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opensecura / hw / matcha / 910f20fce9863586b10c0b6865bd8933eece357d / . / sw / device / tests / smc / smc_kelvin_checksum_test.c
blob: f28eccc18d4c053f813c58cdb1331c393fe952d1 [file] [log] [blame]
/*
* Copyright 2023 Google LLC
* Copyright lowRISC contributors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
// Run kelvin_chechsum test from SMC
#include "hw/ip/ml_top/data/ml_top_regs.h" // Generated.
#include "hw/top_matcha/sw/autogen/top_matcha.h"
#include "sw/device/lib/arch/device.h"
#include "sw/device/lib/dif/dif_ml_top.h"
#include "sw/device/lib/dif/dif_rv_plic.h"
#include "sw/device/lib/dif/dif_uart.h"
#include "sw/device/lib/runtime/hart.h"
#include "sw/device/lib/runtime/irq.h"
#include "sw/device/lib/runtime/log.h"
#include "sw/device/lib/runtime/print.h"
#include "sw/device/lib/testing/test_framework/check.h"
#include "sw/device/lib/testing/test_framework/ottf_test_config.h"
#include "sw/device/lib/testing/test_framework/status.h"
#include "sw/device/lib/testing/test_framework/test_util.h"
#include "sw/device/tests/testdata/test_image.h"
#define ML_DMEM_INPUT_OFFSET_ADDR 0x00300000
#define ML_DMEM_OUT_OFFSET_ADDR 0x00380000
OTTF_DEFINE_TEST_CONFIG();
static dif_ml_top_t ml_top;
static dif_rv_plic_t plic_smc;
static dif_uart_t smc_uart;
static volatile bool ml_top_finish_done = false;
static void handle_ml_top_isr(const dif_rv_plic_irq_id_t interrupt_id) {
switch (interrupt_id) {
case kTopMatchaPlicIrqIdMlTopFinish:
ml_top_finish_done = true;
break;
case kTopMatchaPlicIrqIdMlTopFinish | kTopMatchaPlicIrqIdMlTopFault:
LOG_ERROR("ML core raised fault interrupt.");
test_status_set(kTestStatusFailed);
default:
LOG_FATAL("ISR is not implemented!");
test_status_set(kTestStatusFailed);
}
CHECK_DIF_OK(dif_ml_top_reset_ctrl_en(&ml_top));
CHECK_DIF_OK(dif_ml_top_irq_acknowledge_all(&ml_top));
}
void ottf_external_isr(void) {
// Claim the IRQ by reading the Ibex specific CC register.
dif_rv_plic_irq_id_t interrupt_id;
CHECK_DIF_OK(dif_rv_plic_irq_claim(&plic_smc, kTopMatchaPlicTargetIbex0Smc,
&interrupt_id));
// Check if the interrupted peripheral is ISP WRAPPER.
top_matcha_plic_peripheral_smc_t peripheral_id =
top_matcha_plic_interrupt_for_peripheral_smc[interrupt_id];
CHECK(peripheral_id == kTopMatchaPlicPeripheralMlTop,
"Unexpected peripheral in ISR: %d", peripheral_id);
switch (peripheral_id) {
case kTopMatchaPlicPeripheralMlTop: {
handle_ml_top_isr(interrupt_id);
break;
}
default:
LOG_FATAL("Peripheral is not implemented!");
}
// Complete the IRQ by writing the IRQ source to the Ibex specific CC
// register.
CHECK_DIF_OK(dif_rv_plic_irq_complete(&plic_smc, kTopMatchaPlicTargetIbex0Smc,
interrupt_id));
}
// Configures all relevant interrupts in PLIC_SMC.
static void plic_smc_configure_irqs(dif_rv_plic_t *plic) {
// Set IRQ priorities to MAX
CHECK_DIF_OK(dif_rv_plic_irq_set_priority(
plic, kTopMatchaPlicIrqIdMlTopFinish, kDifRvPlicMaxPriority));
CHECK_DIF_OK(dif_rv_plic_irq_set_priority(plic, kTopMatchaPlicIrqIdMlTopFault,
kDifRvPlicMaxPriority));
// Set Ibex IRQ priority threshold level
CHECK_DIF_OK(dif_rv_plic_target_set_threshold(
plic, kTopMatchaPlicTargetIbex0Smc, kDifRvPlicMinPriority));
// Enable ML core IRQs
CHECK_DIF_OK(dif_rv_plic_irq_set_enabled(plic, kTopMatchaPlicIrqIdMlTopFinish,
kTopMatchaPlicTargetIbex0Smc,
kDifToggleEnabled));
CHECK_DIF_OK(dif_rv_plic_irq_set_enabled(plic, kTopMatchaPlicIrqIdMlTopFault,
kTopMatchaPlicTargetIbex0Smc,
kDifToggleEnabled));
}
void _ottf_main(void) {
test_status_set(kTestStatusInTest);
// Initialize the SMC UART to enable logging for non-DV simulation platforms.
if (kDeviceType != kDeviceSimDV) {
init_uart(TOP_MATCHA_SMC_UART_BASE_ADDR, &smc_uart);
}
// Init IRQs
CHECK_DIF_OK(dif_rv_plic_init(
mmio_region_from_addr(TOP_MATCHA_RV_PLIC_SMC_BASE_ADDR), &plic_smc));
plic_smc_configure_irqs(&plic_smc);
irq_global_ctrl(true);
irq_external_ctrl(true);
// Init ML_TOP
CHECK_DIF_OK(dif_ml_top_init(
mmio_region_from_addr(TOP_MATCHA_ML_TOP_CORE_BASE_ADDR), &ml_top));
CHECK_DIF_OK(dif_ml_top_irq_set_enabled(&ml_top, kDifMlTopIrqFinish,
kDifToggleEnabled));
CHECK_DIF_OK(dif_ml_top_irq_set_enabled(&ml_top, kDifMlTopIrqFault,
kDifToggleEnabled));
// Write DMEM with initial values
const uint32_t *input = (const uint32_t *)hps_0;
mmio_region_t ml_dmem_base = mmio_region_from_addr(
TOP_MATCHA_RAM_ML_DMEM_BASE_ADDR + ML_DMEM_INPUT_OFFSET_ADDR);
for (uintptr_t word_idx = 0; word_idx < hps_0_len / sizeof(uint32_t);
++word_idx) {
uintptr_t offset = word_idx * sizeof(uint32_t);
mmio_region_write32(ml_dmem_base, offset, input[word_idx]);
}
// Set ML_TOP_Core registers
mmio_region_t base_addr =
mmio_region_from_addr(TOP_MATCHA_ML_TOP_CORE_BASE_ADDR);
// Un-freeze clock and Reset of ML_TOP
CHECK_DIF_OK(dif_ml_top_reset_ctrl_en(&ml_top));
uint32_t mem_val = mmio_region_read32(base_addr, ML_TOP_CTRL_REG_OFFSET);
CHECK(mem_val == ML_TOP_CTRL_REG_RESVAL,
"ML_TOP_CTRL read out: expected : 0x%x | actual: 0x%x",
ML_TOP_CTRL_REG_RESVAL, mem_val);
// Release the Reset of ML_TOP
ml_top_finish_done = false;
CHECK_DIF_OK(dif_ml_top_release_ctrl_en(&ml_top));
// Wait until Kelvin finishes.
while (!ml_top_finish_done) {
asm volatile("wfi");
}
// Check kelvin result. The program sums to the data stored in the test
// range 0x5A300000 to 0x5A312c00, and stored at 0x5A380000
ml_dmem_base = mmio_region_from_addr(TOP_MATCHA_RAM_ML_DMEM_BASE_ADDR);
mem_val = mmio_region_read32(ml_dmem_base, ML_DMEM_OUT_OFFSET_ADDR);
const uint32_t kExpectedSum = 0x0d42e16c;
CHECK(mem_val == kExpectedSum,
"Mismatch output - Expected: 0x%x | Actual: 0x%x", kExpectedSum,
mem_val);
test_status_set(kTestStatusPassed);
}