/* Copyright (c) 2008-2009, The Linux Foundation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 and * only version 2 as published by the Free Software Foundation. * * This program 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. * */ /* * DAL remote test device test suite. */ #include #include #include #include #include #include "dal_remotetest.h" #define BYTEBUF_LEN 64 #define rpc_error(num) \ do { \ errmask |= (1 << num); \ printk(KERN_INFO "%s: remote_unittest_%d failed (%d)\n", \ __func__, num, ret); \ } while (0) #define verify_error(num, field) \ do { \ errmask |= (1 << num); \ printk(KERN_INFO "%s: remote_unittest_%d failed (%s)\n", \ __func__, num, field); \ } while (0) static struct dentry *debugfs_dir_entry; static struct dentry *debugfs_modem_entry; static struct dentry *debugfs_dsp_entry; static uint8_t in_bytebuf[BYTEBUF_LEN]; static uint8_t out_bytebuf[BYTEBUF_LEN]; static uint8_t out_bytebuf2[BYTEBUF_LEN]; static struct remote_test_data in_data; static struct remote_test_data out_data; static int block_until_cb = 1; static void init_data(struct remote_test_data *data) { int i; data->regular_event = REMOTE_UNITTEST_INPUT_HANDLE; data->payload_event = REMOTE_UNITTEST_INPUT_HANDLE; for (i = 0; i < 32; i++) data->test[i] = i; } static int verify_data(struct remote_test_data *data) { int i; if (data->regular_event != REMOTE_UNITTEST_INPUT_HANDLE || data->payload_event != REMOTE_UNITTEST_INPUT_HANDLE) return -1; for (i = 0; i < 32; i++) if (data->test[i] != i) return -1; return 0; } static int verify_uint32_buffer(uint32_t *buf) { int i; for (i = 0; i < 32; i++) if (buf[i] != i) return -1; return 0; } static void init_bytebuf(uint8_t *bytebuf) { int i; for (i = 0; i < BYTEBUF_LEN; i++) bytebuf[i] = i & 0xff; } static int verify_bytebuf(uint8_t *bytebuf) { int i; for (i = 0; i < BYTEBUF_LEN; i++) if (bytebuf[i] != (i & 0xff)) return -1; return 0; } static void test_cb(void *context, uint32_t param, void *data, uint32_t len) { block_until_cb = 0; } static int remotetest_exec(int dest, u64 *val) { void *dev_handle; void *event_handles[3]; void *cb_handle; int ret; u64 errmask = 0; uint32_t ouint; uint32_t oalen; /* test daldevice_attach */ ret = daldevice_attach(REMOTE_UNITTEST_DEVICEID, NULL, dest, &dev_handle); if (ret) { printk(KERN_INFO "%s: failed to attach (%d)\n", __func__, ret); *val = 0xffffffff; return 0; } /* test remote_unittest_0 */ ret = remote_unittest_0(dev_handle, REMOTE_UNITTEST_INARG_1); if (ret) rpc_error(0); /* test remote_unittest_1 */ ret = remote_unittest_1(dev_handle, REMOTE_UNITTEST_INARG_1, REMOTE_UNITTEST_INARG_2); if (ret) rpc_error(1); /* test remote_unittest_2 */ ouint = 0; ret = remote_unittest_2(dev_handle, REMOTE_UNITTEST_INARG_1, &ouint); if (ret) rpc_error(2); else if (ouint != REMOTE_UNITTEST_OUTARG_1) verify_error(2, "ouint"); /* test remote_unittest_3 */ ret = remote_unittest_3(dev_handle, REMOTE_UNITTEST_INARG_1, REMOTE_UNITTEST_INARG_2, REMOTE_UNITTEST_INARG_3); if (ret) rpc_error(3); /* test remote_unittest_4 */ ouint = 0; ret = remote_unittest_4(dev_handle, REMOTE_UNITTEST_INARG_1, REMOTE_UNITTEST_INARG_2, &ouint); if (ret) rpc_error(4); else if (ouint != REMOTE_UNITTEST_OUTARG_1) verify_error(4, "ouint"); /* test remote_unittest_5 */ init_data(&in_data); ret = remote_unittest_5(dev_handle, &in_data, sizeof(in_data)); if (ret) rpc_error(5); /* test remote_unittest_6 */ init_data(&in_data); ret = remote_unittest_6(dev_handle, REMOTE_UNITTEST_INARG_1, &in_data.test, sizeof(in_data.test)); if (ret) rpc_error(6); /* test remote_unittest_7 */ init_data(&in_data); memset(&out_data, 0, sizeof(out_data)); ret = remote_unittest_7(dev_handle, &in_data, sizeof(in_data), &out_data.test, sizeof(out_data.test), &oalen); if (ret) rpc_error(7); else if (oalen != sizeof(out_data.test)) verify_error(7, "oalen"); else if (verify_uint32_buffer(out_data.test)) verify_error(7, "obuf"); /* test remote_unittest_8 */ init_bytebuf(in_bytebuf); memset(&out_data, 0, sizeof(out_data)); ret = remote_unittest_8(dev_handle, in_bytebuf, sizeof(in_bytebuf), &out_data, sizeof(out_data)); if (ret) rpc_error(8); else if (verify_data(&out_data)) verify_error(8, "obuf"); /* test remote_unittest_9 */ memset(&out_bytebuf, 0, sizeof(out_bytebuf)); ret = remote_unittest_9(dev_handle, out_bytebuf, sizeof(out_bytebuf)); if (ret) rpc_error(9); else if (verify_bytebuf(out_bytebuf)) verify_error(9, "obuf"); /* test remote_unittest_10 */ init_bytebuf(in_bytebuf); memset(&out_bytebuf, 0, sizeof(out_bytebuf)); ret = remote_unittest_10(dev_handle, REMOTE_UNITTEST_INARG_1, in_bytebuf, sizeof(in_bytebuf), out_bytebuf, sizeof(out_bytebuf), &oalen); if (ret) rpc_error(10); else if (oalen != sizeof(out_bytebuf)) verify_error(10, "oalen"); else if (verify_bytebuf(out_bytebuf)) verify_error(10, "obuf"); /* test remote_unittest_11 */ memset(&out_bytebuf, 0, sizeof(out_bytebuf)); ret = remote_unittest_11(dev_handle, REMOTE_UNITTEST_INARG_1, out_bytebuf, sizeof(out_bytebuf)); if (ret) rpc_error(11); else if (verify_bytebuf(out_bytebuf)) verify_error(11, "obuf"); /* test remote_unittest_12 */ memset(&out_bytebuf, 0, sizeof(out_bytebuf)); ret = remote_unittest_12(dev_handle, REMOTE_UNITTEST_INARG_1, out_bytebuf, sizeof(out_bytebuf), &oalen); if (ret) rpc_error(12); else if (oalen != sizeof(out_bytebuf)) verify_error(12, "oalen"); else if (verify_bytebuf(out_bytebuf)) verify_error(12, "obuf"); /* test remote_unittest_13 */ init_data(&in_data); memset(&out_data, 0, sizeof(out_data)); ret = remote_unittest_13(dev_handle, in_data.test, sizeof(in_data.test), &in_data, sizeof(in_data), &out_data, sizeof(out_data)); if (ret) rpc_error(13); else if (verify_data(&out_data)) verify_error(13, "obuf"); /* test remote_unittest_14 */ init_data(&in_data); memset(out_bytebuf, 0, sizeof(out_bytebuf)); memset(out_bytebuf2, 0, sizeof(out_bytebuf2)); ret = remote_unittest_14(dev_handle, in_data.test, sizeof(in_data.test), out_bytebuf, sizeof(out_bytebuf), out_bytebuf2, sizeof(out_bytebuf2), &oalen); if (ret) rpc_error(14); else if (verify_bytebuf(out_bytebuf)) verify_error(14, "obuf"); else if (oalen != sizeof(out_bytebuf2)) verify_error(14, "oalen"); else if (verify_bytebuf(out_bytebuf2)) verify_error(14, "obuf2"); /* test remote_unittest_15 */ init_data(&in_data); memset(out_bytebuf, 0, sizeof(out_bytebuf)); memset(&out_data, 0, sizeof(out_data)); ret = remote_unittest_15(dev_handle, in_data.test, sizeof(in_data.test), &in_data, sizeof(in_data), &out_data, sizeof(out_data), &oalen, out_bytebuf, sizeof(out_bytebuf)); if (ret) rpc_error(15); else if (oalen != sizeof(out_data)) verify_error(15, "oalen"); else if (verify_bytebuf(out_bytebuf)) verify_error(15, "obuf"); else if (verify_data(&out_data)) verify_error(15, "obuf2"); /* test setting up asynch events */ event_handles[0] = dalrpc_alloc_event(dev_handle); event_handles[1] = dalrpc_alloc_event(dev_handle); event_handles[2] = dalrpc_alloc_event(dev_handle); cb_handle = dalrpc_alloc_cb(dev_handle, test_cb, &out_data); in_data.regular_event = (uint32_t)event_handles[2]; in_data.payload_event = (uint32_t)cb_handle; ret = remote_unittest_eventcfg(dev_handle, &in_data, sizeof(in_data)); if (ret) { errmask |= (1 << 16); printk(KERN_INFO "%s: failed to configure asynch (%d)\n", __func__, ret); } /* test event */ ret = remote_unittest_eventtrig(dev_handle, REMOTE_UNITTEST_REGULAR_EVENT); if (ret) { errmask |= (1 << 17); printk(KERN_INFO "%s: failed to trigger event (%d)\n", __func__, ret); } ret = dalrpc_event_wait(event_handles[2], 1000); if (ret) { errmask |= (1 << 18); printk(KERN_INFO "%s: failed to receive event (%d)\n", __func__, ret); } /* test event again */ ret = remote_unittest_eventtrig(dev_handle, REMOTE_UNITTEST_REGULAR_EVENT); if (ret) { errmask |= (1 << 19); printk(KERN_INFO "%s: failed to trigger event (%d)\n", __func__, ret); } ret = dalrpc_event_wait_multiple(3, event_handles, 1000); if (ret != 2) { errmask |= (1 << 20); printk(KERN_INFO "%s: failed to receive event (%d)\n", __func__, ret); } /* test callback */ ret = remote_unittest_eventtrig(dev_handle, REMOTE_UNITTEST_CALLBACK_EVENT); if (ret) { errmask |= (1 << 21); printk(KERN_INFO "%s: failed to trigger callback (%d)\n", __func__, ret); } else while (block_until_cb) ; dalrpc_dealloc_cb(dev_handle, cb_handle); dalrpc_dealloc_event(dev_handle, event_handles[0]); dalrpc_dealloc_event(dev_handle, event_handles[1]); dalrpc_dealloc_event(dev_handle, event_handles[2]); /* test daldevice_detach */ ret = daldevice_detach(dev_handle); if (ret) { errmask |= (1 << 22); printk(KERN_INFO "%s: failed to detach (%d)\n", __func__, ret); } printk(KERN_INFO "%s: remote_unittest complete\n", __func__); *val = errmask; return 0; } static int remotetest_modem_exec(void *data, u64 *val) { return remotetest_exec(DALRPC_DEST_MODEM, val); } static int remotetest_dsp_exec(void *data, u64 *val) { return remotetest_exec(DALRPC_DEST_QDSP, val); } DEFINE_SIMPLE_ATTRIBUTE(dal_modemtest_fops, remotetest_modem_exec, NULL, "%llu\n"); DEFINE_SIMPLE_ATTRIBUTE(dal_dsptest_fops, remotetest_dsp_exec, NULL, "%llu\n"); static int __init remotetest_init(void) { debugfs_dir_entry = debugfs_create_dir("dal", 0); if (IS_ERR(debugfs_dir_entry)) return PTR_ERR(debugfs_dir_entry); debugfs_modem_entry = debugfs_create_file("modem_test", 0444, debugfs_dir_entry, NULL, &dal_modemtest_fops); if (IS_ERR(debugfs_modem_entry)) { debugfs_remove(debugfs_dir_entry); return PTR_ERR(debugfs_modem_entry); } debugfs_dsp_entry = debugfs_create_file("dsp_test", 0444, debugfs_dir_entry, NULL, &dal_dsptest_fops); if (IS_ERR(debugfs_dsp_entry)) { debugfs_remove(debugfs_modem_entry); debugfs_remove(debugfs_dir_entry); return PTR_ERR(debugfs_dsp_entry); } return 0; } static void __exit remotetest_exit(void) { debugfs_remove(debugfs_modem_entry); debugfs_remove(debugfs_dsp_entry); debugfs_remove(debugfs_dir_entry); } MODULE_LICENSE("GPL v2"); MODULE_DESCRIPTION("Test for DAL RPC"); MODULE_VERSION("1.0"); module_init(remotetest_init); module_exit(remotetest_exit);