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https://github.com/AsahiLinux/u-boot
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fa847bb409
Wrap the assert macros in ({ ... }) so they can be safely used both as right side argument as well as in conditionals without curly brackets around them. In the process, find a bunch of missing semicolons, fix them. Reviewed-by: Simon Glass <sjg@chromium.org> Signed-off-by: Marek Vasut <marek.vasut+renesas@mailbox.org>
257 lines
7.3 KiB
C
257 lines
7.3 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/*
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* Copyright (C) 2020, Linaro Limited
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*
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* Tests scmi_agent uclass and the SCMI drivers implemented in other
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* uclass devices probe when a SCMI server exposes resources.
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*
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* Note in test.dts the protocol@10 node in scmi node. Protocol 0x10 is not
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* implemented in U-Boot SCMI components but the implementation is expected
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* to not complain on unknown protocol IDs, as long as it is not used. Note
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* in test.dts tests that SCMI drivers probing does not fail for such an
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* unknown SCMI protocol ID.
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*/
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#include <common.h>
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#include <clk.h>
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#include <dm.h>
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#include <reset.h>
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#include <asm/scmi_test.h>
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#include <dm/device-internal.h>
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#include <dm/test.h>
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#include <linux/kconfig.h>
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#include <power/regulator.h>
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#include <test/ut.h>
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static int ut_assert_scmi_state_preprobe(struct unit_test_state *uts)
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{
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struct sandbox_scmi_service *scmi_ctx = sandbox_scmi_service_ctx();
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ut_assertnonnull(scmi_ctx);
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ut_assertnull(scmi_ctx->agent);
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return 0;
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}
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static int ut_assert_scmi_state_postprobe(struct unit_test_state *uts,
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struct udevice *dev)
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{
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struct sandbox_scmi_devices *scmi_devices;
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struct sandbox_scmi_service *scmi_ctx;
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struct sandbox_scmi_agent *agent;
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/* Device references to check context against test sequence */
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scmi_devices = sandbox_scmi_devices_ctx(dev);
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ut_assertnonnull(scmi_devices);
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ut_asserteq(2, scmi_devices->clk_count);
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ut_asserteq(1, scmi_devices->reset_count);
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ut_asserteq(2, scmi_devices->regul_count);
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/* State of the simulated SCMI server exposed */
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scmi_ctx = sandbox_scmi_service_ctx();
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ut_assertnonnull(scmi_ctx);
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agent = scmi_ctx->agent;
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ut_assertnonnull(agent);
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ut_asserteq(3, agent->clk_count);
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ut_assertnonnull(agent->clk);
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ut_asserteq(1, agent->reset_count);
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ut_assertnonnull(agent->reset);
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ut_asserteq(2, agent->voltd_count);
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ut_assertnonnull(agent->voltd);
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return 0;
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}
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static int load_sandbox_scmi_test_devices(struct unit_test_state *uts,
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struct udevice **dev)
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{
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int ret;
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ret = ut_assert_scmi_state_preprobe(uts);
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if (ret)
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return ret;
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ut_assertok(uclass_get_device_by_name(UCLASS_MISC, "sandbox_scmi",
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dev));
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ut_assertnonnull(*dev);
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return ut_assert_scmi_state_postprobe(uts, *dev);
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}
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static int release_sandbox_scmi_test_devices(struct unit_test_state *uts,
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struct udevice *dev)
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{
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ut_assertok(device_remove(dev, DM_REMOVE_NORMAL));
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/* Not sure test devices are fully removed, agent may not be visible */
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return 0;
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}
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/*
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* Test SCMI states when loading and releasing resources
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* related to SCMI drivers.
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*/
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static int dm_test_scmi_sandbox_agent(struct unit_test_state *uts)
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{
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struct udevice *dev = NULL;
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int ret;
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ret = load_sandbox_scmi_test_devices(uts, &dev);
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if (!ret)
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ret = release_sandbox_scmi_test_devices(uts, dev);
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return ret;
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}
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DM_TEST(dm_test_scmi_sandbox_agent, UT_TESTF_SCAN_FDT);
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static int dm_test_scmi_clocks(struct unit_test_state *uts)
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{
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struct sandbox_scmi_devices *scmi_devices;
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struct sandbox_scmi_service *scmi_ctx;
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struct sandbox_scmi_agent *agent;
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struct udevice *dev;
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int ret_dev;
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int ret;
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ret = load_sandbox_scmi_test_devices(uts, &dev);
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if (ret)
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return ret;
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scmi_devices = sandbox_scmi_devices_ctx(dev);
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ut_assertnonnull(scmi_devices);
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scmi_ctx = sandbox_scmi_service_ctx();
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ut_assertnonnull(scmi_ctx);
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agent = scmi_ctx->agent;
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ut_assertnonnull(agent);
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/* Test SCMI clocks rate manipulation */
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ut_asserteq(333, agent->clk[0].rate);
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ut_asserteq(200, agent->clk[1].rate);
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ut_asserteq(1000, agent->clk[2].rate);
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ut_asserteq(1000, clk_get_rate(&scmi_devices->clk[0]));
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ut_asserteq(333, clk_get_rate(&scmi_devices->clk[1]));
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ret_dev = clk_set_rate(&scmi_devices->clk[1], 1088);
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ut_assert(!ret_dev || ret_dev == 1088);
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ut_asserteq(1088, agent->clk[0].rate);
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ut_asserteq(200, agent->clk[1].rate);
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ut_asserteq(1000, agent->clk[2].rate);
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ut_asserteq(1000, clk_get_rate(&scmi_devices->clk[0]));
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ut_asserteq(1088, clk_get_rate(&scmi_devices->clk[1]));
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/* restore original rate for further tests */
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ret_dev = clk_set_rate(&scmi_devices->clk[1], 333);
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ut_assert(!ret_dev || ret_dev == 333);
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/* Test SCMI clocks gating manipulation */
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ut_assert(!agent->clk[0].enabled);
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ut_assert(!agent->clk[1].enabled);
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ut_assert(!agent->clk[2].enabled);
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ut_asserteq(0, clk_enable(&scmi_devices->clk[1]));
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ut_assert(agent->clk[0].enabled);
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ut_assert(!agent->clk[1].enabled);
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ut_assert(!agent->clk[2].enabled);
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ut_assertok(clk_disable(&scmi_devices->clk[1]));
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ut_assert(!agent->clk[0].enabled);
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ut_assert(!agent->clk[1].enabled);
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ut_assert(!agent->clk[2].enabled);
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return release_sandbox_scmi_test_devices(uts, dev);
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}
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DM_TEST(dm_test_scmi_clocks, UT_TESTF_SCAN_FDT);
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static int dm_test_scmi_resets(struct unit_test_state *uts)
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{
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struct sandbox_scmi_devices *scmi_devices;
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struct sandbox_scmi_service *scmi_ctx;
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struct sandbox_scmi_agent *agent;
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struct udevice *dev = NULL;
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int ret;
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ret = load_sandbox_scmi_test_devices(uts, &dev);
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if (ret)
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return ret;
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scmi_devices = sandbox_scmi_devices_ctx(dev);
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ut_assertnonnull(scmi_devices);
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scmi_ctx = sandbox_scmi_service_ctx();
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ut_assertnonnull(scmi_ctx);
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agent = scmi_ctx->agent;
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ut_assertnonnull(agent);
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/* Test SCMI resect controller manipulation */
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ut_assert(!agent->reset[0].asserted);
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ut_assertok(reset_assert(&scmi_devices->reset[0]));
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ut_assert(agent->reset[0].asserted);
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ut_assertok(reset_deassert(&scmi_devices->reset[0]));
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ut_assert(!agent->reset[0].asserted);
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return release_sandbox_scmi_test_devices(uts, dev);
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}
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DM_TEST(dm_test_scmi_resets, UT_TESTF_SCAN_FDT);
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static int dm_test_scmi_voltage_domains(struct unit_test_state *uts)
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{
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struct sandbox_scmi_devices *scmi_devices;
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struct sandbox_scmi_service *scmi_ctx;
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struct sandbox_scmi_agent *agent;
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struct dm_regulator_uclass_plat *uc_pdata;
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struct udevice *dev;
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struct udevice *regul0_dev;
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ut_assertok(load_sandbox_scmi_test_devices(uts, &dev));
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scmi_devices = sandbox_scmi_devices_ctx(dev);
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ut_assertnonnull(scmi_devices);
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scmi_ctx = sandbox_scmi_service_ctx();
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ut_assertnonnull(scmi_ctx);
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agent = scmi_ctx->agent;
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ut_assertnonnull(agent);
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/* Set/Get an SCMI voltage domain level */
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regul0_dev = scmi_devices->regul[0];
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ut_assert(regul0_dev);
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uc_pdata = dev_get_uclass_plat(regul0_dev);
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ut_assert(uc_pdata);
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ut_assertok(regulator_set_value(regul0_dev, uc_pdata->min_uV));
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ut_asserteq(agent->voltd[0].voltage_uv, uc_pdata->min_uV);
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ut_assert(regulator_get_value(regul0_dev) == uc_pdata->min_uV);
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ut_assertok(regulator_set_value(regul0_dev, uc_pdata->max_uV));
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ut_asserteq(agent->voltd[0].voltage_uv, uc_pdata->max_uV);
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ut_assert(regulator_get_value(regul0_dev) == uc_pdata->max_uV);
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/* Enable/disable SCMI voltage domains */
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ut_assertok(regulator_set_enable(scmi_devices->regul[0], false));
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ut_assertok(regulator_set_enable(scmi_devices->regul[1], false));
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ut_assert(!agent->voltd[0].enabled);
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ut_assert(!agent->voltd[1].enabled);
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ut_assertok(regulator_set_enable(scmi_devices->regul[0], true));
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ut_assert(agent->voltd[0].enabled);
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ut_assert(!agent->voltd[1].enabled);
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ut_assertok(regulator_set_enable(scmi_devices->regul[1], true));
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ut_assert(agent->voltd[0].enabled);
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ut_assert(agent->voltd[1].enabled);
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ut_assertok(regulator_set_enable(scmi_devices->regul[0], false));
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ut_assert(!agent->voltd[0].enabled);
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ut_assert(agent->voltd[1].enabled);
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return release_sandbox_scmi_test_devices(uts, dev);
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}
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DM_TEST(dm_test_scmi_voltage_domains, UT_TESTF_SCAN_FDT);
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