/* $NetBSD: t_hid.c,v 1.8 2016/05/05 17:40:26 jakllsch Exp $ */ /* * Copyright (c) 2016 Jonathan A. Kollasch * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include __RCSID("$NetBSD: t_hid.c,v 1.8 2016/05/05 17:40:26 jakllsch Exp $"); #include #include #include #include #include #include #define hid_start_parse rumpns_hid_start_parse #define hid_end_parse rumpns_hid_end_parse #define hid_get_item rumpns_hid_get_item #define hid_locate rumpns_hid_locate #define hid_report_size rumpns_hid_report_size #define hid_get_data rumpns_hid_get_data #define hid_get_udata rumpns_hid_get_udata #define uhidevdebug rumpns_uhidevdebug #include #include #include #include "../../lib/libusbhid/hid_test_data.c" #define MYd_ATF_CHECK_EQ(d, v) \ ATF_CHECK_EQ_MSG(d, v, "== %d", (d)) #define MYld_ATF_CHECK_EQ(d, v) \ ATF_CHECK_EQ_MSG(d, v, "== %ld", (d)) #define MYu_ATF_CHECK_EQ(d, v) \ ATF_CHECK_EQ_MSG(d, v, "== %u", (d)) #define MYlu_ATF_CHECK_EQ(d, v) \ ATF_CHECK_EQ_MSG(d, v, "== %lu", (d)) #define MYx_ATF_CHECK_EQ(d, v) \ ATF_CHECK_EQ_MSG(d, v, "== 0x%x", (d)) #define MYlx_ATF_CHECK_EQ(d, v) \ ATF_CHECK_EQ_MSG(d, v, "== 0x%lx", (d)) int uhidevdebug; ATF_TC(khid); ATF_TC_HEAD(khid, tc) { atf_tc_set_md_var(tc, "descr", "check kernel hid.c"); } static int locate_item(const void *desc, int size, u_int32_t u, u_int8_t id, enum hid_kind k, struct hid_item *hip) { struct hid_data *d; struct hid_item h; h.report_ID = 0; for (d = hid_start_parse(desc, size, k); hid_get_item(d, &h); ) { if (h.kind == k && !(h.flags & HIO_CONST) && (/*XXX*/uint32_t)h.usage == u && h.report_ID == id) { if (hip != NULL) *hip = h; hid_end_parse(d); return (1); } } hid_end_parse(d); return (0); } ATF_TC_BODY(khid, tc) { int ret; struct hid_item hi; uhidevdebug = 0; rump_init(); rump_schedule(); ret = locate_item(range_test_report_descriptor, sizeof(range_test_report_descriptor), 0xff000003, 0, hid_input, &hi); ATF_REQUIRE(ret > 0); MYu_ATF_CHECK_EQ(hi.loc.size, 32); MYu_ATF_CHECK_EQ(hi.loc.count, 1); MYu_ATF_CHECK_EQ(hi.loc.pos, 0); MYx_ATF_CHECK_EQ(hi.flags, 0); MYd_ATF_CHECK_EQ(hi.logical_minimum, -2147483648); MYd_ATF_CHECK_EQ(hi.logical_maximum, 2147483647); MYd_ATF_CHECK_EQ(hi.physical_minimum, -2147483648); MYd_ATF_CHECK_EQ(hi.physical_maximum, 2147483647); MYld_ATF_CHECK_EQ(hid_get_data(range_test_minimum_report, &hi.loc), -2147483648); MYld_ATF_CHECK_EQ(hid_get_data(range_test_negative_one_report, &hi.loc), -1); MYld_ATF_CHECK_EQ(hid_get_data(range_test_positive_one_report, &hi.loc), 1); MYld_ATF_CHECK_EQ(hid_get_data(range_test_maximum_report, &hi.loc), 2147483647); ret = locate_item(range_test_report_descriptor, sizeof(range_test_report_descriptor), 0xff000002, 0, hid_input, &hi); ATF_REQUIRE(ret > 0); MYu_ATF_CHECK_EQ(hi.loc.size, 16); MYu_ATF_CHECK_EQ(hi.loc.count, 1); MYu_ATF_CHECK_EQ(hi.loc.pos, 32); MYx_ATF_CHECK_EQ(hi.flags, 0); MYd_ATF_CHECK_EQ(hi.logical_minimum, -32768); MYd_ATF_CHECK_EQ(hi.logical_maximum, 32767); MYd_ATF_CHECK_EQ(hi.physical_minimum, -32768); MYd_ATF_CHECK_EQ(hi.physical_maximum, 32767); MYld_ATF_CHECK_EQ(hid_get_data(range_test_minimum_report, &hi.loc), -32768); MYld_ATF_CHECK_EQ(hid_get_data(range_test_negative_one_report, &hi.loc), -1); MYld_ATF_CHECK_EQ(hid_get_data(range_test_positive_one_report, &hi.loc), 1); MYld_ATF_CHECK_EQ(hid_get_data(range_test_maximum_report, &hi.loc), 32767); ret = locate_item(range_test_report_descriptor, sizeof(range_test_report_descriptor), 0xff000001, 0, hid_input, &hi); ATF_REQUIRE(ret > 0); MYu_ATF_CHECK_EQ(hi.loc.size, 8); MYu_ATF_CHECK_EQ(hi.loc.count, 1); MYu_ATF_CHECK_EQ(hi.loc.pos, 48); MYx_ATF_CHECK_EQ(hi.flags, 0); MYd_ATF_CHECK_EQ(hi.logical_minimum, -128); MYd_ATF_CHECK_EQ(hi.logical_maximum, 127); MYd_ATF_CHECK_EQ(hi.physical_minimum, -128); MYd_ATF_CHECK_EQ(hi.physical_maximum, 127); MYld_ATF_CHECK_EQ(hid_get_data(range_test_minimum_report, &hi.loc), -128); MYld_ATF_CHECK_EQ(hid_get_data(range_test_negative_one_report, &hi.loc), -1); MYld_ATF_CHECK_EQ(hid_get_data(range_test_positive_one_report, &hi.loc), 1); MYld_ATF_CHECK_EQ(hid_get_data(range_test_maximum_report, &hi.loc), 127); ret = locate_item(unsigned_range_test_report_descriptor, sizeof(unsigned_range_test_report_descriptor), 0xff000013, 0, hid_input, &hi); ATF_REQUIRE(ret > 0); MYu_ATF_CHECK_EQ(hi.loc.size, 32); MYu_ATF_CHECK_EQ(hi.loc.count, 1); MYu_ATF_CHECK_EQ(hi.loc.pos, 0); MYx_ATF_CHECK_EQ(hi.flags, 0); MYlx_ATF_CHECK_EQ(hid_get_udata(unsigned_range_test_minimum_report, &hi.loc), 0x0); MYlx_ATF_CHECK_EQ(hid_get_udata(unsigned_range_test_positive_one_report, &hi.loc), 0x1); MYlx_ATF_CHECK_EQ(hid_get_udata(unsigned_range_test_negative_one_report, &hi.loc), 0xfffffffe); MYlx_ATF_CHECK_EQ(hid_get_udata(unsigned_range_test_maximum_report, &hi.loc), 0xffffffff); ret = locate_item(unsigned_range_test_report_descriptor, sizeof(unsigned_range_test_report_descriptor), 0xff000012, 0, hid_input, &hi); ATF_REQUIRE(ret > 0); MYu_ATF_CHECK_EQ(hi.loc.size, 16); MYu_ATF_CHECK_EQ(hi.loc.count, 1); MYu_ATF_CHECK_EQ(hi.loc.pos, 32); MYx_ATF_CHECK_EQ(hi.flags, 0); MYlx_ATF_CHECK_EQ(hid_get_udata(unsigned_range_test_minimum_report, &hi.loc), 0x0); MYlx_ATF_CHECK_EQ(hid_get_udata(unsigned_range_test_positive_one_report, &hi.loc), 0x1); MYlx_ATF_CHECK_EQ(hid_get_udata(unsigned_range_test_negative_one_report, &hi.loc), 0xfffe); MYlx_ATF_CHECK_EQ(hid_get_udata(unsigned_range_test_maximum_report, &hi.loc), 0xffff); ret = locate_item(unsigned_range_test_report_descriptor, sizeof(unsigned_range_test_report_descriptor), 0xff000011, 0, hid_input, &hi); ATF_REQUIRE(ret > 0); MYu_ATF_CHECK_EQ(hi.loc.size, 8); MYu_ATF_CHECK_EQ(hi.loc.count, 1); MYu_ATF_CHECK_EQ(hi.loc.pos, 48); MYx_ATF_CHECK_EQ(hi.flags, 0); MYlx_ATF_CHECK_EQ(hid_get_udata(unsigned_range_test_minimum_report, &hi.loc), 0x0); MYlx_ATF_CHECK_EQ(hid_get_udata(unsigned_range_test_positive_one_report, &hi.loc), 0x1); MYlx_ATF_CHECK_EQ(hid_get_udata(unsigned_range_test_negative_one_report, &hi.loc), 0xfe); MYlx_ATF_CHECK_EQ(hid_get_udata(unsigned_range_test_maximum_report, &hi.loc), 0xff); rump_unschedule(); } ATF_TC(khid_parse_just_pop); ATF_TC_HEAD(khid_parse_just_pop, tc) { atf_tc_set_md_var(tc, "descr", "check kernel hid.c for " "Pop on empty stack bug"); } ATF_TC_BODY(khid_parse_just_pop, tc) { struct hid_data *hdp; struct hid_item hi; rump_init(); rump_schedule(); hdp = hid_start_parse(just_pop_report_descriptor, sizeof just_pop_report_descriptor, hid_none); while (hid_get_item(hdp, &hi) > 0) { } hid_end_parse(hdp); rump_unschedule(); } ATF_TP_ADD_TCS(tp) { ATF_TP_ADD_TC(tp, khid); ATF_TP_ADD_TC(tp, khid_parse_just_pop); return atf_no_error(); }