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pigweed / pigweed / pigweed / refs/heads/main / . / pw_protobuf / find_test.cc
blob: 6b0d85610b8843ffc11a583b81732111caf4126d [file] [log] [blame]
// Copyright 2023 The Pigweed 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.
#include "pw_protobuf/find.h"
#include "pw_bytes/array.h"
#include "pw_stream/memory_stream.h"
#include "pw_string/string.h"
#include "pw_unit_test/framework.h"
namespace pw::protobuf {
namespace {
constexpr auto kEncodedProto = bytes::Array< // clang-format off
// type=int32, k=1, v=42
0x08, 0x2a, // 0-1
// type=sint32, k=2, v=-13
0x10, 0x19, // 2-3
// type=bool, k=3, v=false
0x18, 0x00, // 4-5
// type=double, k=4, v=3.14159
0x21, 0x6e, 0x86, 0x1b, 0xf0, 0xf9, 0x21, 0x09, 0x40, // 6-14
// type=fixed32, k=5, v=0xdeadbeef
0x2d, 0xef, 0xbe, 0xad, 0xde, // 15-19
// type=string, k=6, v="Hello world"
0x32, 0x0b, 'H', 'e', 'l', 'l', 'o', ' ', 'w', 'o', 'r', 'l', 'd', // 20-32
// type=message, k=7, len=2
0x3a, 0x02, // 33-34
// (nested) type=uint32, k=1, v=3
0x08, 0x03 // 35-36
>(); // clang-format on
static_assert(kEncodedProto.size() == 37);
TEST(Find, PresentField) {
EXPECT_EQ(FindInt32(kEncodedProto, 1).value(), 42);
EXPECT_EQ(FindSint32(kEncodedProto, 2).value(), -13);
EXPECT_EQ(FindBool(kEncodedProto, 3).value(), false);
EXPECT_EQ(FindDouble(kEncodedProto, 4).value(), 3.14159);
EXPECT_EQ(FindFixed32(kEncodedProto, 5).value(), 0xdeadbeef);
Result<std::string_view> result = FindString(kEncodedProto, 6);
ASSERT_EQ(result.status(), OkStatus());
InlineString<32> str(*result);
EXPECT_STREQ(str.c_str(), "Hello world");
}
TEST(Find, MissingField) {
EXPECT_EQ(FindUint32(kEncodedProto, 8).status(), Status::NotFound());
EXPECT_EQ(FindUint32(kEncodedProto, 66).status(), Status::NotFound());
EXPECT_EQ(FindUint32(kEncodedProto, 123456789).status(), Status::NotFound());
EXPECT_EQ(FindRaw(kEncodedProto, 123456789).status(), Status::NotFound());
}
TEST(Find, InvalidFieldNumber) {
EXPECT_EQ(FindUint32(kEncodedProto, 0).status(), Status::InvalidArgument());
EXPECT_EQ(FindUint32(kEncodedProto, uint32_t(-1)).status(),
Status::InvalidArgument());
}
TEST(Find, WrongWireType) {
// Field 5 is a fixed32, but we request a uint32 (varint).
EXPECT_EQ(FindUint32(kEncodedProto, 5).status(),
Status::FailedPrecondition());
}
TEST(Find, MultiLevel) {
Result<ConstByteSpan> submessage = FindSubmessage(kEncodedProto, 7);
ASSERT_EQ(submessage.status(), OkStatus());
EXPECT_EQ(submessage->size(), 2u);
// Read a field from the submessage.
EXPECT_EQ(FindUint32(*submessage, 1).value(), 3u);
}
TEST(FindStream, PresentField) {
stream::MemoryReader reader(kEncodedProto);
EXPECT_EQ(FindInt32(reader, 1).value(), 42);
EXPECT_EQ(FindSint32(reader, 2).value(), -13);
EXPECT_EQ(FindBool(reader, 3).value(), false);
EXPECT_EQ(FindDouble(kEncodedProto, 4).value(), 3.14159);
EXPECT_EQ(FindFixed32(reader, 5).value(), 0xdeadbeef);
char str[32];
StatusWithSize sws = FindString(reader, 6, str);
ASSERT_EQ(sws.status(), OkStatus());
ASSERT_EQ(sws.size(), 11u);
str[sws.size()] = '\0';
EXPECT_STREQ(str, "Hello world");
}
TEST(FindStream, MissingField) {
stream::MemoryReader reader(kEncodedProto);
EXPECT_EQ(FindUint32(reader, 8).status(), Status::NotFound());
reader = stream::MemoryReader(kEncodedProto);
EXPECT_EQ(FindUint32(reader, 66).status(), Status::NotFound());
reader = stream::MemoryReader(kEncodedProto);
EXPECT_EQ(FindUint32(reader, 123456789).status(), Status::NotFound());
}
TEST(FindStream, InvalidFieldNumber) {
stream::MemoryReader reader(kEncodedProto);
EXPECT_EQ(FindUint32(reader, 0).status(), Status::InvalidArgument());
reader = stream::MemoryReader(kEncodedProto);
EXPECT_EQ(FindUint32(reader, uint32_t(-1)).status(),
Status::InvalidArgument());
}
TEST(FindStream, WrongWireType) {
stream::MemoryReader reader(kEncodedProto);
// Field 5 is a fixed32, but we request a uint32 (varint).
EXPECT_EQ(FindUint32(reader, 5).status(), Status::FailedPrecondition());
}
enum class Fields : uint32_t {
kField1 = 1,
kField2 = 2,
kField3 = 3,
kField4 = 4,
kField5 = 5,
kField6 = 6,
kField7 = 7,
};
TEST(FindEnum, PresentField) {
EXPECT_EQ(FindInt32(kEncodedProto, Fields::kField1).value(), 42);
EXPECT_EQ(FindSint32(kEncodedProto, Fields::kField2).value(), -13);
EXPECT_EQ(FindBool(kEncodedProto, Fields::kField3).value(), false);
EXPECT_EQ(FindDouble(kEncodedProto, Fields::kField4).value(), 3.14159);
EXPECT_EQ(FindFixed32(kEncodedProto, Fields::kField5).value(), 0xdeadbeef);
stream::MemoryReader reader(kEncodedProto);
InlineString<32> str;
StatusWithSize result = FindString(reader, Fields::kField6, str);
ASSERT_EQ(result.status(), OkStatus());
EXPECT_STREQ(str.c_str(), "Hello world");
}
TEST(FindRaw, PresentField) {
ConstByteSpan field1 = FindRaw(kEncodedProto, Fields::kField1).value();
EXPECT_EQ(field1.data(), kEncodedProto.data() + 1);
EXPECT_EQ(field1.size(), 1u);
ConstByteSpan field2 = FindRaw(kEncodedProto, Fields::kField2).value();
EXPECT_EQ(field2.data(), kEncodedProto.data() + 3);
EXPECT_EQ(field2.size(), 1u);
ConstByteSpan field3 = FindRaw(kEncodedProto, Fields::kField3).value();
EXPECT_EQ(field3.data(), kEncodedProto.data() + 5);
EXPECT_EQ(field3.size(), 1u);
ConstByteSpan field4 = FindRaw(kEncodedProto, Fields::kField4).value();
EXPECT_EQ(field4.data(), kEncodedProto.data() + 7);
EXPECT_EQ(field4.size(), sizeof(double));
ConstByteSpan field5 = FindRaw(kEncodedProto, Fields::kField5).value();
EXPECT_EQ(field5.data(), kEncodedProto.data() + 16);
EXPECT_EQ(field5.size(), sizeof(uint32_t));
ConstByteSpan field6 = FindRaw(kEncodedProto, Fields::kField6).value();
EXPECT_EQ(field6.data(), kEncodedProto.data() + 22);
EXPECT_EQ(field6.size(), sizeof("Hello world") - 1 /* null */);
ConstByteSpan field7 = FindRaw(kEncodedProto, Fields::kField7).value();
EXPECT_EQ(field7.data(), kEncodedProto.data() + 35);
EXPECT_EQ(field7.size(), 2u);
}
} // namespace
} // namespace pw::protobuf