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#include <stddef.h>
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#include <stdint.h>
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#include <stdbool.h>
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#include "console.h"
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#include "xics.h"
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#undef DEBUG
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//#define DEBUG 1
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void delay(void)
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{
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static volatile int i;
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for (i = 0; i < 16; ++i)
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__asm__ volatile("" : : : "memory");
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}
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void print_number(unsigned int i) // only for i = 0-999
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{
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unsigned int j, k, m;
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bool zeros = false;
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k = 1000000000;
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for (m = 0; m < 10 ; m++) {
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j = i/k;
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if (m == 9) zeros = true;
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if (zeros || (j != 0)) {
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putchar(48 + j);
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zeros = true;
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}
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i = i % k;
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k = k / 10;
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}
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}
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#ifdef DEBUG
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#define DEBUG_STR "\nDEBUG: "
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void debug_print(int i)
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{
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puts(DEBUG_STR);
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print_number(i);
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puts("\n");
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}
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#define debug_puts(a) puts(a)
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#else
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#define debug_puts(a)
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#define debug_print(i)
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#endif
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#define ASSERT_FAIL "() ASSERT_FAILURE!\n "
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#define assert(cond) \
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if (!(cond)) { \
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puts(__FILE__); \
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putchar(':'); \
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print_number(__LINE__); \
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putchar(':'); \
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puts(__FUNCTION__);\
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puts(ASSERT_FAIL); \
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__asm__ ("attn"); \
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}
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volatile uint64_t isrs_run;
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#define ISR_IPI 0x0000000000000001
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#define ISR_UART 0x0000000000000002
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#define ISR_SPURIOUS 0x0000000000000004
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#define IPI "IPI\n"
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void ipi_isr(void) {
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debug_puts(IPI);
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isrs_run |= ISR_IPI;
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icp_write8(XICS_MFRR, 0xff);
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}
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#define UART "UART\n"
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void uart_isr(void) {
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debug_puts(UART);
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potato_uart_irq_dis(); // disable interrupt to ack it
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isrs_run |= ISR_UART;
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}
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// The hardware doesn't support this but it's part of XICS so add it.
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#define SPURIOUS "SPURIOUS\n"
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void spurious_isr(void) {
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debug_puts(SPURIOUS);
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isrs_run |= ISR_SPURIOUS;
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}
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struct isr_op {
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void (*func)(void);
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int source_id;
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};
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struct isr_op isr_table[] = {
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{ .func = ipi_isr, .source_id = 2 },
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{ .func = uart_isr, .source_id = 16 },
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{ .func = spurious_isr, .source_id = 0 },
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{ .func = NULL, .source_id = 0 }
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};
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bool ipi_running;
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#define ISR "ISR XISR="
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#define PRIO " PRIO="
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#define CPPR " CPPR="
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void isr(void)
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{
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struct isr_op *op;
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uint32_t xirr;
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assert(!ipi_running); // check we aren't reentrant
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ipi_running = true;
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xirr = icp_read32(XICS_XIRR); // read hardware irq source
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#ifdef DEBUG
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puts(ISR);
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print_number(xirr & 0xff);
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puts(PRIO);
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print_number(xirr >> 24);
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puts(CPPR);
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print_number(icp_read8(XICS_XIRR_POLL));
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puts("\n");
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#endif
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op = isr_table;
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while (1) {
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assert(op->func); // didn't find isr
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if (op->source_id == (xirr & 0x00ffffff)) {
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op->func();
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break;
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}
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op++;
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}
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icp_write32(XICS_XIRR, xirr); // EOI
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ipi_running = false;
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}
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/*****************************************/
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int xics_test_0(void)
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{
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uint32_t v0, v1;
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v0 = ics_read_xive(0);
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v1 = ics_read_xive(1);
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#ifdef DEBUG
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puts("\n");
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puts("xive(0) bfr: ");
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print_number(v0);
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puts("\n");
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puts("xive(1) bfr: ");
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print_number(v1);
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puts("\n");
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#endif
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assert(v0 = 0xff);
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assert(v1 = 0xff);
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ics_write_xive(0xa, 0);
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ics_write_xive(0x5, 1);
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v0 = ics_read_xive(0);
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v1 = ics_read_xive(1);
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#ifdef DEBUG
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puts("\n");
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puts("xive(0) aft: ");
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print_number(v0);
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puts("\n");
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puts("xive(1) aft: ");
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print_number(v1);
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puts("\n");
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#endif
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assert(v0 = 0xa);
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assert(v1 = 0x5);
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ics_write_xive(0xff, 0);
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ics_write_xive(0xff, 1);
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v0 = ics_read_xive(0);
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v1 = ics_read_xive(1);
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assert(v0 = 0xff);
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assert(v1 = 0xff);
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return 0;
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}
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int xics_test_1(void)
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{
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// setup
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icp_write8(XICS_XIRR, 0x00); // mask all interrupts
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isrs_run = 0;
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icp_write8(XICS_XIRR, 0x00); // mask all interrupts
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// trigger two interrupts
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potato_uart_irq_en(); // cause serial interrupt
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ics_write_xive(0x6, 0); // set source to prio 6
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icp_write8(XICS_MFRR, 0x04); // cause ipi interrupt at prio 5
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// still masked, so shouldn't happen yet
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delay();
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assert(isrs_run == 0);
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// unmask IPI only
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icp_write8(XICS_XIRR, 0x6);
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delay();
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assert(isrs_run == ISR_IPI);
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// unmask UART
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icp_write8(XICS_XIRR, 0x7);
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delay();
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assert(isrs_run == (ISR_IPI | ISR_UART));
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// cleanup
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icp_write8(XICS_XIRR, 0x00); // mask all interrupts
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potato_uart_irq_dis();
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ics_write_xive(0, 0xff);
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isrs_run = 0;
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return 0;
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}
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int xics_test_2(void)
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{
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// setup
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icp_write8(XICS_XIRR, 0x00); // mask all interrupts
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isrs_run = 0;
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icp_write8(XICS_XIRR, 0xff); // allow all interrupts
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// should be none pending
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delay();
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assert(isrs_run == 0);
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// trigger both
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potato_uart_irq_en(); // cause 0x500 interrupt
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icp_write8(XICS_MFRR, 0x05); // cause 0x500 interrupt
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delay();
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assert(isrs_run == (ISR_IPI | ISR_UART));
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// cleanup
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icp_write8(XICS_XIRR, 0x00); // mask all interrupts
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potato_uart_irq_dis();
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isrs_run = 0;
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return 0;
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}
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void mtmsrd(uint64_t val)
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{
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__asm__ volatile("mtmsrd %0" : : "r" (val));
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}
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int xics_test_3(void)
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{
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// setup
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icp_write8(XICS_XIRR, 0x00); // mask all interrupts
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isrs_run = 0;
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// trigger interrupts with MSR[EE]=0 and show they are not run
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mtmsrd(0x9000000000000003); // EE off
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icp_write8(XICS_XIRR, 0xff); // allow all interrupts
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// trigger an IPI
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icp_write8(XICS_MFRR, 0x05); // cause 0x500 interrupt
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delay();
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assert(isrs_run == 0);
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mtmsrd(0x9000000000008003); // EE on
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delay();
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assert(isrs_run == ISR_IPI);
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// cleanup
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icp_write8(XICS_XIRR, 0x00); // mask all interrupts
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isrs_run = 0;
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return 0;
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}
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#define TEST "Test "
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#define PASS "PASS\n"
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#define FAIL "FAIL\n"
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int (*tests[])(void) = {
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xics_test_0,
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xics_test_1,
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xics_test_2,
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xics_test_3,
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NULL
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};
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int main(void)
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{
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int fail = 0;
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int i = 0;
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int (*t)(void);
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potato_uart_init();
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ipi_running = false;
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/* run the tests */
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while (1) {
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t = tests[i];
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if (!t)
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break;
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puts(TEST);
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print_number(i);
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putchar(':');
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if (t() != 0) {
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fail = 1;
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puts(FAIL);
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} else
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puts(PASS);
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i++;
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}
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return fail;
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}
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