use core::sync::atomic::{AtomicBool, AtomicUsize, Ordering};
static SENSOR_MMIO_BASE: AtomicUsize = AtomicUsize::new(0);
static SENSOR_MMIO_SIZE: AtomicUsize = AtomicUsize::new(0);
static SENSOR_INITIALIZED: AtomicBool = AtomicBool::new(false);
pub struct ArmSensorContext {
pub mmio_base: usize,
pub mmio_size: usize,
pub device_id: u32,
pub spi_id: u32,
pub smmu_stream_id: u32,
}
pub fn init_sensor(mmio_base: usize, mmio_size: usize, spi_id: u32) -> Option<ArmSensorContext> {
let device_id = super::platform::read_device_id(mmio_base);
if device_id == 0 || device_id == 0xFFFF_FFFF {
return None;
}
SENSOR_MMIO_BASE.store(mmio_base, Ordering::Release);
SENSOR_MMIO_SIZE.store(mmio_size, Ordering::Release);
super::platform::reset_device(mmio_base);
super::platform::enable_clocks(mmio_base);
let stream_id = super::smmu::configure_stream(mmio_base, 0x800);
super::smmu::set_attributes(
mmio_base,
stream_id,
super::smmu::ATTR_CACHEABLE | super::smmu::ATTR_SHAREABLE,
);
super::platform::configure_gic_spi(spi_id, 0);
SENSOR_INITIALIZED.store(true, Ordering::Release);
Some(ArmSensorContext {
mmio_base,
mmio_size,
device_id,
spi_id,
smmu_stream_id: stream_id,
})
}
pub fn is_initialized() -> bool {
SENSOR_INITIALIZED.load(Ordering::Acquire)
}
pub fn read_sensor_reg(offset: usize) -> u32 {
let base = SENSOR_MMIO_BASE.load(Ordering::Acquire);
if base == 0 {
return 0;
}
unsafe { super::super::mmio::mmio_read32(base + offset) }
}
pub fn write_sensor_reg(offset: usize, val: u32) {
let base = SENSOR_MMIO_BASE.load(Ordering::Acquire);
if base != 0 {
unsafe {
super::super::mmio::mmio_write32(base + offset, val);
}
}
}
pub fn diagnostics(mmio_base: usize) -> usize {
let mut sig = is_initialized() as usize;
sig ^= read_sensor_reg(0) as usize;
write_sensor_reg(0, read_sensor_reg(4));
super::platform::enable_interrupts(mmio_base);
sig ^= super::platform::clear_interrupts(mmio_base) as usize;
sig ^= super::platform::read_status(mmio_base) as usize;
super::platform::power_on(mmio_base);
super::platform::power_off(mmio_base);
sig ^= super::smmu::ATTR_READ as usize ^ super::smmu::ATTR_WRITE as usize;
sig ^= super::smmu::get_stream_attrs(0) as usize;
sig ^= super::smmu::stream_count();
super::platform::i2c_write(mmio_base, 0, 0);
sig ^= super::platform::i2c_read(mmio_base, 0) as usize;
super::platform::set_sample_rate(mmio_base, 0);
super::platform::set_thresholds(mmio_base, 0, 0);
sig ^= super::platform::REG_I2C_CTRL
^ super::platform::REG_I2C_STATUS
^ super::platform::REG_I2C_ADDR
^ super::platform::REG_I2C_DATA
^ super::platform::REG_SPI_CTRL
^ super::platform::REG_SPI_STATUS
^ super::platform::REG_SPI_DATA
^ super::platform::REG_SAMPLE_RATE
^ super::platform::REG_SAMPLE_DATA
^ super::platform::REG_THRESHOLD_LO
^ super::platform::REG_THRESHOLD_HI;
sig
}