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const std = @import("std");
const board = @import("board.zig");
const AUX_BASE = board.AUX_BASE;
const AUX_ENABLE = board.AUX_ENABLE;
const gpio = @import("gpio.zig");
const mmio = @import("mmio.zig");
const IO = AUX_BASE + 0x40;
const IER = AUX_BASE + 0x44;
const IIR = AUX_BASE + 0x48;
const LCR = AUX_BASE + 0x4c;
const MCR = AUX_BASE + 0x50;
const LSR = AUX_BASE + 0x54;
const MSR = AUX_BASE + 0x58;
const SCRATCH = AUX_BASE + 0x5c;
const CNTL = AUX_BASE + 0x60;
const STAT = AUX_BASE + 0x64;
const BAUD = AUX_BASE + 0x68;
pub fn enable() void {
board.enableAux(.mini_uart);
gpio.setPull(14, .none);
gpio.setFunction(14, .alt5);
gpio.setPull(15, .none);
gpio.setFunction(15, .alt5);
mmio.write(IER, 0); // disable interrupts
mmio.write(IIR, 6); // clear FIFOs
mmio.write(LCR, 3); // 8 bit mode
mmio.write(BAUD, baudRegVal(115200));
mmio.write(CNTL, 0x3);
}
fn baudRegVal(baud: comptime_int) comptime_int {
return 500000000 / (baud * 8) - 1;
}
fn writeByte(b: u8) void {
while ((mmio.read(LSR) & 0x10) != 0) {}
mmio.write(IO, b);
}
pub fn writeString(str: []const u8) void {
for (str) |b| {
if (b == '\n') {
writeByte('\r');
}
writeByte(b);
}
}
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