X-Git-Url: https://git.saurik.com/apt.git/blobdiff_plain/01b810674a34e30eb8bb913b94351cdaccd57e1c..d96c997ebeab76f690564fc1c93a35b1a885adf5:/test/libapt/fileutl_test.cc diff --git a/test/libapt/fileutl_test.cc b/test/libapt/fileutl_test.cc index b6b8ac579..67bd850a1 100644 --- a/test/libapt/fileutl_test.cc +++ b/test/libapt/fileutl_test.cc @@ -1,42 +1,391 @@ +#include + #include #include +#include +#include +#include -#include "assert.h" +#include #include #include - -#include -#include #include +#include + +#include +#include "file-helpers.h" -int main(int argc,char *argv[]) +static void TestFileFd(mode_t const a_umask, mode_t const ExpectedFilePermission, + unsigned int const filemode, APT::Configuration::Compressor const &compressor) { - std::vector files; + std::string trace; + strprintf(trace, "TestFileFd: Compressor: %s umask: %#o permission: %#o mode: %d", compressor.Name.c_str(), a_umask, ExpectedFilePermission, filemode); + SCOPED_TRACE(trace); - // normal match - files = Glob("*.lst"); - if (files.size() != 1) + static const char* fname = "apt-filefd-test.txt"; + if (FileExists(fname) == true) + EXPECT_EQ(0, unlink(fname)); + + FileFd f; + umask(a_umask); + EXPECT_TRUE(f.Open(fname, filemode, compressor)); + EXPECT_TRUE(f.IsOpen()); + EXPECT_FALSE(f.Failed()); + EXPECT_EQ(umask(a_umask), a_umask); + + std::string test = "This is a test!\n"; + EXPECT_TRUE(f.Write(test.c_str(), test.size())); + EXPECT_TRUE(f.IsOpen()); + EXPECT_FALSE(f.Failed()); + + f.Close(); + EXPECT_FALSE(f.IsOpen()); + EXPECT_FALSE(f.Failed()); + + EXPECT_TRUE(f.Open(fname, FileFd::ReadOnly, compressor)); + EXPECT_TRUE(f.IsOpen()); + EXPECT_FALSE(f.Failed()); + EXPECT_FALSE(f.Eof()); + EXPECT_NE(0, f.FileSize()); + EXPECT_FALSE(f.Failed()); + EXPECT_NE(0, f.ModificationTime()); + EXPECT_FALSE(f.Failed()); + + // ensure the memory is as predictably messed up +#define APT_INIT_READBACK \ + char readback[20]; \ + memset(readback, 'D', sizeof(readback)*sizeof(readback[0])); \ + readback[19] = '\0'; +#define EXPECT_N_STR(expect, actual) \ + EXPECT_EQ(0, strncmp(expect, actual, strlen(expect))); + { + APT_INIT_READBACK + char const * const expect = "DDDDDDDDDDDDDDDDDDD"; + EXPECT_STREQ(expect,readback); + EXPECT_N_STR(expect, readback); + } + { + APT_INIT_READBACK + char const * const expect = "This"; + EXPECT_TRUE(f.Read(readback, strlen(expect))); + EXPECT_FALSE(f.Failed()); + EXPECT_FALSE(f.Eof()); + EXPECT_N_STR(expect, readback); + EXPECT_EQ(strlen(expect), f.Tell()); + } + { + APT_INIT_READBACK + char const * const expect = "test!\n"; + EXPECT_TRUE(f.Skip((test.size() - f.Tell()) - strlen(expect))); + EXPECT_TRUE(f.Read(readback, strlen(expect))); + EXPECT_FALSE(f.Failed()); + EXPECT_FALSE(f.Eof()); + EXPECT_N_STR(expect, readback); + EXPECT_EQ(test.size(), f.Tell()); + } + // Non-zero backwards seek + { + APT_INIT_READBACK + char const * const expect = "is"; + EXPECT_EQ(test.size(), f.Tell()); + EXPECT_TRUE(f.Seek(5)); + EXPECT_TRUE(f.Read(readback, strlen(expect))); + EXPECT_FALSE(f.Failed()); + EXPECT_FALSE(f.Eof()); + EXPECT_N_STR(expect, readback); + EXPECT_EQ(7, f.Tell()); + } + { + APT_INIT_READBACK + EXPECT_TRUE(f.Seek(0)); + EXPECT_FALSE(f.Eof()); + EXPECT_TRUE(f.Read(readback, 20, true)); + EXPECT_FALSE(f.Failed()); + EXPECT_TRUE(f.Eof()); + EXPECT_N_STR(test.c_str(), readback); + EXPECT_EQ(f.Size(), f.Tell()); + } { - _error->DumpErrors(); - return 1; + APT_INIT_READBACK + EXPECT_TRUE(f.Seek(0)); + EXPECT_FALSE(f.Eof()); + EXPECT_TRUE(f.Read(readback, test.size(), true)); + EXPECT_FALSE(f.Failed()); + EXPECT_FALSE(f.Eof()); + EXPECT_N_STR(test.c_str(), readback); + EXPECT_EQ(f.Size(), f.Tell()); } + { + APT_INIT_READBACK + EXPECT_TRUE(f.Seek(0)); + EXPECT_FALSE(f.Eof()); + unsigned long long actual; + EXPECT_TRUE(f.Read(readback, 20, &actual)); + EXPECT_FALSE(f.Failed()); + EXPECT_TRUE(f.Eof()); + EXPECT_EQ(test.size(), actual); + EXPECT_N_STR(test.c_str(), readback); + EXPECT_EQ(f.Size(), f.Tell()); + } + { + APT_INIT_READBACK + EXPECT_TRUE(f.Seek(0)); + EXPECT_FALSE(f.Eof()); + f.ReadLine(readback, 20); + EXPECT_FALSE(f.Failed()); + EXPECT_FALSE(f.Eof()); + EXPECT_EQ(test, readback); + EXPECT_EQ(f.Size(), f.Tell()); + } + { + APT_INIT_READBACK + EXPECT_TRUE(f.Seek(0)); + EXPECT_FALSE(f.Eof()); + char const * const expect = "This"; + f.ReadLine(readback, strlen(expect) + 1); + EXPECT_FALSE(f.Failed()); + EXPECT_FALSE(f.Eof()); + EXPECT_N_STR(expect, readback); + EXPECT_EQ(strlen(expect), f.Tell()); + } +#undef APT_INIT_READBACK - // not there - files = Glob("xxxyyyzzz"); - if (files.size() != 0 || _error->PendingError()) + f.Close(); + EXPECT_FALSE(f.IsOpen()); + EXPECT_FALSE(f.Failed()); + + // regression test for permission bug LP: #1304657 + struct stat buf; + EXPECT_EQ(0, stat(fname, &buf)); + EXPECT_EQ(0, unlink(fname)); + EXPECT_EQ(ExpectedFilePermission, buf.st_mode & 0777); +} + +static void TestFileFd(unsigned int const filemode) +{ + auto const compressors = APT::Configuration::getCompressors(); + EXPECT_EQ(7, compressors.size()); + bool atLeastOneWasTested = false; + for (auto const &c: compressors) { - _error->DumpErrors(); - return 1; + if ((filemode & FileFd::ReadWrite) == FileFd::ReadWrite && + (c.Name.empty() != true && c.Binary.empty() != true)) + continue; + atLeastOneWasTested = true; + TestFileFd(0002, 0664, filemode, c); + TestFileFd(0022, 0644, filemode, c); + TestFileFd(0077, 0600, filemode, c); + TestFileFd(0026, 0640, filemode, c); } + EXPECT_TRUE(atLeastOneWasTested); +} + +TEST(FileUtlTest, FileFD) +{ + // testing the (un)compress via pipe, as the 'real' compressors are usually built in via libraries + _config->Set("APT::Compressor::rev::Name", "rev"); + _config->Set("APT::Compressor::rev::Extension", ".reversed"); + _config->Set("APT::Compressor::rev::Binary", "rev"); + _config->Set("APT::Compressor::rev::Cost", 10); + auto const compressors = APT::Configuration::getCompressors(false); + EXPECT_EQ(7, compressors.size()); + EXPECT_TRUE(std::any_of(compressors.begin(), compressors.end(), [](APT::Configuration::Compressor const &c) { return c.Name == "rev"; })); + + std::string const startdir = SafeGetCWD(); + EXPECT_FALSE(startdir.empty()); + std::string tempdir; + createTemporaryDirectory("filefd", tempdir); + EXPECT_EQ(0, chdir(tempdir.c_str())); + + TestFileFd(FileFd::WriteOnly | FileFd::Create); + TestFileFd(FileFd::WriteOnly | FileFd::Create | FileFd::Empty); + TestFileFd(FileFd::WriteOnly | FileFd::Create | FileFd::Exclusive); + TestFileFd(FileFd::WriteOnly | FileFd::Atomic); + TestFileFd(FileFd::WriteOnly | FileFd::Create | FileFd::Atomic); + // short-hands for ReadWrite with these modes + TestFileFd(FileFd::WriteEmpty); + TestFileFd(FileFd::WriteAny); + TestFileFd(FileFd::WriteTemp); + TestFileFd(FileFd::WriteAtomic); + + EXPECT_EQ(0, chdir(startdir.c_str())); + removeDirectory(tempdir); +} +TEST(FileUtlTest, Glob) +{ + std::vector files; + // normal match + files = Glob("*MakeLists.txt"); + EXPECT_EQ(1, files.size()); + + // not there + files = Glob("xxxyyyzzz"); + EXPECT_TRUE(files.empty()); + EXPECT_FALSE(_error->PendingError()); // many matches (number is a bit random) files = Glob("*.cc"); - if (files.size() < 10) + EXPECT_LT(10, files.size()); +} +TEST(FileUtlTest, GetTempDir) +{ + char const * const envtmp = getenv("TMPDIR"); + std::string old_tmpdir; + if (envtmp != NULL) + old_tmpdir = envtmp; + + unsetenv("TMPDIR"); + EXPECT_EQ("/tmp", GetTempDir()); + + setenv("TMPDIR", "", 1); + EXPECT_EQ("/tmp", GetTempDir()); + + setenv("TMPDIR", "/not-there-no-really-not", 1); + EXPECT_EQ("/tmp", GetTempDir()); + + // root can access everything, so /usr will be accepted + if (geteuid() != 0) { - _error->DumpErrors(); - return 1; + // here but not accessible for non-roots + setenv("TMPDIR", "/usr", 1); + EXPECT_EQ("/tmp", GetTempDir()); } - return 0; + // files are no good for tmpdirs, too + setenv("TMPDIR", "/dev/null", 1); + EXPECT_EQ("/tmp", GetTempDir()); + + setenv("TMPDIR", "/var/tmp", 1); + EXPECT_EQ("/var/tmp", GetTempDir()); + + unsetenv("TMPDIR"); + if (old_tmpdir.empty() == false) + setenv("TMPDIR", old_tmpdir.c_str(), 1); +} +TEST(FileUtlTest, Popen) +{ + FileFd Fd; + pid_t Child; + char buf[1024]; + std::string s; + unsigned long long n = 0; + std::vector OpenFds; + + // count Fds to ensure we don't have a resource leak + if(FileExists("/proc/self/fd")) + OpenFds = Glob("/proc/self/fd/*"); + + // output something + const char* Args[10] = {"/bin/echo", "meepmeep", NULL}; + EXPECT_TRUE(Popen(Args, Fd, Child, FileFd::ReadOnly)); + EXPECT_TRUE(Fd.Read(buf, sizeof(buf)-1, &n)); + buf[n] = 0; + EXPECT_NE(n, 0); + EXPECT_STREQ(buf, "meepmeep\n"); + + // wait for the child to exit and cleanup + EXPECT_TRUE(ExecWait(Child, "PopenRead")); + EXPECT_TRUE(Fd.Close()); + + // ensure that after a close all is good again + if(FileExists("/proc/self/fd")) + EXPECT_EQ(Glob("/proc/self/fd/*").size(), OpenFds.size()); + + // ReadWrite is not supported + _error->PushToStack(); + EXPECT_FALSE(Popen(Args, Fd, Child, FileFd::ReadWrite)); + EXPECT_FALSE(Fd.IsOpen()); + EXPECT_FALSE(Fd.Failed()); + EXPECT_TRUE(_error->PendingError()); + _error->RevertToStack(); + + // write something + Args[0] = "/bin/bash"; + Args[1] = "-c"; + Args[2] = "read"; + Args[3] = NULL; + EXPECT_TRUE(Popen(Args, Fd, Child, FileFd::WriteOnly)); + s = "\n"; + EXPECT_TRUE(Fd.Write(s.c_str(), s.length())); + EXPECT_TRUE(Fd.Close()); + EXPECT_FALSE(Fd.IsOpen()); + EXPECT_FALSE(Fd.Failed()); + EXPECT_TRUE(ExecWait(Child, "PopenWrite")); +} +TEST(FileUtlTest, flAbsPath) +{ + std::string cwd = SafeGetCWD(); + int res = chdir("/etc/"); + EXPECT_EQ(res, 0); + std::string p = flAbsPath("passwd"); + EXPECT_EQ(p, "/etc/passwd"); + + res = chdir(cwd.c_str()); + EXPECT_EQ(res, 0); +} + +static void TestDevNullFileFd(unsigned int const filemode) +{ + SCOPED_TRACE(filemode); + FileFd f("/dev/null", filemode); + EXPECT_FALSE(f.Failed()); + EXPECT_TRUE(f.IsOpen()); + EXPECT_TRUE(f.IsOpen()); + + std::string test = "This is a test!\n"; + EXPECT_TRUE(f.Write(test.c_str(), test.size())); + EXPECT_TRUE(f.IsOpen()); + EXPECT_FALSE(f.Failed()); + + f.Close(); + EXPECT_FALSE(f.IsOpen()); + EXPECT_FALSE(f.Failed()); +} +TEST(FileUtlTest, WorkingWithDevNull) +{ + TestDevNullFileFd(FileFd::WriteOnly | FileFd::Create); + TestDevNullFileFd(FileFd::WriteOnly | FileFd::Create | FileFd::Empty); + TestDevNullFileFd(FileFd::WriteOnly | FileFd::Create | FileFd::Exclusive); + TestDevNullFileFd(FileFd::WriteOnly | FileFd::Atomic); + TestDevNullFileFd(FileFd::WriteOnly | FileFd::Create | FileFd::Atomic); + // short-hands for ReadWrite with these modes + TestDevNullFileFd(FileFd::WriteEmpty); + TestDevNullFileFd(FileFd::WriteAny); + TestDevNullFileFd(FileFd::WriteTemp); + TestDevNullFileFd(FileFd::WriteAtomic); +} +constexpr char const * const TESTSTRING = "This is a test"; +static void TestFailingAtomicKeepsFile(char const * const label, std::string const &filename) +{ + SCOPED_TRACE(label); + EXPECT_TRUE(FileExists(filename)); + FileFd fd; + EXPECT_TRUE(fd.Open(filename, FileFd::ReadOnly)); + char buffer[50]; + EXPECT_NE(nullptr, fd.ReadLine(buffer, sizeof(buffer))); + EXPECT_STREQ(TESTSTRING, buffer); +} +TEST(FileUtlTest, FailingAtomic) +{ + FileFd fd; + std::string filename; + createTemporaryFile("failingatomic", fd, &filename, TESTSTRING); + TestFailingAtomicKeepsFile("init", filename); + + FileFd f; + EXPECT_TRUE(f.Open(filename, FileFd::ReadWrite | FileFd::Atomic)); + f.EraseOnFailure(); + EXPECT_FALSE(f.Failed()); + EXPECT_TRUE(f.IsOpen()); + TestFailingAtomicKeepsFile("before-fail", filename); + EXPECT_TRUE(f.Write("Bad file write", 10)); + f.OpFail(); + EXPECT_TRUE(f.Failed()); + TestFailingAtomicKeepsFile("after-fail", filename); + EXPECT_TRUE(f.Close()); + TestFailingAtomicKeepsFile("closed", filename); + + if (filename.empty() == false) + unlink(filename.c_str()); }