#include <apt-pkg/fileutl.h>
#include <apt-pkg/strutl.h>
#include <apt-pkg/aptconfiguration.h>
+#include <apt-pkg/configuration.h>
+#include <algorithm>
#include <string>
#include <vector>
#include <stdlib.h>
// ensure the memory is as predictably messed up
#define APT_INIT_READBACK \
char readback[20]; \
- memset(readback, 'D', sizeof(readback)/sizeof(readback[0])); \
+ 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_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));
static void TestFileFd(unsigned int const filemode)
{
- std::vector<APT::Configuration::Compressor> compressors = APT::Configuration::getCompressors();
-
- // testing the (un)compress via pipe, as the 'real' compressors are usually built in via libraries
- compressors.push_back(APT::Configuration::Compressor("rev", ".reversed", "rev", NULL, NULL, 42));
- //compressors.push_back(APT::Configuration::Compressor("cat", ".ident", "cat", NULL, NULL, 42));
-
- for (std::vector<APT::Configuration::Compressor>::const_iterator c = compressors.begin(); c != compressors.end(); ++c)
+ auto const compressors = APT::Configuration::getCompressors();
+ EXPECT_EQ(7, compressors.size());
+ bool atLeastOneWasTested = false;
+ for (auto const &c: compressors)
{
if ((filemode & FileFd::ReadWrite) == FileFd::ReadWrite &&
- (c->Name.empty() != true && c->Binary.empty() != true))
+ (c.Name.empty() != true && c.Binary.empty() != true))
continue;
- TestFileFd(0002, 0664, filemode, *c);
- TestFileFd(0022, 0644, filemode, *c);
- TestFileFd(0077, 0600, filemode, *c);
- TestFileFd(0026, 0640, filemode, *c);
+ 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;
{
std::vector<std::string> files;
// normal match
- files = Glob("*akefile");
+ files = Glob("*MakeLists.txt");
EXPECT_EQ(1, files.size());
// not there
setenv("TMPDIR", "/not-there-no-really-not", 1);
EXPECT_EQ("/tmp", GetTempDir());
- setenv("TMPDIR", "/usr", 1);
- EXPECT_EQ("/usr", GetTempDir());
+ // root can access everything, so /usr will be accepted
+ if (geteuid() != 0)
+ {
+ // here but not accessible for non-roots
+ setenv("TMPDIR", "/usr", 1);
+ EXPECT_EQ("/tmp", GetTempDir());
+ }
+
+ // 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;
// output something
const char* Args[10] = {"/bin/echo", "meepmeep", NULL};
- bool res = Popen(Args, Fd, Child, FileFd::ReadOnly);
- Fd.Read(buf, sizeof(buf)-1, &n);
+ 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_EQ(res, true);
EXPECT_STREQ(buf, "meepmeep\n");
// wait for the child to exit and cleanup
- ExecWait(Child, "PopenRead");
- Fd.Close();
+ 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
- res = Popen(Args, Fd, Child, FileFd::ReadWrite);
- EXPECT_EQ(res, false);
- _error->Discard();
+ _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;
- res = Popen(Args, Fd, Child, FileFd::WriteOnly);
+ EXPECT_TRUE(Popen(Args, Fd, Child, FileFd::WriteOnly));
s = "\n";
- Fd.Write(s.c_str(), s.size());
- Fd.Close();
- ExecWait(Child, "PopenWrite");
+ 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());
}