• Home
  • Line#
  • Scopes#
  • Navigate#
  • Raw
  • Download
1 //===-- Implementation of the base class for libc unittests ---------------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 
9 #include "Test.h"
10 
11 #include "utils/testutils/ExecuteFunction.h"
12 #include <cassert>
13 #include <iostream>
14 #include <string>
15 
16 namespace __llvm_libc {
17 namespace testing {
18 
19 // This need not be a class as all it has is a single read-write state variable.
20 // But, we make it class as then its implementation can be hidden from the
21 // header file.
22 class RunContext {
23 public:
24   enum RunResult { Result_Pass = 1, Result_Fail = 2 };
25 
status() const26   RunResult status() const { return Status; }
27 
markFail()28   void markFail() { Status = Result_Fail; }
29 
30 private:
31   RunResult Status = Result_Pass;
32 };
33 
34 namespace internal {
35 
36 // When the value is of integral type, just display it as normal.
37 template <typename ValType>
38 cpp::EnableIfType<cpp::IsIntegral<ValType>::Value, std::string>
describeValue(ValType Value)39 describeValue(ValType Value) {
40   return std::to_string(Value);
41 }
42 
describeValue(std::string Value)43 std::string describeValue(std::string Value) { return std::string(Value); }
44 
45 // When the value is __uint128_t, also show its hexadecimal digits.
46 // Using template to force exact match, prevent ambiguous promotion.
describeValue(__uint128_t Value)47 template <> std::string describeValue<__uint128_t>(__uint128_t Value) {
48   std::string S(sizeof(__uint128_t) * 2, '0');
49 
50   for (auto I = S.rbegin(), End = S.rend(); I != End; ++I, Value >>= 4) {
51     unsigned char Mod = static_cast<unsigned char>(Value) & 15;
52     *I = Mod < 10 ? '0' + Mod : 'a' + Mod - 10;
53   }
54 
55   return "0x" + S;
56 }
57 
58 template <typename ValType>
explainDifference(ValType LHS,ValType RHS,const char * LHSStr,const char * RHSStr,const char * File,unsigned long Line,std::string OpString)59 void explainDifference(ValType LHS, ValType RHS, const char *LHSStr,
60                        const char *RHSStr, const char *File, unsigned long Line,
61                        std::string OpString) {
62   size_t OffsetLength = OpString.size() > 2 ? OpString.size() - 2 : 0;
63   std::string Offset(OffsetLength, ' ');
64 
65   std::cout << File << ":" << Line << ": FAILURE\n"
66             << Offset << "Expected: " << LHSStr << '\n'
67             << Offset << "Which is: " << describeValue(LHS) << '\n'
68             << "To be " << OpString << ": " << RHSStr << '\n'
69             << Offset << "Which is: " << describeValue(RHS) << '\n';
70 }
71 
72 template <typename ValType>
test(RunContext * Ctx,TestCondition Cond,ValType LHS,ValType RHS,const char * LHSStr,const char * RHSStr,const char * File,unsigned long Line)73 bool test(RunContext *Ctx, TestCondition Cond, ValType LHS, ValType RHS,
74           const char *LHSStr, const char *RHSStr, const char *File,
75           unsigned long Line) {
76   auto ExplainDifference = [=](std::string OpString) {
77     explainDifference(LHS, RHS, LHSStr, RHSStr, File, Line, OpString);
78   };
79 
80   switch (Cond) {
81   case Cond_EQ:
82     if (LHS == RHS)
83       return true;
84 
85     Ctx->markFail();
86     ExplainDifference("equal to");
87     return false;
88   case Cond_NE:
89     if (LHS != RHS)
90       return true;
91 
92     Ctx->markFail();
93     ExplainDifference("not equal to");
94     return false;
95   case Cond_LT:
96     if (LHS < RHS)
97       return true;
98 
99     Ctx->markFail();
100     ExplainDifference("less than");
101     return false;
102   case Cond_LE:
103     if (LHS <= RHS)
104       return true;
105 
106     Ctx->markFail();
107     ExplainDifference("less than or equal to");
108     return false;
109   case Cond_GT:
110     if (LHS > RHS)
111       return true;
112 
113     Ctx->markFail();
114     ExplainDifference("greater than");
115     return false;
116   case Cond_GE:
117     if (LHS >= RHS)
118       return true;
119 
120     Ctx->markFail();
121     ExplainDifference("greater than or equal to");
122     return false;
123   default:
124     Ctx->markFail();
125     std::cout << "Unexpected test condition.\n";
126     return false;
127   }
128 }
129 
130 } // namespace internal
131 
132 Test *Test::Start = nullptr;
133 Test *Test::End = nullptr;
134 
addTest(Test * T)135 void Test::addTest(Test *T) {
136   if (End == nullptr) {
137     Start = T;
138     End = T;
139     return;
140   }
141 
142   End->Next = T;
143   End = T;
144 }
145 
runTests()146 int Test::runTests() {
147   int TestCount = 0;
148   int FailCount = 0;
149   for (Test *T = Start; T != nullptr; T = T->Next, ++TestCount) {
150     const char *TestName = T->getName();
151     constexpr auto GREEN = "\033[32m";
152     constexpr auto RED = "\033[31m";
153     constexpr auto RESET = "\033[0m";
154     std::cout << GREEN << "[ RUN      ] " << RESET << TestName << '\n';
155     RunContext Ctx;
156     T->SetUp();
157     T->setContext(&Ctx);
158     T->Run();
159     T->TearDown();
160     auto Result = Ctx.status();
161     switch (Result) {
162     case RunContext::Result_Fail:
163       std::cout << RED << "[  FAILED  ] " << RESET << TestName << '\n';
164       ++FailCount;
165       break;
166     case RunContext::Result_Pass:
167       std::cout << GREEN << "[       OK ] " << RESET << TestName << '\n';
168       break;
169     }
170   }
171 
172   std::cout << "Ran " << TestCount << " tests. "
173             << " PASS: " << TestCount - FailCount << ' '
174             << " FAIL: " << FailCount << '\n';
175 
176   return FailCount > 0 ? 1 : 0;
177 }
178 
179 template bool Test::test<char, 0>(TestCondition Cond, char LHS, char RHS,
180                                   const char *LHSStr, const char *RHSStr,
181                                   const char *File, unsigned long Line);
182 
183 template bool Test::test<short, 0>(TestCondition Cond, short LHS, short RHS,
184                                    const char *LHSStr, const char *RHSStr,
185                                    const char *File, unsigned long Line);
186 
187 template bool Test::test<int, 0>(TestCondition Cond, int LHS, int RHS,
188                                  const char *LHSStr, const char *RHSStr,
189                                  const char *File, unsigned long Line);
190 
191 template bool Test::test<long, 0>(TestCondition Cond, long LHS, long RHS,
192                                   const char *LHSStr, const char *RHSStr,
193                                   const char *File, unsigned long Line);
194 
195 template bool Test::test<long long, 0>(TestCondition Cond, long long LHS,
196                                        long long RHS, const char *LHSStr,
197                                        const char *RHSStr, const char *File,
198                                        unsigned long Line);
199 
200 template bool Test::test<unsigned char, 0>(TestCondition Cond,
201                                            unsigned char LHS, unsigned char RHS,
202                                            const char *LHSStr,
203                                            const char *RHSStr, const char *File,
204                                            unsigned long Line);
205 
206 template bool
207 Test::test<unsigned short, 0>(TestCondition Cond, unsigned short LHS,
208                               unsigned short RHS, const char *LHSStr,
209                               const char *RHSStr, const char *File,
210                               unsigned long Line);
211 
212 template bool Test::test<unsigned int, 0>(TestCondition Cond, unsigned int LHS,
213                                           unsigned int RHS, const char *LHSStr,
214                                           const char *RHSStr, const char *File,
215                                           unsigned long Line);
216 
217 template bool Test::test<unsigned long, 0>(TestCondition Cond,
218                                            unsigned long LHS, unsigned long RHS,
219                                            const char *LHSStr,
220                                            const char *RHSStr, const char *File,
221                                            unsigned long Line);
222 
223 template bool Test::test<bool, 0>(TestCondition Cond, bool LHS, bool RHS,
224                                   const char *LHSStr, const char *RHSStr,
225                                   const char *File, unsigned long Line);
226 
227 template bool
228 Test::test<unsigned long long, 0>(TestCondition Cond, unsigned long long LHS,
229                                   unsigned long long RHS, const char *LHSStr,
230                                   const char *RHSStr, const char *File,
231                                   unsigned long Line);
232 
233 template bool Test::test<__uint128_t, 0>(TestCondition Cond, __uint128_t LHS,
234                                          __uint128_t RHS, const char *LHSStr,
235                                          const char *RHSStr, const char *File,
236                                          unsigned long Line);
237 
testStrEq(const char * LHS,const char * RHS,const char * LHSStr,const char * RHSStr,const char * File,unsigned long Line)238 bool Test::testStrEq(const char *LHS, const char *RHS, const char *LHSStr,
239                      const char *RHSStr, const char *File, unsigned long Line) {
240   return internal::test(Ctx, Cond_EQ, LHS ? std::string(LHS) : std::string(),
241                         RHS ? std::string(RHS) : std::string(), LHSStr, RHSStr,
242                         File, Line);
243 }
244 
testStrNe(const char * LHS,const char * RHS,const char * LHSStr,const char * RHSStr,const char * File,unsigned long Line)245 bool Test::testStrNe(const char *LHS, const char *RHS, const char *LHSStr,
246                      const char *RHSStr, const char *File, unsigned long Line) {
247   return internal::test(Ctx, Cond_NE, LHS ? std::string(LHS) : std::string(),
248                         RHS ? std::string(RHS) : std::string(), LHSStr, RHSStr,
249                         File, Line);
250 }
251 
testMatch(bool MatchResult,MatcherBase & Matcher,const char * LHSStr,const char * RHSStr,const char * File,unsigned long Line)252 bool Test::testMatch(bool MatchResult, MatcherBase &Matcher, const char *LHSStr,
253                      const char *RHSStr, const char *File, unsigned long Line) {
254   if (MatchResult)
255     return true;
256 
257   Ctx->markFail();
258   std::cout << File << ":" << Line << ": FAILURE\n"
259             << "Failed to match " << LHSStr << " against " << RHSStr << ".\n";
260   testutils::StreamWrapper OutsWrapper = testutils::outs();
261   Matcher.explainError(OutsWrapper);
262   return false;
263 }
264 
testProcessKilled(testutils::FunctionCaller * Func,int Signal,const char * LHSStr,const char * RHSStr,const char * File,unsigned long Line)265 bool Test::testProcessKilled(testutils::FunctionCaller *Func, int Signal,
266                              const char *LHSStr, const char *RHSStr,
267                              const char *File, unsigned long Line) {
268   testutils::ProcessStatus Result = testutils::invokeInSubprocess(Func, 500);
269 
270   if (const char *error = Result.getError()) {
271     Ctx->markFail();
272     std::cout << File << ":" << Line << ": FAILURE\n" << error << '\n';
273     return false;
274   }
275 
276   if (Result.timedOut()) {
277     Ctx->markFail();
278     std::cout << File << ":" << Line << ": FAILURE\n"
279               << "Process timed out after " << 500 << " milliseconds.\n";
280     return false;
281   }
282 
283   if (Result.exitedNormally()) {
284     Ctx->markFail();
285     std::cout << File << ":" << Line << ": FAILURE\n"
286               << "Expected " << LHSStr
287               << " to be killed by a signal\nBut it exited normally!\n";
288     return false;
289   }
290 
291   int KilledBy = Result.getFatalSignal();
292   assert(KilledBy != 0 && "Not killed by any signal");
293   if (Signal == -1 || KilledBy == Signal)
294     return true;
295 
296   using testutils::signalAsString;
297   Ctx->markFail();
298   std::cout << File << ":" << Line << ": FAILURE\n"
299             << "              Expected: " << LHSStr << '\n'
300             << "To be killed by signal: " << Signal << '\n'
301             << "              Which is: " << signalAsString(Signal) << '\n'
302             << "  But it was killed by: " << KilledBy << '\n'
303             << "              Which is: " << signalAsString(KilledBy) << '\n';
304   return false;
305 }
306 
testProcessExits(testutils::FunctionCaller * Func,int ExitCode,const char * LHSStr,const char * RHSStr,const char * File,unsigned long Line)307 bool Test::testProcessExits(testutils::FunctionCaller *Func, int ExitCode,
308                             const char *LHSStr, const char *RHSStr,
309                             const char *File, unsigned long Line) {
310   testutils::ProcessStatus Result = testutils::invokeInSubprocess(Func, 500);
311 
312   if (const char *error = Result.getError()) {
313     Ctx->markFail();
314     std::cout << File << ":" << Line << ": FAILURE\n" << error << '\n';
315     return false;
316   }
317 
318   if (Result.timedOut()) {
319     Ctx->markFail();
320     std::cout << File << ":" << Line << ": FAILURE\n"
321               << "Process timed out after " << 500 << " milliseconds.\n";
322     return false;
323   }
324 
325   if (!Result.exitedNormally()) {
326     Ctx->markFail();
327     std::cout << File << ":" << Line << ": FAILURE\n"
328               << "Expected " << LHSStr << '\n'
329               << "to exit with exit code " << ExitCode << '\n'
330               << "But it exited abnormally!\n";
331     return false;
332   }
333 
334   int ActualExit = Result.getExitCode();
335   if (ActualExit == ExitCode)
336     return true;
337 
338   Ctx->markFail();
339   std::cout << File << ":" << Line << ": FAILURE\n"
340             << "Expected exit code of: " << LHSStr << '\n'
341             << "             Which is: " << ActualExit << '\n'
342             << "       To be equal to: " << RHSStr << '\n'
343             << "             Which is: " << ExitCode << '\n';
344   return false;
345 }
346 
347 } // namespace testing
348 } // namespace __llvm_libc
349 
main()350 int main() { return __llvm_libc::testing::Test::runTests(); }
351