lldb/unittests/Utility/UriParserTest.cpp - llvm-project - Git at Google

 #include "lldb/Utility/UriParser.h"
 #include "gtest/gtest.h"

 using namespace lldb_private;

 TEST(UriParserTest, Minimal) {
   EXPECT_EQ((URI{"x", "y", llvm::None, "/"}), URI::Parse("x://y"));
 }

 TEST(UriParserTest, MinimalPort) {
   EXPECT_EQ((URI{"x", "y", 1, "/"}), URI::Parse("x://y:1"));
 }

 TEST(UriParserTest, MinimalPath) {
   EXPECT_EQ((URI{"x", "y", llvm::None, "/"}), URI::Parse("x://y/"));
 }

 TEST(UriParserTest, MinimalPortPath) {
   EXPECT_EQ((URI{"x", "y", 1, "/"}), URI::Parse("x://y:1/"));
 }

 TEST(UriParserTest, LongPath) {
   EXPECT_EQ((URI{"x", "y", llvm::None, "/abc/def/xyz"}),
             URI::Parse("x://y/abc/def/xyz"));
 }

 TEST(UriParserTest, TypicalPortPathIPv4) {
   EXPECT_EQ((URI{"connect", "192.168.100.132", 5432, "/"}),
             URI::Parse("connect://192.168.100.132:5432/"));
 }

 TEST(UriParserTest, TypicalPortPathIPv6) {
   EXPECT_EQ(
       (URI{"connect", "2601:600:107f:db64:a42b:4faa:284:3082", 5432, "/"}),
       URI::Parse("connect://[2601:600:107f:db64:a42b:4faa:284:3082]:5432/"));
 }

 TEST(UriParserTest, BracketedHostnamePort) {
   EXPECT_EQ((URI{"connect", "192.168.100.132", 5432, "/"}),
             URI::Parse("connect://[192.168.100.132]:5432/"));
 }

 TEST(UriParserTest, BracketedHostname) {
   EXPECT_EQ((URI{"connect", "192.168.100.132", llvm::None, "/"}),
             URI::Parse("connect://[192.168.100.132]"));
 }

 TEST(UriParserTest, BracketedHostnameWithPortIPv4) {
   // Android device over IPv4: port is a part of the hostname.
   EXPECT_EQ((URI{"connect", "192.168.100.132:1234", llvm::None, "/"}),
             URI::Parse("connect://[192.168.100.132:1234]"));
 }

 TEST(UriParserTest, BracketedHostnameWithPortIPv6) {
   // Android device over IPv6: port is a part of the hostname.
   EXPECT_EQ((URI{"connect", "[2601:600:107f:db64:a42b:4faa:284]:1234",
                  llvm::None, "/"}),
             URI::Parse("connect://[[2601:600:107f:db64:a42b:4faa:284]:1234]"));
 }

 TEST(UriParserTest, BracketedHostnameWithColon) {
   EXPECT_EQ((URI{"connect", "192.168.100.132:5555", 1234, "/"}),
             URI::Parse("connect://[192.168.100.132:5555]:1234"));
 }

 TEST(UriParserTest, SchemeHostSeparator) {
   EXPECT_EQ(llvm::None, URI::Parse("x:/y"));
 }

 TEST(UriParserTest, SchemeHostSeparator2) {
   EXPECT_EQ(llvm::None, URI::Parse("x:y"));
 }

 TEST(UriParserTest, SchemeHostSeparator3) {
   EXPECT_EQ(llvm::None, URI::Parse("x//y"));
 }

 TEST(UriParserTest, SchemeHostSeparator4) {
   EXPECT_EQ(llvm::None, URI::Parse("x/y"));
 }

 TEST(UriParserTest, BadPort) { EXPECT_EQ(llvm::None, URI::Parse("x://y:a/")); }

 TEST(UriParserTest, BadPort2) {
   EXPECT_EQ(llvm::None, URI::Parse("x://y:5432a/"));
 }

 TEST(UriParserTest, Empty) { EXPECT_EQ(llvm::None, URI::Parse("")); }

 TEST(UriParserTest, PortOverflow) {
   EXPECT_EQ(llvm::None,
             URI::Parse("x://"
                        "y:"
                        "0123456789012345678901234567890123456789012345678"
                        "9012345678901234567890123456789012345678901234567"
                        "89/"));
 }
	#include "lldb/Utility/UriParser.h"
	#include "gtest/gtest.h"

	using namespace lldb_private;

	TEST(UriParserTest, Minimal) {
	EXPECT_EQ((URI{"x", "y", llvm::None, "/"}), URI::Parse("x://y"));
	}

	TEST(UriParserTest, MinimalPort) {
	EXPECT_EQ((URI{"x", "y", 1, "/"}), URI::Parse("x://y:1"));
	}

	TEST(UriParserTest, MinimalPath) {
	EXPECT_EQ((URI{"x", "y", llvm::None, "/"}), URI::Parse("x://y/"));
	}

	TEST(UriParserTest, MinimalPortPath) {
	EXPECT_EQ((URI{"x", "y", 1, "/"}), URI::Parse("x://y:1/"));
	}

	TEST(UriParserTest, LongPath) {
	EXPECT_EQ((URI{"x", "y", llvm::None, "/abc/def/xyz"}),
	URI::Parse("x://y/abc/def/xyz"));
	}

	TEST(UriParserTest, TypicalPortPathIPv4) {
	EXPECT_EQ((URI{"connect", "192.168.100.132", 5432, "/"}),
	URI::Parse("connect://192.168.100.132:5432/"));
	}

	TEST(UriParserTest, TypicalPortPathIPv6) {
	EXPECT_EQ(
	(URI{"connect", "2601:600:107f:db64:a42b:4faa:284:3082", 5432, "/"}),
	URI::Parse("connect://[2601:600:107f:db64:a42b:4faa:284:3082]:5432/"));
	}

	TEST(UriParserTest, BracketedHostnamePort) {
	EXPECT_EQ((URI{"connect", "192.168.100.132", 5432, "/"}),
	URI::Parse("connect://[192.168.100.132]:5432/"));
	}

	TEST(UriParserTest, BracketedHostname) {
	EXPECT_EQ((URI{"connect", "192.168.100.132", llvm::None, "/"}),
	URI::Parse("connect://[192.168.100.132]"));
	}

	TEST(UriParserTest, BracketedHostnameWithPortIPv4) {
	// Android device over IPv4: port is a part of the hostname.
	EXPECT_EQ((URI{"connect", "192.168.100.132:1234", llvm::None, "/"}),
	URI::Parse("connect://[192.168.100.132:1234]"));
	}

	TEST(UriParserTest, BracketedHostnameWithPortIPv6) {
	// Android device over IPv6: port is a part of the hostname.
	EXPECT_EQ((URI{"connect", "[2601:600:107f:db64:a42b:4faa:284]:1234",
	llvm::None, "/"}),
	URI::Parse("connect://[[2601:600:107f:db64:a42b:4faa:284]:1234]"));
	}

	TEST(UriParserTest, BracketedHostnameWithColon) {
	EXPECT_EQ((URI{"connect", "192.168.100.132:5555", 1234, "/"}),
	URI::Parse("connect://[192.168.100.132:5555]:1234"));
	}

	TEST(UriParserTest, SchemeHostSeparator) {
	EXPECT_EQ(llvm::None, URI::Parse("x:/y"));
	}

	TEST(UriParserTest, SchemeHostSeparator2) {
	EXPECT_EQ(llvm::None, URI::Parse("x:y"));
	}

	TEST(UriParserTest, SchemeHostSeparator3) {
	EXPECT_EQ(llvm::None, URI::Parse("x//y"));
	}

	TEST(UriParserTest, SchemeHostSeparator4) {
	EXPECT_EQ(llvm::None, URI::Parse("x/y"));
	}

	TEST(UriParserTest, BadPort) { EXPECT_EQ(llvm::None, URI::Parse("x://y:a/")); }

	TEST(UriParserTest, BadPort2) {
	EXPECT_EQ(llvm::None, URI::Parse("x://y:5432a/"));
	}

	TEST(UriParserTest, Empty) { EXPECT_EQ(llvm::None, URI::Parse("")); }

	TEST(UriParserTest, PortOverflow) {
	EXPECT_EQ(llvm::None,
	URI::Parse("x://"
	"y:"
	"0123456789012345678901234567890123456789012345678"
	"9012345678901234567890123456789012345678901234567"
	"89/"));
	}