usize = 0x20;
const CACHE_LINE_MASK: usize = CACHE_LINE - 1;
#[inline]
fn cache_line_addrs(first_addr: usize, beyond_addr: usize) -> impl Iterator<Item = usize> {
let first_addr = first_addr & !CACHE_LINE_MASK;
let beyond_addr = (beyond_addr | CACHE_LINE_MASK) + 1;
(first_addr..beyond_addr).step_by(CACHE_LINE)
}
fn object_cache_line_addrs<T>(object: &T) -> impl Iterator<Item = usize> {
let first_addr = object as *const _ as usize;
let beyond_addr = (object as *const _ as usize) + core::mem::size_of_val(object);
cache_line_addrs(first_addr, beyond_addr)
}
fn slice_cache_line_addrs<T>(slice: &[T]) -> impl Iterator<Item = usize> {
let first_addr = &slice[0] as *const _ as usize;
let beyond_addr = (&slice[slice.len() - 1] as *const _ as usize) +
core::mem::size_of_val(&slice[slice.len() - 1]);
cache_line_addrs(first_addr, beyond_addr)
}
/// Data cache clean and invalidate by memory virtual address. This
/// flushes data out to the point of coherency, and invalidates the
/// corresponding cache line (as appropriate when DMA is meant to be
/// writing into it).
#[inline(always)]
pub fn dccimvac(addr: usize) {
unsafe {
llvm_asm!("mcr p15, 0, $0, c7, c14, 1" :: "r" (addr) :: "volatile");
}
}
/// Data cache clean and invalidate for an object.
pub fn dcci<T>(object: &T) {
for addr in object_cache_line_addrs(object) {
dccimvac(addr);
}
}
pub fn dcci_slice<T>(slice: &[T]) {
for addr in slice_cache_line_addrs(slice) {
dccimvac(addr);
}
}
/// Data cache clean by memory virtual address.
#[inline(always)]
pub fn dccmvac(addr: usize) {
unsafe {
llvm_asm!("mcr p15, 0, $0, c7, c10, 1" :: "r" (addr) :: "volatile");
}
}
/// Data cache clean for an object.
pub fn dcc<T>(object: &T) {
for addr in object_cache_line_addrs(object) {
dccmvac(addr);
}
}
/// Data cache clean for an object. Panics if not properly
/// aligned and properly sized to be contained in an exact number of
/// cache lines.
pub fn dcc_slice<T>(slice: &[T]) {
for addr in slice_cache_line_addrs(slice) {
dccmvac(addr);
}
}
/// Data cache invalidate by memory virtual address. This and
/// invalidates the cache line containing the given address. Super
/// unsafe, as this discards a write-back cache line, potentially
/// affecting more data than intended.
#[inline(always)]
pub unsafe fn dcimvac(addr: usize) {
llvm_asm!("mcr p15, 0, $0, c7, c6, 1" :: "r" (addr) :: "volatile");
}
/// Data cache clean and invalidate for an object.
pub unsafe fn dci<T>(object: &mut T) {
let first_addr = object as *const _ as usize;
let beyond_addr = (object as *const _ as usize) + core::mem::size_of_val(object);
assert_eq!(first_addr & CACHE_LINE_MASK, 0, "dci object first_addr must be aligned");
assert_eq!(beyond_addr & CACHE_LINE_MASK, 0, "dci object beyond_addr must be aligned");
for addr in (first_addr..beyond_addr).step_by(CACHE_LINE) {
dcimvac(addr);
}
}
pub unsafe fn dci_slice<T>(slice: &mut [T]) {
let first_addr = &slice[0] as *const _ as usize;
let beyond_addr = (&slice[slice.len() - 1] as *const _ as usize) +
core::mem::size_of_val(&slice[slice.len() - 1]);
assert_eq!(first_addr & CACHE_LINE_MASK, 0, "dci slice first_addr must be aligned");
assert_eq!(beyond_addr & CACHE_LINE_MASK, 0, "dci slice beyond_addr must be aligned");
for addr in (first_addr..beyond_addr).step_by(CACHE_LINE) {
dcimvac(addr);
}
}