sw/device/tests/otbn_irq_test.c - 3p/lowrisc/opentitan - Git at Google

 // Copyright lowRISC contributors.
 // Licensed under the Apache License, Version 2.0, see LICENSE for details.
 // SPDX-License-Identifier: Apache-2.0

 #include "sw/device/lib/dif/dif_otbn.h"
 #include "sw/device/lib/dif/dif_rv_plic.h"
 #include "sw/device/lib/runtime/ibex.h"
 #include "sw/device/lib/runtime/irq.h"
 #include "sw/device/lib/runtime/log.h"
 #include "sw/device/lib/testing/entropy_testutils.h"
 #include "sw/device/lib/testing/otbn_testutils.h"
 #include "sw/device/lib/testing/test_framework/check.h"
 #include "sw/device/lib/testing/test_framework/ottf_main.h"

 #include "hw/top_earlgrey/sw/autogen/top_earlgrey.h"

 OTBN_DECLARE_APP_SYMBOLS(err_test);

 static const otbn_app_t kAppErrTest = OTBN_APP_T_INIT(err_test);

 OTTF_DEFINE_TEST_CONFIG();

 static dif_rv_plic_t plic;
 static volatile bool otbn_finished;

 /**
  * Get OTBN error bits; check they match expected_err_bits.
  */
 static void check_otbn_err_bits(dif_otbn_t *otbn,
                                 dif_otbn_err_bits_t expected_err_bits) {
   dif_otbn_err_bits_t otbn_err_bits;
   CHECK_DIF_OK(dif_otbn_get_err_bits(otbn, &otbn_err_bits));
   CHECK(otbn_err_bits == expected_err_bits,
         "dif_otbn_get_err_bits() produced unexpected error bits: %x",
         otbn_err_bits);
 }

 /**
  * Get the OTBN instruction count; check that it matches expected_insn_cnt.
  */
 static void check_otbn_insn_cnt(dif_otbn_t *otbn, uint32_t expected_insn_cnt) {
   uint32_t insn_cnt;
   CHECK_DIF_OK(dif_otbn_get_insn_cnt(otbn, &insn_cnt));
   CHECK(insn_cnt == expected_insn_cnt,
         "Expected to execute %d instructions, but got %d.", expected_insn_cnt,
         insn_cnt);
 }

 /**
  * Get OTBN's status; check that it matches expected_status.
  */
 static void check_otbn_status(dif_otbn_t *otbn,
                               dif_otbn_status_t expected_status) {
   dif_otbn_status_t status;
   CHECK_DIF_OK(dif_otbn_get_status(otbn, &status));
   CHECK(status == expected_status, "Unexpected status: expected %d but got %d.",
         expected_status, status);
 }

 /**
  * Run a binary on OTBN, waiting for completion by interrupt.
  *
  * Once the binary has finished, check for expected status, error bits and
  * instruction count.
  */
 static void run_test_with_irqs(dif_otbn_t *otbn, otbn_app_t app,
                                dif_otbn_status_t expected_status,
                                dif_otbn_err_bits_t expected_err_bits,
                                uint32_t expected_insn_cnt) {
   // Clear the otbn_finished flag: we'll set it in the interrupt handler when
   // we see the Done interrupt fire.
   otbn_finished = false;

   otbn_testutils_load_app(otbn, app);

   // If the the CTRL.SOFTWARE_ERRS_FATAL flag is set, a software error will be
   // promoted to a fatal error (which, among other things, bricks OTBN until
   // next reset). Make sure that's not turned on.
   CHECK(dif_otbn_set_ctrl_software_errs_fatal(otbn, false) == kDifOk);

   // Enable Done interrupt
   CHECK_DIF_OK(
       dif_otbn_irq_set_enabled(otbn, kDifOtbnIrqDone, kDifToggleEnabled));

   // Start OTBN
   otbn_testutils_execute(otbn);

   // At this point, OTBN should be running. Wait for an interrupt that says
   // it's done.
   for (;;) {
     // This looks a bit odd, but is needed to avoid a race condition where the
     // OTBN interrupt comes in after we load the otbn_finished flag but before
     // we run the WFI instruction. The trick is that WFI returns when an
     // interrupt comes in even if interrupts are globally disabled, which means
     // that the WFI can actually sit *inside* the critical section.
     irq_global_ctrl(false);
     if (otbn_finished)
       break;
     wait_for_interrupt();
     irq_global_ctrl(true);
   }
   irq_global_ctrl(true);

   check_otbn_status(otbn, expected_status);
   check_otbn_err_bits(otbn, expected_insn_cnt);
   check_otbn_insn_cnt(otbn, expected_err_bits);
 }

 /**
  * Initialize PLIC and enable OTBN interrupt.
  */
 static void plic_init_with_irqs(void) {
   mmio_region_t base_addr =
       mmio_region_from_addr(TOP_EARLGREY_RV_PLIC_BASE_ADDR);
   CHECK_DIF_OK(dif_rv_plic_init(base_addr, &plic));

   dif_rv_plic_irq_id_t irq_id = kTopEarlgreyPlicIrqIdOtbnDone;

   // Set interrupt priority to be positive
   CHECK_DIF_OK(dif_rv_plic_irq_set_priority(&plic, irq_id, 0x1));

   // Enable the interrupt
   CHECK_DIF_OK(dif_rv_plic_irq_set_enabled(
       &plic, irq_id, kTopEarlgreyPlicTargetIbex0, kDifToggleEnabled));

   // Set the threshold for Ibex to 0.
   CHECK_DIF_OK(dif_rv_plic_target_set_threshold(
       &plic, kTopEarlgreyPlicTargetIbex0, 0x0));
 }

 /**
  * The ISR for this test.
  *
  * This function overrides the default OTTF external ISR.
  */
 void ottf_external_isr(void) {
   // Find which interrupt fired at PLIC by claiming it.
   dif_rv_plic_irq_id_t irq_id;
   CHECK_DIF_OK(
       dif_rv_plic_irq_claim(&plic, kTopEarlgreyPlicTargetIbex0, &irq_id));

   // Check it was from OTBN
   top_earlgrey_plic_peripheral_t peri =
       top_earlgrey_plic_interrupt_for_peripheral[irq_id];
   CHECK(peri == kTopEarlgreyPlicPeripheralOtbn,
         "Interrupt from incorrect peripheral: (exp: %d, obs: %s)",
         kTopEarlgreyPlicPeripheralOtbn, peri);

   // Check this is the interrupt we expected
   CHECK(irq_id == kTopEarlgreyPlicIrqIdOtbnDone);

   // otbn_finished should currently be false (we're supposed to clear it before
   // starting OTBN)
   CHECK(!otbn_finished);

   // Set otbn_finished, which we'll pick up in run_test_with_irqs.
   otbn_finished = true;
 }

 bool test_main(void) {
   entropy_testutils_auto_mode_init();
   plic_init_with_irqs();

   // Enable the external IRQ (so that we see the interrupt from the PLIC)
   irq_global_ctrl(true);
   irq_external_ctrl(true);

   mmio_region_t base_addr = mmio_region_from_addr(TOP_EARLGREY_OTBN_BASE_ADDR);

   dif_otbn_t otbn;
   CHECK_DIF_OK(dif_otbn_init(base_addr, &otbn));

   run_test_with_irqs(&otbn, kAppErrTest, kDifOtbnStatusIdle,
                      kDifOtbnErrBitsBadDataAddr, 1);

   return true;
 }
	// Copyright lowRISC contributors.
	// Licensed under the Apache License, Version 2.0, see LICENSE for details.
	// SPDX-License-Identifier: Apache-2.0

	#include "sw/device/lib/dif/dif_otbn.h"
	#include "sw/device/lib/dif/dif_rv_plic.h"
	#include "sw/device/lib/runtime/ibex.h"
	#include "sw/device/lib/runtime/irq.h"
	#include "sw/device/lib/runtime/log.h"
	#include "sw/device/lib/testing/entropy_testutils.h"
	#include "sw/device/lib/testing/otbn_testutils.h"
	#include "sw/device/lib/testing/test_framework/check.h"
	#include "sw/device/lib/testing/test_framework/ottf_main.h"

	#include "hw/top_earlgrey/sw/autogen/top_earlgrey.h"

	OTBN_DECLARE_APP_SYMBOLS(err_test);

	static const otbn_app_t kAppErrTest = OTBN_APP_T_INIT(err_test);

	OTTF_DEFINE_TEST_CONFIG();

	static dif_rv_plic_t plic;
	static volatile bool otbn_finished;

	/**
	* Get OTBN error bits; check they match expected_err_bits.
	*/
	static void check_otbn_err_bits(dif_otbn_t *otbn,
	dif_otbn_err_bits_t expected_err_bits) {
	dif_otbn_err_bits_t otbn_err_bits;
	CHECK_DIF_OK(dif_otbn_get_err_bits(otbn, &otbn_err_bits));
	CHECK(otbn_err_bits == expected_err_bits,
	"dif_otbn_get_err_bits() produced unexpected error bits: %x",
	otbn_err_bits);
	}

	/**
	* Get the OTBN instruction count; check that it matches expected_insn_cnt.
	*/
	static void check_otbn_insn_cnt(dif_otbn_t *otbn, uint32_t expected_insn_cnt) {
	uint32_t insn_cnt;
	CHECK_DIF_OK(dif_otbn_get_insn_cnt(otbn, &insn_cnt));
	CHECK(insn_cnt == expected_insn_cnt,
	"Expected to execute %d instructions, but got %d.", expected_insn_cnt,
	insn_cnt);
	}

	/**
	* Get OTBN's status; check that it matches expected_status.
	*/
	static void check_otbn_status(dif_otbn_t *otbn,
	dif_otbn_status_t expected_status) {
	dif_otbn_status_t status;
	CHECK_DIF_OK(dif_otbn_get_status(otbn, &status));
	CHECK(status == expected_status, "Unexpected status: expected %d but got %d.",
	expected_status, status);
	}

	/**
	* Run a binary on OTBN, waiting for completion by interrupt.
	*
	* Once the binary has finished, check for expected status, error bits and
	* instruction count.
	*/
	static void run_test_with_irqs(dif_otbn_t *otbn, otbn_app_t app,
	dif_otbn_status_t expected_status,
	dif_otbn_err_bits_t expected_err_bits,
	uint32_t expected_insn_cnt) {
	// Clear the otbn_finished flag: we'll set it in the interrupt handler when
	// we see the Done interrupt fire.
	otbn_finished = false;

	otbn_testutils_load_app(otbn, app);

	// If the the CTRL.SOFTWARE_ERRS_FATAL flag is set, a software error will be
	// promoted to a fatal error (which, among other things, bricks OTBN until
	// next reset). Make sure that's not turned on.
	CHECK(dif_otbn_set_ctrl_software_errs_fatal(otbn, false) == kDifOk);

	// Enable Done interrupt
	CHECK_DIF_OK(
	dif_otbn_irq_set_enabled(otbn, kDifOtbnIrqDone, kDifToggleEnabled));

	// Start OTBN
	otbn_testutils_execute(otbn);

	// At this point, OTBN should be running. Wait for an interrupt that says
	// it's done.
	for (;;) {
	// This looks a bit odd, but is needed to avoid a race condition where the
	// OTBN interrupt comes in after we load the otbn_finished flag but before
	// we run the WFI instruction. The trick is that WFI returns when an
	// interrupt comes in even if interrupts are globally disabled, which means
	// that the WFI can actually sit inside the critical section.
	irq_global_ctrl(false);
	if (otbn_finished)
	break;
	wait_for_interrupt();
	irq_global_ctrl(true);
	}
	irq_global_ctrl(true);

	check_otbn_status(otbn, expected_status);
	check_otbn_err_bits(otbn, expected_insn_cnt);
	check_otbn_insn_cnt(otbn, expected_err_bits);
	}

	/**
	* Initialize PLIC and enable OTBN interrupt.
	*/
	static void plic_init_with_irqs(void) {
	mmio_region_t base_addr =
	mmio_region_from_addr(TOP_EARLGREY_RV_PLIC_BASE_ADDR);
	CHECK_DIF_OK(dif_rv_plic_init(base_addr, &plic));

	dif_rv_plic_irq_id_t irq_id = kTopEarlgreyPlicIrqIdOtbnDone;

	// Set interrupt priority to be positive
	CHECK_DIF_OK(dif_rv_plic_irq_set_priority(&plic, irq_id, 0x1));

	// Enable the interrupt
	CHECK_DIF_OK(dif_rv_plic_irq_set_enabled(
	&plic, irq_id, kTopEarlgreyPlicTargetIbex0, kDifToggleEnabled));

	// Set the threshold for Ibex to 0.
	CHECK_DIF_OK(dif_rv_plic_target_set_threshold(
	&plic, kTopEarlgreyPlicTargetIbex0, 0x0));
	}

	/**
	* The ISR for this test.
	*
	* This function overrides the default OTTF external ISR.
	*/
	void ottf_external_isr(void) {
	// Find which interrupt fired at PLIC by claiming it.
	dif_rv_plic_irq_id_t irq_id;
	CHECK_DIF_OK(
	dif_rv_plic_irq_claim(&plic, kTopEarlgreyPlicTargetIbex0, &irq_id));

	// Check it was from OTBN
	top_earlgrey_plic_peripheral_t peri =
	top_earlgrey_plic_interrupt_for_peripheral[irq_id];
	CHECK(peri == kTopEarlgreyPlicPeripheralOtbn,
	"Interrupt from incorrect peripheral: (exp: %d, obs: %s)",
	kTopEarlgreyPlicPeripheralOtbn, peri);

	// Check this is the interrupt we expected
	CHECK(irq_id == kTopEarlgreyPlicIrqIdOtbnDone);

	// otbn_finished should currently be false (we're supposed to clear it before
	// starting OTBN)
	CHECK(!otbn_finished);

	// Set otbn_finished, which we'll pick up in run_test_with_irqs.
	otbn_finished = true;
	}

	bool test_main(void) {
	entropy_testutils_auto_mode_init();
	plic_init_with_irqs();

	// Enable the external IRQ (so that we see the interrupt from the PLIC)
	irq_global_ctrl(true);
	irq_external_ctrl(true);

	mmio_region_t base_addr = mmio_region_from_addr(TOP_EARLGREY_OTBN_BASE_ADDR);

	dif_otbn_t otbn;
	CHECK_DIF_OK(dif_otbn_init(base_addr, &otbn));

	run_test_with_irqs(&otbn, kAppErrTest, kDifOtbnStatusIdle,
	kDifOtbnErrBitsBadDataAddr, 1);

	return true;
	}