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[PATCH v5 2/3] tests/qtest: Add STM32L4x5 EXTI QTest testcase
From: |
Inès Varhol |
Subject: |
[PATCH v5 2/3] tests/qtest: Add STM32L4x5 EXTI QTest testcase |
Date: |
Thu, 28 Dec 2023 17:19:20 +0100 |
Signed-off-by: Arnaud Minier <arnaud.minier@telecom-paris.fr>
Signed-off-by: Inès Varhol <ines.varhol@telecom-paris.fr>
---
tests/qtest/meson.build | 5 +
tests/qtest/stm32l4x5_exti-test.c | 596 ++++++++++++++++++++++++++++++
2 files changed, 601 insertions(+)
create mode 100644 tests/qtest/stm32l4x5_exti-test.c
diff --git a/tests/qtest/meson.build b/tests/qtest/meson.build
index 47dabf91d0..d5126f4d86 100644
--- a/tests/qtest/meson.build
+++ b/tests/qtest/meson.build
@@ -194,6 +194,10 @@ qtests_aspeed = \
['aspeed_hace-test',
'aspeed_smc-test',
'aspeed_gpio-test']
+
+qtests_stm32l4x5 = \
+ ['stm32l4x5_exti-test']
+
qtests_arm = \
(config_all_devices.has_key('CONFIG_MPS2') ? ['sse-timer-test'] : []) + \
(config_all_devices.has_key('CONFIG_CMSDK_APB_DUALTIMER') ?
['cmsdk-apb-dualtimer-test'] : []) + \
@@ -207,6 +211,7 @@ qtests_arm = \
(config_all_devices.has_key('CONFIG_TPM_TIS_I2C') ? ['tpm-tis-i2c-test'] :
[]) + \
(config_all_devices.has_key('CONFIG_VEXPRESS') ? ['test-arm-mptimer'] : [])
+ \
(config_all_devices.has_key('CONFIG_MICROBIT') ? ['microbit-test'] : []) + \
+ (config_all_devices.has_key('CONFIG_STM32L4X5_SOC') ? qtests_stm32l4x5 : [])
+ \
['arm-cpu-features',
'boot-serial-test']
diff --git a/tests/qtest/stm32l4x5_exti-test.c
b/tests/qtest/stm32l4x5_exti-test.c
new file mode 100644
index 0000000000..60c8297246
--- /dev/null
+++ b/tests/qtest/stm32l4x5_exti-test.c
@@ -0,0 +1,596 @@
+/*
+ * QTest testcase for STM32L4x5_EXTI
+ *
+ * Copyright (c) 2023 Arnaud Minier <arnaud.minier@telecom-paris.fr>
+ * Copyright (c) 2023 Inès Varhol <ines.varhol@telecom-paris.fr>
+ *
+ * This work is licensed under the terms of the GNU GPL, version 2 or later.
+ * See the COPYING file in the top-level directory.
+ */
+
+#include "qemu/osdep.h"
+#include "libqtest-single.h"
+
+#define EXTI_BASE_ADDR 0x40010400
+#define EXTI_IMR1 0x00
+#define EXTI_EMR1 0x04
+#define EXTI_RTSR1 0x08
+#define EXTI_FTSR1 0x0C
+#define EXTI_SWIER1 0x10
+#define EXTI_PR1 0x14
+#define EXTI_IMR2 0x20
+#define EXTI_EMR2 0x24
+#define EXTI_RTSR2 0x28
+#define EXTI_FTSR2 0x2C
+#define EXTI_SWIER2 0x30
+#define EXTI_PR2 0x34
+
+#define NVIC_ISER 0xE000E100
+#define NVIC_ISPR 0xE000E200
+#define NVIC_ICPR 0xE000E280
+
+#define EXTI0_IRQ 6
+#define EXTI1_IRQ 7
+#define EXTI35_IRQ 1
+
+static void enable_nvic_irq(unsigned int n)
+{
+ writel(NVIC_ISER, 1 << n);
+}
+
+static void unpend_nvic_irq(unsigned int n)
+{
+ writel(NVIC_ICPR, 1 << n);
+}
+
+static bool check_nvic_pending(unsigned int n)
+{
+ return readl(NVIC_ISPR) & (1 << n);
+}
+
+static void exti_writel(unsigned int offset, uint32_t value)
+{
+ writel(EXTI_BASE_ADDR + offset, value);
+}
+
+static uint32_t exti_readl(unsigned int offset)
+{
+ return readl(EXTI_BASE_ADDR + offset);
+}
+
+static void test_reg_write_read(void)
+{
+ /* Test that non-reserved bits in xMR and xTSR can be set and cleared */
+
+ exti_writel(EXTI_IMR1, 0xFFFFFFFF);
+ uint32_t imr1 = exti_readl(EXTI_IMR1);
+ g_assert_cmpuint(imr1, ==, 0xFFFFFFFF);
+ exti_writel(EXTI_IMR1, 0x00000000);
+ imr1 = exti_readl(EXTI_IMR1);
+ g_assert_cmpuint(imr1, ==, 0x00000000);
+
+ exti_writel(EXTI_EMR1, 0xFFFFFFFF);
+ uint32_t emr1 = exti_readl(EXTI_EMR1);
+ g_assert_cmpuint(emr1, ==, 0xFFFFFFFF);
+ exti_writel(EXTI_EMR1, 0x00000000);
+ emr1 = exti_readl(EXTI_EMR1);
+ g_assert_cmpuint(emr1, ==, 0x00000000);
+
+ exti_writel(EXTI_RTSR1, 0xFFFFFFFF);
+ uint32_t rtsr1 = exti_readl(EXTI_RTSR1);
+ g_assert_cmpuint(rtsr1, ==, 0x007DFFFF);
+ exti_writel(EXTI_RTSR1, 0x00000000);
+ rtsr1 = exti_readl(EXTI_RTSR1);
+ g_assert_cmpuint(rtsr1, ==, 0x00000000);
+
+ exti_writel(EXTI_FTSR1, 0xFFFFFFFF);
+ uint32_t ftsr1 = exti_readl(EXTI_FTSR1);
+ g_assert_cmpuint(ftsr1, ==, 0x007DFFFF);
+ exti_writel(EXTI_FTSR1, 0x00000000);
+ ftsr1 = exti_readl(EXTI_FTSR1);
+ g_assert_cmpuint(ftsr1, ==, 0x00000000);
+
+ exti_writel(EXTI_IMR2, 0xFFFFFFFF);
+ uint32_t imr2 = exti_readl(EXTI_IMR2);
+ g_assert_cmpuint(imr2, ==, 0x000000FF);
+ exti_writel(EXTI_IMR2, 0x00000000);
+ imr2 = exti_readl(EXTI_IMR2);
+ g_assert_cmpuint(imr2, ==, 0x00000000);
+
+ exti_writel(EXTI_EMR2, 0xFFFFFFFF);
+ uint32_t emr2 = exti_readl(EXTI_EMR2);
+ g_assert_cmpuint(emr2, ==, 0x000000FF);
+ exti_writel(EXTI_EMR2, 0x00000000);
+ emr2 = exti_readl(EXTI_EMR2);
+ g_assert_cmpuint(emr2, ==, 0x00000000);
+
+ exti_writel(EXTI_RTSR2, 0xFFFFFFFF);
+ uint32_t rtsr2 = exti_readl(EXTI_RTSR2);
+ g_assert_cmpuint(rtsr2, ==, 0x00000078);
+ exti_writel(EXTI_RTSR2, 0x00000000);
+ rtsr2 = exti_readl(EXTI_RTSR2);
+ g_assert_cmpuint(rtsr2, ==, 0x00000000);
+
+ exti_writel(EXTI_FTSR2, 0xFFFFFFFF);
+ uint32_t ftsr2 = exti_readl(EXTI_FTSR2);
+ g_assert_cmpuint(ftsr2, ==, 0x00000078);
+ exti_writel(EXTI_FTSR2, 0x00000000);
+ ftsr2 = exti_readl(EXTI_FTSR2);
+ g_assert_cmpuint(ftsr2, ==, 0x00000000);
+}
+
+static void test_direct_lines_write(void)
+{
+ /* Test that direct lines reserved bits are not written to */
+
+ exti_writel(EXTI_RTSR1, 0xFF820000);
+ uint32_t rtsr1 = exti_readl(EXTI_RTSR1);
+ g_assert_cmpuint(rtsr1, ==, 0x00000000);
+
+ exti_writel(EXTI_FTSR1, 0xFF820000);
+ uint32_t ftsr1 = exti_readl(EXTI_FTSR1);
+ g_assert_cmpuint(ftsr1, ==, 0x00000000);
+
+ exti_writel(EXTI_SWIER1, 0xFF820000);
+ uint32_t swier1 = exti_readl(EXTI_SWIER1);
+ g_assert_cmpuint(swier1, ==, 0x00000000);
+
+ exti_writel(EXTI_PR1, 0xFF820000);
+ uint32_t pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+
+ exti_writel(EXTI_RTSR2, 0x00000087);
+ const uint32_t rtsr2 = exti_readl(EXTI_RTSR2);
+ g_assert_cmpuint(rtsr2, ==, 0x00000000);
+
+ exti_writel(EXTI_FTSR2, 0x00000087);
+ const uint32_t ftsr2 = exti_readl(EXTI_FTSR2);
+ g_assert_cmpuint(ftsr2, ==, 0x00000000);
+
+ exti_writel(EXTI_SWIER2, 0x00000087);
+ const uint32_t swier2 = exti_readl(EXTI_SWIER2);
+ g_assert_cmpuint(swier2, ==, 0x00000000);
+
+ exti_writel(EXTI_PR2, 0x00000087);
+ const uint32_t pr2 = exti_readl(EXTI_PR2);
+ g_assert_cmpuint(pr2, ==, 0x00000000);
+}
+
+static void test_reserved_bits_write(void)
+{
+ /* Test that reserved bits stay are not written to */
+
+ exti_writel(EXTI_IMR2, 0xFFFFFF00);
+ uint32_t imr2 = exti_readl(EXTI_IMR2);
+ g_assert_cmpuint(imr2, ==, 0x00000000);
+
+ exti_writel(EXTI_EMR2, 0xFFFFFF00);
+ uint32_t emr2 = exti_readl(EXTI_EMR2);
+ g_assert_cmpuint(emr2, ==, 0x00000000);
+
+ exti_writel(EXTI_RTSR2, 0xFFFFFF00);
+ const uint32_t rtsr2 = exti_readl(EXTI_RTSR2);
+ g_assert_cmpuint(rtsr2, ==, 0x00000000);
+
+ exti_writel(EXTI_FTSR2, 0xFFFFFF00);
+ const uint32_t ftsr2 = exti_readl(EXTI_FTSR2);
+ g_assert_cmpuint(ftsr2, ==, 0x00000000);
+
+ exti_writel(EXTI_SWIER2, 0xFFFFFF00);
+ const uint32_t swier2 = exti_readl(EXTI_SWIER2);
+ g_assert_cmpuint(swier2, ==, 0x00000000);
+
+ exti_writel(EXTI_PR2, 0xFFFFFF00);
+ const uint32_t pr2 = exti_readl(EXTI_PR2);
+ g_assert_cmpuint(pr2, ==, 0x00000000);
+}
+
+static void test_software_interrupt(void)
+{
+ /*
+ * Test that we can launch a software irq by :
+ * - enabling its line in IMR
+ * - and then setting a bit from '0' to '1' in SWIER
+ *
+ * And that the interruption stays pending in NVIC
+ * even after clearing the pending bit in PR.
+ */
+
+ /*
+ * Testing interrupt line EXTI0
+ * Bit 0 in EXTI_*1 registers (EXTI0) corresponds to GPIO Px_0
+ */
+
+ enable_nvic_irq(EXTI0_IRQ);
+ /* Check that there are no interrupts already pending in PR */
+ uint32_t pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ /* Check that this specific interrupt isn't pending in NVIC */
+ g_assert_false(check_nvic_pending(EXTI0_IRQ));
+
+ /* Enable interrupt line EXTI0 */
+ exti_writel(EXTI_IMR1, 0x00000001);
+ /* Set the right SWIER bit from '0' to '1' */
+ exti_writel(EXTI_SWIER1, 0x00000000);
+ exti_writel(EXTI_SWIER1, 0x00000001);
+
+ /* Check that the write in SWIER was effective */
+ uint32_t swier1 = exti_readl(EXTI_SWIER1);
+ g_assert_cmpuint(swier1, ==, 0x00000001);
+ /* Check that the corresponding pending bit in PR is set */
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000001);
+ /* Check that the corresponding interrupt is pending in the NVIC */
+ g_assert_true(check_nvic_pending(EXTI0_IRQ));
+
+ /* Clear the pending bit in PR */
+ exti_writel(EXTI_PR1, 0x00000001);
+
+ /* Check that the write in PR was effective */
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ /* Check that the corresponding bit in SWIER was cleared */
+ swier1 = exti_readl(EXTI_SWIER1);
+ g_assert_cmpuint(swier1, ==, 0x00000000);
+ /* Check that the interrupt is still pending in the NVIC */
+ g_assert_true(check_nvic_pending(EXTI0_IRQ));
+
+ /*
+ * Testing interrupt line EXTI35
+ * Bit 3 in EXTI_*2 registers (EXTI35) corresponds to PVM 1 Wakeup
+ */
+
+ enable_nvic_irq(EXTI35_IRQ);
+ /* Check that there are no interrupts already pending */
+ uint32_t pr2 = exti_readl(EXTI_PR2);
+ g_assert_cmpuint(pr2, ==, 0x00000000);
+ g_assert_false(check_nvic_pending(EXTI35_IRQ));
+
+ /* Enable interrupt line EXTI0 */
+ exti_writel(EXTI_IMR2, 0x00000008);
+ /* Set the right SWIER bit from '0' to '1' */
+ exti_writel(EXTI_SWIER2, 0x00000000);
+ exti_writel(EXTI_SWIER2, 0x00000008);
+
+ /* Check that the write in SWIER was effective */
+ uint32_t swier2 = exti_readl(EXTI_SWIER2);
+ g_assert_cmpuint(swier2, ==, 0x00000008);
+ /* Check that the corresponding pending bit in PR is set */
+ pr2 = exti_readl(EXTI_PR2);
+ g_assert_cmpuint(pr2, ==, 0x00000008);
+ /* Check that the corresponding interrupt is pending in the NVIC */
+ g_assert_true(check_nvic_pending(EXTI35_IRQ));
+
+ /* Clear the pending bit in PR */
+ exti_writel(EXTI_PR2, 0x00000008);
+
+ /* Check that the write in PR was effective */
+ pr2 = exti_readl(EXTI_PR2);
+ g_assert_cmpuint(pr2, ==, 0x00000000);
+ /* Check that the corresponding bit in SWIER was cleared */
+ swier2 = exti_readl(EXTI_SWIER2);
+ g_assert_cmpuint(swier2, ==, 0x00000000);
+ /* Check that the interrupt is still pending in the NVIC */
+ g_assert_true(check_nvic_pending(EXTI35_IRQ));
+
+ /* Clean NVIC */
+ unpend_nvic_irq(EXTI0_IRQ);
+ g_assert_false(check_nvic_pending(EXTI0_IRQ));
+ unpend_nvic_irq(EXTI35_IRQ);
+ g_assert_false(check_nvic_pending(EXTI35_IRQ));
+}
+
+static void test_edge_selector(void)
+{
+ enable_nvic_irq(EXTI0_IRQ);
+
+ /* Configure EXTI line 0 irq on rising edge */
+ qtest_set_irq_in(global_qtest, "/machine/unattached/device[0]/exti",
+ NULL, 0, 1);
+ exti_writel(EXTI_IMR1, 0x00000001);
+ exti_writel(EXTI_RTSR1, 0x00000001);
+ exti_writel(EXTI_FTSR1, 0x00000000);
+
+ /* Test that an irq is raised on rising edge only */
+ qtest_set_irq_in(global_qtest, "/machine/unattached/device[0]/exti",
+ NULL, 0, 0);
+
+ uint32_t pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ g_assert_false(check_nvic_pending(EXTI0_IRQ));
+
+ qtest_set_irq_in(global_qtest, "/machine/unattached/device[0]/exti",
+ NULL, 0, 1);
+
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000001);
+ g_assert_true(check_nvic_pending(EXTI0_IRQ));
+
+ /* Clean the test */
+ exti_writel(EXTI_PR1, 0x00000001);
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ unpend_nvic_irq(EXTI0_IRQ);
+ g_assert_false(check_nvic_pending(EXTI0_IRQ));
+
+ /* Configure EXTI line 0 irq on falling edge */
+ qtest_set_irq_in(global_qtest, "/machine/unattached/device[0]/exti",
+ NULL, 0, 0);
+ exti_writel(EXTI_IMR1, 0x00000001);
+ exti_writel(EXTI_RTSR1, 0x00000000);
+ exti_writel(EXTI_FTSR1, 0x00000001);
+
+ /* Test that an irq is raised on falling edge only */
+ qtest_set_irq_in(global_qtest, "/machine/unattached/device[0]/exti",
+ NULL, 0, 1);
+
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ g_assert_false(check_nvic_pending(EXTI0_IRQ));
+
+ qtest_set_irq_in(global_qtest, "/machine/unattached/device[0]/exti",
+ NULL, 0, 0);
+
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000001);
+ g_assert_true(check_nvic_pending(EXTI0_IRQ));
+
+ /* Clean the test */
+ exti_writel(EXTI_PR1, 0x00000001);
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ unpend_nvic_irq(EXTI0_IRQ);
+ g_assert_false(check_nvic_pending(EXTI0_IRQ));
+
+ /* Configure EXTI line 0 irq on falling and rising edge */
+ exti_writel(EXTI_IMR1, 0x00000001);
+ exti_writel(EXTI_RTSR1, 0x00000001);
+ exti_writel(EXTI_FTSR1, 0x00000000);
+
+ /* Test that an irq is raised on rising and falling edge */
+ qtest_set_irq_in(global_qtest, "/machine/unattached/device[0]/exti",
+ NULL, 0, 1);
+
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000001);
+ g_assert_true(check_nvic_pending(EXTI0_IRQ));
+
+ qtest_set_irq_in(global_qtest, "/machine/unattached/device[0]/exti",
+ NULL, 0, 0);
+
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000001);
+ g_assert_true(check_nvic_pending(EXTI0_IRQ));
+
+ /* Clean the test */
+ exti_writel(EXTI_PR1, 0x00000001);
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ unpend_nvic_irq(EXTI0_IRQ);
+ g_assert_false(check_nvic_pending(EXTI0_IRQ));
+
+ /* Configure EXTI line 0 irq without selecting an edge trigger */
+ exti_writel(EXTI_IMR1, 0x00000001);
+ exti_writel(EXTI_RTSR1, 0x00000000);
+ exti_writel(EXTI_FTSR1, 0x00000000);
+
+ /* Test that no irq is raised */
+ qtest_set_irq_in(global_qtest, "/machine/unattached/device[0]/exti",
+ NULL, 0, 1);
+
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ g_assert_false(check_nvic_pending(EXTI0_IRQ));
+
+ qtest_set_irq_in(global_qtest, "/machine/unattached/device[0]/exti",
+ NULL, 0, 0);
+
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ g_assert_false(check_nvic_pending(EXTI0_IRQ));
+}
+
+static void test_no_software_interrupt(void)
+{
+ /*
+ * Test that software irq doesn't happen when :
+ * - corresponding bit in IMR isn't set
+ * - SWIER is set to 1 before IMR is set to 1
+ */
+
+ /*
+ * Testing interrupt line EXTI0
+ * Bit 0 in EXTI_*1 registers (EXTI0) corresponds to GPIO Px_0
+ */
+
+ enable_nvic_irq(EXTI0_IRQ);
+ /* Check that there are no interrupts already pending in PR */
+ uint32_t pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ /* Check that this specific interrupt isn't pending in NVIC */
+ g_assert_false(check_nvic_pending(EXTI0_IRQ));
+
+ /* Mask interrupt line EXTI0 */
+ exti_writel(EXTI_IMR1, 0x00000000);
+ /* Set the corresponding SWIER bit from '0' to '1' */
+ exti_writel(EXTI_SWIER1, 0x00000000);
+ exti_writel(EXTI_SWIER1, 0x00000001);
+
+ /* Check that the write in SWIER was effective */
+ uint32_t swier1 = exti_readl(EXTI_SWIER1);
+ g_assert_cmpuint(swier1, ==, 0x00000001);
+ /* Check that the pending bit in PR wasn't set */
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ /* Check that the interrupt isn't pending in NVIC */
+ g_assert_false(check_nvic_pending(EXTI0_IRQ));
+
+ /* Enable interrupt line EXTI0 */
+ exti_writel(EXTI_IMR1, 0x00000001);
+
+ /* Check that the pending bit in PR wasn't set */
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ /* Check that the interrupt isn't pending in NVIC */
+ g_assert_false(check_nvic_pending(EXTI0_IRQ));
+
+ /*
+ * Testing interrupt line EXTI35
+ * Bit 3 in EXTI_*2 registers (EXTI35) corresponds to PVM 1 Wakeup
+ */
+
+ enable_nvic_irq(EXTI35_IRQ);
+ /* Check that there are no interrupts already pending in PR */
+ uint32_t pr2 = exti_readl(EXTI_PR2);
+ g_assert_cmpuint(pr2, ==, 0x00000000);
+ /* Check that this specific interrupt isn't pending in NVIC */
+ g_assert_false(check_nvic_pending(EXTI35_IRQ));
+
+ /* Mask interrupt line EXTI35 */
+ exti_writel(EXTI_IMR2, 0x00000000);
+ /* Set the corresponding SWIER bit from '0' to '1' */
+ exti_writel(EXTI_SWIER2, 0x00000000);
+ exti_writel(EXTI_SWIER2, 0x00000008);
+
+ /* Check that the write in SWIER was effective */
+ uint32_t swier2 = exti_readl(EXTI_SWIER2);
+ g_assert_cmpuint(swier2, ==, 0x00000008);
+ /* Check that the pending bit in PR wasn't set */
+ pr2 = exti_readl(EXTI_PR2);
+ g_assert_cmpuint(pr2, ==, 0x00000000);
+ /* Check that the interrupt isn't pending in NVIC */
+ g_assert_false(check_nvic_pending(EXTI35_IRQ));
+
+ /* Enable interrupt line EXTI35 */
+ exti_writel(EXTI_IMR2, 0x00000008);
+
+ /* Check that the pending bit in PR wasn't set */
+ pr2 = exti_readl(EXTI_PR2);
+ g_assert_cmpuint(pr2, ==, 0x00000000);
+ /* Check that the interrupt isn't pending in NVIC */
+ g_assert_false(check_nvic_pending(EXTI35_IRQ));
+}
+
+static void test_masked_interrupt(void)
+{
+ /*
+ * Test that irq doesn't happen when :
+ * - corresponding bit in IMR isn't set
+ * - SWIER is set to 1 before IMR is set to 1
+ */
+
+ /*
+ * Testing interrupt line EXTI1
+ * with rising edge from GPIOx pin 1
+ */
+
+ enable_nvic_irq(EXTI1_IRQ);
+ /* Check that there are no interrupts already pending in PR */
+ uint32_t pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ /* Check that this specific interrupt isn't pending in NVIC */
+ g_assert_false(check_nvic_pending(EXTI1_IRQ));
+
+ /* Mask interrupt line EXTI1 */
+ exti_writel(EXTI_IMR1, 0x00000000);
+
+ /* Configure interrupt on rising edge */
+ exti_writel(EXTI_RTSR1, 0x00000002);
+
+ /* Simulate rising edge from GPIO line 1 */
+ qtest_set_irq_in(global_qtest, "/machine/unattached/device[0]/exti",
+ NULL, 1, 1);
+
+ /* Check that the pending bit in PR wasn't set */
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ /* Check that the interrupt isn't pending in NVIC */
+ g_assert_false(check_nvic_pending(EXTI1_IRQ));
+
+ /* Enable interrupt line EXTI1 */
+ exti_writel(EXTI_IMR1, 0x00000002);
+
+ /* Check that the pending bit in PR wasn't set */
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ /* Check that the interrupt isn't pending in NVIC */
+ g_assert_false(check_nvic_pending(EXTI1_IRQ));
+}
+
+static void test_interrupt(void)
+{
+ /*
+ * Test that we can launch an irq by :
+ * - enabling its line in IMR
+ * - configuring interrupt on rising edge
+ * - and then setting the input line from '0' to '1'
+ *
+ * And that the interruption stays pending in NVIC
+ * even after clearing the pending bit in PR.
+ */
+
+ /*
+ * Testing interrupt line EXTI1
+ * with rising edge from GPIOx pin 1
+ */
+
+ enable_nvic_irq(EXTI1_IRQ);
+ /* Check that there are no interrupts already pending in PR */
+ uint32_t pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ /* Check that this specific interrupt isn't pending in NVIC */
+ g_assert_false(check_nvic_pending(EXTI1_IRQ));
+
+ /* Enable interrupt line EXTI1 */
+ exti_writel(EXTI_IMR1, 0x00000002);
+
+ /* Configure interrupt on rising edge */
+ exti_writel(EXTI_RTSR1, 0x00000002);
+
+ /* Simulate rising edge from GPIO line 1 */
+ qtest_set_irq_in(global_qtest, "/machine/unattached/device[0]/exti",
+ NULL, 1, 1);
+
+ /* Check that the pending bit in PR was set */
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000002);
+ /* Check that the interrupt is pending in NVIC */
+ g_assert_true(check_nvic_pending(EXTI1_IRQ));
+
+ /* Clear the pending bit in PR */
+ exti_writel(EXTI_PR1, 0x00000002);
+
+ /* Check that the write in PR was effective */
+ pr1 = exti_readl(EXTI_PR1);
+ g_assert_cmpuint(pr1, ==, 0x00000000);
+ /* Check that the interrupt is still pending in the NVIC */
+ g_assert_true(check_nvic_pending(EXTI1_IRQ));
+
+ /* Clean NVIC */
+ unpend_nvic_irq(EXTI1_IRQ);
+ g_assert_false(check_nvic_pending(EXTI1_IRQ));
+}
+
+int main(int argc, char **argv)
+{
+ int ret;
+
+ g_test_init(&argc, &argv, NULL);
+ g_test_set_nonfatal_assertions();
+ qtest_add_func("stm32l4x5/exti/direct_lines", test_direct_lines_write);
+ qtest_add_func("stm32l4x5/exti/reserved_bits", test_reserved_bits_write);
+ qtest_add_func("stm32l4x5/exti/reg_write_read", test_reg_write_read);
+ qtest_add_func("stm32l4x5/exti/no_software_interrupt",
+ test_no_software_interrupt);
+ qtest_add_func("stm32l4x5/exti/software_interrupt",
+ test_software_interrupt);
+ qtest_add_func("stm32l4x5/exti/masked_interrupt", test_masked_interrupt);
+ qtest_add_func("stm32l4x5/exti/interrupt", test_interrupt);
+ qtest_add_func("stm32l4x5/exti/test_edge_selector", test_edge_selector);
+
+ qtest_start("-machine b-l475e-iot01a");
+ ret = g_test_run();
+ qtest_end();
+
+ return ret;
+}
--
2.43.0