/* lib - common code for testing lib/utilinux:my_system() function Copyright (C) 2013-2024 Free Software Foundation, Inc. Written by: Slava Zanko , 2013 This file is part of the Midnight Commander. The Midnight Commander is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. The Midnight Commander is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include #include #include "lib/vfs/vfs.h" /* --------------------------------------------------------------------------------------------- */ /* @CapturedValue */ static sigset_t *sigemptyset_set__captured; /* @ThenReturnValue */ static int sigemptyset__return_value = 0; #ifdef sigemptyset #undef sigemptyset #endif /* @Mock */ int sigemptyset (sigset_t *set) { sigemptyset_set__captured = set; return sigemptyset__return_value; } /* --------------------------------------------------------------------------------------------- */ /* @CapturedValue */ static GPtrArray *sigaction_signum__captured = NULL; /* @CapturedValue */ static GPtrArray *sigaction_act__captured = NULL; /* @CapturedValue */ static GPtrArray *sigaction_oldact__captured = NULL; /* @ThenReturnValue */ static int sigaction__return_value = 0; /* @Mock */ int my_sigaction (int signum, const struct sigaction *act, struct sigaction *oldact) { int *tmp_signum; struct sigaction *tmp_act; /* store signum */ tmp_signum = g_new (int, 1); memcpy (tmp_signum, &signum, sizeof (*tmp_signum)); if (sigaction_signum__captured != NULL) g_ptr_array_add (sigaction_signum__captured, tmp_signum); /* store act */ if (act != NULL) { tmp_act = g_new (struct sigaction, 1); memcpy (tmp_act, act, sizeof (*tmp_act)); } else tmp_act = NULL; if (sigaction_act__captured != NULL) g_ptr_array_add (sigaction_act__captured, tmp_act); /* store oldact */ if (oldact != NULL) { tmp_act = g_new (struct sigaction, 1); memcpy (tmp_act, oldact, sizeof (*tmp_act)); } else tmp_act = NULL; if (sigaction_oldact__captured != NULL) g_ptr_array_add (sigaction_oldact__captured, tmp_act); return sigaction__return_value; } static void sigaction__init (void) { sigaction_signum__captured = g_ptr_array_new_with_free_func (g_free); sigaction_act__captured = g_ptr_array_new_with_free_func (g_free); sigaction_oldact__captured = g_ptr_array_new_with_free_func (g_free); } static void sigaction__deinit (void) { g_ptr_array_free (sigaction_signum__captured, TRUE); sigaction_signum__captured = NULL; g_ptr_array_free (sigaction_act__captured, TRUE); sigaction_act__captured = NULL; g_ptr_array_free (sigaction_oldact__captured, TRUE); sigaction_oldact__captured = NULL; } /* --------------------------------------------------------------------------------------------- */ /* @CapturedValue */ static GPtrArray *signal_signum__captured; /* @CapturedValue */ static GPtrArray *signal_handler__captured; /* @ThenReturnValue */ static sighandler_t signal__return_value = NULL; /* @Mock */ sighandler_t my_signal (int signum, sighandler_t handler) { int *tmp_signum; sighandler_t *tmp_handler; /* store signum */ tmp_signum = g_new (int, 1); memcpy (tmp_signum, &signum, sizeof (*tmp_signum)); g_ptr_array_add (signal_signum__captured, tmp_signum); /* store handler */ if (handler != SIG_DFL) { tmp_handler = g_new (sighandler_t, 1); memcpy (tmp_handler, handler, sizeof (*tmp_handler)); } else tmp_handler = (void *) SIG_DFL; g_ptr_array_add (signal_handler__captured, tmp_handler); return signal__return_value; } static void signal__init (void) { signal_signum__captured = g_ptr_array_new_with_free_func (g_free); signal_handler__captured = g_ptr_array_new_with_free_func (g_free); } static void signal__deinit (void) { g_ptr_array_free (signal_signum__captured, TRUE); signal_signum__captured = NULL; g_ptr_array_free (signal_handler__captured, TRUE); signal_handler__captured = NULL; } /* --------------------------------------------------------------------------------------------- */ /* @ThenReturnValue */ static pid_t fork__return_value; /* @Mock */ pid_t my_fork (void) { return fork__return_value; } /* --------------------------------------------------------------------------------------------- */ /* @CapturedValue */ static int my_exit__status__captured; /* @Mock */ void my_exit (int status) { my_exit__status__captured = status; } /* --------------------------------------------------------------------------------------------- */ /* @CapturedValue */ static char *execvp__file__captured = NULL; /* @CapturedValue */ static GPtrArray *execvp__args__captured; /* @ThenReturnValue */ static int execvp__return_value = 0; /* @Mock */ int my_execvp (const char *file, char *const argv[]) { char **one_arg; execvp__file__captured = g_strdup (file); for (one_arg = (char **) argv; *one_arg != NULL; one_arg++) g_ptr_array_add (execvp__args__captured, g_strdup (*one_arg)); return execvp__return_value; } static void execvp__init (void) { execvp__args__captured = g_ptr_array_new_with_free_func (g_free); } static void execvp__deinit (void) { g_ptr_array_free (execvp__args__captured, TRUE); execvp__args__captured = NULL; MC_PTR_FREE (execvp__file__captured); } /* --------------------------------------------------------------------------------------------- */ #define VERIFY_SIGACTION__ACT_IGNORED(_pntr) { \ struct sigaction *_act = (struct sigaction *) _pntr; \ mctest_assert_ptr_eq (_act->sa_handler, SIG_IGN); \ ck_assert_int_eq (_act->sa_flags, 0); \ } #define VERIFY_SIGACTION__IS_RESTORED(oldact_idx, act_idx) { \ struct sigaction *_oldact = (struct sigaction *) g_ptr_array_index(sigaction_oldact__captured, oldact_idx); \ struct sigaction *_act = (struct sigaction *) g_ptr_array_index(sigaction_act__captured, act_idx); \ ck_assert_msg (memcmp(_oldact, _act, sizeof(struct sigaction)) == 0, \ "sigaction(): oldact[%d] should be equals to act[%d]", oldact_idx, act_idx); \ } /* @Verify */ #define VERIFY_SIGACTION_CALLS() { \ ck_assert_int_eq (sigaction_signum__captured->len, 6); \ \ ck_assert_int_eq (*((int *) g_ptr_array_index(sigaction_signum__captured, 0)), SIGINT); \ ck_assert_int_eq (*((int *) g_ptr_array_index(sigaction_signum__captured, 1)), SIGQUIT); \ ck_assert_int_eq (*((int *) g_ptr_array_index(sigaction_signum__captured, 2)), SIGTSTP); \ ck_assert_int_eq (*((int *) g_ptr_array_index(sigaction_signum__captured, 3)), SIGINT); \ ck_assert_int_eq (*((int *) g_ptr_array_index(sigaction_signum__captured, 4)), SIGQUIT); \ ck_assert_int_eq (*((int *) g_ptr_array_index(sigaction_signum__captured, 5)), SIGTSTP); \ \ VERIFY_SIGACTION__ACT_IGNORED(g_ptr_array_index(sigaction_act__captured, 0)); \ VERIFY_SIGACTION__ACT_IGNORED(g_ptr_array_index(sigaction_act__captured, 1)); \ { \ struct sigaction *_act = g_ptr_array_index(sigaction_act__captured, 2); \ ck_assert_msg (memcmp (_act, &startup_handler, sizeof(struct sigaction)) == 0, \ "The 'act' in third call to sigaction() should be equals to startup_handler"); \ } \ \ VERIFY_SIGACTION__IS_RESTORED (0, 3); \ VERIFY_SIGACTION__IS_RESTORED (1, 4); \ VERIFY_SIGACTION__IS_RESTORED (2, 5); \ \ ck_assert_msg (g_ptr_array_index(sigaction_oldact__captured, 3) == NULL, \ "oldact in fourth call to sigaction() should be NULL"); \ ck_assert_msg (g_ptr_array_index(sigaction_oldact__captured, 4) == NULL, \ "oldact in fifth call to sigaction() should be NULL"); \ ck_assert_msg (g_ptr_array_index(sigaction_oldact__captured, 5) == NULL, \ "oldact in sixth call to sigaction() should be NULL"); \ } /* --------------------------------------------------------------------------------------------- */ #define VERIFY_SIGNAL_HANDLER_IS_SIG_DFL(_idx) { \ sighandler_t *tmp_handler = (sighandler_t *) g_ptr_array_index(signal_handler__captured, _idx);\ mctest_assert_ptr_eq (tmp_handler, (sighandler_t *) SIG_DFL); \ } /* @Verify */ #define VERIFY_SIGNAL_CALLS() { \ ck_assert_int_eq (signal_signum__captured->len, 4); \ ck_assert_int_eq (*((int *) g_ptr_array_index(signal_signum__captured, 0)), SIGINT); \ ck_assert_int_eq (*((int *) g_ptr_array_index(signal_signum__captured, 1)), SIGQUIT); \ ck_assert_int_eq (*((int *) g_ptr_array_index(signal_signum__captured, 2)), SIGTSTP); \ ck_assert_int_eq (*((int *) g_ptr_array_index(signal_signum__captured, 3)), SIGCHLD); \ \ VERIFY_SIGNAL_HANDLER_IS_SIG_DFL (0); \ VERIFY_SIGNAL_HANDLER_IS_SIG_DFL (1); \ VERIFY_SIGNAL_HANDLER_IS_SIG_DFL (2); \ VERIFY_SIGNAL_HANDLER_IS_SIG_DFL (3); \ } /* --------------------------------------------------------------------------------------------- */ /* @Before */ static void setup (void) { signal__return_value = NULL; sigaction__init (); signal__init (); execvp__init (); } /* --------------------------------------------------------------------------------------------- */ /* @After */ static void teardown (void) { execvp__deinit (); signal__deinit (); sigaction__deinit (); } /* --------------------------------------------------------------------------------------------- */