src/abi_test.cc - hafnium - Git at Google

 /*
  * Copyright 2018 The Hafnium Authors.
  *
  * 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
  *
  *     https://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.
  */

 extern "C" {
 #include "vmapi/hf/abi.h"

 #include "vmapi/hf/spci.h"
 }

 #include <gmock/gmock.h>

 namespace
 {
 using ::testing::Eq;

 /**
  * Simulate an uninitialized spci_value so it can be detected if any
  * uninitialized fields make their way into the encoded form which would
  * indicate a data leak.
  */
 struct spci_value dirty_spci_value()
 {
 	struct spci_value res;
 	memset(&res, 0xc5, sizeof(res));
 	return res;
 }

 /**
  * Decode a preempted response ignoring the irrelevant bits.
  */
 TEST(abi, hf_vcpu_run_return_decode_preempted)
 {
 	struct spci_value v = dirty_spci_value();
 	v.func = SPCI_INTERRUPT_32;
 	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
 	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_PREEMPTED));
 }

 /**
  * Decode a yield response ignoring the irrelevant bits.
  */
 TEST(abi, hf_vcpu_run_return_decode_yield)
 {
 	struct spci_value v = dirty_spci_value();
 	v.func = SPCI_YIELD_32;
 	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
 	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_YIELD));
 }

 /**
  * Decode a wait-for-interrupt response ignoring the irrelevant bits.
  */
 TEST(abi, hf_vcpu_run_return_decode_wait_for_interrupt)
 {
 	struct spci_value v = dirty_spci_value();
 	v.func = HF_SPCI_RUN_WAIT_FOR_INTERRUPT;
 	v.arg2 = 0x1234abcdbadb01;
 	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
 	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_WAIT_FOR_INTERRUPT));
 	EXPECT_THAT(res.sleep.ns, Eq(0x1234abcdbadb01));
 }

 /**
  * Decode a wait-for-interrupt response waiting indefinitely.
  */
 TEST(abi, hf_vcpu_run_return_decode_wait_for_interrupt_indefinite)
 {
 	struct spci_value v = dirty_spci_value();
 	v.func = HF_SPCI_RUN_WAIT_FOR_INTERRUPT;
 	v.arg2 = SPCI_SLEEP_INDEFINITE;
 	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
 	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_WAIT_FOR_INTERRUPT));
 	EXPECT_THAT(res.sleep.ns, Eq(HF_SLEEP_INDEFINITE));
 }

 /**
  * Decode a wait-for-message response ignoring the irrelevant bits.
  */
 TEST(abi, hf_vcpu_run_return_decode_wait_for_message)
 {
 	struct spci_value v = dirty_spci_value();
 	v.func = SPCI_MSG_WAIT_32;
 	v.arg2 = 0x12347654badb01;
 	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
 	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_WAIT_FOR_MESSAGE));
 	EXPECT_THAT(res.sleep.ns, Eq(0x12347654badb01));
 }

 /**
  * Decode a wait-for-message response waiting indefinitely.
  */
 TEST(abi, hf_vcpu_run_return_decode_wait_for_message_indefinite)
 {
 	struct spci_value v = dirty_spci_value();
 	v.func = SPCI_MSG_WAIT_32;
 	v.arg2 = SPCI_SLEEP_INDEFINITE;
 	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
 	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_WAIT_FOR_MESSAGE));
 	EXPECT_THAT(res.sleep.ns, Eq(HF_SLEEP_INDEFINITE));
 }

 /**
  * Decode a wake up response ignoring the irrelevant bits.
  */
 TEST(abi, hf_vcpu_run_return_decode_wake_up)
 {
 	struct spci_value v = dirty_spci_value();
 	v.func = HF_SPCI_RUN_WAKE_UP;
 	v.arg1 = 0x88888888f00dbeef;
 	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
 	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_WAKE_UP));
 	EXPECT_THAT(res.wake_up.vm_id, Eq(0xbeef));
 	EXPECT_THAT(res.wake_up.vcpu, Eq(0xf00d));
 }

 /**
  * Decode a wake up response ignoring the irrelevant bits.
  */
 TEST(abi, hf_vcpu_run_return_decode_message)
 {
 	struct spci_value v = dirty_spci_value();
 	v.func = SPCI_MSG_SEND_32;
 	v.arg1 = 0x1111222233339162;
 	v.arg3 = 0x11235813;
 	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
 	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_MESSAGE));
 	EXPECT_THAT(res.message.vm_id, Eq(0x9162));
 	EXPECT_THAT(res.message.size, Eq(0x11235813));
 }

 /**
  * Decode a 'notify waiters' response ignoring the irrelevant bits.
  */
 TEST(abi, hf_vcpu_run_return_decode_notify_waiters)
 {
 	struct spci_value v = dirty_spci_value();
 	v.func = SPCI_RX_RELEASE_32;
 	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
 	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_NOTIFY_WAITERS));
 }

 /**
  * Decode an aborted response ignoring the irrelevant bits.
  */
 TEST(abi, hf_vcpu_run_return_decode_aborted)
 {
 	struct spci_value v = dirty_spci_value();
 	v.func = SPCI_ERROR_32;
 	v.arg2 = SPCI_ABORTED;
 	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
 	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_ABORTED));
 }

 } /* namespace */
	/*
	* Copyright 2018 The Hafnium Authors.
	*
	* 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
	*
	* https://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.
	*/

	extern "C" {
	#include "vmapi/hf/abi.h"

	#include "vmapi/hf/spci.h"
	}

	#include <gmock/gmock.h>

	namespace
	{
	using ::testing::Eq;

	/**
	* Simulate an uninitialized spci_value so it can be detected if any
	* uninitialized fields make their way into the encoded form which would
	* indicate a data leak.
	*/
	struct spci_value dirty_spci_value()
	{
	struct spci_value res;
	memset(&res, 0xc5, sizeof(res));
	return res;
	}

	/**
	* Decode a preempted response ignoring the irrelevant bits.
	*/
	TEST(abi, hf_vcpu_run_return_decode_preempted)
	{
	struct spci_value v = dirty_spci_value();
	v.func = SPCI_INTERRUPT_32;
	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_PREEMPTED));
	}

	/**
	* Decode a yield response ignoring the irrelevant bits.
	*/
	TEST(abi, hf_vcpu_run_return_decode_yield)
	{
	struct spci_value v = dirty_spci_value();
	v.func = SPCI_YIELD_32;
	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_YIELD));
	}

	/**
	* Decode a wait-for-interrupt response ignoring the irrelevant bits.
	*/
	TEST(abi, hf_vcpu_run_return_decode_wait_for_interrupt)
	{
	struct spci_value v = dirty_spci_value();
	v.func = HF_SPCI_RUN_WAIT_FOR_INTERRUPT;
	v.arg2 = 0x1234abcdbadb01;
	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_WAIT_FOR_INTERRUPT));
	EXPECT_THAT(res.sleep.ns, Eq(0x1234abcdbadb01));
	}

	/**
	* Decode a wait-for-interrupt response waiting indefinitely.
	*/
	TEST(abi, hf_vcpu_run_return_decode_wait_for_interrupt_indefinite)
	{
	struct spci_value v = dirty_spci_value();
	v.func = HF_SPCI_RUN_WAIT_FOR_INTERRUPT;
	v.arg2 = SPCI_SLEEP_INDEFINITE;
	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_WAIT_FOR_INTERRUPT));
	EXPECT_THAT(res.sleep.ns, Eq(HF_SLEEP_INDEFINITE));
	}

	/**
	* Decode a wait-for-message response ignoring the irrelevant bits.
	*/
	TEST(abi, hf_vcpu_run_return_decode_wait_for_message)
	{
	struct spci_value v = dirty_spci_value();
	v.func = SPCI_MSG_WAIT_32;
	v.arg2 = 0x12347654badb01;
	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_WAIT_FOR_MESSAGE));
	EXPECT_THAT(res.sleep.ns, Eq(0x12347654badb01));
	}

	/**
	* Decode a wait-for-message response waiting indefinitely.
	*/
	TEST(abi, hf_vcpu_run_return_decode_wait_for_message_indefinite)
	{
	struct spci_value v = dirty_spci_value();
	v.func = SPCI_MSG_WAIT_32;
	v.arg2 = SPCI_SLEEP_INDEFINITE;
	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_WAIT_FOR_MESSAGE));
	EXPECT_THAT(res.sleep.ns, Eq(HF_SLEEP_INDEFINITE));
	}

	/**
	* Decode a wake up response ignoring the irrelevant bits.
	*/
	TEST(abi, hf_vcpu_run_return_decode_wake_up)
	{
	struct spci_value v = dirty_spci_value();
	v.func = HF_SPCI_RUN_WAKE_UP;
	v.arg1 = 0x88888888f00dbeef;
	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_WAKE_UP));
	EXPECT_THAT(res.wake_up.vm_id, Eq(0xbeef));
	EXPECT_THAT(res.wake_up.vcpu, Eq(0xf00d));
	}

	/**
	* Decode a wake up response ignoring the irrelevant bits.
	*/
	TEST(abi, hf_vcpu_run_return_decode_message)
	{
	struct spci_value v = dirty_spci_value();
	v.func = SPCI_MSG_SEND_32;
	v.arg1 = 0x1111222233339162;
	v.arg3 = 0x11235813;
	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_MESSAGE));
	EXPECT_THAT(res.message.vm_id, Eq(0x9162));
	EXPECT_THAT(res.message.size, Eq(0x11235813));
	}

	/**
	* Decode a 'notify waiters' response ignoring the irrelevant bits.
	*/
	TEST(abi, hf_vcpu_run_return_decode_notify_waiters)
	{
	struct spci_value v = dirty_spci_value();
	v.func = SPCI_RX_RELEASE_32;
	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_NOTIFY_WAITERS));
	}

	/**
	* Decode an aborted response ignoring the irrelevant bits.
	*/
	TEST(abi, hf_vcpu_run_return_decode_aborted)
	{
	struct spci_value v = dirty_spci_value();
	v.func = SPCI_ERROR_32;
	v.arg2 = SPCI_ABORTED;
	struct hf_vcpu_run_return res = hf_vcpu_run_return_decode(v);
	EXPECT_THAT(res.code, Eq(HF_VCPU_RUN_ABORTED));
	}

	} /* namespace */