platform_bionic/tests/grp_pwd_test.cpp

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/*
* Copyright (C) 2012 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <gtest/gtest.h>
// Below are the header files we want to test.
#include <grp.h>
#include <pwd.h>
#include <errno.h>
#include <limits.h>
#include <sys/cdefs.h>
#include <sys/types.h>
#include <unistd.h>
#include <set>
#include <vector>
#include <android-base/strings.h>
#include <private/android_filesystem_config.h>
// Generated android_ids array
#include "generated_android_ids.h"
using android::base::Join;
enum uid_type_t {
TYPE_SYSTEM,
TYPE_APP
};
#if defined(__BIONIC__)
static void check_passwd(const passwd* pwd, const char* username, uid_t uid, uid_type_t uid_type,
bool check_username) {
ASSERT_TRUE(pwd != NULL);
if (check_username) {
EXPECT_STREQ(username, pwd->pw_name);
}
EXPECT_EQ(uid, pwd->pw_uid);
EXPECT_EQ(uid, pwd->pw_gid);
EXPECT_EQ(NULL, pwd->pw_passwd);
#ifdef __LP64__
EXPECT_EQ(NULL, pwd->pw_gecos);
#endif
if (uid_type == TYPE_SYSTEM) {
EXPECT_STREQ("/", pwd->pw_dir);
} else {
EXPECT_STREQ("/data", pwd->pw_dir);
}
EXPECT_STREQ("/system/bin/sh", pwd->pw_shell);
}
static void check_getpwuid(const char* username, uid_t uid, uid_type_t uid_type,
bool check_username) {
errno = 0;
passwd* pwd = getpwuid(uid);
ASSERT_EQ(0, errno);
SCOPED_TRACE("getpwuid");
check_passwd(pwd, username, uid, uid_type, check_username);
}
static void check_getpwnam(const char* username, uid_t uid, uid_type_t uid_type,
bool check_username) {
errno = 0;
passwd* pwd = getpwnam(username);
ASSERT_EQ(0, errno);
SCOPED_TRACE("getpwnam");
check_passwd(pwd, username, uid, uid_type, check_username);
}
static void check_getpwuid_r(const char* username, uid_t uid, uid_type_t uid_type,
bool check_username) {
passwd pwd_storage;
char buf[512];
int result;
errno = 0;
passwd* pwd = NULL;
result = getpwuid_r(uid, &pwd_storage, buf, sizeof(buf), &pwd);
ASSERT_EQ(0, result);
ASSERT_EQ(0, errno);
SCOPED_TRACE("getpwuid_r");
check_passwd(pwd, username, uid, uid_type, check_username);
}
static void check_getpwnam_r(const char* username, uid_t uid, uid_type_t uid_type,
bool check_username) {
passwd pwd_storage;
char buf[512];
int result;
errno = 0;
passwd* pwd = NULL;
result = getpwnam_r(username, &pwd_storage, buf, sizeof(buf), &pwd);
ASSERT_EQ(0, result);
ASSERT_EQ(0, errno);
SCOPED_TRACE("getpwnam_r");
check_passwd(pwd, username, uid, uid_type, check_username);
}
static void check_get_passwd(const char* username, uid_t uid, uid_type_t uid_type,
bool check_username = true) {
check_getpwuid(username, uid, uid_type, check_username);
check_getpwnam(username, uid, uid_type, check_username);
check_getpwuid_r(username, uid, uid_type, check_username);
check_getpwnam_r(username, uid, uid_type, check_username);
}
#else // !defined(__BIONIC__)
static void print_no_getpwnam_test_info() {
GTEST_LOG_(INFO) << "This test is about uid/username translation for Android, which does nothing on libc other than bionic.\n";
}
static void check_get_passwd(const char* /* username */, uid_t /* uid */, uid_type_t /* uid_type */,
bool /* check_username */) {
print_no_getpwnam_test_info();
}
static void check_get_passwd(const char* /* username */, uid_t /* uid */, uid_type_t /* uid_type */) {
print_no_getpwnam_test_info();
}
#endif
TEST(pwd, getpwnam_system_id_root) {
check_get_passwd("root", 0, TYPE_SYSTEM);
}
TEST(pwd, getpwnam_system_id_system) {
check_get_passwd("system", 1000, TYPE_SYSTEM);
}
TEST(pwd, getpwnam_app_id_radio) {
check_get_passwd("radio", 1001, TYPE_SYSTEM);
}
TEST(pwd, getpwnam_oem_id_5000) {
check_get_passwd("oem_5000", 5000, TYPE_SYSTEM, false);
}
TEST(pwd, getpwnam_oem_id_5999) {
check_get_passwd("oem_5999", 5999, TYPE_SYSTEM, false);
}
TEST(pwd, getpwnam_oem_id_2900) {
check_get_passwd("oem_2900", 2900, TYPE_SYSTEM, false);
}
TEST(pwd, getpwnam_oem_id_2999) {
check_get_passwd("oem_2999", 2999, TYPE_SYSTEM, false);
}
TEST(pwd, getpwnam_app_id_nobody) {
check_get_passwd("nobody", 9999, TYPE_SYSTEM);
}
TEST(pwd, getpwnam_app_id_u0_a0) {
check_get_passwd("u0_a0", 10000, TYPE_APP);
}
TEST(pwd, getpwnam_app_id_u0_a1234) {
check_get_passwd("u0_a1234", 11234, TYPE_APP);
}
// Test the difference between uid and shared gid.
TEST(pwd, getpwnam_app_id_u0_a49999) {
check_get_passwd("u0_a49999", 59999, TYPE_APP);
}
TEST(pwd, getpwnam_app_id_u0_i1) {
check_get_passwd("u0_i1", 99001, TYPE_APP);
}
TEST(pwd, getpwnam_app_id_u1_root) {
check_get_passwd("u1_root", 100000, TYPE_SYSTEM);
}
TEST(pwd, getpwnam_app_id_u1_radio) {
check_get_passwd("u1_radio", 101001, TYPE_SYSTEM);
}
TEST(pwd, getpwnam_app_id_u1_a0) {
check_get_passwd("u1_a0", 110000, TYPE_APP);
}
TEST(pwd, getpwnam_app_id_u1_a40000) {
check_get_passwd("u1_a40000", 150000, TYPE_APP);
}
TEST(pwd, getpwnam_app_id_u1_i0) {
check_get_passwd("u1_i0", 199000, TYPE_APP);
}
template <typename T>
static void expect_ids(const T& ids) {
std::set<typename T::key_type> expected_ids;
// Ensure that all android_ids are iterated through.
for (size_t n = 0; n < android_id_count; ++n) {
EXPECT_EQ(1U, ids.count(android_ids[n].aid)) << "android_ids[n].aid: " << android_ids[n].aid;
expected_ids.emplace(android_ids[n].aid);
}
auto expect_range = [&ids, &expected_ids](uid_t start, uid_t end) {
for (size_t n = start; n <= end; ++n) {
EXPECT_EQ(1U, ids.count(n)) << "n: " << n;
expected_ids.emplace(n);
}
};
// Ensure that all reserved ranges are iterated through.
expect_range(AID_OEM_RESERVED_START, AID_OEM_RESERVED_END);
expect_range(AID_OEM_RESERVED_2_START, AID_OEM_RESERVED_2_END);
expect_range(AID_APP_START, AID_APP_END);
expect_range(AID_CACHE_GID_START, AID_CACHE_GID_END);
expect_range(AID_EXT_GID_START, AID_EXT_GID_END);
expect_range(AID_EXT_CACHE_GID_START, AID_EXT_CACHE_GID_END);
expect_range(AID_SHARED_GID_START, AID_SHARED_GID_END);
expect_range(AID_ISOLATED_START, AID_ISOLATED_END);
// Ensure that no other ids were returned.
auto return_differences = [&ids, &expected_ids] {
std::vector<typename T::key_type> missing_from_ids;
std::set_difference(expected_ids.begin(), expected_ids.end(), ids.begin(), ids.end(),
std::inserter(missing_from_ids, missing_from_ids.begin()));
std::vector<typename T::key_type> extra_in_ids;
std::set_difference(ids.begin(), ids.end(), expected_ids.begin(), expected_ids.end(),
std::inserter(extra_in_ids, extra_in_ids.begin()));
std::string result;
if (!missing_from_ids.empty()) {
result += "Missing ids from results: " + Join(missing_from_ids, " ");
}
if (!extra_in_ids.empty()) {
if (!result.empty()) result += ", ";
result += "Extra ids in results: " + Join(extra_in_ids, " ");
}
return result;
};
EXPECT_EQ(expected_ids, ids) << return_differences();
}
TEST(pwd, getpwent_iterate) {
#if defined(__BIONIC__)
passwd* pwd;
std::set<uid_t> uids;
setpwent();
while ((pwd = getpwent()) != NULL) {
ASSERT_TRUE(NULL != pwd->pw_name);
EXPECT_EQ(pwd->pw_gid, pwd->pw_uid) << "pwd->pw_uid: " << pwd->pw_uid;
EXPECT_EQ(NULL, pwd->pw_passwd) << "pwd->pw_uid: " << pwd->pw_uid;
#ifdef __LP64__
EXPECT_TRUE(NULL == pwd->pw_gecos) << "pwd->pw_uid: " << pwd->pw_uid;
#endif
EXPECT_TRUE(NULL != pwd->pw_shell);
if (pwd->pw_uid < AID_APP_START || pwd->pw_uid == AID_OVERFLOWUID) {
EXPECT_STREQ("/", pwd->pw_dir) << "pwd->pw_uid: " << pwd->pw_uid;
} else {
EXPECT_STREQ("/data", pwd->pw_dir) << "pwd->pw_uid: " << pwd->pw_uid;
}
EXPECT_EQ(0U, uids.count(pwd->pw_uid)) << "pwd->pw_uid: " << pwd->pw_uid;
uids.emplace(pwd->pw_uid);
}
endpwent();
expect_ids(uids);
#else
print_no_getpwnam_test_info();
#endif
}
static void check_group(const group* grp, const char* group_name, gid_t gid,
bool check_groupname = true) {
ASSERT_TRUE(grp != NULL);
if (check_groupname) {
EXPECT_STREQ(group_name, grp->gr_name);
}
EXPECT_EQ(gid, grp->gr_gid);
ASSERT_TRUE(grp->gr_mem != NULL);
if (check_groupname) {
EXPECT_STREQ(group_name, grp->gr_mem[0]);
}
EXPECT_TRUE(grp->gr_mem[1] == NULL);
}
#if defined(__BIONIC__)
static void check_getgrgid(const char* group_name, gid_t gid, bool check_groupname) {
errno = 0;
group* grp = getgrgid(gid);
ASSERT_EQ(0, errno);
SCOPED_TRACE("getgrgid");
check_group(grp, group_name, gid, check_groupname);
}
static void check_getgrnam(const char* group_name, gid_t gid, bool check_groupname) {
errno = 0;
group* grp = getgrnam(group_name);
ASSERT_EQ(0, errno);
SCOPED_TRACE("getgrnam");
check_group(grp, group_name, gid, check_groupname);
}
static void check_getgrgid_r(const char* group_name, gid_t gid, bool check_groupname) {
group grp_storage;
char buf[512];
group* grp;
errno = 0;
int result = getgrgid_r(gid, &grp_storage, buf, sizeof(buf), &grp);
ASSERT_EQ(0, result);
ASSERT_EQ(0, errno);
SCOPED_TRACE("getgrgid_r");
check_group(grp, group_name, gid, check_groupname);
}
static void check_getgrnam_r(const char* group_name, gid_t gid, bool check_groupname) {
group grp_storage;
char buf[512];
group* grp;
errno = 0;
int result = getgrnam_r(group_name, &grp_storage, buf, sizeof(buf), &grp);
ASSERT_EQ(0, result);
ASSERT_EQ(0, errno);
SCOPED_TRACE("getgrnam_r");
check_group(grp, group_name, gid, check_groupname);
}
static void check_get_group(const char* group_name, gid_t gid, bool check_groupname = true) {
check_getgrgid(group_name, gid, check_groupname);
check_getgrnam(group_name, gid, check_groupname);
check_getgrgid_r(group_name, gid, check_groupname);
check_getgrnam_r(group_name, gid, check_groupname);
}
#else // !defined(__BIONIC__)
static void print_no_getgrnam_test_info() {
GTEST_LOG_(INFO) << "This test is about gid/group_name translation for Android, which does nothing on libc other than bionic.\n";
}
static void check_get_group(const char*, gid_t, bool) {
print_no_getgrnam_test_info();
}
static void check_get_group(const char*, gid_t) {
print_no_getgrnam_test_info();
}
#endif
TEST(grp, getgrnam_system_id_root) {
check_get_group("root", 0);
}
TEST(grp, getgrnam_system_id_system) {
check_get_group("system", 1000);
}
TEST(grp, getgrnam_app_id_radio) {
check_get_group("radio", 1001);
}
TEST(grp, getgrnam_oem_id_5000) {
check_get_group("oem_5000", 5000, false);
}
TEST(grp, getgrnam_oem_id_5999) {
check_get_group("oem_5999", 5999, false);
}
TEST(grp, getgrnam_oem_id_2900) {
check_get_group("oem_2900", 2900, false);
}
TEST(grp, getgrnam_oem_id_2999) {
check_get_group("oem_2999", 2999, false);
}
TEST(grp, getgrnam_app_id_nobody) {
check_get_group("nobody", 9999);
}
TEST(grp, getgrnam_app_id_u0_a0) {
check_get_group("u0_a0", 10000);
}
TEST(grp, getgrnam_app_id_u0_a1234) {
check_get_group("u0_a1234", 11234);
}
TEST(grp, getgrnam_app_id_u0_a9999) {
check_get_group("u0_a9999", 19999);
}
TEST(getgrnam, app_id_u0_a0_cache) {
check_get_group("u0_a0_cache", 20000);
}
TEST(getgrnam, app_id_u0_a1234_cache) {
check_get_group("u0_a1234_cache", 21234);
}
TEST(getgrnam, app_id_u0_a9999_cache) {
check_get_group("u0_a9999_cache", 29999);
}
TEST(getgrnam, app_id_u10_a1234_cache) {
check_get_group("u10_a1234_cache", 1021234);
}
// Test the difference between uid and shared gid.
TEST(grp, getgrnam_app_id_all_a9999) {
check_get_group("all_a9999", 59999);
}
TEST(grp, getgrnam_app_id_u0_i1) {
check_get_group("u0_i1", 99001);
}
TEST(grp, getgrnam_app_id_u1_root) {
check_get_group("u1_root", 100000);
}
TEST(grp, getgrnam_app_id_u1_radio) {
check_get_group("u1_radio", 101001);
}
TEST(grp, getgrnam_app_id_u1_a0) {
check_get_group("u1_a0", 110000);
}
TEST(grp, getgrnam_app_id_u1_a40000) {
check_get_group("u1_a40000", 150000);
}
TEST(grp, getgrnam_app_id_u1_i0) {
check_get_group("u1_i0", 199000);
}
TEST(grp, getgrnam_r_reentrancy) {
#if defined(__BIONIC__)
group grp_storage[2];
char buf[2][512];
group* grp[3];
int result = getgrnam_r("root", &grp_storage[0], buf[0], sizeof(buf[0]), &grp[0]);
ASSERT_EQ(0, result);
check_group(grp[0], "root", 0);
grp[1] = getgrnam("system");
check_group(grp[1], "system", 1000);
result = getgrnam_r("radio", &grp_storage[1], buf[1], sizeof(buf[1]), &grp[2]);
ASSERT_EQ(0, result);
check_group(grp[2], "radio", 1001);
check_group(grp[0], "root", 0);
check_group(grp[1], "system", 1000);
#else
print_no_getgrnam_test_info();
#endif
}
TEST(grp, getgrgid_r_reentrancy) {
#if defined(__BIONIC__)
group grp_storage[2];
char buf[2][512];
group* grp[3];
int result = getgrgid_r(0, &grp_storage[0], buf[0], sizeof(buf[0]), &grp[0]);
ASSERT_EQ(0, result);
check_group(grp[0], "root", 0);
grp[1] = getgrgid(1000);
check_group(grp[1], "system", 1000);
result = getgrgid_r(1001, &grp_storage[1], buf[1], sizeof(buf[1]), &grp[2]);
ASSERT_EQ(0, result);
check_group(grp[2], "radio", 1001);
check_group(grp[0], "root", 0);
check_group(grp[1], "system", 1000);
#else
print_no_getgrnam_test_info();
#endif
}
TEST(grp, getgrnam_r_large_enough_suggested_buffer_size) {
long size = sysconf(_SC_GETGR_R_SIZE_MAX);
ASSERT_GT(size, 0);
char buf[size];
group grp_storage;
group* grp;
ASSERT_EQ(0, getgrnam_r("root", &grp_storage, buf, size, &grp));
check_group(grp, "root", 0);
}
TEST(grp, getgrent_iterate) {
#if defined(__BIONIC__)
group* grp;
std::set<gid_t> gids;
setgrent();
while ((grp = getgrent()) != NULL) {
ASSERT_TRUE(grp->gr_name != NULL) << "grp->gr_gid: " << grp->gr_gid;
ASSERT_TRUE(grp->gr_mem != NULL) << "grp->gr_gid: " << grp->gr_gid;
EXPECT_STREQ(grp->gr_name, grp->gr_mem[0]) << "grp->gr_gid: " << grp->gr_gid;
EXPECT_TRUE(grp->gr_mem[1] == NULL) << "grp->gr_gid: " << grp->gr_gid;
EXPECT_EQ(0U, gids.count(grp->gr_gid)) << "grp->gr_gid: " << grp->gr_gid;
gids.emplace(grp->gr_gid);
}
endgrent();
expect_ids(gids);
#else
print_no_getgrnam_test_info();
#endif
}