| // Copyright lowRISC contributors. |
| // Licensed under the Apache License, Version 2.0, see LICENSE for details. |
| // SPDX-License-Identifier: Apache-2.0 |
| |
| // THIS FILE HAS BEEN GENERATED, DO NOT EDIT MANUALLY. COMMAND: |
| // util/autogen_testutils.py |
| |
| #include "sw/device/lib/testing/autogen/isr_testutils.h" |
| |
| #include "sw/device/lib/dif/dif_adc_ctrl.h" |
| #include "sw/device/lib/dif/dif_alert_handler.h" |
| #include "sw/device/lib/dif/dif_aon_timer.h" |
| #include "sw/device/lib/dif/dif_base.h" |
| #include "sw/device/lib/dif/dif_csrng.h" |
| #include "sw/device/lib/dif/dif_edn.h" |
| #include "sw/device/lib/dif/dif_entropy_src.h" |
| #include "sw/device/lib/dif/dif_flash_ctrl.h" |
| #include "sw/device/lib/dif/dif_gpio.h" |
| #include "sw/device/lib/dif/dif_hmac.h" |
| #include "sw/device/lib/dif/dif_i2c.h" |
| #include "sw/device/lib/dif/dif_keymgr.h" |
| #include "sw/device/lib/dif/dif_kmac.h" |
| #include "sw/device/lib/dif/dif_otbn.h" |
| #include "sw/device/lib/dif/dif_otp_ctrl.h" |
| #include "sw/device/lib/dif/dif_pattgen.h" |
| #include "sw/device/lib/dif/dif_pwrmgr.h" |
| #include "sw/device/lib/dif/dif_rv_plic.h" |
| #include "sw/device/lib/dif/dif_rv_timer.h" |
| #include "sw/device/lib/dif/dif_sensor_ctrl.h" |
| #include "sw/device/lib/dif/dif_spi_device.h" |
| #include "sw/device/lib/dif/dif_spi_host.h" |
| #include "sw/device/lib/dif/dif_sysrst_ctrl.h" |
| #include "sw/device/lib/dif/dif_uart.h" |
| #include "sw/device/lib/dif/dif_usbdev.h" |
| #include "sw/device/lib/testing/test_framework/check.h" |
| |
| #include "hw/top_earlgrey/sw/autogen/top_earlgrey.h" // Generated. |
| |
| void isr_testutils_adc_ctrl_isr( |
| plic_isr_ctx_t plic_ctx, adc_ctrl_isr_ctx_t adc_ctrl_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_adc_ctrl_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_adc_ctrl_irq_t irq = |
| (dif_adc_ctrl_irq_t)(plic_irq_id - |
| adc_ctrl_ctx.plic_adc_ctrl_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (adc_ctrl_ctx.is_only_irq) { |
| dif_adc_ctrl_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_adc_ctrl_irq_get_state(adc_ctrl_ctx.adc_ctrl, &snapshot)); |
| CHECK(snapshot == (dif_adc_ctrl_irq_state_snapshot_t)(1 << irq), |
| "Only adc_ctrl IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // TODO(lowRISC/opentitan:#11354): future releases of the ADC Controller HW |
| // should hide the need to also clear the cause CSRs. At which point, this can |
| // be removed. |
| CHECK_DIF_OK(dif_adc_ctrl_irq_clear_causes(adc_ctrl_ctx.adc_ctrl, |
| kDifAdcCtrlIrqCauseAll)); |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_adc_ctrl_irq_get_type(adc_ctrl_ctx.adc_ctrl, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_adc_ctrl_irq_acknowledge(adc_ctrl_ctx.adc_ctrl, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_alert_handler_isr( |
| plic_isr_ctx_t plic_ctx, alert_handler_isr_ctx_t alert_handler_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_alert_handler_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_alert_handler_irq_t irq = |
| (dif_alert_handler_irq_t)(plic_irq_id - |
| alert_handler_ctx |
| .plic_alert_handler_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (alert_handler_ctx.is_only_irq) { |
| dif_alert_handler_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_alert_handler_irq_get_state( |
| alert_handler_ctx.alert_handler, &snapshot)); |
| CHECK(snapshot == (dif_alert_handler_irq_state_snapshot_t)(1 << irq), |
| "Only alert_handler IRQ %d expected to fire. Actual IRQ state = %x", |
| irq, snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_alert_handler_irq_get_type(alert_handler_ctx.alert_handler, |
| irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_alert_handler_irq_acknowledge( |
| alert_handler_ctx.alert_handler, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_aon_timer_isr( |
| plic_isr_ctx_t plic_ctx, aon_timer_isr_ctx_t aon_timer_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_aon_timer_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_aon_timer_irq_t irq = |
| (dif_aon_timer_irq_t)(plic_irq_id - |
| aon_timer_ctx.plic_aon_timer_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (aon_timer_ctx.is_only_irq) { |
| dif_aon_timer_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK( |
| dif_aon_timer_irq_get_state(aon_timer_ctx.aon_timer, &snapshot)); |
| CHECK(snapshot == (dif_aon_timer_irq_state_snapshot_t)(1 << irq), |
| "Only aon_timer IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_aon_timer_irq_get_type(aon_timer_ctx.aon_timer, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_aon_timer_irq_acknowledge(aon_timer_ctx.aon_timer, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_csrng_isr( |
| plic_isr_ctx_t plic_ctx, csrng_isr_ctx_t csrng_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_csrng_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_csrng_irq_t irq = |
| (dif_csrng_irq_t)(plic_irq_id - csrng_ctx.plic_csrng_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (csrng_ctx.is_only_irq) { |
| dif_csrng_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_csrng_irq_get_state(csrng_ctx.csrng, &snapshot)); |
| CHECK(snapshot == (dif_csrng_irq_state_snapshot_t)(1 << irq), |
| "Only csrng IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_csrng_irq_get_type(csrng_ctx.csrng, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_csrng_irq_acknowledge(csrng_ctx.csrng, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_edn_isr(plic_isr_ctx_t plic_ctx, edn_isr_ctx_t edn_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_edn_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_edn_irq_t irq = |
| (dif_edn_irq_t)(plic_irq_id - edn_ctx.plic_edn_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (edn_ctx.is_only_irq) { |
| dif_edn_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_edn_irq_get_state(edn_ctx.edn, &snapshot)); |
| CHECK(snapshot == (dif_edn_irq_state_snapshot_t)(1 << irq), |
| "Only edn IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_edn_irq_get_type(edn_ctx.edn, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_edn_irq_acknowledge(edn_ctx.edn, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_entropy_src_isr( |
| plic_isr_ctx_t plic_ctx, entropy_src_isr_ctx_t entropy_src_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_entropy_src_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_entropy_src_irq_t irq = |
| (dif_entropy_src_irq_t)(plic_irq_id - |
| entropy_src_ctx.plic_entropy_src_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (entropy_src_ctx.is_only_irq) { |
| dif_entropy_src_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK( |
| dif_entropy_src_irq_get_state(entropy_src_ctx.entropy_src, &snapshot)); |
| CHECK(snapshot == (dif_entropy_src_irq_state_snapshot_t)(1 << irq), |
| "Only entropy_src IRQ %d expected to fire. Actual IRQ state = %x", |
| irq, snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK( |
| dif_entropy_src_irq_get_type(entropy_src_ctx.entropy_src, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK( |
| dif_entropy_src_irq_acknowledge(entropy_src_ctx.entropy_src, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_flash_ctrl_isr( |
| plic_isr_ctx_t plic_ctx, flash_ctrl_isr_ctx_t flash_ctrl_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_flash_ctrl_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_flash_ctrl_irq_t irq = |
| (dif_flash_ctrl_irq_t)(plic_irq_id - |
| flash_ctrl_ctx.plic_flash_ctrl_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (flash_ctrl_ctx.is_only_irq) { |
| dif_flash_ctrl_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK( |
| dif_flash_ctrl_irq_get_state(flash_ctrl_ctx.flash_ctrl, &snapshot)); |
| CHECK(snapshot == (dif_flash_ctrl_irq_state_snapshot_t)(1 << irq), |
| "Only flash_ctrl IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK( |
| dif_flash_ctrl_irq_get_type(flash_ctrl_ctx.flash_ctrl, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK( |
| dif_flash_ctrl_irq_acknowledge(flash_ctrl_ctx.flash_ctrl, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_gpio_isr(plic_isr_ctx_t plic_ctx, gpio_isr_ctx_t gpio_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_gpio_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_gpio_irq_t irq = |
| (dif_gpio_irq_t)(plic_irq_id - gpio_ctx.plic_gpio_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (gpio_ctx.is_only_irq) { |
| dif_gpio_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_gpio_irq_get_state(gpio_ctx.gpio, &snapshot)); |
| CHECK(snapshot == (dif_gpio_irq_state_snapshot_t)(1 << irq), |
| "Only gpio IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_gpio_irq_get_type(gpio_ctx.gpio, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_gpio_irq_acknowledge(gpio_ctx.gpio, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_hmac_isr(plic_isr_ctx_t plic_ctx, hmac_isr_ctx_t hmac_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_hmac_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_hmac_irq_t irq = |
| (dif_hmac_irq_t)(plic_irq_id - hmac_ctx.plic_hmac_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (hmac_ctx.is_only_irq) { |
| dif_hmac_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_hmac_irq_get_state(hmac_ctx.hmac, &snapshot)); |
| CHECK(snapshot == (dif_hmac_irq_state_snapshot_t)(1 << irq), |
| "Only hmac IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_hmac_irq_get_type(hmac_ctx.hmac, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_hmac_irq_acknowledge(hmac_ctx.hmac, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_i2c_isr(plic_isr_ctx_t plic_ctx, i2c_isr_ctx_t i2c_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_i2c_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_i2c_irq_t irq = |
| (dif_i2c_irq_t)(plic_irq_id - i2c_ctx.plic_i2c_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (i2c_ctx.is_only_irq) { |
| dif_i2c_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_i2c_irq_get_state(i2c_ctx.i2c, &snapshot)); |
| CHECK(snapshot == (dif_i2c_irq_state_snapshot_t)(1 << irq), |
| "Only i2c IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_i2c_irq_get_type(i2c_ctx.i2c, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_i2c_irq_acknowledge(i2c_ctx.i2c, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_keymgr_isr( |
| plic_isr_ctx_t plic_ctx, keymgr_isr_ctx_t keymgr_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_keymgr_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_keymgr_irq_t irq = |
| (dif_keymgr_irq_t)(plic_irq_id - keymgr_ctx.plic_keymgr_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (keymgr_ctx.is_only_irq) { |
| dif_keymgr_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_keymgr_irq_get_state(keymgr_ctx.keymgr, &snapshot)); |
| CHECK(snapshot == (dif_keymgr_irq_state_snapshot_t)(1 << irq), |
| "Only keymgr IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_keymgr_irq_get_type(keymgr_ctx.keymgr, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_keymgr_irq_acknowledge(keymgr_ctx.keymgr, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_kmac_isr(plic_isr_ctx_t plic_ctx, kmac_isr_ctx_t kmac_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_kmac_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_kmac_irq_t irq = |
| (dif_kmac_irq_t)(plic_irq_id - kmac_ctx.plic_kmac_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (kmac_ctx.is_only_irq) { |
| dif_kmac_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_kmac_irq_get_state(kmac_ctx.kmac, &snapshot)); |
| CHECK(snapshot == (dif_kmac_irq_state_snapshot_t)(1 << irq), |
| "Only kmac IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_kmac_irq_get_type(kmac_ctx.kmac, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_kmac_irq_acknowledge(kmac_ctx.kmac, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_otbn_isr(plic_isr_ctx_t plic_ctx, otbn_isr_ctx_t otbn_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_otbn_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_otbn_irq_t irq = |
| (dif_otbn_irq_t)(plic_irq_id - otbn_ctx.plic_otbn_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (otbn_ctx.is_only_irq) { |
| dif_otbn_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_otbn_irq_get_state(otbn_ctx.otbn, &snapshot)); |
| CHECK(snapshot == (dif_otbn_irq_state_snapshot_t)(1 << irq), |
| "Only otbn IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_otbn_irq_get_type(otbn_ctx.otbn, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_otbn_irq_acknowledge(otbn_ctx.otbn, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_otp_ctrl_isr( |
| plic_isr_ctx_t plic_ctx, otp_ctrl_isr_ctx_t otp_ctrl_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_otp_ctrl_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_otp_ctrl_irq_t irq = |
| (dif_otp_ctrl_irq_t)(plic_irq_id - |
| otp_ctrl_ctx.plic_otp_ctrl_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (otp_ctrl_ctx.is_only_irq) { |
| dif_otp_ctrl_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_otp_ctrl_irq_get_state(otp_ctrl_ctx.otp_ctrl, &snapshot)); |
| CHECK(snapshot == (dif_otp_ctrl_irq_state_snapshot_t)(1 << irq), |
| "Only otp_ctrl IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_otp_ctrl_irq_get_type(otp_ctrl_ctx.otp_ctrl, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_otp_ctrl_irq_acknowledge(otp_ctrl_ctx.otp_ctrl, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_pattgen_isr( |
| plic_isr_ctx_t plic_ctx, pattgen_isr_ctx_t pattgen_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_pattgen_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_pattgen_irq_t irq = |
| (dif_pattgen_irq_t)(plic_irq_id - pattgen_ctx.plic_pattgen_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (pattgen_ctx.is_only_irq) { |
| dif_pattgen_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_pattgen_irq_get_state(pattgen_ctx.pattgen, &snapshot)); |
| CHECK(snapshot == (dif_pattgen_irq_state_snapshot_t)(1 << irq), |
| "Only pattgen IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_pattgen_irq_get_type(pattgen_ctx.pattgen, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_pattgen_irq_acknowledge(pattgen_ctx.pattgen, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_pwrmgr_isr( |
| plic_isr_ctx_t plic_ctx, pwrmgr_isr_ctx_t pwrmgr_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_pwrmgr_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_pwrmgr_irq_t irq = |
| (dif_pwrmgr_irq_t)(plic_irq_id - pwrmgr_ctx.plic_pwrmgr_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (pwrmgr_ctx.is_only_irq) { |
| dif_pwrmgr_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_pwrmgr_irq_get_state(pwrmgr_ctx.pwrmgr, &snapshot)); |
| CHECK(snapshot == (dif_pwrmgr_irq_state_snapshot_t)(1 << irq), |
| "Only pwrmgr IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_pwrmgr_irq_get_type(pwrmgr_ctx.pwrmgr, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_pwrmgr_irq_acknowledge(pwrmgr_ctx.pwrmgr, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_rv_timer_isr( |
| plic_isr_ctx_t plic_ctx, rv_timer_isr_ctx_t rv_timer_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_rv_timer_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_rv_timer_irq_t irq = |
| (dif_rv_timer_irq_t)(plic_irq_id - |
| rv_timer_ctx.plic_rv_timer_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (rv_timer_ctx.is_only_irq) { |
| dif_rv_timer_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_rv_timer_irq_get_state(rv_timer_ctx.rv_timer, |
| plic_ctx.hart_id, &snapshot)); |
| CHECK(snapshot == (dif_rv_timer_irq_state_snapshot_t)(1 << irq), |
| "Only rv_timer IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_rv_timer_irq_get_type(rv_timer_ctx.rv_timer, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_rv_timer_irq_acknowledge(rv_timer_ctx.rv_timer, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_sensor_ctrl_isr( |
| plic_isr_ctx_t plic_ctx, sensor_ctrl_isr_ctx_t sensor_ctrl_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_sensor_ctrl_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_sensor_ctrl_irq_t irq = |
| (dif_sensor_ctrl_irq_t)(plic_irq_id - |
| sensor_ctrl_ctx.plic_sensor_ctrl_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (sensor_ctrl_ctx.is_only_irq) { |
| dif_sensor_ctrl_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK( |
| dif_sensor_ctrl_irq_get_state(sensor_ctrl_ctx.sensor_ctrl, &snapshot)); |
| CHECK(snapshot == (dif_sensor_ctrl_irq_state_snapshot_t)(1 << irq), |
| "Only sensor_ctrl IRQ %d expected to fire. Actual IRQ state = %x", |
| irq, snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK( |
| dif_sensor_ctrl_irq_get_type(sensor_ctrl_ctx.sensor_ctrl, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK( |
| dif_sensor_ctrl_irq_acknowledge(sensor_ctrl_ctx.sensor_ctrl, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_spi_device_isr( |
| plic_isr_ctx_t plic_ctx, spi_device_isr_ctx_t spi_device_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_spi_device_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_spi_device_irq_t irq = |
| (dif_spi_device_irq_t)(plic_irq_id - |
| spi_device_ctx.plic_spi_device_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (spi_device_ctx.is_only_irq) { |
| dif_spi_device_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK( |
| dif_spi_device_irq_get_state(spi_device_ctx.spi_device, &snapshot)); |
| CHECK(snapshot == (dif_spi_device_irq_state_snapshot_t)(1 << irq), |
| "Only spi_device IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK( |
| dif_spi_device_irq_get_type(spi_device_ctx.spi_device, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK( |
| dif_spi_device_irq_acknowledge(spi_device_ctx.spi_device, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_spi_host_isr( |
| plic_isr_ctx_t plic_ctx, spi_host_isr_ctx_t spi_host_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_spi_host_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_spi_host_irq_t irq = |
| (dif_spi_host_irq_t)(plic_irq_id - |
| spi_host_ctx.plic_spi_host_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (spi_host_ctx.is_only_irq) { |
| dif_spi_host_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_spi_host_irq_get_state(spi_host_ctx.spi_host, &snapshot)); |
| CHECK(snapshot == (dif_spi_host_irq_state_snapshot_t)(1 << irq), |
| "Only spi_host IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_spi_host_irq_get_type(spi_host_ctx.spi_host, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_spi_host_irq_acknowledge(spi_host_ctx.spi_host, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_sysrst_ctrl_isr( |
| plic_isr_ctx_t plic_ctx, sysrst_ctrl_isr_ctx_t sysrst_ctrl_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_sysrst_ctrl_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_sysrst_ctrl_irq_t irq = |
| (dif_sysrst_ctrl_irq_t)(plic_irq_id - |
| sysrst_ctrl_ctx.plic_sysrst_ctrl_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (sysrst_ctrl_ctx.is_only_irq) { |
| dif_sysrst_ctrl_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK( |
| dif_sysrst_ctrl_irq_get_state(sysrst_ctrl_ctx.sysrst_ctrl, &snapshot)); |
| CHECK(snapshot == (dif_sysrst_ctrl_irq_state_snapshot_t)(1 << irq), |
| "Only sysrst_ctrl IRQ %d expected to fire. Actual IRQ state = %x", |
| irq, snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK( |
| dif_sysrst_ctrl_irq_get_type(sysrst_ctrl_ctx.sysrst_ctrl, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK( |
| dif_sysrst_ctrl_irq_acknowledge(sysrst_ctrl_ctx.sysrst_ctrl, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_uart_isr(plic_isr_ctx_t plic_ctx, uart_isr_ctx_t uart_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_uart_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_uart_irq_t irq = |
| (dif_uart_irq_t)(plic_irq_id - uart_ctx.plic_uart_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (uart_ctx.is_only_irq) { |
| dif_uart_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_uart_irq_get_state(uart_ctx.uart, &snapshot)); |
| CHECK(snapshot == (dif_uart_irq_state_snapshot_t)(1 << irq), |
| "Only uart IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_uart_irq_get_type(uart_ctx.uart, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_uart_irq_acknowledge(uart_ctx.uart, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |
| |
| void isr_testutils_usbdev_isr( |
| plic_isr_ctx_t plic_ctx, usbdev_isr_ctx_t usbdev_ctx, |
| top_earlgrey_plic_peripheral_t *peripheral_serviced, |
| dif_usbdev_irq_t *irq_serviced) { |
| // Claim the IRQ at the PLIC. |
| dif_rv_plic_irq_id_t plic_irq_id; |
| CHECK_DIF_OK( |
| dif_rv_plic_irq_claim(plic_ctx.rv_plic, plic_ctx.hart_id, &plic_irq_id)); |
| |
| // Get the peripheral the IRQ belongs to. |
| *peripheral_serviced = (top_earlgrey_plic_peripheral_t) |
| top_earlgrey_plic_interrupt_for_peripheral[plic_irq_id]; |
| |
| // Get the IRQ that was fired from the PLIC IRQ ID. |
| dif_usbdev_irq_t irq = |
| (dif_usbdev_irq_t)(plic_irq_id - usbdev_ctx.plic_usbdev_start_irq_id); |
| *irq_serviced = irq; |
| |
| // Check if it is supposed to be the only IRQ fired. |
| if (usbdev_ctx.is_only_irq) { |
| dif_usbdev_irq_state_snapshot_t snapshot; |
| CHECK_DIF_OK(dif_usbdev_irq_get_state(usbdev_ctx.usbdev, &snapshot)); |
| CHECK(snapshot == (dif_usbdev_irq_state_snapshot_t)(1 << irq), |
| "Only usbdev IRQ %d expected to fire. Actual IRQ state = %x", irq, |
| snapshot); |
| } |
| |
| // Acknowledge the IRQ at the peripheral if IRQ is of the event type. |
| dif_irq_type_t type; |
| CHECK_DIF_OK(dif_usbdev_irq_get_type(usbdev_ctx.usbdev, irq, &type)); |
| if (type == kDifIrqTypeEvent) { |
| CHECK_DIF_OK(dif_usbdev_irq_acknowledge(usbdev_ctx.usbdev, irq)); |
| } |
| |
| // Complete the IRQ at the PLIC. |
| CHECK_DIF_OK(dif_rv_plic_irq_complete(plic_ctx.rv_plic, plic_ctx.hart_id, |
| plic_irq_id)); |
| } |