lix/src/libutil/tests/tests.cc
2020-05-08 11:35:57 +02:00

589 lines
17 KiB
C++

#include "util.hh"
#include "types.hh"
#include <gtest/gtest.h>
namespace nix {
/* ----------------------------------------------------------------------------
* absPath
* --------------------------------------------------------------------------*/
TEST(absPath, doesntChangeRoot) {
auto p = absPath("/");
ASSERT_EQ(p, "/");
}
TEST(absPath, turnsEmptyPathIntoCWD) {
char cwd[PATH_MAX+1];
auto p = absPath("");
ASSERT_EQ(p, getcwd((char*)&cwd, PATH_MAX));
}
TEST(absPath, usesOptionalBasePathWhenGiven) {
char _cwd[PATH_MAX+1];
char* cwd = getcwd((char*)&_cwd, PATH_MAX);
auto p = absPath("", cwd);
ASSERT_EQ(p, cwd);
}
TEST(absPath, isIdempotent) {
char _cwd[PATH_MAX+1];
char* cwd = getcwd((char*)&_cwd, PATH_MAX);
auto p1 = absPath(cwd);
auto p2 = absPath(p1);
ASSERT_EQ(p1, p2);
}
TEST(absPath, pathIsCanonicalised) {
auto path = "/some/path/with/trailing/dot/.";
auto p1 = absPath(path);
auto p2 = absPath(p1);
ASSERT_EQ(p1, "/some/path/with/trailing/dot");
ASSERT_EQ(p1, p2);
}
/* ----------------------------------------------------------------------------
* canonPath
* --------------------------------------------------------------------------*/
TEST(canonPath, removesTrailingSlashes) {
auto path = "/this/is/a/path//";
auto p = canonPath(path);
ASSERT_EQ(p, "/this/is/a/path");
}
TEST(canonPath, removesDots) {
auto path = "/this/./is/a/path/./";
auto p = canonPath(path);
ASSERT_EQ(p, "/this/is/a/path");
}
TEST(canonPath, removesDots2) {
auto path = "/this/a/../is/a////path/foo/..";
auto p = canonPath(path);
ASSERT_EQ(p, "/this/is/a/path");
}
TEST(canonPath, requiresAbsolutePath) {
ASSERT_ANY_THROW(canonPath("."));
ASSERT_ANY_THROW(canonPath(".."));
ASSERT_ANY_THROW(canonPath("../"));
ASSERT_DEATH({ canonPath(""); }, "path != \"\"");
}
/* ----------------------------------------------------------------------------
* dirOf
* --------------------------------------------------------------------------*/
// XXX: according to the doc of `dirOf`, dirOf("/") and dirOf("/foo")
// should both return "" but it actually returns "/" in both cases
TEST(dirOf, DISABLED_returnsEmptyStringForRoot) {
auto p = dirOf("/");
ASSERT_EQ(p, "");
}
TEST(dirOf, returnsFirstPathComponent) {
auto p1 = dirOf("/dir/");
ASSERT_EQ(p1, "/dir");
auto p2 = dirOf("/dir");
ASSERT_EQ(p2, "/");
auto p3 = dirOf("/dir/..");
ASSERT_EQ(p3, "/dir");
auto p4 = dirOf("/dir/../");
ASSERT_EQ(p4, "/dir/..");
}
/* ----------------------------------------------------------------------------
* baseNameOf
* --------------------------------------------------------------------------*/
TEST(baseNameOf, emptyPath) {
auto p1 = baseNameOf("");
ASSERT_EQ(p1, "");
}
TEST(baseNameOf, pathOnRoot) {
auto p1 = baseNameOf("/dir");
ASSERT_EQ(p1, "dir");
}
TEST(baseNameOf, relativePath) {
auto p1 = baseNameOf("dir/foo");
ASSERT_EQ(p1, "foo");
}
TEST(baseNameOf, pathWithTrailingSlashRoot) {
auto p1 = baseNameOf("/");
ASSERT_EQ(p1, "");
}
// XXX: according to the doc of `baseNameOf`, baseNameOf("/dir/") should return
// "" but it actually returns "dir"
TEST(baseNameOf, DISABLED_trailingSlash) {
auto p1 = baseNameOf("/dir/");
ASSERT_EQ(p1, "");
}
/* ----------------------------------------------------------------------------
* isInDir
* --------------------------------------------------------------------------*/
TEST(isInDir, trivialCase) {
auto p1 = isInDir("/foo/bar", "/foo");
ASSERT_EQ(p1, true);
}
TEST(isInDir, notInDir) {
auto p1 = isInDir("/zes/foo/bar", "/foo");
ASSERT_EQ(p1, false);
}
// XXX: hm, bug or feature? :) Looking at the implementation
// this might be problematic.
TEST(isInDir, emptyDir) {
auto p1 = isInDir("/zes/foo/bar", "");
ASSERT_EQ(p1, true);
}
/* ----------------------------------------------------------------------------
* isDirOrInDir
* --------------------------------------------------------------------------*/
TEST(isDirOrInDir, trueForSameDirectory) {
ASSERT_EQ(isDirOrInDir("/nix", "/nix"), true);
ASSERT_EQ(isDirOrInDir("/", "/"), true);
}
TEST(isDirOrInDir, trueForEmptyPaths) {
ASSERT_EQ(isDirOrInDir("", ""), true);
}
TEST(isDirOrInDir, falseForDisjunctPaths) {
ASSERT_EQ(isDirOrInDir("/foo", "/bar"), false);
}
TEST(isDirOrInDir, relativePaths) {
ASSERT_EQ(isDirOrInDir("/foo/..", "/foo"), true);
}
// XXX: while it is possible to use "." or ".." in the
// first argument this doesn't seem to work in the second.
TEST(isDirOrInDir, DISABLED_shouldWork) {
ASSERT_EQ(isDirOrInDir("/foo/..", "/foo/."), true);
}
/* ----------------------------------------------------------------------------
* pathExists
* --------------------------------------------------------------------------*/
TEST(pathExists, rootExists) {
ASSERT_TRUE(pathExists("/"));
}
TEST(pathExists, cwdExists) {
ASSERT_TRUE(pathExists("."));
}
TEST(pathExists, bogusPathDoesNotExist) {
ASSERT_FALSE(pathExists("/home/schnitzel/darmstadt/pommes"));
}
/* ----------------------------------------------------------------------------
* concatStringsSep
* --------------------------------------------------------------------------*/
TEST(concatStringsSep, buildCommaSeparatedString) {
Strings strings;
strings.push_back("this");
strings.push_back("is");
strings.push_back("great");
ASSERT_EQ(concatStringsSep(",", strings), "this,is,great");
}
TEST(concatStringsSep, buildStringWithEmptySeparator) {
Strings strings;
strings.push_back("this");
strings.push_back("is");
strings.push_back("great");
ASSERT_EQ(concatStringsSep("", strings), "thisisgreat");
}
TEST(concatStringsSep, buildSingleString) {
Strings strings;
strings.push_back("this");
ASSERT_EQ(concatStringsSep(",", strings), "this");
}
/* ----------------------------------------------------------------------------
* hasPrefix
* --------------------------------------------------------------------------*/
TEST(hasPrefix, emptyStringHasNoPrefix) {
ASSERT_FALSE(hasPrefix("", "foo"));
}
TEST(hasPrefix, emptyStringIsAlwaysPrefix) {
ASSERT_TRUE(hasPrefix("foo", ""));
ASSERT_TRUE(hasPrefix("jshjkfhsadf", ""));
}
TEST(hasPrefix, trivialCase) {
ASSERT_TRUE(hasPrefix("foobar", "foo"));
}
/* ----------------------------------------------------------------------------
* hasSuffix
* --------------------------------------------------------------------------*/
TEST(hasSuffix, emptyStringHasNoSuffix) {
ASSERT_FALSE(hasSuffix("", "foo"));
}
TEST(hasSuffix, trivialCase) {
ASSERT_TRUE(hasSuffix("foo", "foo"));
ASSERT_TRUE(hasSuffix("foobar", "bar"));
}
/* ----------------------------------------------------------------------------
* base64Encode
* --------------------------------------------------------------------------*/
TEST(base64Encode, emptyString) {
ASSERT_EQ(base64Encode(""), "");
}
TEST(base64Encode, encodesAString) {
ASSERT_EQ(base64Encode("quod erat demonstrandum"), "cXVvZCBlcmF0IGRlbW9uc3RyYW5kdW0=");
}
TEST(base64Encode, encodeAndDecode) {
auto s = "quod erat demonstrandum";
auto encoded = base64Encode(s);
auto decoded = base64Decode(encoded);
ASSERT_EQ(decoded, s);
}
/* ----------------------------------------------------------------------------
* base64Decode
* --------------------------------------------------------------------------*/
TEST(base64Decode, emptyString) {
ASSERT_EQ(base64Decode(""), "");
}
TEST(base64Decode, decodeAString) {
ASSERT_EQ(base64Decode("cXVvZCBlcmF0IGRlbW9uc3RyYW5kdW0="), "quod erat demonstrandum");
}
/* ----------------------------------------------------------------------------
* toLower
* --------------------------------------------------------------------------*/
TEST(toLower, emptyString) {
ASSERT_EQ(toLower(""), "");
}
TEST(toLower, nonLetters) {
auto s = "!@(*$#)(@#=\\234_";
ASSERT_EQ(toLower(s), s);
}
// XXX: std::tolower() doesn't cover this. This probably doesn't matter
// since the context is paths and store paths specifically where such
// characters are not allowed.
TEST(toLower, DISABLED_umlauts) {
auto s = "ÄÖÜ";
ASSERT_EQ(toLower(s), "äöü");
}
/* ----------------------------------------------------------------------------
* string2Float
* --------------------------------------------------------------------------*/
TEST(string2Float, emptyString) {
double n;
ASSERT_EQ(string2Float("", n), false);
}
TEST(string2Float, trivialConversions) {
double n;
ASSERT_EQ(string2Float("1.0", n), true);
ASSERT_EQ(n, 1.0);
ASSERT_EQ(string2Float("0.0", n), true);
ASSERT_EQ(n, 0.0);
ASSERT_EQ(string2Float("-100.25", n), true);
ASSERT_EQ(n, (-100.25));
}
/* ----------------------------------------------------------------------------
* string2Int
* --------------------------------------------------------------------------*/
TEST(string2Int, emptyString) {
double n;
ASSERT_EQ(string2Int("", n), false);
}
TEST(string2Int, trivialConversions) {
double n;
ASSERT_EQ(string2Int("1", n), true);
ASSERT_EQ(n, 1);
ASSERT_EQ(string2Int("0", n), true);
ASSERT_EQ(n, 0);
ASSERT_EQ(string2Int("-100", n), true);
ASSERT_EQ(n, (-100));
}
/* ----------------------------------------------------------------------------
* statusOk
* --------------------------------------------------------------------------*/
TEST(statusOk, zeroIsOk) {
ASSERT_EQ(statusOk(0), true);
ASSERT_EQ(statusOk(1), false);
}
/* ----------------------------------------------------------------------------
* rewriteStrings
* --------------------------------------------------------------------------*/
TEST(rewriteStrings, emptyString) {
StringMap rewrites;
rewrites["this"] = "that";
ASSERT_EQ(rewriteStrings("", rewrites), "");
}
TEST(rewriteStrings, emptyRewrites) {
StringMap rewrites;
ASSERT_EQ(rewriteStrings("this and that", rewrites), "this and that");
}
TEST(rewriteStrings, successfulRewrite) {
StringMap rewrites;
rewrites["this"] = "that";
ASSERT_EQ(rewriteStrings("this and that", rewrites), "that and that");
}
TEST(rewriteStrings, doesntOccur) {
StringMap rewrites;
rewrites["foo"] = "bar";
ASSERT_EQ(rewriteStrings("this and that", rewrites), "this and that");
}
/* ----------------------------------------------------------------------------
* replaceStrings
* --------------------------------------------------------------------------*/
TEST(replaceStrings, emptyString) {
ASSERT_EQ(replaceStrings("", "this", "that"), "");
ASSERT_EQ(replaceStrings("this and that", "", ""), "this and that");
}
TEST(replaceStrings, successfulReplace) {
ASSERT_EQ(replaceStrings("this and that", "this", "that"), "that and that");
}
TEST(replaceStrings, doesntOccur) {
ASSERT_EQ(replaceStrings("this and that", "foo", "bar"), "this and that");
}
/* ----------------------------------------------------------------------------
* trim
* --------------------------------------------------------------------------*/
TEST(trim, emptyString) {
ASSERT_EQ(trim(""), "");
}
TEST(trim, removesWhitespace) {
ASSERT_EQ(trim("foo"), "foo");
ASSERT_EQ(trim(" foo "), "foo");
ASSERT_EQ(trim(" foo bar baz"), "foo bar baz");
ASSERT_EQ(trim(" \t foo bar baz\n"), "foo bar baz");
}
/* ----------------------------------------------------------------------------
* chomp
* --------------------------------------------------------------------------*/
TEST(chomp, emptyString) {
ASSERT_EQ(chomp(""), "");
}
TEST(chomp, removesWhitespace) {
ASSERT_EQ(chomp("foo"), "foo");
ASSERT_EQ(chomp("foo "), "foo");
ASSERT_EQ(chomp(" foo "), " foo");
ASSERT_EQ(chomp(" foo bar baz "), " foo bar baz");
ASSERT_EQ(chomp("\t foo bar baz\n"), "\t foo bar baz");
}
/* ----------------------------------------------------------------------------
* quoteStrings
* --------------------------------------------------------------------------*/
TEST(quoteStrings, empty) {
Strings s = { };
Strings expected = { };
ASSERT_EQ(quoteStrings(s), expected);
}
TEST(quoteStrings, emptyStrings) {
Strings s = { "", "", "" };
Strings expected = { "''", "''", "''" };
ASSERT_EQ(quoteStrings(s), expected);
}
TEST(quoteStrings, trivialQuote) {
Strings s = { "foo", "bar", "baz" };
Strings expected = { "'foo'", "'bar'", "'baz'" };
ASSERT_EQ(quoteStrings(s), expected);
}
TEST(quoteStrings, quotedStrings) {
Strings s = { "'foo'", "'bar'", "'baz'" };
Strings expected = { "''foo''", "''bar''", "''baz''" };
ASSERT_EQ(quoteStrings(s), expected);
}
/* ----------------------------------------------------------------------------
* tokenizeString
* --------------------------------------------------------------------------*/
TEST(tokenizeString, empty) {
Strings expected = { };
ASSERT_EQ(tokenizeString<Strings>(""), expected);
}
TEST(tokenizeString, tokenizeSpacesWithDefaults) {
auto s = "foo bar baz";
Strings expected = { "foo", "bar", "baz" };
ASSERT_EQ(tokenizeString<Strings>(s), expected);
}
TEST(tokenizeString, tokenizeTabsWithDefaults) {
auto s = "foo\tbar\tbaz";
Strings expected = { "foo", "bar", "baz" };
ASSERT_EQ(tokenizeString<Strings>(s), expected);
}
TEST(tokenizeString, tokenizeTabsSpacesWithDefaults) {
auto s = "foo\t bar\t baz";
Strings expected = { "foo", "bar", "baz" };
ASSERT_EQ(tokenizeString<Strings>(s), expected);
}
TEST(tokenizeString, tokenizeTabsSpacesNewlineWithDefaults) {
auto s = "foo\t\n bar\t\n baz";
Strings expected = { "foo", "bar", "baz" };
ASSERT_EQ(tokenizeString<Strings>(s), expected);
}
TEST(tokenizeString, tokenizeTabsSpacesNewlineRetWithDefaults) {
auto s = "foo\t\n\r bar\t\n\r baz";
Strings expected = { "foo", "bar", "baz" };
ASSERT_EQ(tokenizeString<Strings>(s), expected);
auto s2 = "foo \t\n\r bar \t\n\r baz";
Strings expected2 = { "foo", "bar", "baz" };
ASSERT_EQ(tokenizeString<Strings>(s2), expected2);
}
TEST(tokenizeString, tokenizeWithCustomSep) {
auto s = "foo\n,bar\n,baz\n";
Strings expected = { "foo\n", "bar\n", "baz\n" };
ASSERT_EQ(tokenizeString<Strings>(s, ","), expected);
}
/* ----------------------------------------------------------------------------
* get
* --------------------------------------------------------------------------*/
TEST(get, emptyContainer) {
StringMap s = { };
auto expected = std::nullopt;
ASSERT_EQ(get(s, "one"), expected);
}
TEST(get, getFromContainer) {
StringMap s;
s["one"] = "yi";
s["two"] = "er";
auto expected = "yi";
ASSERT_EQ(get(s, "one"), expected);
}
/* ----------------------------------------------------------------------------
* filterANSIEscapes
* --------------------------------------------------------------------------*/
TEST(filterANSIEscapes, emptyString) {
auto s = "";
auto expected = "";
ASSERT_EQ(filterANSIEscapes(s), expected);
}
TEST(filterANSIEscapes, doesntChangePrintableChars) {
auto s = "09 2q304ruyhr slk2-19024 kjsadh sar f";
ASSERT_EQ(filterANSIEscapes(s), s);
}
TEST(filterANSIEscapes, filtersColorCodes) {
auto s = "\u001b[30m A \u001b[31m B \u001b[32m C \u001b[33m D \u001b[0m";
ASSERT_EQ(filterANSIEscapes(s, true, 2), " A" );
ASSERT_EQ(filterANSIEscapes(s, true, 3), " A " );
ASSERT_EQ(filterANSIEscapes(s, true, 4), " A " );
ASSERT_EQ(filterANSIEscapes(s, true, 5), " A B" );
ASSERT_EQ(filterANSIEscapes(s, true, 8), " A B C" );
}
TEST(filterANSIEscapes, expandsTabs) {
auto s = "foo\tbar\tbaz";
ASSERT_EQ(filterANSIEscapes(s, true), "foo bar baz" );
}
}