/* SPDX-License-Identifier: BSD-3-Clause * Copyright(c) 2010-2014 Intel Corporation */ #include #include #include #include #include #include #include "test.h" #define TEST_INTERRUPT_CHECK_INTERVAL 100 /* ms */ /* predefined interrupt handle types */ enum test_interrupt_handle_type { TEST_INTERRUPT_HANDLE_INVALID, TEST_INTERRUPT_HANDLE_VALID, TEST_INTERRUPT_HANDLE_VALID_UIO, TEST_INTERRUPT_HANDLE_VALID_ALARM, TEST_INTERRUPT_HANDLE_VALID_DEV_EVENT, TEST_INTERRUPT_HANDLE_CASE1, TEST_INTERRUPT_HANDLE_MAX }; /* flag of if callback is called */ static volatile int flag; static struct rte_intr_handle intr_handles[TEST_INTERRUPT_HANDLE_MAX]; static enum test_interrupt_handle_type test_intr_type = TEST_INTERRUPT_HANDLE_MAX; #ifdef RTE_EXEC_ENV_LINUXAPP union intr_pipefds{ struct { int pipefd[2]; }; struct { int readfd; int writefd; }; }; static union intr_pipefds pfds; /** * Check if the interrupt handle is valid. */ static inline int test_interrupt_handle_sanity_check(struct rte_intr_handle *intr_handle) { if (!intr_handle || intr_handle->fd < 0) return -1; return 0; } /** * Initialization for interrupt test. */ static int test_interrupt_init(void) { if (pipe(pfds.pipefd) < 0) return -1; intr_handles[TEST_INTERRUPT_HANDLE_INVALID].fd = -1; intr_handles[TEST_INTERRUPT_HANDLE_INVALID].type = RTE_INTR_HANDLE_UNKNOWN; intr_handles[TEST_INTERRUPT_HANDLE_VALID].fd = pfds.readfd; intr_handles[TEST_INTERRUPT_HANDLE_VALID].type = RTE_INTR_HANDLE_UNKNOWN; intr_handles[TEST_INTERRUPT_HANDLE_VALID_UIO].fd = pfds.readfd; intr_handles[TEST_INTERRUPT_HANDLE_VALID_UIO].type = RTE_INTR_HANDLE_UIO; intr_handles[TEST_INTERRUPT_HANDLE_VALID_ALARM].fd = pfds.readfd; intr_handles[TEST_INTERRUPT_HANDLE_VALID_ALARM].type = RTE_INTR_HANDLE_ALARM; intr_handles[TEST_INTERRUPT_HANDLE_VALID_DEV_EVENT].fd = pfds.readfd; intr_handles[TEST_INTERRUPT_HANDLE_VALID_DEV_EVENT].type = RTE_INTR_HANDLE_DEV_EVENT; intr_handles[TEST_INTERRUPT_HANDLE_CASE1].fd = pfds.writefd; intr_handles[TEST_INTERRUPT_HANDLE_CASE1].type = RTE_INTR_HANDLE_UIO; return 0; } /** * Deinitialization for interrupt test. */ static int test_interrupt_deinit(void) { close(pfds.pipefd[0]); close(pfds.pipefd[1]); return 0; } /** * Write the pipe to simulate an interrupt. */ static int test_interrupt_trigger_interrupt(void) { if (write(pfds.writefd, "1", 1) < 0) return -1; return 0; } /** * Check if two interrupt handles are the same. */ static int test_interrupt_handle_compare(struct rte_intr_handle *intr_handle_l, struct rte_intr_handle *intr_handle_r) { if (!intr_handle_l || !intr_handle_r) return -1; if (intr_handle_l->fd != intr_handle_r->fd || intr_handle_l->type != intr_handle_r->type) return -1; return 0; } #else /* to be implemented for bsd later */ static inline int test_interrupt_handle_sanity_check(struct rte_intr_handle *intr_handle) { RTE_SET_USED(intr_handle); return 0; } static int test_interrupt_init(void) { return 0; } static int test_interrupt_deinit(void) { return 0; } static int test_interrupt_trigger_interrupt(void) { return 0; } static int test_interrupt_handle_compare(struct rte_intr_handle *intr_handle_l, struct rte_intr_handle *intr_handle_r) { (void)intr_handle_l; (void)intr_handle_r; return 0; } #endif /* RTE_EXEC_ENV_LINUXAPP */ /** * Callback for the test interrupt. */ static void test_interrupt_callback(void *arg) { struct rte_intr_handle *intr_handle = arg; if (test_intr_type >= TEST_INTERRUPT_HANDLE_MAX) { printf("invalid interrupt type\n"); flag = -1; return; } if (test_interrupt_handle_sanity_check(intr_handle) < 0) { printf("null or invalid intr_handle for %s\n", __func__); flag = -1; return; } if (rte_intr_callback_unregister(intr_handle, test_interrupt_callback, arg) >= 0) { printf("%s: unexpectedly able to unregister itself\n", __func__); flag = -1; return; } if (test_interrupt_handle_compare(intr_handle, &(intr_handles[test_intr_type])) == 0) flag = 1; } /** * Callback for the test interrupt. */ static void test_interrupt_callback_1(void *arg) { struct rte_intr_handle *intr_handle = arg; if (test_interrupt_handle_sanity_check(intr_handle) < 0) { printf("null or invalid intr_handle for %s\n", __func__); flag = -1; return; } } /** * Tests for rte_intr_enable(). */ static int test_interrupt_enable(void) { struct rte_intr_handle test_intr_handle; /* check with null intr_handle */ if (rte_intr_enable(NULL) == 0) { printf("unexpectedly enable null intr_handle successfully\n"); return -1; } /* check with invalid intr_handle */ test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_INVALID]; if (rte_intr_enable(&test_intr_handle) == 0) { printf("unexpectedly enable invalid intr_handle " "successfully\n"); return -1; } /* check with valid intr_handle */ test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_VALID]; if (rte_intr_enable(&test_intr_handle) == 0) { printf("unexpectedly enable a specific intr_handle " "successfully\n"); return -1; } /* check with specific valid intr_handle */ test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_VALID_ALARM]; if (rte_intr_enable(&test_intr_handle) == 0) { printf("unexpectedly enable a specific intr_handle " "successfully\n"); return -1; } /* check with specific valid intr_handle */ test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_VALID_DEV_EVENT]; if (rte_intr_enable(&test_intr_handle) == 0) { printf("unexpectedly enable a specific intr_handle " "successfully\n"); return -1; } /* check with valid handler and its type */ test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_CASE1]; if (rte_intr_enable(&test_intr_handle) < 0) { printf("fail to enable interrupt on a simulated handler\n"); return -1; } test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_VALID_UIO]; if (rte_intr_enable(&test_intr_handle) == 0) { printf("unexpectedly enable a specific intr_handle " "successfully\n"); return -1; } return 0; } /** * Tests for rte_intr_disable(). */ static int test_interrupt_disable(void) { struct rte_intr_handle test_intr_handle; /* check with null intr_handle */ if (rte_intr_disable(NULL) == 0) { printf("unexpectedly disable null intr_handle " "successfully\n"); return -1; } /* check with invalid intr_handle */ test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_INVALID]; if (rte_intr_disable(&test_intr_handle) == 0) { printf("unexpectedly disable invalid intr_handle " "successfully\n"); return -1; } /* check with valid intr_handle */ test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_VALID]; if (rte_intr_disable(&test_intr_handle) == 0) { printf("unexpectedly disable a specific intr_handle " "successfully\n"); return -1; } /* check with specific valid intr_handle */ test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_VALID_ALARM]; if (rte_intr_disable(&test_intr_handle) == 0) { printf("unexpectedly disable a specific intr_handle " "successfully\n"); return -1; } /* check with specific valid intr_handle */ test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_VALID_DEV_EVENT]; if (rte_intr_disable(&test_intr_handle) == 0) { printf("unexpectedly disable a specific intr_handle " "successfully\n"); return -1; } /* check with valid handler and its type */ test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_CASE1]; if (rte_intr_disable(&test_intr_handle) < 0) { printf("fail to disable interrupt on a simulated handler\n"); return -1; } test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_VALID_UIO]; if (rte_intr_disable(&test_intr_handle) == 0) { printf("unexpectedly disable a specific intr_handle " "successfully\n"); return -1; } return 0; } /** * Check the full path of a specified type of interrupt simulated. */ static int test_interrupt_full_path_check(enum test_interrupt_handle_type intr_type) { int count; struct rte_intr_handle test_intr_handle; flag = 0; test_intr_handle = intr_handles[intr_type]; test_intr_type = intr_type; if (rte_intr_callback_register(&test_intr_handle, test_interrupt_callback, &test_intr_handle) < 0) { printf("fail to register callback\n"); return -1; } if (test_interrupt_trigger_interrupt() < 0) return -1; /* check flag */ for (count = 0; flag == 0 && count < 3; count++) rte_delay_ms(TEST_INTERRUPT_CHECK_INTERVAL); rte_delay_ms(TEST_INTERRUPT_CHECK_INTERVAL); if (rte_intr_callback_unregister(&test_intr_handle, test_interrupt_callback, &test_intr_handle) < 0) return -1; if (flag == 0) { printf("callback has not been called\n"); return -1; } else if (flag < 0) { printf("it has internal error in callback\n"); return -1; } return 0; } /** * Main function of testing interrupt. */ static int test_interrupt(void) { int ret = -1; struct rte_intr_handle test_intr_handle; if (test_interrupt_init() < 0) { printf("fail to initialize for testing interrupt\n"); return -1; } printf("Check unknown valid interrupt full path\n"); if (test_interrupt_full_path_check(TEST_INTERRUPT_HANDLE_VALID) < 0) { printf("failure occurred during checking unknown valid " "interrupt full path\n"); goto out; } printf("Check valid UIO interrupt full path\n"); if (test_interrupt_full_path_check(TEST_INTERRUPT_HANDLE_VALID_UIO) < 0) { printf("failure occurred during checking valid UIO interrupt " "full path\n"); goto out; } printf("Check valid device event interrupt full path\n"); if (test_interrupt_full_path_check( TEST_INTERRUPT_HANDLE_VALID_DEV_EVENT) < 0) { printf("failure occurred during checking valid device event " "interrupt full path\n"); goto out; } printf("Check valid alarm interrupt full path\n"); if (test_interrupt_full_path_check( TEST_INTERRUPT_HANDLE_VALID_ALARM) < 0) { printf("failure occurred during checking valid alarm " "interrupt full path\n"); goto out; } printf("start register/unregister test\n"); /* check if it will fail to register cb with intr_handle = NULL */ if (rte_intr_callback_register(NULL, test_interrupt_callback, NULL) == 0) { printf("unexpectedly register successfully with null " "intr_handle\n"); goto out; } /* check if it will fail to register cb with invalid intr_handle */ test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_INVALID]; if (rte_intr_callback_register(&test_intr_handle, test_interrupt_callback, &test_intr_handle) == 0) { printf("unexpectedly register successfully with invalid " "intr_handle\n"); goto out; } /* check if it will fail to register without callback */ test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_VALID]; if (rte_intr_callback_register(&test_intr_handle, NULL, &test_intr_handle) == 0) { printf("unexpectedly register successfully with " "null callback\n"); goto out; } /* check if it will fail to unregister cb with intr_handle = NULL */ if (rte_intr_callback_unregister(NULL, test_interrupt_callback, NULL) > 0) { printf("unexpectedly unregister successfully with " "null intr_handle\n"); goto out; } /* check if it will fail to unregister cb with invalid intr_handle */ test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_INVALID]; if (rte_intr_callback_unregister(&test_intr_handle, test_interrupt_callback, &test_intr_handle) > 0) { printf("unexpectedly unregister successfully with " "invalid intr_handle\n"); goto out; } /* check if it is ok to register the same intr_handle twice */ test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_VALID]; if (rte_intr_callback_register(&test_intr_handle, test_interrupt_callback, &test_intr_handle) < 0) { printf("it fails to register test_interrupt_callback\n"); goto out; } if (rte_intr_callback_register(&test_intr_handle, test_interrupt_callback_1, &test_intr_handle) < 0) { printf("it fails to register test_interrupt_callback_1\n"); goto out; } /* check if it will fail to unregister with invalid parameter */ if (rte_intr_callback_unregister(&test_intr_handle, test_interrupt_callback, (void *)0xff) != 0) { printf("unexpectedly unregisters successfully with " "invalid arg\n"); goto out; } if (rte_intr_callback_unregister(&test_intr_handle, test_interrupt_callback, &test_intr_handle) <= 0) { printf("it fails to unregister test_interrupt_callback\n"); goto out; } if (rte_intr_callback_unregister(&test_intr_handle, test_interrupt_callback_1, (void *)-1) <= 0) { printf("it fails to unregister test_interrupt_callback_1 " "for all\n"); goto out; } rte_delay_ms(TEST_INTERRUPT_CHECK_INTERVAL); printf("start interrupt enable/disable test\n"); /* check interrupt enable/disable functions */ if (test_interrupt_enable() < 0) { printf("fail to check interrupt enabling\n"); goto out; } rte_delay_ms(TEST_INTERRUPT_CHECK_INTERVAL); if (test_interrupt_disable() < 0) { printf("fail to check interrupt disabling\n"); goto out; } rte_delay_ms(TEST_INTERRUPT_CHECK_INTERVAL); ret = 0; out: printf("Clearing for interrupt tests\n"); /* clear registered callbacks */ test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_VALID]; rte_intr_callback_unregister(&test_intr_handle, test_interrupt_callback, (void *)-1); rte_intr_callback_unregister(&test_intr_handle, test_interrupt_callback_1, (void *)-1); test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_VALID_UIO]; rte_intr_callback_unregister(&test_intr_handle, test_interrupt_callback, (void *)-1); rte_intr_callback_unregister(&test_intr_handle, test_interrupt_callback_1, (void *)-1); test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_VALID_ALARM]; rte_intr_callback_unregister(&test_intr_handle, test_interrupt_callback, (void *)-1); rte_intr_callback_unregister(&test_intr_handle, test_interrupt_callback_1, (void *)-1); test_intr_handle = intr_handles[TEST_INTERRUPT_HANDLE_VALID_DEV_EVENT]; rte_intr_callback_unregister(&test_intr_handle, test_interrupt_callback, (void *)-1); rte_intr_callback_unregister(&test_intr_handle, test_interrupt_callback_1, (void *)-1); rte_delay_ms(2 * TEST_INTERRUPT_CHECK_INTERVAL); /* deinit */ test_interrupt_deinit(); return ret; } REGISTER_TEST_COMMAND(interrupt_autotest, test_interrupt);