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zynq-rs/libboard_zynq/src/ddr/mod.rs

232 lines
7.7 KiB
Rust
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use libregister::{RegisterR, RegisterW, RegisterRW};
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use crate::{print, println};
use super::slcr;
use super::clocks::CpuClocks;
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mod regs;
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#[cfg(feature = "target_zc706")]
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/// Micron MT41J256M8HX-15E: 667 MHz DDR3
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const DDR_FREQ: u32 = 666_666_666;
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#[cfg(feature = "target_cora_z7_10")]
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/// Micron MT41K256M16HA-125: 800 MHz DDR3L, max supported 533 MHz
const DDR_FREQ: u32 = 533_333_333;
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/// MT41K256M16HA-125
const DCI_FREQ: u32 = 10_000_000;
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pub struct DdrRam {
regs: &'static mut regs::RegisterBlock,
}
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impl DdrRam {
pub fn new() -> Self {
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let clocks = Self::clock_setup();
Self::calibrate_iob_impedance(&clocks);
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Self::configure_iob();
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let regs = unsafe { regs::RegisterBlock::new() };
let mut ddr = DdrRam { regs };
ddr.reset_ddrc();
ddr
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}
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/// Zynq-7000 AP SoC Technical Reference Manual:
/// 10.6.1 DDR Clock Initialization
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fn clock_setup() -> CpuClocks {
let clocks = CpuClocks::get();
if clocks.ddr == 0 {
CpuClocks::enable_ddr(clocks.arm);
}
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let clocks = CpuClocks::get();
println!("Clocks: {:?}", clocks);
let ddr3x_clk_divisor = ((DDR_FREQ - 1 + clocks.ddr) / DDR_FREQ).min(255) as u8;
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let ddr2x_clk_divisor = 3 * ddr3x_clk_divisor / 2;
println!("DDR 3x/2x clocks: {}/{}", clocks.ddr / u32::from(ddr3x_clk_divisor), clocks.ddr / u32::from(ddr2x_clk_divisor));
slcr::RegisterBlock::unlocked(|slcr| {
slcr.ddr_clk_ctrl.write(
slcr::DdrClkCtrl::zeroed()
.ddr_2xclkact(true)
.ddr_3xclkact(true)
.ddr_2xclk_divisor(ddr2x_clk_divisor)
.ddr_3xclk_divisor(ddr3x_clk_divisor)
);
});
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clocks
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}
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/// Zynq-7000 AP SoC Technical Reference Manual:
/// 10.6.2 DDR IOB Impedance Calibration
fn calibrate_iob_impedance(clocks: &CpuClocks) {
let divisor0 = ((DCI_FREQ - 1 + clocks.ddr) / DCI_FREQ)
.max(1).min(63) as u8;
let divisor1 = (clocks.ddr / DCI_FREQ / u32::from(divisor0))
.max(1).min(63) as u8;
println!("DDR DCI clock: {} Hz", clocks.ddr / u32::from(divisor0) / u32::from(divisor1));
slcr::RegisterBlock::unlocked(|slcr| {
// Step 1.
slcr.dci_clk_ctrl.write(
slcr::DciClkCtrl::zeroed()
.clkact(true)
.divisor0(divisor0)
.divisor1(divisor1)
);
// Step 2.a.
slcr.ddriob_dci_ctrl.modify(|_, w|
w.reset(false)
);
slcr.ddriob_dci_ctrl.modify(|_, w|
w.reset(true)
);
// Step 3.b. for DDR3/DDR3L
slcr.ddriob_dci_ctrl.modify(|_, w|
w.nref_opt1(0)
.nref_opt2(0)
.nref_opt4(1)
.pref_opt1(0)
.pref_opt2(0)
);
// Step 2.c.
slcr.ddriob_dci_ctrl.modify(|_, w|
w.update_control(false)
);
// Step 2.d.
slcr.ddriob_dci_ctrl.modify(|_, w|
w.enable(true)
);
// Step 2.e.
while ! slcr.ddriob_dci_status.read().done() {}
});
}
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/// Zynq-7000 AP SoC Technical Reference Manual:
/// 10.6.3 DDR IOB Configuration
fn configure_iob() {
slcr::RegisterBlock::unlocked(|slcr| {
let addr_config = slcr::DdriobConfig::zeroed()
.output_en(slcr::DdriobOutputEn::Obuf);
slcr.ddriob_addr0.write(addr_config.clone());
slcr.ddriob_addr1.write(addr_config);
let data_config = slcr::DdriobConfig::zeroed()
.inp_type(slcr::DdriobInputType::VrefDifferential)
.term_en(true)
.dci_type(slcr::DdriobDciType::Termination)
.output_en(slcr::DdriobOutputEn::Obuf);
slcr.ddriob_data0.write(data_config.clone());
slcr.ddriob_data1.write(data_config);
let diff_config = slcr::DdriobConfig::zeroed()
.inp_type(slcr::DdriobInputType::Differential)
.term_en(true)
.dci_type(slcr::DdriobDciType::Termination)
.output_en(slcr::DdriobOutputEn::Obuf);
slcr.ddriob_diff0.write(diff_config.clone());
slcr.ddriob_diff1.write(diff_config);
slcr.ddriob_clock.write(
slcr::DdriobConfig::zeroed()
.output_en(slcr::DdriobOutputEn::Obuf)
);
unsafe {
// Not documented in Technical Reference Manual
slcr.ddriob_drive_slew_addr.write(0x0018C61C);
slcr.ddriob_drive_slew_data.write(0x00F9861C);
slcr.ddriob_drive_slew_diff.write(0x00F9861C);
slcr.ddriob_drive_slew_clock.write(0x00F9861C);
}
#[cfg(feature = "target_zc706")]
let vref_sel = slcr::DdriobVrefSel::Vref0_75V;
#[cfg(feature = "target_cora_z7_10")]
let vref_sel = slcr::DdriobVrefSel::Vref0_675V;
// // Enable internal V[REF]
// slcr.ddriob_ddr_ctrl.modify(|_, w| w
// .vref_ext_en_lower(false)
// .vref_ext_en_upper(false)
// .vref_sel(vref_sel)
// .vref_int_en(true)
// );
// Enable external V[REF]
slcr.ddriob_ddr_ctrl.modify(|_, w| w
.vref_ext_en_lower(true)
.vref_ext_en_upper(true)
.vref_sel(vref_sel)
.vref_int_en(false)
);
});
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}
/// Reset DDR controller
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fn reset_ddrc(&mut self) {
self.regs.ddrc_ctrl.modify(|_, w| w
.soft_rstb(false)
);
#[cfg(feature = "target_zc706")]
let width = regs::DataBusWidth::Width32bit;
#[cfg(feature = "target_cora_z7_10")]
let width = regs::DataBusWidth::Width16bit;
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self.regs.ddrc_ctrl.modify(|_, w| w
.soft_rstb(true)
.powerdown_en(false)
.data_bus_width(width)
);
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while self.status() == regs::ControllerStatus::Init {}
}
pub fn status(&self) -> regs::ControllerStatus {
self.regs.mode_sts_reg.read().operating_mode()
}
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pub fn ptr<T>(&mut self) -> *mut T {
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0x0010_0000 as *mut _
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}
pub fn size(&self) -> usize {
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#[cfg(feature = "target_zc706")]
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let megabytes = 511;
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#[cfg(feature = "target_cora_z7_10")]
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let megabytes = 511;
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megabytes * 1024 * 1024
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}
pub fn memtest(&mut self) {
let slice = unsafe {
core::slice::from_raw_parts_mut(self.ptr(), self.size())
};
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let patterns: &'static [u32] = &[0xffff_ffff, 0x5555_5555, 0xaaaa_aaaa, 0];
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let mut expected = None;
for (i, pattern) in patterns.iter().enumerate() {
println!("memtest phase {} (status: {:?})", i, self.status());
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for megabyte in 0..=(slice.len() / (1024 * 1024)) {
let start = megabyte * 1024 * 1024 / 4;
let end = ((megabyte + 1) * 1024 * 1024 / 4).min(slice.len());
for b in slice[start..end].iter_mut() {
expected.map(|expected| {
let read: u32 = *b;
if read != expected {
println!("{:08X}: expected {:08X}, read {:08X}", b as *mut _ as usize, expected, read);
}
});
*b = *pattern;
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}
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print!("\r{} MB", megabyte);
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}
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println!(" Ok");
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expected = Some(*pattern);
}
}
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}