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/**
* @file Marhal/Unmarshal Unit Test
*/
/******************************************************************************
* Copyright AllSeen Alliance. All rights reserved.
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
******************************************************************************/
#include <gtest/gtest.h>
extern "C" {
#include <ajtcl/alljoyn.h>
#include <ajtcl/aj_util.h>
#include <ajtcl/aj_debug.h>
#include <ajtcl/aj_bufio.h>
#include <ajtcl/aj_crypto.h>
#ifndef NDEBUG
extern AJ_MutterHook MutterHook;
#endif
}
static uint8_t wireBuffer[16 * 1024];
static size_t wireBytes = 0;
static uint8_t txBuffer[1024];
static uint8_t rxBuffer[1024];
static AJ_Status TxFunc(AJ_IOBuffer* buf)
{
size_t tx = AJ_IO_BUF_AVAIL(buf);;
if ((wireBytes + tx) > sizeof(wireBuffer)) {
return AJ_ERR_WRITE;
} else {
memcpy(wireBuffer + wireBytes, buf->bufStart, tx);
AJ_IO_BUF_RESET(buf);
wireBytes += tx;
return AJ_OK;
}
}
AJ_Status RxFunc(AJ_IOBuffer* buf, uint32_t len, uint32_t timeout)
{
size_t rx = AJ_IO_BUF_SPACE(buf);
rx = min(len, rx);
rx = min(wireBytes, rx);
if (!rx) {
return AJ_ERR_READ;
} else {
memcpy(buf->writePtr, wireBuffer, rx);
/*
* Shuffle the remaining data to the front of the buffer
*/
memmove(wireBuffer, wireBuffer + rx, wireBytes - rx);
wireBytes -= rx;
buf->writePtr += rx;
return AJ_OK;
}
}
static const uint32_t ZERO_SECONDS = 0;
// Array of test signatures
// Each test case will use a particular index into this array
// to get the message signature.
static const char* testSignature[] = {
"a{us}",
"u(usu(ii)qsq)yyy",
"a(usay)",
"aas",
"ivi",
"v",
"v",
"(vvvv)",
"uqay",
"a(uuuu)",
"a(sss)",
"ya{ss}",
"yyyyya{ys}"
};
#ifndef NDEBUG
static AJ_Status MsgInit(AJ_Message* msg, uint32_t msgId, uint8_t msgType)
{
msg->objPath = "/test/mutter";
msg->iface = "test.mutter";
msg->member = "mumble";
msg->msgId = msgId;
msg->signature = testSignature[msgId];
return AJ_OK;
}
#endif
static const char* const Fruits[] = {
"apple", "banana", "cherry", "durian", "elderberry", "fig", "grape"
};
static const char* const Colors[] = {
"azure", "blue", "cyan", "dun", "ecru"
};
static const uint8_t Data8[] = { 0xA0, 0xB0, 0xC0, 0xD0, 0xE0, 0xF0, 0xA1, 0xB1, 0xC2, 0xD3 };
static const uint16_t Data16[] = { 0xFF01, 0xFF02, 0xFF03, 0xFF04, 0xFF05, 0xFF06 };
// Variables common to all tests
static AJ_BusAttachment testBus;
static AJ_Message txMsg;
static AJ_Message rxMsg;
static AJ_Arg arg;
static AJ_Arg array1;
static AJ_Arg array2;
static AJ_Arg struct1;
static AJ_Arg struct2;
class MutterTest : public testing::Test {
public:
virtual void SetUp() {
/* random offset for the buffer to force different alignments */
uint8_t random_offset = 0;
AJ_RandBytes(&random_offset, 1);
random_offset = random_offset % 8;
std::cout << "\tINFO: The random offset for this test is " << (unsigned int) random_offset << std::endl;
testBus.sock.tx.direction = AJ_IO_BUF_TX;
testBus.sock.tx.bufSize = sizeof(txBuffer) - random_offset;
testBus.sock.tx.bufStart = txBuffer + random_offset;
testBus.sock.tx.readPtr = txBuffer;
testBus.sock.tx.writePtr = txBuffer;
testBus.sock.tx.send = TxFunc;
testBus.sock.rx.direction = AJ_IO_BUF_RX;
testBus.sock.rx.bufSize = sizeof(rxBuffer);
testBus.sock.rx.bufStart = rxBuffer;
testBus.sock.rx.readPtr = rxBuffer;
testBus.sock.rx.writePtr = rxBuffer;
testBus.sock.rx.recv = RxFunc;
/*
* MutterTest doesn't connect to an actual daemon.
* Hence, to ensure that we don't fail the header validation checks,
* manually set the unique name of the Bus.
*/
const size_t lengthOfShortGUID = 16;
strncpy(testBus.uniqueName, "DummyNaaaame.N1", lengthOfShortGUID);
#ifndef NDEBUG
MutterHook = MsgInit;
#endif
}
virtual void TearDown() {
#ifndef NDEBUG
MutterHook = NULL;
#endif
}
};
typedef struct {
uint32_t a;
uint32_t b;
uint32_t c;
uint32_t d;
} MutterTestStruct;
TEST_F(MutterTest, ArrayofDict) {
AJ_Status status = AJ_ERR_FAILURE;
//Index of "a{us}" in testSignature[] is 0
status = AJ_MarshalSignal(&testBus, &txMsg, 0, "mutter.service", 0, 0, 0);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_MarshalContainer(&txMsg, &array1, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
for (uint32_t key = 0; key < ArraySize(Fruits); ++key) {
AJ_Arg dict;
status = AJ_MarshalContainer(&txMsg, &dict, AJ_ARG_DICT_ENTRY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArgs(&txMsg, "us", key, Fruits[key]);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalCloseContainer(&txMsg, &dict);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
if (AJ_OK == status) {
status = AJ_MarshalCloseContainer(&txMsg, &array1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
status = AJ_DeliverMsg(&txMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalMsg(&testBus, &rxMsg, ZERO_SECONDS);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
uint32_t key;
status = AJ_UnmarshalContainer(&rxMsg, &array1, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
for (uint32_t i = 0; i < ArraySize(Fruits); ++i) {
char* fruit;
AJ_Arg dict;
status = AJ_UnmarshalContainer(&rxMsg, &dict, AJ_ARG_DICT_ENTRY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalArgs(&rxMsg, "us", &key, &fruit);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal[%d] = %s\n", key, fruit));
status = AJ_UnmarshalCloseContainer(&rxMsg, &dict);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
AJ_Arg dict;
status = AJ_UnmarshalContainer(&rxMsg, &dict, AJ_ARG_DICT_ENTRY);
EXPECT_EQ(AJ_ERR_NO_MORE, status) << " Actual Status: " << AJ_StatusText(status);
/*
* We expect AJ_ERR_NO_MORE
*/
if (status == AJ_ERR_NO_MORE) {
status = AJ_UnmarshalCloseContainer(&rxMsg, &array1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
status = AJ_CloseMsg(&rxMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
}
}
TEST_F(MutterTest, BasicTypesAndNestedStruct) {
uint32_t u;
uint32_t v;
int32_t n;
int32_t m;
uint16_t q;
uint16_t r;
uint8_t y;
char* str;
AJ_Status status = AJ_ERR_FAILURE;
//Index of "u(usu(ii)qsq)yyy" in testSignature[] is 1
status = AJ_MarshalSignal(&testBus, &txMsg, 1, "mutter.service", 0, 0, 0);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_MarshalArgs(&txMsg, "u", 11111);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalContainer(&txMsg, &struct1, AJ_ARG_STRUCT);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArgs(&txMsg, "usu", 22222, "hello", 33333);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalContainer(&txMsg, &struct2, AJ_ARG_STRUCT);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArgs(&txMsg, "ii", -100, -200);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalCloseContainer(&txMsg, &struct2);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArgs(&txMsg, "qsq", 4444, "goodbye", 5555);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalCloseContainer(&txMsg, &struct1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArgs(&txMsg, "yyy", 1, 2, 3);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_DeliverMsg(&txMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalMsg(&testBus, &rxMsg, ZERO_SECONDS);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_UnmarshalArgs(&rxMsg, "u", &u);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalContainer(&rxMsg, &struct1, AJ_ARG_STRUCT);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalArgs(&rxMsg, "usu", &u, &str, &v);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalContainer(&rxMsg, &struct2, AJ_ARG_STRUCT);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalArgs(&rxMsg, "ii", &n, &m);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalCloseContainer(&rxMsg, &struct2);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalArgs(&rxMsg, "qsq", &q, &str, &r);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalCloseContainer(&rxMsg, &struct1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalArgs(&rxMsg, "y", &y);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalArgs(&rxMsg, "y", &y);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalArgs(&rxMsg, "y", &y);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_CloseMsg(&rxMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
}
}
TEST_F(MutterTest, ArrayOfStructofBasicTypeStringandByteArray)
{
char* str;
AJ_Status status = AJ_ERR_FAILURE;
//Index of "a(usay)" in testSignature[] is 2
status = AJ_MarshalSignal(&testBus, &txMsg, 2, "mutter.service", 0, 0, 0);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_MarshalContainer(&txMsg, &array1, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
for (uint32_t u = 0; u < ArraySize(Fruits); ++u) {
status = AJ_MarshalContainer(&txMsg, &struct1, AJ_ARG_STRUCT);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArgs(&txMsg, "us", u, Fruits[u]);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArg(&txMsg, AJ_InitArg(&arg, AJ_ARG_BYTE, AJ_ARRAY_FLAG, Data8, u));
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalCloseContainer(&txMsg, &struct1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
if (AJ_OK == status) {
status = AJ_MarshalCloseContainer(&txMsg, &array1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
status = AJ_DeliverMsg(&txMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalMsg(&testBus, &rxMsg, ZERO_SECONDS);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
uint32_t u;
status = AJ_UnmarshalContainer(&rxMsg, &array1, AJ_ARG_ARRAY);
for (uint32_t i = 0; i < ArraySize(Fruits); ++i) {
status = AJ_UnmarshalContainer(&rxMsg, &struct1, AJ_ARG_STRUCT);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalArgs(&rxMsg, "us", &u, &str);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalArg(&rxMsg, &arg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalCloseContainer(&rxMsg, &struct1);
}
/*
* We expect AJ_ERR_NO_MORE
*/
status = AJ_UnmarshalContainer(&rxMsg, &struct1, AJ_ARG_STRUCT);
EXPECT_EQ(AJ_ERR_NO_MORE, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_ERR_NO_MORE == status) {
status = AJ_UnmarshalCloseContainer(&rxMsg, &array1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
status = AJ_CloseMsg(&rxMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
}
}
TEST_F(MutterTest, ArrayOfArrayofString)
{
uint32_t count = 3;
AJ_Status status = AJ_ERR_FAILURE;
//Index of "aas" in testSignature[] is 3
status = AJ_MarshalSignal(&testBus, &txMsg, 3, "mutter.service", 0, 0, 0);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_MarshalContainer(&txMsg, &array1, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
for (uint32_t j = 0; j < count; ++j) {
status = AJ_MarshalContainer(&txMsg, &array2, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
for (uint32_t k = j; k < ArraySize(Fruits); ++k) {
status = AJ_MarshalArgs(&txMsg, "s", Fruits[k]);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
status = AJ_MarshalCloseContainer(&txMsg, &array2);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
if (AJ_OK == status) {
status = AJ_MarshalCloseContainer(&txMsg, &array1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
status = AJ_DeliverMsg(&txMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalMsg(&testBus, &rxMsg, ZERO_SECONDS);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_UnmarshalContainer(&rxMsg, &array1, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
for (uint32_t j = 0; j < count; ++j) {
status = AJ_UnmarshalContainer(&rxMsg, &array2, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
for (uint32_t k = j; k < ArraySize(Fruits); ++k) {
status = AJ_UnmarshalArg(&rxMsg, &arg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal %s\n", arg.val.v_string));
}
/*
* We expect AJ_ERR_NO_MORE
*/
status = AJ_UnmarshalArg(&rxMsg, &arg);
EXPECT_EQ(AJ_ERR_NO_MORE, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_ERR_NO_MORE == status) {
status = AJ_UnmarshalCloseContainer(&rxMsg, &array2);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
}
/*
* We expect AJ_ERR_NO_MORE
*/
status = AJ_UnmarshalContainer(&rxMsg, &array2, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_ERR_NO_MORE, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_ERR_NO_MORE == status) {
status = AJ_UnmarshalCloseContainer(&rxMsg, &array1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
status = AJ_CloseMsg(&rxMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
}
}
TEST_F(MutterTest, IntegerandVariant)
{
char* sig;
uint32_t count = 16;
AJ_Status status = AJ_ERR_FAILURE;
//Index of "ivi" in testSignature[] is 4
status = AJ_MarshalSignal(&testBus, &txMsg, 4, "mutter.service", 0, 0, 0);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_MarshalArgs(&txMsg, "i", 987654321);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalVariant(&txMsg, "a(ii)");
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalContainer(&txMsg, &array1, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
for (uint32_t i = 0; i < count; ++i) {
status = AJ_MarshalContainer(&txMsg, &struct1, AJ_ARG_STRUCT);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArgs(&txMsg, "ii", i + 1, (i + 1) * 100);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalCloseContainer(&txMsg, &struct1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
if (AJ_OK == status) {
status = AJ_MarshalCloseContainer(&txMsg, &array1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
status = AJ_MarshalArgs(&txMsg, "i", 123456789);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_DeliverMsg(&txMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalMsg(&testBus, &rxMsg, ZERO_SECONDS);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
uint32_t k;
uint32_t l;
status = AJ_UnmarshalArgs(&rxMsg, "i", &k);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal %d\n", k));
status = AJ_UnmarshalVariant(&rxMsg, (const char**)&sig);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal variant %s\n", sig));
status = AJ_UnmarshalContainer(&rxMsg, &array1, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
for (uint32_t i = 0; i < count; ++i) {
status = AJ_UnmarshalContainer(&rxMsg, &struct1, AJ_ARG_STRUCT);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalArgs(&rxMsg, "ii", &k, &l);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal[%d] %d\n", k, l));
status = AJ_UnmarshalCloseContainer(&rxMsg, &struct1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
/*
* We expect AJ_ERR_NO_MORE
*/
status = AJ_UnmarshalContainer(&rxMsg, &struct1, AJ_ARG_STRUCT);
EXPECT_EQ(AJ_ERR_NO_MORE, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_ERR_NO_MORE == status) {
status = AJ_UnmarshalCloseContainer(&rxMsg, &array1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalArgs(&rxMsg, "i", &k);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal %d\n", k));
}
status = AJ_CloseMsg(&rxMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
}
}
TEST_F(MutterTest, StructofInteger_VariantandInteger)
{
char* str;
char* sig;
uint32_t j;
AJ_Status status = AJ_ERR_FAILURE;
//Index of "v" in testSignature[] is 5
status = AJ_MarshalSignal(&testBus, &txMsg, 5, "mutter.service", 0, 0, 0);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_MarshalVariant(&txMsg, "(ivi)");
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalContainer(&txMsg, &struct1, AJ_ARG_STRUCT);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArgs(&txMsg, "i", 1212121);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalVariant(&txMsg, "s");
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArgs(&txMsg, "s", "inner variant");
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArgs(&txMsg, "i", 3434343);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalCloseContainer(&txMsg, &struct1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_DeliverMsg(&txMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalMsg(&testBus, &rxMsg, ZERO_SECONDS);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_UnmarshalVariant(&rxMsg, (const char**)&sig);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal variant %s\n", sig));
status = AJ_UnmarshalContainer(&rxMsg, &struct1, AJ_ARG_STRUCT);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalArgs(&rxMsg, "i", &j);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal %d\n", j));
status = AJ_UnmarshalVariant(&rxMsg, (const char**)&sig);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal variant %s\n", sig));
status = AJ_UnmarshalArgs(&rxMsg, "s", &str);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal %s\n", str));
status = AJ_UnmarshalArgs(&rxMsg, "i", &j);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal %d\n", j));
status = AJ_UnmarshalCloseContainer(&rxMsg, &struct1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_CloseMsg(&rxMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
}
}
TEST_F(MutterTest, DeepVariant)
{
char* str;
char* sig;
AJ_Status status = AJ_ERR_FAILURE;
//Index of "v" in testSignature[] is 6
status = AJ_MarshalSignal(&testBus, &txMsg, 6, "mutter.service", 0, 0, 0);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_MarshalVariant(&txMsg, "v");
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalVariant(&txMsg, "v");
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalVariant(&txMsg, "v");
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalVariant(&txMsg, "v");
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalVariant(&txMsg, "s");
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArgs(&txMsg, "s", "deep variant");
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_DeliverMsg(&txMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalMsg(&testBus, &rxMsg, ZERO_SECONDS);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_UnmarshalVariant(&rxMsg, (const char**)&sig);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal variant %s\n", sig));
status = AJ_UnmarshalVariant(&rxMsg, (const char**)&sig);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal variant %s\n", sig));
status = AJ_UnmarshalVariant(&rxMsg, (const char**)&sig);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal variant %s\n", sig));
status = AJ_UnmarshalVariant(&rxMsg, (const char**)&sig);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal variant %s\n", sig));
status = AJ_UnmarshalVariant(&rxMsg, (const char**)&sig);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal variant %s\n", sig));
status = AJ_UnmarshalArgs(&rxMsg, "s", &str);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal %s\n", str));
status = AJ_CloseMsg(&rxMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
}
}
TEST_F(MutterTest, StructofVariants)
{
char* str;
char* sig;
uint32_t j;
AJ_Status status = AJ_ERR_FAILURE;
//Index of "(vvvv)" in testSignature[] is 7
status = AJ_MarshalSignal(&testBus, &txMsg, 7, "mutter.service", 0, 0, 0);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_MarshalContainer(&txMsg, &struct1, AJ_ARG_STRUCT);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalVariant(&txMsg, "i");
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArgs(&txMsg, "i", 1212121);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalVariant(&txMsg, "s");
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArgs(&txMsg, "s", "variant");
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalVariant(&txMsg, "ay");
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArg(&txMsg, AJ_InitArg(&arg, AJ_ARG_BYTE, AJ_ARRAY_FLAG, Data8, sizeof(Data8)));
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalVariant(&txMsg, "aq");
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalArg(&txMsg, AJ_InitArg(&arg, AJ_ARG_UINT16, AJ_ARRAY_FLAG, Data16, sizeof(Data16)));
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalCloseContainer(&txMsg, &struct1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_DeliverMsg(&txMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalMsg(&testBus, &rxMsg, ZERO_SECONDS);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_UnmarshalContainer(&rxMsg, &struct1, AJ_ARG_STRUCT);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalVariant(&rxMsg, (const char**)&sig);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal variant %s\n", sig));
status = AJ_UnmarshalArgs(&rxMsg, "i", &j);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal %d\n", j));
status = AJ_UnmarshalVariant(&rxMsg, (const char**)&sig);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal variant %s\n", sig));
status = AJ_UnmarshalArgs(&rxMsg, "s", &str);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalVariant(&rxMsg, (const char**)&sig);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal variant %s\n", sig));
status = AJ_UnmarshalArg(&rxMsg, &arg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalVariant(&rxMsg, (const char**)&sig);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
AJ_AlwaysPrintf(("Unmarshal variant %s\n", sig));
status = AJ_UnmarshalArg(&rxMsg, &arg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalCloseContainer(&rxMsg, &struct1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_CloseMsg(&rxMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
}
}
TEST_F(MutterTest, IntegerandArrayofInteger)
{
uint32_t len;
uint32_t j;
uint16_t q;
void* raw;
size_t sz;
AJ_Status status = AJ_ERR_FAILURE;
//Index of "uqay" in testSignature[] is 8
status = AJ_MarshalSignal(&testBus, &txMsg, 8, "mutter.service", 0, 0, 0);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_MarshalArgs(&txMsg, "uq", 0xF00F00F00, 0x070707);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
len = 5000;
status = AJ_DeliverMsgPartial(&txMsg, len + 4);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalRaw(&txMsg, &len, 4);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
for (j = 0; j < len; ++j) {
uint8_t n = (uint8_t)j;
status = AJ_MarshalRaw(&txMsg, &n, 1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
status = AJ_DeliverMsg(&txMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalMsg(&testBus, &rxMsg, ZERO_SECONDS);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_UnmarshalArgs(&rxMsg, "uq", &j, &q);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalRaw(&rxMsg, (const void**)&raw, sizeof(len), &sz);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
len = *((uint32_t*)raw);
for (j = 0; j < len; ++j) {
uint8_t v;
status = AJ_UnmarshalRaw(&rxMsg, (const void**)&raw, 1, &sz);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
v = *((uint8_t*)raw);
EXPECT_EQ(v, (uint8_t)j);
}
status = AJ_CloseMsg(&rxMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
}
}
TEST_F(MutterTest, ArrayOfStructs)
{
void* raw;
size_t sz;
AJ_Status status = AJ_ERR_FAILURE;
//Index of "a(uuuu)" in testSignature[] is 9
status = AJ_MarshalSignal(&testBus, &txMsg, 9, "mutter.service", 0, 0, 0);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
size_t len = 500;
uint32_t u = len * sizeof(MutterTestStruct);
status = AJ_DeliverMsgPartial(&txMsg, u + sizeof(u) + 4);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalRaw(&txMsg, &u, sizeof(u));
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
/*
* Structs are always 8 byte aligned
*/
u = 0;
status = AJ_MarshalRaw(&txMsg, &u, 4);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
for (size_t j = 0; j < len; ++j) {
MutterTestStruct ts;
ts.a = j;
ts.b = j + 1;
ts.c = j + 2;
ts.d = j + 3;
status = AJ_MarshalRaw(&txMsg, &ts, sizeof(ts));
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
status = AJ_DeliverMsg(&txMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalMsg(&testBus, &rxMsg, ZERO_SECONDS);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_UnmarshalRaw(&rxMsg, (const void**)&raw, 4, &sz);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
len = *((uint32_t*)raw) / sizeof(MutterTestStruct);
/*
* Structs are always 8 byte aligned
*/
status = AJ_UnmarshalRaw(&rxMsg, (const void**)&raw, 4, &sz);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
for (size_t j = 0; j < len; ++j) {
MutterTestStruct* ts;
status = AJ_UnmarshalRaw(&rxMsg, (const void**)&ts, sizeof(MutterTestStruct), &sz);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
// Check the contents of the struct
EXPECT_EQ(j, ts->a);
EXPECT_EQ((j + 1), ts->b);
EXPECT_EQ((j + 2), ts->c);
EXPECT_EQ((j + 3), ts->d);
}
status = AJ_CloseMsg(&rxMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
}
}
TEST_F(MutterTest, ArrayOfStructofStrings)
{
AJ_Status status = AJ_ERR_FAILURE;
//Index of "a(sss)" in testSignature[] is 10
status = AJ_MarshalSignal(&testBus, &txMsg, 10, "mutter.service", 0, 0, 0);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_MarshalContainer(&txMsg, &array1, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_MarshalCloseContainer(&txMsg, &array1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_DeliverMsg(&txMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalMsg(&testBus, &rxMsg, ZERO_SECONDS);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
status = AJ_UnmarshalContainer(&rxMsg, &array1, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
status = AJ_UnmarshalArg(&rxMsg, &arg);
EXPECT_EQ(AJ_ERR_NO_MORE, status) << " Actual Status: " << AJ_StatusText(status);
/*
* We expect AJ_ERR_NO_MORE
*/
if (AJ_ERR_NO_MORE == status) {
status = AJ_UnmarshalCloseContainer(&rxMsg, &array1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
status = AJ_CloseMsg(&rxMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
}
}
}
TEST_F(MutterTest, ByteAndDictionaryEntries)
{
AJ_Status status = AJ_ERR_FAILURE;
//Index of "ya{ss}" in testSignature[] is 11
status = AJ_MarshalSignal(&testBus, &txMsg, 11, "mutter.service", 0, 0, 0);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
uint8_t in_byte = 0;
AJ_RandBytes(&in_byte, 1);
status = AJ_MarshalArgs(&txMsg, "y", in_byte);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to marshal a byte into the message.";
status = AJ_MarshalContainer(&txMsg, &array1, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to marshal array start into the message.";
for (size_t key = 0; key < ArraySize(Colors); key++) {
AJ_Arg dict;
status = AJ_MarshalContainer(&txMsg, &dict, AJ_ARG_DICT_ENTRY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to marshal dict start.";
status = AJ_MarshalArgs(&txMsg, "ss", Colors[key], Fruits[key]);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to marshal key-value pair.";
status = AJ_MarshalCloseContainer(&txMsg, &dict);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to marshal dict end.";
}
status = AJ_MarshalCloseContainer(&txMsg, &array1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to marshal array end into the message.";
status = AJ_DeliverMsg(&txMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to deliver message.";
status = AJ_UnmarshalMsg(&testBus, &rxMsg, ZERO_SECONDS);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to unmarshal message.";
uint8_t out_byte = 0;
status = AJ_UnmarshalArgs(&rxMsg, "y", &out_byte);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to unmarshal a byte from the message.";
if (AJ_OK == status) {
/* The value that was marshaled must match the unmarshaled */
EXPECT_EQ(in_byte, out_byte) << "A byte was marshaled and "
<< "unmarshaled back. The unmarshaled value "
<< out_byte
<< " does NOT match the marshaled value "
<< in_byte;
}
status = AJ_UnmarshalContainer(&rxMsg, &array1, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to unmarshal the start of array "
<< "from the message.";
for (size_t key = 0; key < ArraySize(Colors); key++) {
AJ_Arg dict;
char* fruit;
char* color;
status = AJ_UnmarshalContainer(&rxMsg, &dict, AJ_ARG_DICT_ENTRY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to unmarshal dict start.";
status = AJ_UnmarshalArgs(&rxMsg, "ss", &color, &fruit);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to unmarshal key-value pair.";
if (AJ_OK == status) {
/* verify that what was marshaled in, is unmarshaled out */
EXPECT_STREQ(Colors[key], color) << "The key of dictionary "
<< "element was marshaled in and"
<< "unmarshaled out. The unmarshaled "
<< "value " << color << " does NOT "
<< "match the marshaled value "
<< Colors[key];
EXPECT_STREQ(Fruits[key], fruit) << "The value of dictionary "
<< "element was marshaled in and "
<< "unmarshaled out. The unmarshaled "
<< "value " << fruit << " does NOT "
<< "match the marshaled value "
<< Fruits[key];
}
status = AJ_UnmarshalCloseContainer(&rxMsg, &dict);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to unmarshal dict end.";
}
/*
* Now that we have unmarshaled all the entries, there should be
* NO MORE
*/
AJ_Arg dict;
status = AJ_UnmarshalContainer(&rxMsg, &dict, AJ_ARG_DICT_ENTRY);
EXPECT_EQ(AJ_ERR_NO_MORE, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". After unmarshaling all the dictionary "
<< "entries, we expect that there are "
<< "no more entries.";
if (AJ_ERR_NO_MORE == status) {
status = AJ_UnmarshalCloseContainer(&rxMsg, &array1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to unmarshal end of the array "
<< "from the message.";
status = AJ_CloseMsg(&rxMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to close the message.";
}
}
}
TEST_F(MutterTest, MultipleBytesAndDictionaryEntries)
{
AJ_Status status = AJ_ERR_FAILURE;
//Index of "yyyyya{ys}" in testSignature[] is 12
status = AJ_MarshalSignal(&testBus, &txMsg, 12, "mutter.service", 0, 0, 0);
EXPECT_EQ(AJ_OK, status) << " Actual Status: " << AJ_StatusText(status);
if (AJ_OK == status) {
/* Marshal five random byte values */
uint8_t in_bytes[5];
AJ_RandBytes(in_bytes, ArraySize(in_bytes));
for (uint8_t i = 0; i < ArraySize(in_bytes); i++) {
status = AJ_MarshalArgs(&txMsg, "y", in_bytes[i]);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to marshal a byte into the message.";
}
status = AJ_MarshalContainer(&txMsg, &array1, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to marshal array start into the message.";
for (size_t key = 0; key < ArraySize(Colors); key++) {
AJ_Arg dict;
status = AJ_MarshalContainer(&txMsg, &dict, AJ_ARG_DICT_ENTRY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to marshal dict start.";
status = AJ_MarshalArgs(&txMsg, "ys", key, Colors[key]);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to marshal key-value pair.";
status = AJ_MarshalCloseContainer(&txMsg, &dict);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to marshal dict end.";
}
status = AJ_MarshalCloseContainer(&txMsg, &array1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to marshal array end into the message.";
status = AJ_DeliverMsg(&txMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to deliver message.";
status = AJ_UnmarshalMsg(&testBus, &rxMsg, ZERO_SECONDS);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to unmarshal message.";
for (uint8_t i = 0; i < ArraySize(in_bytes); i++) {
uint8_t out_byte = 0;
status = AJ_UnmarshalArgs(&rxMsg, "y", &out_byte);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to unmarshal a byte from the message.";
if (AJ_OK == status) {
/* The value that was marshaled must match the unmarshaled */
EXPECT_EQ(in_bytes[i], out_byte) << "A byte was marshaled and "
<< "unmarshaled back. The unmarshaled value "
<< out_byte
<< " does NOT match the marshaled value "
<< in_bytes[i];
}
}
status = AJ_UnmarshalContainer(&rxMsg, &array1, AJ_ARG_ARRAY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to unmarshal the start of array "
<< "from the message.";
for (size_t key = 0; key < ArraySize(Colors); key++) {
AJ_Arg dict;
uint8_t index;
char* color;
status = AJ_UnmarshalContainer(&rxMsg, &dict, AJ_ARG_DICT_ENTRY);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to unmarshal dict start.";
status = AJ_UnmarshalArgs(&rxMsg, "ys", &index, &color);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to unmarshal key-value pair.";
if (AJ_OK == status) {
/* verify that what was marshaled in, is unmarshaled out */
EXPECT_EQ(key, index) << "The key of dictionary element was marshaled "
<< "in and unmarshaled out. The unmarshaled "
<< "value " << index
<< " does NOT match the marshaled value "
<< key;
EXPECT_STREQ(Colors[key], color) << "The value of dictionary "
<< "element was marshaled in and "
<< "unmarshaled out. The unmarshaled "
<< "value " << color
<< " does NOT match the marshaled value "
<< Colors[key];
}
status = AJ_UnmarshalCloseContainer(&rxMsg, &dict);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to unmarshal dict end.";
}
/*
* Now that we have unmarshaled all the entries, there should be
* NO MORE
*/
AJ_Arg dict;
status = AJ_UnmarshalContainer(&rxMsg, &dict, AJ_ARG_DICT_ENTRY);
EXPECT_EQ(AJ_ERR_NO_MORE, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". After unmarshaling all the dictionary "
<< "entries, we expect that there are no "
<< "more entries.";
if (AJ_ERR_NO_MORE == status) {
status = AJ_UnmarshalCloseContainer(&rxMsg, &array1);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to unmarshal end of the array "
<< "from the message.";
status = AJ_CloseMsg(&rxMsg);
EXPECT_EQ(AJ_OK, status) << " Actual Status: "
<< AJ_StatusText(status)
<< ". Unable to close the message.";
}
}
}
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