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diff --git a/tests/qtest/sse-timer-test.c b/tests/qtest/sse-timer-test.c
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+/*
+ * QTest testcase for the SSE timer device
+ *
+ * Copyright (c) 2021 Linaro Limited
+ *
+ * This program is free software; you can redistribute it and/or modify it
+ * under the terms of the GNU General Public License as published by the
+ * Free Software Foundation; either version 2 of the License, or
+ * (at your option) any later version.
+ *
+ * This program is distributed in the hope that it will be useful, but WITHOUT
+ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
+ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
+ * for more details.
+ */
+
+#include "qemu/osdep.h"
+#include "libqtest-single.h"
+
+/*
+ * SSE-123/SSE-300 timer in the mps3-an547 board, where it is driven
+ * at 32MHz, so 31.25ns per tick.
+ */
+#define TIMER_BASE 0x48000000
+
+/* PERIPHNSPPC0 register in the SSE-300 Secure Access Configuration block */
+#define PERIPHNSPPC0 (0x50080000 + 0x70)
+
+/* Base of the System Counter control frame */
+#define COUNTER_BASE 0x58100000
+
+/* SSE counter register offsets in the control frame */
+#define CNTCR 0
+#define CNTSR 0x4
+#define CNTCV_LO 0x8
+#define CNTCV_HI 0xc
+#define CNTSCR 0x10
+
+/* SSE timer register offsets */
+#define CNTPCT_LO 0
+#define CNTPCT_HI 4
+#define CNTFRQ 0x10
+#define CNTP_CVAL_LO 0x20
+#define CNTP_CVAL_HI 0x24
+#define CNTP_TVAL 0x28
+#define CNTP_CTL 0x2c
+#define CNTP_AIVAL_LO 0x40
+#define CNTP_AIVAL_HI 0x44
+#define CNTP_AIVAL_RELOAD 0x48
+#define CNTP_AIVAL_CTL 0x4c
+
+/* 4 ticks in nanoseconds (so we can work in integers) */
+#define FOUR_TICKS 125
+
+static void clock_step_ticks(uint64_t ticks)
+{
+ /*
+ * Advance the qtest clock by however many nanoseconds we
+ * need to move the timer forward the specified number of ticks.
+ * ticks must be a multiple of 4, so we get a whole number of ns.
+ */
+ assert(!(ticks & 3));
+ clock_step(FOUR_TICKS * (ticks >> 2));
+}
+
+static void reset_counter_and_timer(void)
+{
+ /*
+ * Reset the system counter and the timer between tests. This
+ * isn't a full reset, but it's sufficient for what the tests check.
+ */
+ writel(COUNTER_BASE + CNTCR, 0);
+ writel(TIMER_BASE + CNTP_CTL, 0);
+ writel(TIMER_BASE + CNTP_AIVAL_CTL, 0);
+ writel(COUNTER_BASE + CNTCV_LO, 0);
+ writel(COUNTER_BASE + CNTCV_HI, 0);
+}
+
+static void test_counter(void)
+{
+ /* Basic counter functionality test */
+
+ reset_counter_and_timer();
+ /* The counter should start disabled: check that it doesn't move */
+ clock_step_ticks(100);
+ g_assert_cmpuint(readl(COUNTER_BASE + CNTCV_LO), ==, 0);
+ g_assert_cmpuint(readl(COUNTER_BASE + CNTCV_HI), ==, 0);
+ /* Now enable it and check that it does count */
+ writel(COUNTER_BASE + CNTCR, 1);
+ clock_step_ticks(100);
+ g_assert_cmpuint(readl(COUNTER_BASE + CNTCV_LO), ==, 100);
+ g_assert_cmpuint(readl(COUNTER_BASE + CNTCV_HI), ==, 0);
+ /* Check the counter scaling functionality */
+ writel(COUNTER_BASE + CNTCR, 0);
+ writel(COUNTER_BASE + CNTSCR, 0x00100000); /* 1/16th normal speed */
+ writel(COUNTER_BASE + CNTCR, 5); /* EN, SCEN */
+ clock_step_ticks(160);
+ g_assert_cmpuint(readl(COUNTER_BASE + CNTCV_LO), ==, 110);
+ g_assert_cmpuint(readl(COUNTER_BASE + CNTCV_HI), ==, 0);
+}
+
+static void test_timer(void)
+{
+ /* Basic timer functionality test */
+
+ reset_counter_and_timer();
+ /*
+ * The timer is behind a Peripheral Protection Controller, and
+ * qtest accesses are always non-secure (no memory attributes),
+ * so we must program the PPC to accept NS transactions. TIMER0
+ * is on port 0 of PPC0, controlled by bit 0 of this register.
+ */
+ writel(PERIPHNSPPC0, 1);
+ /* We must enable the System Counter or the timer won't run. */
+ writel(COUNTER_BASE + CNTCR, 1);
+
+ /* Timer starts disabled and with a counter of 0 */
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_CTL), ==, 0);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTPCT_LO), ==, 0);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTPCT_HI), ==, 0);
+
+ /* Turn it on */
+ writel(TIMER_BASE + CNTP_CTL, 1);
+
+ /* Is the timer ticking? */
+ clock_step_ticks(100);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTPCT_LO), ==, 100);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTPCT_HI), ==, 0);
+
+ /* Set the CompareValue to 4000 ticks */
+ writel(TIMER_BASE + CNTP_CVAL_LO, 4000);
+ writel(TIMER_BASE + CNTP_CVAL_HI, 0);
+
+ /* Check TVAL view of the counter */
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_TVAL), ==, 3900);
+
+ /* Advance to the CompareValue mark and check ISTATUS is set */
+ clock_step_ticks(3900);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_TVAL), ==, 0);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_CTL), ==, 5);
+
+ /* Now exercise the auto-reload part of the timer */
+ writel(TIMER_BASE + CNTP_AIVAL_RELOAD, 200);
+ writel(TIMER_BASE + CNTP_AIVAL_CTL, 1);
+
+ /* Check AIVAL was reloaded and that ISTATUS is now clear */
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_AIVAL_LO), ==, 4200);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_AIVAL_HI), ==, 0);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_CTL), ==, 1);
+
+ /*
+ * Check that when we advance forward to the reload time the interrupt
+ * fires and the value reloads
+ */
+ clock_step_ticks(100);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_CTL), ==, 1);
+ clock_step_ticks(100);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_CTL), ==, 5);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_AIVAL_LO), ==, 4400);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_AIVAL_HI), ==, 0);
+
+ clock_step_ticks(100);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_CTL), ==, 5);
+ /* Check that writing 0 to CLR clears the interrupt */
+ writel(TIMER_BASE + CNTP_AIVAL_CTL, 1);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_CTL), ==, 1);
+ /* Check that when we move forward to the reload time it fires again */
+ clock_step_ticks(100);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_CTL), ==, 5);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_AIVAL_LO), ==, 4600);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_AIVAL_HI), ==, 0);
+
+ /*
+ * Step the clock far enough that we overflow the low half of the
+ * CNTPCT and AIVAL registers, and check that their high halves
+ * give the right values. We do the forward movement in
+ * non-autoinc mode because otherwise it takes forever as the
+ * timer has to emulate all the 'reload at t + N, t + 2N, etc'
+ * steps.
+ */
+ writel(TIMER_BASE + CNTP_AIVAL_CTL, 0);
+ clock_step_ticks(0x42ULL << 32);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTPCT_LO), ==, 4400);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTPCT_HI), ==, 0x42);
+
+ /* Turn on the autoinc again to check AIVAL_HI */
+ writel(TIMER_BASE + CNTP_AIVAL_CTL, 1);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_AIVAL_LO), ==, 4600);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_AIVAL_HI), ==, 0x42);
+}
+
+static void test_timer_scale_change(void)
+{
+ /*
+ * Test that the timer responds correctly to counter
+ * scaling changes while it has an active timer.
+ */
+ reset_counter_and_timer();
+ /* Give ourselves access to the timer, and enable the counter and timer */
+ writel(PERIPHNSPPC0, 1);
+ writel(COUNTER_BASE + CNTCR, 1);
+ writel(TIMER_BASE + CNTP_CTL, 1);
+ /* Set the CompareValue to 4000 ticks */
+ writel(TIMER_BASE + CNTP_CVAL_LO, 4000);
+ writel(TIMER_BASE + CNTP_CVAL_HI, 0);
+ /* Advance halfway and check ISTATUS is not set */
+ clock_step_ticks(2000);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_CTL), ==, 1);
+ /* Reprogram the counter to run at 1/16th speed */
+ writel(COUNTER_BASE + CNTCR, 0);
+ writel(COUNTER_BASE + CNTSCR, 0x00100000); /* 1/16th normal speed */
+ writel(COUNTER_BASE + CNTCR, 5); /* EN, SCEN */
+ /* Advance to where the timer would have fired and check it has not */
+ clock_step_ticks(2000);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_CTL), ==, 1);
+ /* Advance to where the timer must fire at the new clock rate */
+ clock_step_ticks(29996);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_CTL), ==, 1);
+ clock_step_ticks(4);
+ g_assert_cmpuint(readl(TIMER_BASE + CNTP_CTL), ==, 5);
+}
+
+int main(int argc, char **argv)
+{
+ int r;
+
+ g_test_init(&argc, &argv, NULL);
+
+ qtest_start("-machine mps3-an547");
+
+ qtest_add_func("/sse-timer/counter", test_counter);
+ qtest_add_func("/sse-timer/timer", test_timer);
+ qtest_add_func("/sse-timer/timer-scale-change", test_timer_scale_change);
+
+ r = g_test_run();
+
+ qtest_end();
+
+ return r;
+}