/* * Copyright 2021 RĂ©mi Bernon for CodeWeavers * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #define DIRECTINPUT_VERSION 0x0800 #include #include #include "ntstatus.h" #define WIN32_NO_STATUS #include "windef.h" #include "winbase.h" #include "winioctl.h" #include "winternl.h" #include "wincrypt.h" #include "winreg.h" #include "winsvc.h" #include "winuser.h" #include "winnls.h" #include "mscat.h" #include "mssip.h" #include "ntsecapi.h" #include "setupapi.h" #include "cfgmgr32.h" #include "newdev.h" #include "objbase.h" #define COBJMACROS #include "dinput.h" #include "initguid.h" #include "ddk/wdm.h" #include "ddk/hidclass.h" #include "ddk/hidsdi.h" #include "ddk/hidpi.h" #include "ddk/hidport.h" #include "hidusage.h" #include "devguid.h" #include "wine/mssign.h" #include "dinput_test.h" HINSTANCE instance; BOOL localized; /* object names get translated */ const WCHAR expect_vidpid_str[] = L"VID_1209&PID_0001"; const GUID expect_guid_product = {EXPECT_VIDPID, 0x0000, 0x0000, {0x00, 0x00, 'P', 'I', 'D', 'V', 'I', 'D'}}; const WCHAR expect_path[] = L"\\\\?\\hid#winetest#1&2fafeb0&"; const WCHAR expect_path_end[] = L"&0000#{4d1e55b2-f16f-11cf-88cb-001111000030}"; static struct winetest_shared_data *test_data; static HANDLE test_data_mapping; static HANDLE okfile; static HRESULT (WINAPI *pSignerSign)( SIGNER_SUBJECT_INFO *subject, SIGNER_CERT *cert, SIGNER_SIGNATURE_INFO *signature, SIGNER_PROVIDER_INFO *provider, const WCHAR *timestamp, CRYPT_ATTRIBUTES *attr, void *sip_data ); static const WCHAR container_name[] = L"wine_testsign"; static const CERT_CONTEXT *testsign_sign( const WCHAR *filename ) { BYTE encoded_name[100], encoded_key_id[200], public_key_info_buffer[1000]; BYTE hash_buffer[16], cert_buffer[1000], provider_nameA[100], serial[16]; CERT_PUBLIC_KEY_INFO *public_key_info = (CERT_PUBLIC_KEY_INFO *)public_key_info_buffer; SIGNER_SIGNATURE_INFO signature = {sizeof(SIGNER_SIGNATURE_INFO)}; SIGNER_CERT_STORE_INFO store = {sizeof(SIGNER_CERT_STORE_INFO)}; SIGNER_ATTR_AUTHCODE authcode = {sizeof(SIGNER_ATTR_AUTHCODE)}; SIGNER_SUBJECT_INFO subject = {sizeof(SIGNER_SUBJECT_INFO)}; SIGNER_FILE_INFO file = {sizeof(SIGNER_FILE_INFO)}; SIGNER_CERT signer = {sizeof(SIGNER_CERT)}; CRYPT_KEY_PROV_INFO provider_info = {0}; CRYPT_ALGORITHM_IDENTIFIER algid = {0}; CERT_AUTHORITY_KEY_ID_INFO key_info; HCERTSTORE root_store, pub_store; CERT_INFO cert_info = {0}; WCHAR provider_nameW[100]; const CERT_CONTEXT *cert; CERT_EXTENSION extension; DWORD size, index = 0; HCRYPTPROV provider; HCRYPTKEY key; HRESULT hr; BOOL ret; ret = CryptAcquireContextW( &provider, container_name, NULL, PROV_RSA_FULL, CRYPT_NEWKEYSET ); if (!ret && GetLastError() == NTE_EXISTS) { ret = CryptAcquireContextW( &provider, container_name, NULL, PROV_RSA_FULL, CRYPT_DELETEKEYSET ); ok( ret, "Failed to delete container, error %#lx\n", GetLastError() ); ret = CryptAcquireContextW( &provider, container_name, NULL, PROV_RSA_FULL, CRYPT_NEWKEYSET ); } ok( ret, "Failed to create container, error %#lx\n", GetLastError() ); ret = CryptGenKey( provider, AT_SIGNATURE, CRYPT_EXPORTABLE, &key ); ok( ret, "Failed to create key, error %#lx\n", GetLastError() ); ret = CryptDestroyKey( key ); ok( ret, "Failed to destroy key, error %#lx\n", GetLastError() ); ret = CryptGetUserKey( provider, AT_SIGNATURE, &key ); ok( ret, "Failed to get user key, error %#lx\n", GetLastError() ); ret = CryptDestroyKey( key ); ok( ret, "Failed to destroy key, error %#lx\n", GetLastError() ); size = sizeof(encoded_name); ret = CertStrToNameW( X509_ASN_ENCODING, L"CN=winetest_cert", CERT_X500_NAME_STR, NULL, encoded_name, &size, NULL ); ok( ret, "Failed to convert name, error %#lx\n", GetLastError() ); key_info.CertIssuer.cbData = size; key_info.CertIssuer.pbData = encoded_name; size = sizeof(public_key_info_buffer); ret = CryptExportPublicKeyInfo( provider, AT_SIGNATURE, X509_ASN_ENCODING, public_key_info, &size ); ok( ret, "Failed to export public key, error %#lx\n", GetLastError() ); cert_info.SubjectPublicKeyInfo = *public_key_info; size = sizeof(hash_buffer); ret = CryptHashPublicKeyInfo( provider, CALG_MD5, 0, X509_ASN_ENCODING, public_key_info, hash_buffer, &size ); ok( ret, "Failed to hash public key, error %#lx\n", GetLastError() ); key_info.KeyId.cbData = size; key_info.KeyId.pbData = hash_buffer; RtlGenRandom( serial, sizeof(serial) ); key_info.CertSerialNumber.cbData = sizeof(serial); key_info.CertSerialNumber.pbData = serial; size = sizeof(encoded_key_id); ret = CryptEncodeObject( X509_ASN_ENCODING, X509_AUTHORITY_KEY_ID, &key_info, encoded_key_id, &size ); ok( ret, "Failed to convert name, error %#lx\n", GetLastError() ); extension.pszObjId = (char *)szOID_AUTHORITY_KEY_IDENTIFIER; extension.fCritical = TRUE; extension.Value.cbData = size; extension.Value.pbData = encoded_key_id; cert_info.dwVersion = CERT_V3; cert_info.SerialNumber = key_info.CertSerialNumber; cert_info.SignatureAlgorithm.pszObjId = (char *)szOID_RSA_SHA1RSA; cert_info.Issuer = key_info.CertIssuer; GetSystemTimeAsFileTime( &cert_info.NotBefore ); GetSystemTimeAsFileTime( &cert_info.NotAfter ); cert_info.NotAfter.dwHighDateTime += 1; cert_info.Subject = key_info.CertIssuer; cert_info.cExtension = 1; cert_info.rgExtension = &extension; algid.pszObjId = (char *)szOID_RSA_SHA1RSA; size = sizeof(cert_buffer); ret = CryptSignAndEncodeCertificate( provider, AT_SIGNATURE, X509_ASN_ENCODING, X509_CERT_TO_BE_SIGNED, &cert_info, &algid, NULL, cert_buffer, &size ); ok( ret, "Failed to create certificate, error %#lx\n", GetLastError() ); cert = CertCreateCertificateContext( X509_ASN_ENCODING, cert_buffer, size ); ok( !!cert, "Failed to create context, error %#lx\n", GetLastError() ); size = sizeof(provider_nameA); ret = CryptGetProvParam( provider, PP_NAME, provider_nameA, &size, 0 ); ok( ret, "Failed to get prov param, error %#lx\n", GetLastError() ); MultiByteToWideChar( CP_ACP, 0, (char *)provider_nameA, -1, provider_nameW, ARRAY_SIZE(provider_nameW) ); provider_info.pwszContainerName = (WCHAR *)container_name; provider_info.pwszProvName = provider_nameW; provider_info.dwProvType = PROV_RSA_FULL; provider_info.dwKeySpec = AT_SIGNATURE; ret = CertSetCertificateContextProperty( cert, CERT_KEY_PROV_INFO_PROP_ID, 0, &provider_info ); ok( ret, "Failed to set provider info, error %#lx\n", GetLastError() ); ret = CryptReleaseContext( provider, 0 ); ok( ret, "failed to release context, error %lu\n", GetLastError() ); root_store = CertOpenStore( CERT_STORE_PROV_SYSTEM_REGISTRY_W, 0, 0, CERT_SYSTEM_STORE_LOCAL_MACHINE, L"root" ); if (!root_store && GetLastError() == ERROR_ACCESS_DENIED) { win_skip( "Failed to open root store.\n" ); ret = CertFreeCertificateContext( cert ); ok( ret, "Failed to free certificate, error %lu\n", GetLastError() ); return NULL; } ok( !!root_store, "Failed to open store, error %lu\n", GetLastError() ); ret = CertAddCertificateContextToStore( root_store, cert, CERT_STORE_ADD_ALWAYS, NULL ); if (!ret && GetLastError() == ERROR_ACCESS_DENIED) { win_skip( "Failed to add self-signed certificate to store.\n" ); ret = CertFreeCertificateContext( cert ); ok( ret, "Failed to free certificate, error %lu\n", GetLastError() ); ret = CertCloseStore( root_store, CERT_CLOSE_STORE_CHECK_FLAG ); ok( ret, "Failed to close store, error %lu\n", GetLastError() ); return NULL; } ok( ret, "Failed to add certificate, error %lu\n", GetLastError() ); ret = CertCloseStore( root_store, CERT_CLOSE_STORE_CHECK_FLAG ); ok( ret, "Failed to close store, error %lu\n", GetLastError() ); pub_store = CertOpenStore( CERT_STORE_PROV_SYSTEM_REGISTRY_W, 0, 0, CERT_SYSTEM_STORE_LOCAL_MACHINE, L"trustedpublisher" ); ok( !!pub_store, "Failed to open store, error %lu\n", GetLastError() ); ret = CertAddCertificateContextToStore( pub_store, cert, CERT_STORE_ADD_ALWAYS, NULL ); ok( ret, "Failed to add certificate, error %lu\n", GetLastError() ); ret = CertCloseStore( pub_store, CERT_CLOSE_STORE_CHECK_FLAG ); ok( ret, "Failed to close store, error %lu\n", GetLastError() ); subject.dwSubjectChoice = 1; subject.pdwIndex = &index; subject.pSignerFileInfo = &file; file.pwszFileName = (WCHAR *)filename; signer.dwCertChoice = 2; signer.pCertStoreInfo = &store; store.pSigningCert = cert; store.dwCertPolicy = 0; signature.algidHash = CALG_SHA_256; signature.dwAttrChoice = SIGNER_AUTHCODE_ATTR; signature.pAttrAuthcode = &authcode; authcode.pwszName = L""; authcode.pwszInfo = L""; hr = pSignerSign( &subject, &signer, &signature, NULL, NULL, NULL, NULL ); todo_wine ok( hr == S_OK || broken( hr == NTE_BAD_ALGID ) /* < 7 */, "Failed to sign, hr %#lx\n", hr ); return cert; } static void testsign_cleanup( const CERT_CONTEXT *cert ) { HCERTSTORE root_store, pub_store; const CERT_CONTEXT *store_cert; HCRYPTPROV provider; BOOL ret; root_store = CertOpenStore( CERT_STORE_PROV_SYSTEM_REGISTRY_W, 0, 0, CERT_SYSTEM_STORE_LOCAL_MACHINE, L"root" ); ok( !!root_store, "Failed to open store, error %lu\n", GetLastError() ); store_cert = CertFindCertificateInStore( root_store, X509_ASN_ENCODING, 0, CERT_FIND_EXISTING, cert, NULL ); ok( !!store_cert, "Failed to find root certificate, error %lu\n", GetLastError() ); ret = CertDeleteCertificateFromStore( store_cert ); ok( ret, "Failed to remove certificate, error %lu\n", GetLastError() ); ret = CertCloseStore( root_store, CERT_CLOSE_STORE_CHECK_FLAG ); ok( ret, "Failed to close store, error %lu\n", GetLastError() ); pub_store = CertOpenStore( CERT_STORE_PROV_SYSTEM_REGISTRY_W, 0, 0, CERT_SYSTEM_STORE_LOCAL_MACHINE, L"trustedpublisher" ); ok( !!pub_store, "Failed to open store, error %lu\n", GetLastError() ); store_cert = CertFindCertificateInStore( pub_store, X509_ASN_ENCODING, 0, CERT_FIND_EXISTING, cert, NULL ); ok( !!store_cert, "Failed to find publisher certificate, error %lu\n", GetLastError() ); ret = CertDeleteCertificateFromStore( store_cert ); ok( ret, "Failed to remove certificate, error %lu\n", GetLastError() ); ret = CertCloseStore( pub_store, CERT_CLOSE_STORE_CHECK_FLAG ); ok( ret, "Failed to close store, error %lu\n", GetLastError() ); ret = CertFreeCertificateContext( cert ); ok( ret, "Failed to free certificate, error %lu\n", GetLastError() ); ret = CryptAcquireContextW( &provider, container_name, NULL, PROV_RSA_FULL, CRYPT_DELETEKEYSET ); ok( ret, "Failed to delete container, error %#lx\n", GetLastError() ); } static void load_resource( const WCHAR *name, WCHAR *filename ) { static WCHAR path[MAX_PATH]; DWORD written; HANDLE file; HRSRC res; void *ptr; GetTempPathW( ARRAY_SIZE(path), path ); GetTempFileNameW( path, name, 0, filename ); file = CreateFileW( filename, GENERIC_READ | GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, 0, 0 ); ok( file != INVALID_HANDLE_VALUE, "failed to create %s, error %lu\n", debugstr_w(filename), GetLastError() ); res = FindResourceW( NULL, name, L"TESTDLL" ); ok( res != 0, "couldn't find resource\n" ); ptr = LockResource( LoadResource( GetModuleHandleW( NULL ), res ) ); WriteFile( file, ptr, SizeofResource( GetModuleHandleW( NULL ), res ), &written, NULL ); ok( written == SizeofResource( GetModuleHandleW( NULL ), res ), "couldn't write resource\n" ); CloseHandle( file ); } #ifdef __i386__ #define EXT "x86" #elif defined(__x86_64__) #define EXT "amd64" #elif defined(__arm__) #define EXT "arm" #elif defined(__aarch64__) #define EXT "arm64" #else #define EXT #endif static const char inf_text[] = "[Version]\n" "Signature=$Chicago$\n" "ClassGuid={4d36e97d-e325-11ce-bfc1-08002be10318}\n" "CatalogFile=winetest.cat\n" "DriverVer=09/21/2006,6.0.5736.1\n" "[Manufacturer]\n" "Wine=mfg_section,NT" EXT "\n" "[mfg_section.NT" EXT "]\n" "Wine test root driver=device_section,test_hardware_id\n" "[device_section.NT" EXT "]\n" "CopyFiles=file_section\n" "[device_section.NT" EXT ".Services]\n" "AddService=winetest,0x2,svc_section\n" "[file_section]\n" "winetest.sys\n" "[SourceDisksFiles]\n" "winetest.sys=1\n" "[SourceDisksNames]\n" "1=,winetest.sys\n" "[DestinationDirs]\n" "DefaultDestDir=12\n" "[svc_section]\n" "ServiceBinary=%12%\\winetest.sys\n" "ServiceType=1\n" "StartType=3\n" "ErrorControl=1\n" "LoadOrderGroup=WinePlugPlay\n" "DisplayName=\"winetest bus driver\"\n" "; they don't sleep anymore, on the beach\n"; static void add_file_to_catalog( HANDLE catalog, const WCHAR *file ) { SIP_SUBJECTINFO subject_info = {sizeof(SIP_SUBJECTINFO)}; SIP_INDIRECT_DATA *indirect_data; const WCHAR *filepart = file; CRYPTCATMEMBER *member; WCHAR hash_buffer[100]; GUID subject_guid; unsigned int i; DWORD size; BOOL ret; ret = CryptSIPRetrieveSubjectGuidForCatalogFile( file, NULL, &subject_guid ); todo_wine ok( ret, "Failed to get subject guid, error %lu\n", GetLastError() ); size = 0; subject_info.pgSubjectType = &subject_guid; subject_info.pwsFileName = file; subject_info.DigestAlgorithm.pszObjId = (char *)szOID_OIWSEC_sha1; subject_info.dwFlags = SPC_INC_PE_RESOURCES_FLAG | SPC_INC_PE_IMPORT_ADDR_TABLE_FLAG | SPC_EXC_PE_PAGE_HASHES_FLAG | 0x10000; ret = CryptSIPCreateIndirectData( &subject_info, &size, NULL ); todo_wine ok( ret, "Failed to get indirect data size, error %lu\n", GetLastError() ); indirect_data = malloc( size ); ret = CryptSIPCreateIndirectData( &subject_info, &size, indirect_data ); todo_wine ok( ret, "Failed to get indirect data, error %lu\n", GetLastError() ); if (ret) { memset( hash_buffer, 0, sizeof(hash_buffer) ); for (i = 0; i < indirect_data->Digest.cbData; ++i) swprintf( &hash_buffer[i * 2], 2, L"%02X", indirect_data->Digest.pbData[i] ); member = CryptCATPutMemberInfo( catalog, (WCHAR *)file, hash_buffer, &subject_guid, 0, size, (BYTE *)indirect_data ); ok( !!member, "Failed to write member, error %lu\n", GetLastError() ); if (wcsrchr( file, '\\' )) filepart = wcsrchr( file, '\\' ) + 1; ret = !!CryptCATPutAttrInfo( catalog, member, (WCHAR *)L"File", CRYPTCAT_ATTR_NAMEASCII | CRYPTCAT_ATTR_DATAASCII | CRYPTCAT_ATTR_AUTHENTICATED, (wcslen( filepart ) + 1) * 2, (BYTE *)filepart ); ok( ret, "Failed to write attr, error %lu\n", GetLastError() ); ret = !!CryptCATPutAttrInfo( catalog, member, (WCHAR *)L"OSAttr", CRYPTCAT_ATTR_NAMEASCII | CRYPTCAT_ATTR_DATAASCII | CRYPTCAT_ATTR_AUTHENTICATED, sizeof(L"2:6.0"), (BYTE *)L"2:6.0" ); ok( ret, "Failed to write attr, error %lu\n", GetLastError() ); } } static void unload_driver( SC_HANDLE service ) { SERVICE_STATUS status; ControlService( service, SERVICE_CONTROL_STOP, &status ); while (status.dwCurrentState == SERVICE_STOP_PENDING) { BOOL ret; Sleep( 100 ); ret = QueryServiceStatus( service, &status ); ok( ret, "QueryServiceStatus failed: %lu\n", GetLastError() ); } ok( status.dwCurrentState == SERVICE_STOPPED, "expected SERVICE_STOPPED, got %lu\n", status.dwCurrentState ); DeleteService( service ); CloseServiceHandle( service ); } void pnp_driver_stop(void) { SP_DEVINFO_DATA device = {sizeof(SP_DEVINFO_DATA)}; WCHAR path[MAX_PATH], dest[MAX_PATH], *filepart; SC_HANDLE manager, service; char buffer[512]; HDEVINFO set; HANDLE file; DWORD size; BOOL ret; set = SetupDiCreateDeviceInfoList( NULL, NULL ); ok( set != INVALID_HANDLE_VALUE, "failed to create device list, error %lu\n", GetLastError() ); ret = SetupDiOpenDeviceInfoW( set, L"root\\winetest\\0", NULL, 0, &device ); if (!ret && GetLastError() == ERROR_NO_SUCH_DEVINST) { ret = SetupDiDestroyDeviceInfoList( set ); ok( ret, "failed to destroy set, error %lu\n", GetLastError() ); return; } ok( ret, "failed to open device, error %lu\n", GetLastError() ); ret = SetupDiCallClassInstaller( DIF_REMOVE, set, &device ); ok( ret, "failed to remove device, error %lu\n", GetLastError() ); file = CreateFileW( L"\\\\?\\root#winetest#0#{deadbeef-29ef-4538-a5fd-b69573a362c0}", 0, 0, NULL, OPEN_EXISTING, 0, NULL ); ok( file == INVALID_HANDLE_VALUE, "expected failure\n" ); ok( GetLastError() == ERROR_FILE_NOT_FOUND, "got error %lu\n", GetLastError() ); ret = SetupDiDestroyDeviceInfoList( set ); ok( ret, "failed to destroy set, error %lu\n", GetLastError() ); /* Windows stops the service but does not delete it. */ manager = OpenSCManagerW( NULL, NULL, SC_MANAGER_CONNECT ); ok( !!manager, "failed to open service manager, error %lu\n", GetLastError() ); service = OpenServiceW( manager, L"winetest", SERVICE_STOP | DELETE ); if (service) unload_driver( service ); else ok( GetLastError() == ERROR_SERVICE_DOES_NOT_EXIST, "got error %lu\n", GetLastError() ); CloseServiceHandle( manager ); SetFilePointer( okfile, 0, NULL, FILE_BEGIN ); do { ReadFile( okfile, buffer, sizeof(buffer), &size, NULL ); printf( "%.*s", (int)size, buffer ); } while (size == sizeof(buffer)); SetFilePointer( okfile, 0, NULL, FILE_BEGIN ); SetEndOfFile( okfile ); winetest_add_failures( InterlockedExchange( &test_data->failures, 0 ) ); winetest_add_failures( InterlockedExchange( &test_data->todo_failures, 0 ) ); GetFullPathNameW( L"winetest.inf", ARRAY_SIZE(path), path, NULL ); ret = SetupCopyOEMInfW( path, NULL, 0, 0, dest, ARRAY_SIZE(dest), NULL, &filepart ); ok( ret, "Failed to copy INF, error %lu\n", GetLastError() ); ret = SetupUninstallOEMInfW( filepart, 0, NULL ); ok( ret, "Failed to uninstall INF, error %lu\n", GetLastError() ); ret = DeleteFileW( L"winetest.cat" ); ok( ret, "Failed to delete file, error %lu\n", GetLastError() ); ret = DeleteFileW( L"winetest.inf" ); ok( ret, "Failed to delete file, error %lu\n", GetLastError() ); ret = DeleteFileW( L"winetest.sys" ); ok( ret, "Failed to delete file, error %lu\n", GetLastError() ); /* Windows 10 apparently deletes the image in SetupUninstallOEMInf(). */ ret = DeleteFileW( L"C:/windows/system32/drivers/winetest.sys" ); ok( ret || GetLastError() == ERROR_FILE_NOT_FOUND, "Failed to delete file, error %lu\n", GetLastError() ); } BOOL pnp_driver_start( const WCHAR *resource ) { static const WCHAR hardware_id[] = L"test_hardware_id\0"; SP_DEVINFO_DATA device = {sizeof(SP_DEVINFO_DATA)}; WCHAR path[MAX_PATH], filename[MAX_PATH]; SC_HANDLE manager, service; const CERT_CONTEXT *cert; int old_mute_threshold; BOOL ret, need_reboot; HANDLE catalog; HDEVINFO set; FILE *f; old_mute_threshold = winetest_mute_threshold; winetest_mute_threshold = 1; load_resource( resource, filename ); ret = MoveFileExW( filename, L"winetest.sys", MOVEFILE_COPY_ALLOWED | MOVEFILE_REPLACE_EXISTING ); ok( ret, "failed to move file, error %lu\n", GetLastError() ); f = fopen( "winetest.inf", "w" ); ok( !!f, "failed to open winetest.inf: %s\n", strerror( errno ) ); fputs( inf_text, f ); fclose( f ); /* Create the catalog file. */ catalog = CryptCATOpen( (WCHAR *)L"winetest.cat", CRYPTCAT_OPEN_CREATENEW, 0, CRYPTCAT_VERSION_1, 0 ); ok( catalog != INVALID_HANDLE_VALUE, "Failed to create catalog, error %lu\n", GetLastError() ); add_file_to_catalog( catalog, L"winetest.sys" ); add_file_to_catalog( catalog, L"winetest.inf" ); ret = CryptCATPersistStore( catalog ); todo_wine ok( ret, "Failed to write catalog, error %lu\n", GetLastError() ); ret = CryptCATClose( catalog ); ok( ret, "Failed to close catalog, error %lu\n", GetLastError() ); if (!(cert = testsign_sign( L"winetest.cat" ))) { ret = DeleteFileW( L"winetest.cat" ); ok( ret, "Failed to delete file, error %lu\n", GetLastError() ); ret = DeleteFileW( L"winetest.inf" ); ok( ret, "Failed to delete file, error %lu\n", GetLastError() ); ret = DeleteFileW( L"winetest.sys" ); ok( ret, "Failed to delete file, error %lu\n", GetLastError() ); winetest_mute_threshold = old_mute_threshold; return FALSE; } /* Install the driver. */ set = SetupDiCreateDeviceInfoList( NULL, NULL ); ok( set != INVALID_HANDLE_VALUE, "failed to create device list, error %lu\n", GetLastError() ); ret = SetupDiCreateDeviceInfoW( set, L"root\\winetest\\0", &GUID_NULL, NULL, NULL, 0, &device ); ok( ret, "failed to create device, error %#lx\n", GetLastError() ); ret = SetupDiSetDeviceRegistryPropertyW( set, &device, SPDRP_HARDWAREID, (const BYTE *)hardware_id, sizeof(hardware_id) ); ok( ret, "failed to create set hardware ID, error %lu\n", GetLastError() ); ret = SetupDiCallClassInstaller( DIF_REGISTERDEVICE, set, &device ); ok( ret, "failed to register device, error %lu\n", GetLastError() ); ret = SetupDiDestroyDeviceInfoList( set ); ok( ret, "failed to destroy set, error %lu\n", GetLastError() ); GetFullPathNameW( L"winetest.inf", ARRAY_SIZE(path), path, NULL ); ret = UpdateDriverForPlugAndPlayDevicesW( NULL, hardware_id, path, INSTALLFLAG_FORCE, &need_reboot ); ok( ret, "failed to install device, error %lu\n", GetLastError() ); ok( !need_reboot, "expected no reboot necessary\n" ); testsign_cleanup( cert ); /* Check that the service is created and started. */ manager = OpenSCManagerW( NULL, NULL, SC_MANAGER_CONNECT ); ok( !!manager, "failed to open service manager, error %lu\n", GetLastError() ); service = OpenServiceW( manager, L"winetest", SERVICE_START ); ok( !!service, "failed to open service, error %lu\n", GetLastError() ); ret = StartServiceW( service, 0, NULL ); ok( !ret, "service didn't start automatically\n" ); if (!ret && GetLastError() != ERROR_SERVICE_ALREADY_RUNNING) { /* If Secure Boot is enabled or the machine is 64-bit, it will reject an unsigned driver. */ ok( GetLastError() == ERROR_DRIVER_BLOCKED || GetLastError() == ERROR_INVALID_IMAGE_HASH, "unexpected error %lu\n", GetLastError() ); win_skip( "Failed to start service; probably your machine doesn't accept unsigned drivers.\n" ); } CloseServiceHandle( service ); CloseServiceHandle( manager ); winetest_mute_threshold = old_mute_threshold; return ret || GetLastError() == ERROR_SERVICE_ALREADY_RUNNING; } #define check_hidp_caps( a, b ) check_hidp_caps_( __LINE__, a, b ) static inline void check_hidp_caps_( int line, HIDP_CAPS *caps, const HIDP_CAPS *exp ) { check_member_( __FILE__, line, *caps, *exp, "%04x", Usage ); check_member_( __FILE__, line, *caps, *exp, "%04x", UsagePage ); check_member_( __FILE__, line, *caps, *exp, "%d", InputReportByteLength ); check_member_( __FILE__, line, *caps, *exp, "%d", OutputReportByteLength ); check_member_( __FILE__, line, *caps, *exp, "%d", FeatureReportByteLength ); check_member_( __FILE__, line, *caps, *exp, "%d", NumberLinkCollectionNodes ); check_member_( __FILE__, line, *caps, *exp, "%d", NumberInputButtonCaps ); check_member_( __FILE__, line, *caps, *exp, "%d", NumberInputValueCaps ); check_member_( __FILE__, line, *caps, *exp, "%d", NumberInputDataIndices ); check_member_( __FILE__, line, *caps, *exp, "%d", NumberOutputButtonCaps ); check_member_( __FILE__, line, *caps, *exp, "%d", NumberOutputValueCaps ); check_member_( __FILE__, line, *caps, *exp, "%d", NumberOutputDataIndices ); check_member_( __FILE__, line, *caps, *exp, "%d", NumberFeatureButtonCaps ); check_member_( __FILE__, line, *caps, *exp, "%d", NumberFeatureValueCaps ); check_member_( __FILE__, line, *caps, *exp, "%d", NumberFeatureDataIndices ); } #define check_hidp_link_collection_node( a, b ) check_hidp_link_collection_node_( __LINE__, a, b ) static inline void check_hidp_link_collection_node_( int line, HIDP_LINK_COLLECTION_NODE *node, const HIDP_LINK_COLLECTION_NODE *exp ) { check_member_( __FILE__, line, *node, *exp, "%04x", LinkUsage ); check_member_( __FILE__, line, *node, *exp, "%04x", LinkUsagePage ); check_member_( __FILE__, line, *node, *exp, "%d", Parent ); check_member_( __FILE__, line, *node, *exp, "%d", NumberOfChildren ); check_member_( __FILE__, line, *node, *exp, "%d", NextSibling ); check_member_( __FILE__, line, *node, *exp, "%d", FirstChild ); check_member_( __FILE__, line, *node, *exp, "%d", CollectionType ); check_member_( __FILE__, line, *node, *exp, "%d", IsAlias ); } #define check_hidp_button_caps( a, b ) check_hidp_button_caps_( __LINE__, a, b ) static inline void check_hidp_button_caps_( int line, HIDP_BUTTON_CAPS *caps, const HIDP_BUTTON_CAPS *exp ) { check_member_( __FILE__, line, *caps, *exp, "%04x", UsagePage ); check_member_( __FILE__, line, *caps, *exp, "%d", ReportID ); check_member_( __FILE__, line, *caps, *exp, "%d", IsAlias ); check_member_( __FILE__, line, *caps, *exp, "%d", BitField ); check_member_( __FILE__, line, *caps, *exp, "%d", LinkCollection ); check_member_( __FILE__, line, *caps, *exp, "%04x", LinkUsage ); check_member_( __FILE__, line, *caps, *exp, "%04x", LinkUsagePage ); check_member_( __FILE__, line, *caps, *exp, "%d", IsRange ); check_member_( __FILE__, line, *caps, *exp, "%d", IsStringRange ); check_member_( __FILE__, line, *caps, *exp, "%d", IsDesignatorRange ); check_member_( __FILE__, line, *caps, *exp, "%d", IsAbsolute ); if (!caps->IsRange && !exp->IsRange) { check_member_( __FILE__, line, *caps, *exp, "%04x", NotRange.Usage ); check_member_( __FILE__, line, *caps, *exp, "%d", NotRange.DataIndex ); } else if (caps->IsRange && exp->IsRange) { check_member_( __FILE__, line, *caps, *exp, "%04x", Range.UsageMin ); check_member_( __FILE__, line, *caps, *exp, "%04x", Range.UsageMax ); check_member_( __FILE__, line, *caps, *exp, "%d", Range.DataIndexMin ); check_member_( __FILE__, line, *caps, *exp, "%d", Range.DataIndexMax ); } if (!caps->IsRange && !exp->IsRange) check_member_( __FILE__, line, *caps, *exp, "%d", NotRange.StringIndex ); else if (caps->IsStringRange && exp->IsStringRange) { check_member_( __FILE__, line, *caps, *exp, "%d", Range.StringMin ); check_member_( __FILE__, line, *caps, *exp, "%d", Range.StringMax ); } if (!caps->IsDesignatorRange && !exp->IsDesignatorRange) check_member_( __FILE__, line, *caps, *exp, "%d", NotRange.DesignatorIndex ); else if (caps->IsDesignatorRange && exp->IsDesignatorRange) { check_member_( __FILE__, line, *caps, *exp, "%d", Range.DesignatorMin ); check_member_( __FILE__, line, *caps, *exp, "%d", Range.DesignatorMax ); } } #define check_hidp_value_caps( a, b ) check_hidp_value_caps_( __LINE__, a, b ) static inline void check_hidp_value_caps_( int line, HIDP_VALUE_CAPS *caps, const HIDP_VALUE_CAPS *exp ) { check_member_( __FILE__, line, *caps, *exp, "%04x", UsagePage ); check_member_( __FILE__, line, *caps, *exp, "%d", ReportID ); check_member_( __FILE__, line, *caps, *exp, "%d", IsAlias ); check_member_( __FILE__, line, *caps, *exp, "%d", BitField ); check_member_( __FILE__, line, *caps, *exp, "%d", LinkCollection ); check_member_( __FILE__, line, *caps, *exp, "%d", LinkUsage ); check_member_( __FILE__, line, *caps, *exp, "%d", LinkUsagePage ); check_member_( __FILE__, line, *caps, *exp, "%d", IsRange ); check_member_( __FILE__, line, *caps, *exp, "%d", IsStringRange ); check_member_( __FILE__, line, *caps, *exp, "%d", IsDesignatorRange ); check_member_( __FILE__, line, *caps, *exp, "%d", IsAbsolute ); check_member_( __FILE__, line, *caps, *exp, "%d", HasNull ); check_member_( __FILE__, line, *caps, *exp, "%d", BitSize ); check_member_( __FILE__, line, *caps, *exp, "%d", ReportCount ); check_member_( __FILE__, line, *caps, *exp, "%ld", UnitsExp ); check_member_( __FILE__, line, *caps, *exp, "%ld", Units ); check_member_( __FILE__, line, *caps, *exp, "%ld", LogicalMin ); check_member_( __FILE__, line, *caps, *exp, "%ld", LogicalMax ); check_member_( __FILE__, line, *caps, *exp, "%ld", PhysicalMin ); check_member_( __FILE__, line, *caps, *exp, "%ld", PhysicalMax ); if (!caps->IsRange && !exp->IsRange) { check_member_( __FILE__, line, *caps, *exp, "%04x", NotRange.Usage ); check_member_( __FILE__, line, *caps, *exp, "%d", NotRange.DataIndex ); } else if (caps->IsRange && exp->IsRange) { check_member_( __FILE__, line, *caps, *exp, "%04x", Range.UsageMin ); check_member_( __FILE__, line, *caps, *exp, "%04x", Range.UsageMax ); check_member_( __FILE__, line, *caps, *exp, "%d", Range.DataIndexMin ); check_member_( __FILE__, line, *caps, *exp, "%d", Range.DataIndexMax ); } if (!caps->IsRange && !exp->IsRange) check_member_( __FILE__, line, *caps, *exp, "%d", NotRange.StringIndex ); else if (caps->IsStringRange && exp->IsStringRange) { check_member_( __FILE__, line, *caps, *exp, "%d", Range.StringMin ); check_member_( __FILE__, line, *caps, *exp, "%d", Range.StringMax ); } if (!caps->IsDesignatorRange && !exp->IsDesignatorRange) check_member_( __FILE__, line, *caps, *exp, "%d", NotRange.DesignatorIndex ); else if (caps->IsDesignatorRange && exp->IsDesignatorRange) { check_member_( __FILE__, line, *caps, *exp, "%d", Range.DesignatorMin ); check_member_( __FILE__, line, *caps, *exp, "%d", Range.DesignatorMax ); } } BOOL sync_ioctl_( const char *file, int line, HANDLE device, DWORD code, void *in_buf, DWORD in_len, void *out_buf, DWORD *ret_len, DWORD timeout ) { DWORD res, out_len = ret_len ? *ret_len : 0; OVERLAPPED ovl = {0}; BOOL ret; ovl.hEvent = CreateEventW( NULL, TRUE, FALSE, NULL ); ret = DeviceIoControl( device, code, in_buf, in_len, out_buf, out_len, &out_len, &ovl ); if (!ret && GetLastError() == ERROR_IO_PENDING) { res = WaitForSingleObject( ovl.hEvent, timeout ); ok_(file, line)( res == WAIT_OBJECT_0, "WaitForSingleObject returned %#lx\n", res ); ret = GetOverlappedResult( device, &ovl, &out_len, FALSE ); ok_(file, line)( ret, "GetOverlappedResult returned %lu\n", GetLastError() ); } CloseHandle( ovl.hEvent ); if (ret_len) *ret_len = out_len; return ret; } #define fill_context( line, a, b ) \ do { \ const char *source_file; \ source_file = strrchr( __FILE__, '/' ); \ if (!source_file) source_file = strrchr( __FILE__, '\\' ); \ if (!source_file) source_file = __FILE__; \ else source_file++; \ snprintf( a, b, "%s:%d", source_file, line ); \ } while (0) void set_hid_expect_( const char *file, int line, HANDLE device, struct hid_expect *expect, DWORD expect_size ) { char context[64]; BOOL ret; fill_context( line, context, ARRAY_SIZE(context) ); ret = sync_ioctl_( file, line, device, IOCTL_WINETEST_HID_SET_CONTEXT, context, ARRAY_SIZE(context), NULL, 0, INFINITE ); ok_(file, line)( ret, "IOCTL_WINETEST_HID_SET_CONTEXT failed, last error %lu\n", GetLastError() ); ret = sync_ioctl_( file, line, device, IOCTL_WINETEST_HID_SET_EXPECT, expect, expect_size, NULL, 0, INFINITE ); ok_(file, line)( ret, "IOCTL_WINETEST_HID_SET_EXPECT failed, last error %lu\n", GetLastError() ); } void wait_hid_expect_( const char *file, int line, HANDLE device, DWORD timeout ) { BOOL ret = sync_ioctl_( file, line, device, IOCTL_WINETEST_HID_WAIT_EXPECT, NULL, 0, NULL, 0, timeout ); ok_(file, line)( ret, "IOCTL_WINETEST_HID_WAIT_EXPECT failed, last error %lu\n", GetLastError() ); set_hid_expect_( file, line, device, NULL, 0 ); } void send_hid_input_( const char *file, int line, HANDLE device, struct hid_expect *expect, DWORD expect_size ) { char context[64]; BOOL ret; fill_context( line, context, ARRAY_SIZE(context) ); ret = sync_ioctl_( file, line, device, IOCTL_WINETEST_HID_SET_CONTEXT, context, ARRAY_SIZE(context), NULL, 0, INFINITE ); ok_(file, line)( ret, "IOCTL_WINETEST_HID_SET_CONTEXT failed, last error %lu\n", GetLastError() ); ret = sync_ioctl_( file, line, device, IOCTL_WINETEST_HID_SEND_INPUT, expect, expect_size, NULL, 0, INFINITE ); ok_(file, line)( ret, "IOCTL_WINETEST_HID_SEND_INPUT failed, last error %lu\n", GetLastError() ); } static void test_hidp_get_input( HANDLE file, int report_id, ULONG report_len, PHIDP_PREPARSED_DATA preparsed ) { struct hid_expect expect[] = { { .code = IOCTL_HID_GET_INPUT_REPORT, .report_id = report_id, .report_len = report_len - (report_id ? 0 : 1), .report_buf = {report_id ? report_id : 0xa5,0xa5,2}, .ret_length = 3, .ret_status = STATUS_SUCCESS, }, { .code = IOCTL_HID_GET_INPUT_REPORT, .report_id = report_id, .report_len = 2 * report_len - (report_id ? 0 : 1), .report_buf = {report_id ? report_id : 0xa5,0xa5,1}, .ret_length = 3, .ret_status = STATUS_SUCCESS, }, }; char buffer[200], report[200]; NTSTATUS status; ULONG length; BOOL ret; memset( report, 0xcd, sizeof(report) ); status = HidP_InitializeReportForID( HidP_Input, report_id, preparsed, report, report_len ); ok( status == HIDP_STATUS_SUCCESS, "HidP_InitializeReportForID returned %#lx\n", status ); SetLastError( 0xdeadbeef ); ret = HidD_GetInputReport( file, report, 0 ); ok( !ret, "HidD_GetInputReport succeeded\n" ); ok( GetLastError() == ERROR_INVALID_USER_BUFFER, "HidD_GetInputReport returned error %lu\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = HidD_GetInputReport( file, report, report_len - 1 ); ok( !ret, "HidD_GetInputReport succeeded\n" ); ok( GetLastError() == ERROR_INVALID_PARAMETER || broken( GetLastError() == ERROR_CRC ), "HidD_GetInputReport returned error %lu\n", GetLastError() ); if (!report_id) { struct hid_expect broken_expect = { .code = IOCTL_HID_GET_INPUT_REPORT, .broken = TRUE, .report_len = report_len - 1, .report_buf = { 0x5a,0x5a,0x5a,0x5a,0x5a,0x5a,0x5a,0x5a, 0x5a,0x5a,0x5a,0x5a,0x5a,0x5a,0x5a,0x5a, 0x5a,0x5a,0x5a,0x5a,0x5a, }, .ret_length = 3, .ret_status = STATUS_SUCCESS, }; set_hid_expect( file, &broken_expect, sizeof(broken_expect) ); } SetLastError( 0xdeadbeef ); memset( buffer, 0x5a, sizeof(buffer) ); ret = HidD_GetInputReport( file, buffer, report_len ); if (report_id || broken( !ret ) /* w7u */) { ok( !ret, "HidD_GetInputReport succeeded, last error %lu\n", GetLastError() ); ok( GetLastError() == ERROR_INVALID_PARAMETER || broken( GetLastError() == ERROR_CRC ), "HidD_GetInputReport returned error %lu\n", GetLastError() ); } else { ok( ret, "HidD_GetInputReport failed, last error %lu\n", GetLastError() ); ok( buffer[0] == 0x5a, "got buffer[0] %x, expected 0x5a\n", (BYTE)buffer[0] ); } set_hid_expect( file, expect, sizeof(expect) ); SetLastError( 0xdeadbeef ); ret = HidD_GetInputReport( file, report, report_len ); ok( ret, "HidD_GetInputReport failed, last error %lu\n", GetLastError() ); ok( report[0] == report_id, "got report[0] %02x, expected %02x\n", report[0], report_id ); SetLastError( 0xdeadbeef ); length = report_len * 2; ret = sync_ioctl( file, IOCTL_HID_GET_INPUT_REPORT, NULL, 0, report, &length, INFINITE ); ok( ret, "IOCTL_HID_GET_INPUT_REPORT failed, last error %lu\n", GetLastError() ); ok( length == 3, "got length %lu, expected 3\n", length ); ok( report[0] == report_id, "got report[0] %02x, expected %02x\n", report[0], report_id ); set_hid_expect( file, NULL, 0 ); } static void test_hidp_get_feature( HANDLE file, int report_id, ULONG report_len, PHIDP_PREPARSED_DATA preparsed ) { struct hid_expect expect[] = { { .code = IOCTL_HID_GET_FEATURE, .report_id = report_id, .report_len = report_len - (report_id ? 0 : 1), .report_buf = {report_id ? report_id : 0xa5,0xa5,0xa5}, .ret_length = 3, .ret_status = STATUS_SUCCESS, }, { .code = IOCTL_HID_GET_FEATURE, .report_id = report_id, .report_len = 2 * report_len - (report_id ? 0 : 1), .report_buf = {report_id ? report_id : 0xa5,0xa5,0xa5}, .ret_length = 3, .ret_status = STATUS_SUCCESS, }, }; char buffer[200], report[200]; NTSTATUS status; ULONG length; BOOL ret; memset( report, 0xcd, sizeof(report) ); status = HidP_InitializeReportForID( HidP_Feature, report_id, preparsed, report, report_len ); ok( status == HIDP_STATUS_SUCCESS, "HidP_InitializeReportForID returned %#lx\n", status ); SetLastError( 0xdeadbeef ); ret = HidD_GetFeature( file, report, 0 ); ok( !ret, "HidD_GetFeature succeeded\n" ); ok( GetLastError() == ERROR_INVALID_USER_BUFFER, "HidD_GetFeature returned error %lu\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = HidD_GetFeature( file, report, report_len - 1 ); ok( !ret, "HidD_GetFeature succeeded\n" ); ok( GetLastError() == ERROR_INVALID_PARAMETER || broken( GetLastError() == ERROR_CRC ), "HidD_GetFeature returned error %lu\n", GetLastError() ); if (!report_id) { struct hid_expect broken_expect = { .code = IOCTL_HID_GET_FEATURE, .broken = TRUE, .report_len = report_len - 1, .report_buf = { 0x5a,0x5a,0x5a,0x5a,0x5a,0x5a,0x5a,0x5a, 0x5a,0x5a,0x5a,0x5a,0x5a,0x5a,0x5a,0x5a, 0x5a,0x5a,0x5a,0x5a,0x5a, }, .ret_length = 3, .ret_status = STATUS_SUCCESS, }; set_hid_expect( file, &broken_expect, sizeof(broken_expect) ); } SetLastError( 0xdeadbeef ); memset( buffer, 0x5a, sizeof(buffer) ); ret = HidD_GetFeature( file, buffer, report_len ); if (report_id || broken( !ret )) { ok( !ret, "HidD_GetFeature succeeded, last error %lu\n", GetLastError() ); ok( GetLastError() == ERROR_INVALID_PARAMETER || broken( GetLastError() == ERROR_CRC ), "HidD_GetFeature returned error %lu\n", GetLastError() ); } else { ok( ret, "HidD_GetFeature failed, last error %lu\n", GetLastError() ); ok( buffer[0] == 0x5a, "got buffer[0] %x, expected 0x5a\n", (BYTE)buffer[0] ); } set_hid_expect( file, expect, sizeof(expect) ); SetLastError( 0xdeadbeef ); ret = HidD_GetFeature( file, report, report_len ); ok( ret, "HidD_GetFeature failed, last error %lu\n", GetLastError() ); ok( report[0] == report_id, "got report[0] %02x, expected %02x\n", report[0], report_id ); length = report_len * 2; SetLastError( 0xdeadbeef ); ret = sync_ioctl( file, IOCTL_HID_GET_FEATURE, NULL, 0, report, &length, INFINITE ); ok( ret, "IOCTL_HID_GET_FEATURE failed, last error %lu\n", GetLastError() ); ok( length == 3, "got length %lu, expected 3\n", length ); ok( report[0] == report_id, "got report[0] %02x, expected %02x\n", report[0], report_id ); set_hid_expect( file, NULL, 0 ); } static void test_hidp_set_feature( HANDLE file, int report_id, ULONG report_len, PHIDP_PREPARSED_DATA preparsed ) { struct hid_expect expect[] = { { .code = IOCTL_HID_SET_FEATURE, .report_id = report_id, .report_len = report_len - (report_id ? 0 : 1), .report_buf = {report_id}, .ret_length = 3, .ret_status = STATUS_SUCCESS, }, { .code = IOCTL_HID_SET_FEATURE, .report_id = report_id, .report_len = report_len - (report_id ? 0 : 1), .report_buf = { report_id,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0xcd,0xcd,0xcd,0xcd,0xcd,0xcd,0xcd,0xcd,0xcd,0xcd,0xcd, 0xcd,0xcd,0xcd,0xcd,0xcd,0xcd,0xcd,0xcd,0xcd,0xcd,0xcd, }, .ret_length = 3, .ret_status = STATUS_SUCCESS, }, }; char buffer[200], report[200]; NTSTATUS status; ULONG length; BOOL ret; memset( report, 0xcd, sizeof(report) ); status = HidP_InitializeReportForID( HidP_Feature, report_id, preparsed, report, report_len ); ok( status == HIDP_STATUS_SUCCESS, "HidP_InitializeReportForID returned %#lx\n", status ); SetLastError( 0xdeadbeef ); ret = HidD_SetFeature( file, report, 0 ); ok( !ret, "HidD_SetFeature succeeded\n" ); ok( GetLastError() == ERROR_INVALID_USER_BUFFER, "HidD_SetFeature returned error %lu\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = HidD_SetFeature( file, report, report_len - 1 ); ok( !ret, "HidD_SetFeature succeeded\n" ); ok( GetLastError() == ERROR_INVALID_PARAMETER || broken( GetLastError() == ERROR_CRC ), "HidD_SetFeature returned error %lu\n", GetLastError() ); if (!report_id) { struct hid_expect broken_expect = { .code = IOCTL_HID_SET_FEATURE, .broken = TRUE, .report_len = report_len - 1, .report_buf = { 0x5a,0x5a,0x5a,0x5a,0x5a,0x5a,0x5a,0x5a, 0x5a,0x5a,0x5a,0x5a,0x5a,0x5a,0x5a,0x5a, 0x5a,0x5a,0x5a,0x5a,0x5a, }, .ret_length = 3, .ret_status = STATUS_SUCCESS, }; set_hid_expect( file, &broken_expect, sizeof(broken_expect) ); } SetLastError( 0xdeadbeef ); memset( buffer, 0x5a, sizeof(buffer) ); ret = HidD_SetFeature( file, buffer, report_len ); if (report_id || broken( !ret )) { ok( !ret, "HidD_SetFeature succeeded, last error %lu\n", GetLastError() ); ok( GetLastError() == ERROR_INVALID_PARAMETER || broken( GetLastError() == ERROR_CRC ), "HidD_SetFeature returned error %lu\n", GetLastError() ); } else { ok( ret, "HidD_SetFeature failed, last error %lu\n", GetLastError() ); } set_hid_expect( file, expect, sizeof(expect) ); SetLastError( 0xdeadbeef ); ret = HidD_SetFeature( file, report, report_len ); ok( ret, "HidD_SetFeature failed, last error %lu\n", GetLastError() ); length = report_len * 2; SetLastError( 0xdeadbeef ); ret = sync_ioctl( file, IOCTL_HID_SET_FEATURE, NULL, 0, report, &length, INFINITE ); ok( !ret, "IOCTL_HID_SET_FEATURE succeeded\n" ); ok( GetLastError() == ERROR_INVALID_USER_BUFFER, "IOCTL_HID_SET_FEATURE returned error %lu\n", GetLastError() ); length = 0; SetLastError( 0xdeadbeef ); ret = sync_ioctl( file, IOCTL_HID_SET_FEATURE, report, report_len * 2, NULL, &length, INFINITE ); ok( ret, "IOCTL_HID_SET_FEATURE failed, last error %lu\n", GetLastError() ); ok( length == 3, "got length %lu, expected 3\n", length ); set_hid_expect( file, NULL, 0 ); } static void test_hidp_set_output( HANDLE file, int report_id, ULONG report_len, PHIDP_PREPARSED_DATA preparsed ) { struct hid_expect expect[] = { { .code = IOCTL_HID_SET_OUTPUT_REPORT, .report_id = report_id, .report_len = report_len - (report_id ? 0 : 1), .report_buf = {report_id}, .ret_length = 3, .ret_status = STATUS_SUCCESS, }, { .code = IOCTL_HID_SET_OUTPUT_REPORT, .report_id = report_id, .report_len = report_len - (report_id ? 0 : 1), .report_buf = {report_id,0,0xcd,0xcd,0xcd}, .ret_length = 3, .ret_status = STATUS_SUCCESS, }, }; char buffer[200], report[200]; NTSTATUS status; ULONG length; BOOL ret; memset( report, 0xcd, sizeof(report) ); status = HidP_InitializeReportForID( HidP_Output, report_id, preparsed, report, report_len ); ok( status == HIDP_STATUS_REPORT_DOES_NOT_EXIST, "HidP_InitializeReportForID returned %#lx\n", status ); memset( report, 0, report_len ); report[0] = report_id; SetLastError( 0xdeadbeef ); ret = HidD_SetOutputReport( file, report, 0 ); ok( !ret, "HidD_SetOutputReport succeeded\n" ); ok( GetLastError() == ERROR_INVALID_USER_BUFFER, "HidD_SetOutputReport returned error %lu\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = HidD_SetOutputReport( file, report, report_len - 1 ); ok( !ret, "HidD_SetOutputReport succeeded\n" ); ok( GetLastError() == ERROR_INVALID_PARAMETER || broken( GetLastError() == ERROR_CRC ), "HidD_SetOutputReport returned error %lu\n", GetLastError() ); if (!report_id) { struct hid_expect broken_expect = { .code = IOCTL_HID_SET_OUTPUT_REPORT, .broken = TRUE, .report_len = report_len - 1, .report_buf = {0x5a,0x5a}, .ret_length = 3, .ret_status = STATUS_SUCCESS, }; set_hid_expect( file, &broken_expect, sizeof(broken_expect) ); } SetLastError( 0xdeadbeef ); memset( buffer, 0x5a, sizeof(buffer) ); ret = HidD_SetOutputReport( file, buffer, report_len ); if (report_id || broken( !ret )) { ok( !ret, "HidD_SetOutputReport succeeded, last error %lu\n", GetLastError() ); ok( GetLastError() == ERROR_INVALID_PARAMETER || broken( GetLastError() == ERROR_CRC ), "HidD_SetOutputReport returned error %lu\n", GetLastError() ); } else { ok( ret, "HidD_SetOutputReport failed, last error %lu\n", GetLastError() ); } set_hid_expect( file, expect, sizeof(expect) ); SetLastError( 0xdeadbeef ); ret = HidD_SetOutputReport( file, report, report_len ); ok( ret, "HidD_SetOutputReport failed, last error %lu\n", GetLastError() ); length = report_len * 2; SetLastError( 0xdeadbeef ); ret = sync_ioctl( file, IOCTL_HID_SET_OUTPUT_REPORT, NULL, 0, report, &length, INFINITE ); ok( !ret, "IOCTL_HID_SET_OUTPUT_REPORT succeeded\n" ); ok( GetLastError() == ERROR_INVALID_USER_BUFFER, "IOCTL_HID_SET_OUTPUT_REPORT returned error %lu\n", GetLastError() ); length = 0; SetLastError( 0xdeadbeef ); ret = sync_ioctl( file, IOCTL_HID_SET_OUTPUT_REPORT, report, report_len * 2, NULL, &length, INFINITE ); ok( ret, "IOCTL_HID_SET_OUTPUT_REPORT failed, last error %lu\n", GetLastError() ); ok( length == 3, "got length %lu, expected 3\n", length ); set_hid_expect( file, NULL, 0 ); } static void test_write_file( HANDLE file, int report_id, ULONG report_len ) { struct hid_expect expect = { .code = IOCTL_HID_WRITE_REPORT, .report_id = report_id, .report_len = report_len - (report_id ? 0 : 1), .report_buf = {report_id ? report_id : 0xcd,0xcd,0xcd,0xcd,0xcd}, .ret_length = 3, .ret_status = STATUS_SUCCESS, }; char report[200]; ULONG length; BOOL ret; SetLastError( 0xdeadbeef ); ret = WriteFile( file, report, 0, &length, NULL ); ok( !ret, "WriteFile succeeded\n" ); ok( GetLastError() == ERROR_INVALID_USER_BUFFER, "WriteFile returned error %lu\n", GetLastError() ); ok( length == 0, "WriteFile returned %#lx\n", length ); SetLastError( 0xdeadbeef ); ret = WriteFile( file, report, report_len - 1, &length, NULL ); ok( !ret, "WriteFile succeeded\n" ); ok( GetLastError() == ERROR_INVALID_PARAMETER || GetLastError() == ERROR_INVALID_USER_BUFFER, "WriteFile returned error %lu\n", GetLastError() ); ok( length == 0, "WriteFile returned %#lx\n", length ); set_hid_expect( file, &expect, sizeof(expect) ); memset( report, 0xcd, sizeof(report) ); report[0] = 0xa5; SetLastError( 0xdeadbeef ); ret = WriteFile( file, report, report_len * 2, &length, NULL ); if (report_id || broken( !ret ) /* w7u */) { ok( !ret, "WriteFile succeeded\n" ); ok( GetLastError() == ERROR_INVALID_PARAMETER, "WriteFile returned error %lu\n", GetLastError() ); ok( length == 0, "WriteFile wrote %lu\n", length ); SetLastError( 0xdeadbeef ); report[0] = report_id; ret = WriteFile( file, report, report_len, &length, NULL ); } if (report_id) { ok( ret, "WriteFile failed, last error %lu\n", GetLastError() ); ok( length == 2, "WriteFile wrote %lu\n", length ); } else { ok( ret, "WriteFile failed, last error %lu\n", GetLastError() ); ok( length == 3, "WriteFile wrote %lu\n", length ); } set_hid_expect( file, NULL, 0 ); } static void test_hidp( HANDLE file, HANDLE async_file, int report_id, BOOL polled, const HIDP_CAPS *expect_caps ) { const HIDP_BUTTON_CAPS expect_button_caps[] = { { .UsagePage = HID_USAGE_PAGE_BUTTON, .ReportID = report_id, .BitField = 2, .LinkUsage = HID_USAGE_GENERIC_JOYSTICK, .LinkUsagePage = HID_USAGE_PAGE_GENERIC, .LinkCollection = 1, .IsRange = TRUE, .IsAbsolute = TRUE, .Range.UsageMin = 1, .Range.UsageMax = 8, .Range.DataIndexMin = 2, .Range.DataIndexMax = 9, }, { .UsagePage = HID_USAGE_PAGE_BUTTON, .ReportID = report_id, .BitField = 3, .LinkCollection = 1, .LinkUsage = HID_USAGE_GENERIC_JOYSTICK, .LinkUsagePage = HID_USAGE_PAGE_GENERIC, .IsRange = TRUE, .IsAbsolute = TRUE, .Range.UsageMin = 0x18, .Range.UsageMax = 0x1f, .Range.DataIndexMin = 10, .Range.DataIndexMax = 17, }, { .UsagePage = HID_USAGE_PAGE_KEYBOARD, .ReportID = report_id, .BitField = 0x1fc, .LinkCollection = 1, .LinkUsage = HID_USAGE_GENERIC_JOYSTICK, .LinkUsagePage = HID_USAGE_PAGE_GENERIC, .IsRange = TRUE, .IsAbsolute = FALSE, .Range.UsageMin = 0x8, .Range.UsageMax = 0xf, .Range.DataIndexMin = 18, .Range.DataIndexMax = 25, }, { .UsagePage = HID_USAGE_PAGE_BUTTON, .ReportID = report_id, .BitField = 2, .LinkCollection = 1, .LinkUsage = HID_USAGE_GENERIC_JOYSTICK, .LinkUsagePage = HID_USAGE_PAGE_GENERIC, .IsRange = FALSE, .IsAbsolute = TRUE, .NotRange.Usage = 0x20, .NotRange.Reserved1 = 0x20, .NotRange.DataIndex = 26, .NotRange.Reserved4 = 26, }, }; const HIDP_VALUE_CAPS expect_value_caps[] = { { .UsagePage = HID_USAGE_PAGE_GENERIC, .ReportID = report_id, .BitField = 2, .LinkUsage = HID_USAGE_GENERIC_JOYSTICK, .LinkUsagePage = HID_USAGE_PAGE_GENERIC, .LinkCollection = 1, .IsAbsolute = TRUE, .BitSize = 8, .ReportCount = 1, .LogicalMin = -128, .LogicalMax = 127, .NotRange.Usage = HID_USAGE_GENERIC_Y, .NotRange.Reserved1 = HID_USAGE_GENERIC_Y, }, { .UsagePage = HID_USAGE_PAGE_GENERIC, .ReportID = report_id, .BitField = 2, .LinkUsage = HID_USAGE_GENERIC_JOYSTICK, .LinkUsagePage = HID_USAGE_PAGE_GENERIC, .LinkCollection = 1, .IsAbsolute = TRUE, .BitSize = 8, .ReportCount = 1, .LogicalMin = -128, .LogicalMax = 127, .NotRange.Usage = HID_USAGE_GENERIC_X, .NotRange.Reserved1 = HID_USAGE_GENERIC_X, .NotRange.DataIndex = 1, .NotRange.Reserved4 = 1, }, { .UsagePage = HID_USAGE_PAGE_BUTTON, .ReportID = report_id, .BitField = 2, .LinkUsage = HID_USAGE_GENERIC_JOYSTICK, .LinkUsagePage = HID_USAGE_PAGE_GENERIC, .LinkCollection = 1, .IsAbsolute = TRUE, .ReportCount = 1, .LogicalMax = 1, .IsRange = TRUE, .Range.UsageMin = 0x21, .Range.UsageMax = 0x22, .Range.DataIndexMin = 27, .Range.DataIndexMax = 28, }, { .UsagePage = HID_USAGE_PAGE_GENERIC, .ReportID = report_id, .BitField = 2, .LinkUsage = HID_USAGE_GENERIC_JOYSTICK, .LinkUsagePage = HID_USAGE_PAGE_GENERIC, .LinkCollection = 1, .IsAbsolute = TRUE, .BitSize = 4, .ReportCount = 2, .LogicalMin = 1, .LogicalMax = 8, .NotRange.Usage = HID_USAGE_GENERIC_HATSWITCH, .NotRange.Reserved1 = HID_USAGE_GENERIC_HATSWITCH, .NotRange.DataIndex = 29, .NotRange.Reserved4 = 29, }, }; static const HIDP_LINK_COLLECTION_NODE expect_collections[] = { { .LinkUsage = HID_USAGE_GENERIC_JOYSTICK, .LinkUsagePage = HID_USAGE_PAGE_GENERIC, .CollectionType = 1, .NumberOfChildren = 7, .FirstChild = 9, }, { .LinkUsage = HID_USAGE_GENERIC_JOYSTICK, .LinkUsagePage = HID_USAGE_PAGE_GENERIC, .CollectionType = 2, }, }; static const HIDP_DATA expect_data[] = { { .DataIndex = 0, }, { .DataIndex = 1, }, { .DataIndex = 5, .RawValue = 1, }, { .DataIndex = 7, .RawValue = 1, }, { .DataIndex = 19, .RawValue = 1, }, { .DataIndex = 21, .RawValue = 1, }, { .DataIndex = 30, }, { .DataIndex = 31, }, { .DataIndex = 32, .RawValue = 0xfeedcafe, }, { .DataIndex = 37, .RawValue = 1, }, { .DataIndex = 39, .RawValue = 1, }, }; OVERLAPPED overlapped = {0}, overlapped2 = {0}; HIDP_LINK_COLLECTION_NODE collections[16]; PHIDP_PREPARSED_DATA preparsed_data; USAGE_AND_PAGE usage_and_pages[16]; HIDP_BUTTON_CAPS button_caps[32]; HIDP_VALUE_CAPS value_caps[16]; char buffer[200], report[200]; DWORD collection_count; DWORD waveform_list; HIDP_DATA data[64]; USAGE usages[16]; ULONG off, value; NTSTATUS status; HIDP_CAPS caps; unsigned int i; USHORT count; BOOL ret; ret = HidD_GetPreparsedData( file, &preparsed_data ); ok( ret, "HidD_GetPreparsedData failed with error %lu\n", GetLastError() ); memset( buffer, 0, sizeof(buffer) ); status = HidP_GetCaps( (PHIDP_PREPARSED_DATA)buffer, &caps ); ok( status == HIDP_STATUS_INVALID_PREPARSED_DATA, "HidP_GetCaps returned %#lx\n", status ); status = HidP_GetCaps( preparsed_data, &caps ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetCaps returned %#lx\n", status ); check_hidp_caps( &caps, expect_caps ); collection_count = 0; status = HidP_GetLinkCollectionNodes( collections, &collection_count, preparsed_data ); ok( status == HIDP_STATUS_BUFFER_TOO_SMALL, "HidP_GetLinkCollectionNodes returned %#lx\n", status ); ok( collection_count == caps.NumberLinkCollectionNodes, "got %ld collection nodes, expected %d\n", collection_count, caps.NumberLinkCollectionNodes ); collection_count = ARRAY_SIZE(collections); status = HidP_GetLinkCollectionNodes( collections, &collection_count, (PHIDP_PREPARSED_DATA)buffer ); ok( status == HIDP_STATUS_INVALID_PREPARSED_DATA, "HidP_GetLinkCollectionNodes returned %#lx\n", status ); status = HidP_GetLinkCollectionNodes( collections, &collection_count, preparsed_data ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetLinkCollectionNodes returned %#lx\n", status ); ok( collection_count == caps.NumberLinkCollectionNodes, "got %ld collection nodes, expected %d\n", collection_count, caps.NumberLinkCollectionNodes ); for (i = 0; i < ARRAY_SIZE(expect_collections); ++i) { winetest_push_context( "collections[%d]", i ); check_hidp_link_collection_node( &collections[i], &expect_collections[i] ); winetest_pop_context(); } count = ARRAY_SIZE(button_caps); status = HidP_GetButtonCaps( HidP_Output, button_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_GetButtonCaps returned %#lx\n", status ); status = HidP_GetButtonCaps( HidP_Feature + 1, button_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_INVALID_REPORT_TYPE, "HidP_GetButtonCaps returned %#lx\n", status ); count = 0; status = HidP_GetButtonCaps( HidP_Input, button_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_BUFFER_TOO_SMALL, "HidP_GetButtonCaps returned %#lx\n", status ); ok( count == caps.NumberInputButtonCaps, "HidP_GetButtonCaps returned count %d, expected %d\n", count, caps.NumberInputButtonCaps ); count = ARRAY_SIZE(button_caps); status = HidP_GetButtonCaps( HidP_Input, button_caps, &count, (PHIDP_PREPARSED_DATA)buffer ); ok( status == HIDP_STATUS_INVALID_PREPARSED_DATA, "HidP_GetButtonCaps returned %#lx\n", status ); memset( button_caps, 0, sizeof(button_caps) ); status = HidP_GetButtonCaps( HidP_Input, button_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetButtonCaps returned %#lx\n", status ); ok( count == caps.NumberInputButtonCaps, "HidP_GetButtonCaps returned count %d, expected %d\n", count, caps.NumberInputButtonCaps ); for (i = 0; i < ARRAY_SIZE(expect_button_caps); ++i) { winetest_push_context( "button_caps[%d]", i ); check_hidp_button_caps( &button_caps[i], &expect_button_caps[i] ); winetest_pop_context(); } count = ARRAY_SIZE(button_caps) - 1; status = HidP_GetSpecificButtonCaps( HidP_Output, 0, 0, 0, button_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_GetSpecificButtonCaps returned %#lx\n", status ); status = HidP_GetSpecificButtonCaps( HidP_Feature + 1, 0, 0, 0, button_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_INVALID_REPORT_TYPE, "HidP_GetSpecificButtonCaps returned %#lx\n", status ); count = 0; status = HidP_GetSpecificButtonCaps( HidP_Input, 0, 0, 0, button_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_BUFFER_TOO_SMALL, "HidP_GetSpecificButtonCaps returned %#lx\n", status ); ok( count == caps.NumberInputButtonCaps, "HidP_GetSpecificButtonCaps returned count %d, expected %d\n", count, caps.NumberInputButtonCaps ); count = ARRAY_SIZE(button_caps) - 1; status = HidP_GetSpecificButtonCaps( HidP_Input, 0, 0, 0, button_caps, &count, (PHIDP_PREPARSED_DATA)buffer ); ok( status == HIDP_STATUS_INVALID_PREPARSED_DATA, "HidP_GetSpecificButtonCaps returned %#lx\n", status ); status = HidP_GetSpecificButtonCaps( HidP_Input, 0, 0, 0, button_caps + 1, &count, preparsed_data ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetSpecificButtonCaps returned %#lx\n", status ); ok( count == caps.NumberInputButtonCaps, "HidP_GetSpecificButtonCaps returned count %d, expected %d\n", count, caps.NumberInputButtonCaps ); check_hidp_button_caps( &button_caps[1], &button_caps[0] ); status = HidP_GetSpecificButtonCaps( HidP_Input, HID_USAGE_PAGE_BUTTON, 0, 5, button_caps + 1, &count, preparsed_data ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetSpecificButtonCaps returned %#lx\n", status ); ok( count == 1, "HidP_GetSpecificButtonCaps returned count %d, expected %d\n", count, 1 ); check_hidp_button_caps( &button_caps[1], &button_caps[0] ); count = 0xbeef; status = HidP_GetSpecificButtonCaps( HidP_Input, 0xfffe, 0, 0, button_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_GetSpecificButtonCaps returned %#lx\n", status ); ok( count == 0, "HidP_GetSpecificButtonCaps returned count %d, expected %d\n", count, 0 ); count = 0xbeef; status = HidP_GetSpecificButtonCaps( HidP_Input, 0, 0xfffe, 0, button_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_GetSpecificButtonCaps returned %#lx\n", status ); ok( count == 0, "HidP_GetSpecificButtonCaps returned count %d, expected %d\n", count, 0 ); count = 0xbeef; status = HidP_GetSpecificButtonCaps( HidP_Input, 0, 0, 0xfffe, button_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_GetSpecificButtonCaps returned %#lx\n", status ); ok( count == 0, "HidP_GetSpecificButtonCaps returned count %d, expected %d\n", count, 0 ); count = ARRAY_SIZE(value_caps); status = HidP_GetValueCaps( HidP_Output, value_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_GetValueCaps returned %#lx\n", status ); status = HidP_GetValueCaps( HidP_Feature + 1, value_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_INVALID_REPORT_TYPE, "HidP_GetValueCaps returned %#lx\n", status ); count = 0; status = HidP_GetValueCaps( HidP_Input, value_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_BUFFER_TOO_SMALL, "HidP_GetValueCaps returned %#lx\n", status ); ok( count == caps.NumberInputValueCaps, "HidP_GetValueCaps returned count %d, expected %d\n", count, caps.NumberInputValueCaps ); count = ARRAY_SIZE(value_caps); status = HidP_GetValueCaps( HidP_Input, value_caps, &count, (PHIDP_PREPARSED_DATA)buffer ); ok( status == HIDP_STATUS_INVALID_PREPARSED_DATA, "HidP_GetValueCaps returned %#lx\n", status ); status = HidP_GetValueCaps( HidP_Input, value_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetValueCaps returned %#lx\n", status ); ok( count == caps.NumberInputValueCaps, "HidP_GetValueCaps returned count %d, expected %d\n", count, caps.NumberInputValueCaps ); for (i = 0; i < ARRAY_SIZE(expect_value_caps); ++i) { winetest_push_context( "value_caps[%d]", i ); check_hidp_value_caps( &value_caps[i], &expect_value_caps[i] ); winetest_pop_context(); } count = ARRAY_SIZE(value_caps) - 4; status = HidP_GetSpecificValueCaps( HidP_Output, 0, 0, 0, value_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_GetSpecificValueCaps returned %#lx\n", status ); status = HidP_GetSpecificValueCaps( HidP_Feature + 1, 0, 0, 0, value_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_INVALID_REPORT_TYPE, "HidP_GetSpecificValueCaps returned %#lx\n", status ); count = 0; status = HidP_GetSpecificValueCaps( HidP_Input, 0, 0, 0, value_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_BUFFER_TOO_SMALL, "HidP_GetSpecificValueCaps returned %#lx\n", status ); ok( count == caps.NumberInputValueCaps, "HidP_GetSpecificValueCaps returned count %d, expected %d\n", count, caps.NumberInputValueCaps ); count = ARRAY_SIZE(value_caps) - 4; status = HidP_GetSpecificValueCaps( HidP_Input, 0, 0, 0, value_caps + 4, &count, (PHIDP_PREPARSED_DATA)buffer ); ok( status == HIDP_STATUS_INVALID_PREPARSED_DATA, "HidP_GetSpecificValueCaps returned %#lx\n", status ); status = HidP_GetSpecificValueCaps( HidP_Input, 0, 0, 0, value_caps + 4, &count, preparsed_data ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetSpecificValueCaps returned %#lx\n", status ); ok( count == caps.NumberInputValueCaps, "HidP_GetSpecificValueCaps returned count %d, expected %d\n", count, caps.NumberInputValueCaps ); check_hidp_value_caps( &value_caps[4], &value_caps[0] ); check_hidp_value_caps( &value_caps[5], &value_caps[1] ); check_hidp_value_caps( &value_caps[6], &value_caps[2] ); check_hidp_value_caps( &value_caps[7], &value_caps[3] ); count = 1; status = HidP_GetSpecificValueCaps( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_HATSWITCH, value_caps + 4, &count, preparsed_data ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetSpecificValueCaps returned %#lx\n", status ); ok( count == 1, "HidP_GetSpecificValueCaps returned count %d, expected %d\n", count, 1 ); check_hidp_value_caps( &value_caps[4], &value_caps[3] ); count = 0xdead; status = HidP_GetSpecificValueCaps( HidP_Input, 0xfffe, 0, 0, value_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_GetSpecificValueCaps returned %#lx\n", status ); ok( count == 0, "HidP_GetSpecificValueCaps returned count %d, expected %d\n", count, 0 ); count = 0xdead; status = HidP_GetSpecificValueCaps( HidP_Input, 0, 0xfffe, 0, value_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_GetSpecificValueCaps returned %#lx\n", status ); ok( count == 0, "HidP_GetSpecificValueCaps returned count %d, expected %d\n", count, 0 ); count = 0xdead; status = HidP_GetSpecificValueCaps( HidP_Input, 0, 0, 0xfffe, value_caps, &count, preparsed_data ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_GetSpecificValueCaps returned %#lx\n", status ); ok( count == 0, "HidP_GetSpecificValueCaps returned count %d, expected %d\n", count, 0 ); status = HidP_InitializeReportForID( HidP_Input, 0, (PHIDP_PREPARSED_DATA)buffer, report, sizeof(report) ); ok( status == HIDP_STATUS_INVALID_PREPARSED_DATA, "HidP_InitializeReportForID returned %#lx\n", status ); status = HidP_InitializeReportForID( HidP_Feature + 1, 0, preparsed_data, report, sizeof(report) ); ok( status == HIDP_STATUS_INVALID_REPORT_TYPE, "HidP_InitializeReportForID returned %#lx\n", status ); status = HidP_InitializeReportForID( HidP_Input, 0, preparsed_data, report, sizeof(report) ); ok( status == HIDP_STATUS_INVALID_REPORT_LENGTH, "HidP_InitializeReportForID returned %#lx\n", status ); status = HidP_InitializeReportForID( HidP_Input, 0, preparsed_data, report, caps.InputReportByteLength + 1 ); ok( status == HIDP_STATUS_INVALID_REPORT_LENGTH, "HidP_InitializeReportForID returned %#lx\n", status ); status = HidP_InitializeReportForID( HidP_Input, 1 - report_id, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_REPORT_DOES_NOT_EXIST, "HidP_InitializeReportForID returned %#lx\n", status ); memset( report, 0xcd, sizeof(report) ); status = HidP_InitializeReportForID( HidP_Input, report_id, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_InitializeReportForID returned %#lx\n", status ); memset( buffer, 0xcd, sizeof(buffer) ); memset( buffer, 0, caps.InputReportByteLength ); buffer[0] = report_id; ok( !memcmp( buffer, report, sizeof(buffer) ), "unexpected report data\n" ); status = HidP_SetUsageValueArray( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_X, buffer, sizeof(buffer), preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_NOT_VALUE_ARRAY, "HidP_SetUsageValueArray returned %#lx\n", status ); memset( buffer, 0xcd, sizeof(buffer) ); status = HidP_SetUsageValueArray( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_HATSWITCH, buffer, 0, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_BUFFER_TOO_SMALL, "HidP_SetUsageValueArray returned %#lx\n", status ); status = HidP_SetUsageValueArray( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_HATSWITCH, buffer, 8, preparsed_data, report, caps.InputReportByteLength ); todo_wine ok( status == HIDP_STATUS_NOT_IMPLEMENTED, "HidP_SetUsageValueArray returned %#lx\n", status ); status = HidP_GetUsageValueArray( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_X, buffer, sizeof(buffer), preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_NOT_VALUE_ARRAY, "HidP_GetUsageValueArray returned %#lx\n", status ); memset( buffer, 0xcd, sizeof(buffer) ); status = HidP_GetUsageValueArray( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_HATSWITCH, buffer, 0, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_BUFFER_TOO_SMALL, "HidP_GetUsageValueArray returned %#lx\n", status ); status = HidP_GetUsageValueArray( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_HATSWITCH, buffer, 8, preparsed_data, report, caps.InputReportByteLength ); todo_wine ok( status == HIDP_STATUS_NOT_IMPLEMENTED, "HidP_GetUsageValueArray returned %#lx\n", status ); value = -128; status = HidP_SetUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_X, value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsageValue returned %#lx\n", status ); value = 0xdeadbeef; status = HidP_GetUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_X, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetUsageValue returned %#lx\n", status ); ok( value == 0x80, "got value %#lx, expected %#x\n", value, 0x80 ); value = 0xdeadbeef; status = HidP_GetScaledUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_X, (LONG *)&value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetScaledUsageValue returned %#lx\n", status ); ok( value == -128, "got value %#lx, expected %#x\n", value, -128 ); value = 127; status = HidP_SetUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_X, value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsageValue returned %#lx\n", status ); value = 0xdeadbeef; status = HidP_GetScaledUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_X, (LONG *)&value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetScaledUsageValue returned %#lx\n", status ); ok( value == 127, "got value %#lx, expected %#x\n", value, 127 ); value = 0; status = HidP_SetUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_X, value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsageValue returned %#lx\n", status ); value = 0xdeadbeef; status = HidP_GetScaledUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_X, (LONG *)&value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetScaledUsageValue returned %#lx\n", status ); ok( value == 0, "got value %#lx, expected %#x\n", value, 0 ); value = 0x7fffffff; status = HidP_SetUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsageValue returned %#lx\n", status ); value = 0xdeadbeef; status = HidP_GetScaledUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, (LONG *)&value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_VALUE_OUT_OF_RANGE, "HidP_GetScaledUsageValue returned %#lx\n", status ); ok( value == 0, "got value %#lx, expected %#x\n", value, 0 ); value = 0xdeadbeef; status = HidP_GetUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetUsageValue returned %#lx\n", status ); ok( value == 0x7fffffff, "got value %#lx, expected %#x\n", value, 0x7fffffff ); value = 0x3fffffff; status = HidP_SetUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsageValue returned %#lx\n", status ); value = 0xdeadbeef; status = HidP_GetScaledUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, (LONG *)&value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetScaledUsageValue returned %#lx\n", status ); ok( value == 0x7fffffff, "got value %#lx, expected %#x\n", value, 0x7fffffff ); value = 0; status = HidP_SetUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsageValue returned %#lx\n", status ); value = 0xdeadbeef; status = HidP_GetScaledUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, (LONG *)&value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetScaledUsageValue returned %#lx\n", status ); ok( value == 0x80000000, "got value %#lx, expected %#x\n", value, 0x80000000 ); value = 0; status = HidP_SetUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_RX, value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsageValue returned %#lx\n", status ); value = 0xdeadbeef; status = HidP_GetScaledUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_RX, (LONG *)&value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetScaledUsageValue returned %#lx\n", status ); ok( value == 0, "got value %#lx, expected %#x\n", value, 0 ); value = 0xfeedcafe; status = HidP_SetUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_RY, value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsageValue returned %#lx\n", status ); value = 0xdeadbeef; status = HidP_GetScaledUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_RY, (LONG *)&value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_BAD_LOG_PHY_VALUES, "HidP_GetScaledUsageValue returned %#lx\n", status ); ok( value == 0, "got value %#lx, expected %#x\n", value, 0 ); status = HidP_SetScaledUsageValue( HidP_Input, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_RY, 0, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_BAD_LOG_PHY_VALUES, "HidP_GetScaledUsageValue returned %#lx\n", status ); value = HidP_MaxUsageListLength( HidP_Feature + 1, 0, preparsed_data ); ok( value == 0, "HidP_MaxUsageListLength(HidP_Feature + 1, 0) returned %ld, expected %d\n", value, 0 ); value = HidP_MaxUsageListLength( HidP_Input, 0, preparsed_data ); ok( value == 50, "HidP_MaxUsageListLength(HidP_Input, 0) returned %ld, expected %d\n", value, 50 ); value = HidP_MaxUsageListLength( HidP_Input, HID_USAGE_PAGE_BUTTON, preparsed_data ); ok( value == 32, "HidP_MaxUsageListLength(HidP_Input, HID_USAGE_PAGE_BUTTON) returned %ld, expected %d\n", value, 32 ); value = HidP_MaxUsageListLength( HidP_Input, HID_USAGE_PAGE_LED, preparsed_data ); ok( value == 8, "HidP_MaxUsageListLength(HidP_Input, HID_USAGE_PAGE_LED) returned %ld, expected %d\n", value, 8 ); value = HidP_MaxUsageListLength( HidP_Feature, HID_USAGE_PAGE_BUTTON, preparsed_data ); ok( value == 8, "HidP_MaxUsageListLength(HidP_Feature, HID_USAGE_PAGE_BUTTON) returned %ld, expected %d\n", value, 8 ); value = HidP_MaxUsageListLength( HidP_Feature, HID_USAGE_PAGE_LED, preparsed_data ); ok( value == 0, "HidP_MaxUsageListLength(HidP_Feature, HID_USAGE_PAGE_LED) returned %ld, expected %d\n", value, 0 ); usages[0] = 0xff; value = 1; status = HidP_SetUsages( HidP_Input, HID_USAGE_PAGE_BUTTON, 0, usages, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_SetUsages returned %#lx\n", status ); usages[1] = 2; usages[2] = 0xff; value = 3; status = HidP_SetUsages( HidP_Input, HID_USAGE_PAGE_BUTTON, 0, usages, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_SetUsages returned %#lx\n", status ); usages[0] = 4; usages[1] = 6; value = 2; status = HidP_SetUsages( HidP_Input, HID_USAGE_PAGE_BUTTON, 0, usages, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsages returned %#lx\n", status ); usages[0] = 4; usages[1] = 6; value = 2; status = HidP_SetUsages( HidP_Input, HID_USAGE_PAGE_LED, 0, usages, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsages returned %#lx\n", status ); value = ARRAY_SIZE(usages); status = HidP_GetUsages( HidP_Input, HID_USAGE_PAGE_KEYBOARD, 0, usages, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetUsages returned %#lx\n", status ); ok( value == 0, "got usage count %ld, expected %d\n", value, 2 ); usages[0] = 0x9; usages[1] = 0xb; usages[2] = 0xa; value = 3; ok( report[6] == 0, "got report[6] %x expected 0\n", report[6] ); ok( report[7] == 0, "got report[7] %x expected 0\n", report[7] ); memcpy( buffer, report, caps.InputReportByteLength ); status = HidP_SetUsages( HidP_Input, HID_USAGE_PAGE_KEYBOARD, 0, usages, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_BUFFER_TOO_SMALL, "HidP_SetUsages returned %#lx\n", status ); buffer[13] = 2; buffer[14] = 4; ok( !memcmp( buffer, report, caps.InputReportByteLength ), "unexpected report data\n" ); status = HidP_SetUsageValue( HidP_Input, HID_USAGE_PAGE_LED, 0, 6, 1, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_SetUsageValue returned %#lx\n", status ); value = 0xdeadbeef; status = HidP_GetUsageValue( HidP_Input, HID_USAGE_PAGE_LED, 0, 6, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_SetUsageValue returned %#lx\n", status ); ok( value == 0xdeadbeef, "got value %#lx, expected %#x\n", value, 0xdeadbeef ); value = 1; status = HidP_GetUsages( HidP_Input, HID_USAGE_PAGE_BUTTON, 0, usages, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_BUFFER_TOO_SMALL, "HidP_GetUsages returned %#lx\n", status ); ok( value == 2, "got usage count %ld, expected %d\n", value, 2 ); value = ARRAY_SIZE(usages); memset( usages, 0xcd, sizeof(usages) ); status = HidP_GetUsages( HidP_Input, HID_USAGE_PAGE_BUTTON, 0, usages, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetUsages returned %#lx\n", status ); ok( value == 2, "got usage count %ld, expected %d\n", value, 2 ); ok( usages[0] == 4, "got usages[0] %x, expected %x\n", usages[0], 4 ); ok( usages[1] == 6, "got usages[1] %x, expected %x\n", usages[1], 6 ); value = ARRAY_SIZE(usages); memset( usages, 0xcd, sizeof(usages) ); status = HidP_GetUsages( HidP_Input, HID_USAGE_PAGE_LED, 0, usages, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetUsages returned %#lx\n", status ); ok( value == 2, "got usage count %ld, expected %d\n", value, 2 ); ok( usages[0] == 6, "got usages[0] %x, expected %x\n", usages[0], 6 ); ok( usages[1] == 4, "got usages[1] %x, expected %x\n", usages[1], 4 ); value = ARRAY_SIZE(usage_and_pages); memset( usage_and_pages, 0xcd, sizeof(usage_and_pages) ); status = HidP_GetUsagesEx( HidP_Input, 0, usage_and_pages, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetUsagesEx returned %#lx\n", status ); ok( value == 6, "got usage count %ld, expected %d\n", value, 4 ); ok( usage_and_pages[0].UsagePage == HID_USAGE_PAGE_BUTTON, "got usage_and_pages[0] UsagePage %x, expected %x\n", usage_and_pages[0].UsagePage, HID_USAGE_PAGE_BUTTON ); ok( usage_and_pages[1].UsagePage == HID_USAGE_PAGE_BUTTON, "got usage_and_pages[1] UsagePage %x, expected %x\n", usage_and_pages[1].UsagePage, HID_USAGE_PAGE_BUTTON ); ok( usage_and_pages[2].UsagePage == HID_USAGE_PAGE_KEYBOARD, "got usage_and_pages[2] UsagePage %x, expected %x\n", usage_and_pages[2].UsagePage, HID_USAGE_PAGE_KEYBOARD ); ok( usage_and_pages[3].UsagePage == HID_USAGE_PAGE_KEYBOARD, "got usage_and_pages[3] UsagePage %x, expected %x\n", usage_and_pages[3].UsagePage, HID_USAGE_PAGE_KEYBOARD ); ok( usage_and_pages[4].UsagePage == HID_USAGE_PAGE_LED, "got usage_and_pages[4] UsagePage %x, expected %x\n", usage_and_pages[4].UsagePage, HID_USAGE_PAGE_LED ); ok( usage_and_pages[5].UsagePage == HID_USAGE_PAGE_LED, "got usage_and_pages[5] UsagePage %x, expected %x\n", usage_and_pages[5].UsagePage, HID_USAGE_PAGE_LED ); ok( usage_and_pages[0].Usage == 4, "got usage_and_pages[0] Usage %x, expected %x\n", usage_and_pages[0].Usage, 4 ); ok( usage_and_pages[1].Usage == 6, "got usage_and_pages[1] Usage %x, expected %x\n", usage_and_pages[1].Usage, 6 ); ok( usage_and_pages[2].Usage == 9, "got usage_and_pages[2] Usage %x, expected %x\n", usage_and_pages[2].Usage, 9 ); ok( usage_and_pages[3].Usage == 11, "got usage_and_pages[3] Usage %x, expected %x\n", usage_and_pages[3].Usage, 11 ); ok( usage_and_pages[4].Usage == 6, "got usage_and_pages[4] Usage %x, expected %x\n", usage_and_pages[4].Usage, 6 ); ok( usage_and_pages[5].Usage == 4, "got usage_and_pages[5] Usage %x, expected %x\n", usage_and_pages[5].Usage, 4 ); value = HidP_MaxDataListLength( HidP_Feature + 1, preparsed_data ); ok( value == 0, "HidP_MaxDataListLength(HidP_Feature + 1) returned %ld, expected %d\n", value, 0 ); value = HidP_MaxDataListLength( HidP_Input, preparsed_data ); ok( value == 58, "HidP_MaxDataListLength(HidP_Input) returned %ld, expected %d\n", value, 58 ); value = HidP_MaxDataListLength( HidP_Output, preparsed_data ); ok( value == 0, "HidP_MaxDataListLength(HidP_Output) returned %ld, expected %d\n", value, 0 ); value = HidP_MaxDataListLength( HidP_Feature, preparsed_data ); ok( value == 14, "HidP_MaxDataListLength(HidP_Feature) returned %ld, expected %d\n", value, 14 ); value = 1; status = HidP_GetData( HidP_Input, data, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_BUFFER_TOO_SMALL, "HidP_GetData returned %#lx\n", status ); ok( value == 11, "got data count %ld, expected %d\n", value, 11 ); memset( data, 0, sizeof(data) ); status = HidP_GetData( HidP_Input, data, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetData returned %#lx\n", status ); for (i = 0; i < ARRAY_SIZE(expect_data); ++i) { winetest_push_context( "data[%d]", i ); check_member( data[i], expect_data[i], "%d", DataIndex ); check_member( data[i], expect_data[i], "%ld", RawValue ); winetest_pop_context(); } /* HID nary usage collections are set with 1-based usage index in their declaration order */ memset( report, 0, caps.InputReportByteLength ); status = HidP_InitializeReportForID( HidP_Input, report_id, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_InitializeReportForID returned %#lx\n", status ); value = 2; usages[0] = 0x8e; usages[1] = 0x8f; status = HidP_SetUsages( HidP_Input, HID_USAGE_PAGE_KEYBOARD, 0, usages, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsages returned %#lx\n", status ); ok( report[caps.InputReportByteLength - 2] == 3, "unexpected usage index %d, expected 3\n", report[caps.InputReportByteLength - 2] ); ok( report[caps.InputReportByteLength - 1] == 4, "unexpected usage index %d, expected 4\n", report[caps.InputReportByteLength - 1] ); status = HidP_UnsetUsages( HidP_Input, HID_USAGE_PAGE_KEYBOARD, 0, usages, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_UnsetUsages returned %#lx\n", status ); ok( report[caps.InputReportByteLength - 2] == 0, "unexpected usage index %d, expected 0\n", report[caps.InputReportByteLength - 2] ); ok( report[caps.InputReportByteLength - 1] == 0, "unexpected usage index %d, expected 0\n", report[caps.InputReportByteLength - 1] ); status = HidP_UnsetUsages( HidP_Input, HID_USAGE_PAGE_KEYBOARD, 0, usages, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_BUTTON_NOT_PRESSED, "HidP_UnsetUsages returned %#lx\n", status ); value = 1; usages[0] = 0x8c; status = HidP_SetUsages( HidP_Input, HID_USAGE_PAGE_KEYBOARD, 0, usages, &value, preparsed_data, report, caps.InputReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsages returned %#lx\n", status ); ok( report[caps.InputReportByteLength - 2] == 1, "unexpected usage index %d, expected 1\n", report[caps.InputReportByteLength - 2] ); memset( report, 0xcd, sizeof(report) ); status = HidP_InitializeReportForID( HidP_Feature, 3, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_REPORT_DOES_NOT_EXIST, "HidP_InitializeReportForID returned %#lx\n", status ); memset( report, 0xcd, sizeof(report) ); status = HidP_InitializeReportForID( HidP_Feature, report_id, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_InitializeReportForID returned %#lx\n", status ); memset( buffer, 0xcd, sizeof(buffer) ); memset( buffer, 0, caps.FeatureReportByteLength ); buffer[0] = report_id; ok( !memcmp( buffer, report, sizeof(buffer) ), "unexpected report data\n" ); for (i = 0; i < caps.NumberLinkCollectionNodes; ++i) { if (collections[i].LinkUsagePage != HID_USAGE_PAGE_HAPTICS) continue; if (collections[i].LinkUsage == HID_USAGE_HAPTICS_WAVEFORM_LIST) break; } ok( i < caps.NumberLinkCollectionNodes, "HID_USAGE_HAPTICS_WAVEFORM_LIST collection not found\n" ); waveform_list = i; status = HidP_SetUsageValue( HidP_Feature, HID_USAGE_PAGE_ORDINAL, waveform_list, 3, HID_USAGE_HAPTICS_WAVEFORM_RUMBLE, (PHIDP_PREPARSED_DATA)buffer, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_INVALID_PREPARSED_DATA, "HidP_SetUsageValue returned %#lx\n", status ); status = HidP_SetUsageValue( HidP_Feature + 1, HID_USAGE_PAGE_ORDINAL, waveform_list, 3, HID_USAGE_HAPTICS_WAVEFORM_RUMBLE, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_INVALID_REPORT_TYPE, "HidP_SetUsageValue returned %#lx\n", status ); status = HidP_SetUsageValue( HidP_Feature, HID_USAGE_PAGE_ORDINAL, waveform_list, 3, HID_USAGE_HAPTICS_WAVEFORM_RUMBLE, preparsed_data, report, caps.FeatureReportByteLength + 1 ); ok( status == HIDP_STATUS_INVALID_REPORT_LENGTH, "HidP_SetUsageValue returned %#lx\n", status ); report[0] = 1 - report_id; status = HidP_SetUsageValue( HidP_Feature, HID_USAGE_PAGE_ORDINAL, waveform_list, 3, HID_USAGE_HAPTICS_WAVEFORM_RUMBLE, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == (report_id ? HIDP_STATUS_SUCCESS : HIDP_STATUS_INCOMPATIBLE_REPORT_ID), "HidP_SetUsageValue returned %#lx\n", status ); report[0] = 2; status = HidP_SetUsageValue( HidP_Feature, HID_USAGE_PAGE_ORDINAL, waveform_list, 3, HID_USAGE_HAPTICS_WAVEFORM_RUMBLE, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_INCOMPATIBLE_REPORT_ID, "HidP_SetUsageValue returned %#lx\n", status ); report[0] = report_id; status = HidP_SetUsageValue( HidP_Feature, HID_USAGE_PAGE_ORDINAL, 0xdead, 3, HID_USAGE_HAPTICS_WAVEFORM_RUMBLE, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_SetUsageValue returned %#lx\n", status ); status = HidP_SetUsageValue( HidP_Feature, HID_USAGE_PAGE_ORDINAL, waveform_list, 3, HID_USAGE_HAPTICS_WAVEFORM_RUMBLE, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsageValue returned %#lx\n", status ); memset( buffer, 0xcd, sizeof(buffer) ); memset( buffer, 0, caps.FeatureReportByteLength ); buffer[0] = report_id; value = HID_USAGE_HAPTICS_WAVEFORM_RUMBLE; memcpy( buffer + 1, &value, 2 ); ok( !memcmp( buffer, report, sizeof(buffer) ), "unexpected report data\n" ); status = HidP_GetUsageValue( HidP_Feature, HID_USAGE_PAGE_ORDINAL, waveform_list, 3, &value, (PHIDP_PREPARSED_DATA)buffer, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_INVALID_PREPARSED_DATA, "HidP_GetUsageValue returned %#lx\n", status ); status = HidP_GetUsageValue( HidP_Feature + 1, HID_USAGE_PAGE_ORDINAL, waveform_list, 3, &value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_INVALID_REPORT_TYPE, "HidP_GetUsageValue returned %#lx\n", status ); status = HidP_GetUsageValue( HidP_Feature, HID_USAGE_PAGE_ORDINAL, waveform_list, 3, &value, preparsed_data, report, caps.FeatureReportByteLength + 1 ); ok( status == HIDP_STATUS_INVALID_REPORT_LENGTH, "HidP_GetUsageValue returned %#lx\n", status ); report[0] = 1 - report_id; status = HidP_GetUsageValue( HidP_Feature, HID_USAGE_PAGE_ORDINAL, waveform_list, 3, &value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == (report_id ? HIDP_STATUS_SUCCESS : HIDP_STATUS_INCOMPATIBLE_REPORT_ID), "HidP_GetUsageValue returned %#lx\n", status ); report[0] = 2; status = HidP_GetUsageValue( HidP_Feature, HID_USAGE_PAGE_ORDINAL, waveform_list, 3, &value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_INCOMPATIBLE_REPORT_ID, "HidP_GetUsageValue returned %#lx\n", status ); report[0] = report_id; status = HidP_GetUsageValue( HidP_Feature, HID_USAGE_PAGE_ORDINAL, 0xdead, 3, &value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_USAGE_NOT_FOUND, "HidP_GetUsageValue returned %#lx\n", status ); value = 0xdeadbeef; status = HidP_GetUsageValue( HidP_Feature, HID_USAGE_PAGE_ORDINAL, waveform_list, 3, &value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetUsageValue returned %#lx\n", status ); ok( value == HID_USAGE_HAPTICS_WAVEFORM_RUMBLE, "got value %#lx, expected %#x\n", value, HID_USAGE_HAPTICS_WAVEFORM_RUMBLE ); memset( buffer, 0xff, sizeof(buffer) ); status = HidP_SetUsageValueArray( HidP_Feature, HID_USAGE_PAGE_HAPTICS, 0, HID_USAGE_HAPTICS_WAVEFORM_CUTOFF_TIME, buffer, 0, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_BUFFER_TOO_SMALL, "HidP_SetUsageValueArray returned %#lx\n", status ); status = HidP_SetUsageValueArray( HidP_Feature, HID_USAGE_PAGE_HAPTICS, 0, HID_USAGE_HAPTICS_WAVEFORM_CUTOFF_TIME, buffer, 64, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsageValueArray returned %#lx\n", status ); ok( !memcmp( report + 9, buffer, 8 ), "unexpected report data\n" ); memset( buffer, 0, sizeof(buffer) ); status = HidP_GetUsageValueArray( HidP_Feature, HID_USAGE_PAGE_HAPTICS, 0, HID_USAGE_HAPTICS_WAVEFORM_CUTOFF_TIME, buffer, 0, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_BUFFER_TOO_SMALL, "HidP_GetUsageValueArray returned %#lx\n", status ); status = HidP_GetUsageValueArray( HidP_Feature, HID_USAGE_PAGE_HAPTICS, 0, HID_USAGE_HAPTICS_WAVEFORM_CUTOFF_TIME, buffer, 64, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetUsageValueArray returned %#lx\n", status ); memset( buffer + 16, 0xff, 8 ); ok( !memcmp( buffer, buffer + 16, 16 ), "unexpected report value\n" ); value = 0x7fffffff; status = HidP_SetUsageValue( HidP_Feature, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsageValue returned %#lx\n", status ); value = 0xdeadbeef; status = HidP_GetScaledUsageValue( HidP_Feature, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, (LONG *)&value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_VALUE_OUT_OF_RANGE, "HidP_GetScaledUsageValue returned %#lx\n", status ); ok( value == 0, "got value %#lx, expected %#x\n", value, 0 ); value = 0xdeadbeef; status = HidP_GetUsageValue( HidP_Feature, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, &value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetUsageValue returned %#lx\n", status ); ok( value == 0x7fffffff, "got value %#lx, expected %#x\n", value, 0x7fffffff ); value = 0x7fff; status = HidP_SetUsageValue( HidP_Feature, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsageValue returned %#lx\n", status ); value = 0xdeadbeef; status = HidP_GetScaledUsageValue( HidP_Feature, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, (LONG *)&value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetScaledUsageValue returned %#lx\n", status ); ok( value == 0x0003ffff, "got value %#lx, expected %#x\n", value, 0x0003ffff ); value = 0; status = HidP_SetUsageValue( HidP_Feature, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetUsageValue returned %#lx\n", status ); value = 0xdeadbeef; status = HidP_GetScaledUsageValue( HidP_Feature, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, (LONG *)&value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetScaledUsageValue returned %#lx\n", status ); ok( value == 0xfff90000, "got value %#lx, expected %#x\n", value, 0xfff90000 ); status = HidP_SetScaledUsageValue( HidP_Feature, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, 0x1000, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetScaledUsageValue returned %#lx\n", status ); value = 0; status = HidP_GetUsageValue( HidP_Feature, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, &value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetUsageValue returned %#lx\n", status ); ok( value == 0xfffff518, "got value %#lx, expected %#x\n", value, 0xfffff518 ); status = HidP_SetScaledUsageValue( HidP_Feature, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, 0, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetScaledUsageValue returned %#lx\n", status ); value = 0; status = HidP_GetUsageValue( HidP_Feature, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, &value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetUsageValue returned %#lx\n", status ); ok( value == 0xfffff45e, "got value %#lx, expected %#x\n", value, 0xfffff45e ); status = HidP_SetScaledUsageValue( HidP_Feature, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, 0xdead, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetScaledUsageValue returned %#lx\n", status ); value = 0; status = HidP_GetUsageValue( HidP_Feature, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, &value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetUsageValue returned %#lx\n", status ); ok( value == 0xfffffe7d, "got value %#lx, expected %#x\n", value, 0xfffffe7d ); status = HidP_SetScaledUsageValue( HidP_Feature, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, 0xbeef, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_SetScaledUsageValue returned %#lx\n", status ); value = 0; status = HidP_GetUsageValue( HidP_Feature, HID_USAGE_PAGE_GENERIC, 0, HID_USAGE_GENERIC_Z, &value, preparsed_data, report, caps.FeatureReportByteLength ); ok( status == HIDP_STATUS_SUCCESS, "HidP_GetUsageValue returned %#lx\n", status ); ok( value == 0xfffffd0b, "got value %#lx, expected %#x\n", value, 0xfffffd0b ); test_hidp_get_input( file, report_id, caps.InputReportByteLength, preparsed_data ); test_hidp_get_feature( file, report_id, caps.FeatureReportByteLength, preparsed_data ); test_hidp_set_feature( file, report_id, caps.FeatureReportByteLength, preparsed_data ); test_hidp_set_output( file, report_id, caps.OutputReportByteLength, preparsed_data ); test_write_file( file, report_id, caps.OutputReportByteLength ); memset( report, 0xcd, sizeof(report) ); SetLastError( 0xdeadbeef ); ret = ReadFile( file, report, 0, &value, NULL ); ok( !ret && GetLastError() == ERROR_INVALID_USER_BUFFER, "ReadFile failed, last error %lu\n", GetLastError() ); ok( value == 0, "ReadFile returned %lx\n", value ); SetLastError( 0xdeadbeef ); ret = ReadFile( file, report, caps.InputReportByteLength - 1, &value, NULL ); ok( !ret && GetLastError() == ERROR_INVALID_USER_BUFFER, "ReadFile failed, last error %lu\n", GetLastError() ); ok( value == 0, "ReadFile returned %lx\n", value ); if (polled) { struct hid_expect expect[] = { { .code = IOCTL_HID_READ_REPORT, .report_len = caps.InputReportByteLength - (report_id ? 0 : 1), .report_buf = {report_id ? report_id : 0x5a,0x5a,0}, .ret_length = 3, .ret_status = STATUS_SUCCESS, }, { .code = IOCTL_HID_READ_REPORT, .report_len = caps.InputReportByteLength - (report_id ? 0 : 1), .report_buf = {report_id ? report_id : 0x5a,0x5a,1}, .ret_length = 3, .ret_status = STATUS_SUCCESS, }, }; struct hid_expect expect_small[] = { { .code = IOCTL_HID_READ_REPORT, .report_len = report_id ? 2 : caps.InputReportByteLength - 1, .report_buf = {report_id ? report_id + 1 : 0x5a,0x5a,0x5a}, .ret_length = report_id ? 2 : caps.InputReportByteLength - 1, .ret_status = STATUS_SUCCESS, }, }; send_hid_input( file, expect, sizeof(expect) ); memset( report, 0xcd, sizeof(report) ); SetLastError( 0xdeadbeef ); ret = ReadFile( file, report, caps.InputReportByteLength, &value, NULL ); ok( ret, "ReadFile failed, last error %lu\n", GetLastError() ); ok( value == (report_id ? 3 : 4), "ReadFile returned %lx\n", value ); ok( report[0] == report_id, "unexpected report data\n" ); overlapped.hEvent = CreateEventW( NULL, FALSE, FALSE, NULL ); overlapped2.hEvent = CreateEventW( NULL, FALSE, FALSE, NULL ); /* drain available input reports */ SetLastError( 0xdeadbeef ); while (ReadFile( async_file, report, caps.InputReportByteLength, NULL, &overlapped )) ResetEvent( overlapped.hEvent ); ok( GetLastError() == ERROR_IO_PENDING, "ReadFile returned error %lu\n", GetLastError() ); ret = GetOverlappedResult( async_file, &overlapped, &value, TRUE ); ok( ret, "GetOverlappedResult failed, last error %lu\n", GetLastError() ); ok( value == (report_id ? 3 : 4), "GetOverlappedResult returned length %lu, expected %u\n", value, (report_id ? 3 : 4) ); ResetEvent( overlapped.hEvent ); memcpy( buffer, report, caps.InputReportByteLength ); memcpy( buffer + caps.InputReportByteLength, report, caps.InputReportByteLength ); SetLastError( 0xdeadbeef ); ret = ReadFile( async_file, report, caps.InputReportByteLength, NULL, &overlapped ); ok( !ret, "ReadFile succeeded\n" ); ok( GetLastError() == ERROR_IO_PENDING, "ReadFile returned error %lu\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = ReadFile( async_file, buffer, caps.InputReportByteLength, NULL, &overlapped2 ); ok( !ret, "ReadFile succeeded\n" ); ok( GetLastError() == ERROR_IO_PENDING, "ReadFile returned error %lu\n", GetLastError() ); /* wait for second report to be ready */ ret = GetOverlappedResult( async_file, &overlapped2, &value, TRUE ); ok( ret, "GetOverlappedResult failed, last error %lu\n", GetLastError() ); ok( value == (report_id ? 3 : 4), "GetOverlappedResult returned length %lu, expected %u\n", value, (report_id ? 3 : 4) ); /* first report should be ready and the same */ ret = GetOverlappedResult( async_file, &overlapped, &value, FALSE ); ok( ret, "GetOverlappedResult failed, last error %lu\n", GetLastError() ); ok( value == (report_id ? 3 : 4), "GetOverlappedResult returned length %lu, expected %u\n", value, (report_id ? 3 : 4) ); ok( memcmp( report, buffer + caps.InputReportByteLength, caps.InputReportByteLength ), "expected different report\n" ); ok( !memcmp( report, buffer, caps.InputReportByteLength ), "expected identical reports\n" ); value = 10; SetLastError( 0xdeadbeef ); ret = sync_ioctl( file, IOCTL_HID_SET_POLL_FREQUENCY_MSEC, &value, sizeof(ULONG), NULL, NULL, INFINITE ); ok( ret, "IOCTL_HID_SET_POLL_FREQUENCY_MSEC failed last error %lu\n", GetLastError() ); Sleep( 600 ); SetLastError( 0xdeadbeef ); ret = ReadFile( async_file, report, caps.InputReportByteLength, NULL, &overlapped ); ok( !ret, "ReadFile succeeded\n" ); ok( GetLastError() == ERROR_IO_PENDING, "ReadFile returned error %lu\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = ReadFile( async_file, buffer, caps.InputReportByteLength, NULL, &overlapped2 ); ok( !ret, "ReadFile succeeded\n" ); ok( GetLastError() == ERROR_IO_PENDING, "ReadFile returned error %lu\n", GetLastError() ); /* wait for second report to be ready */ ret = GetOverlappedResult( async_file, &overlapped2, &value, TRUE ); ok( ret, "GetOverlappedResult failed, last error %lu\n", GetLastError() ); ok( value == (report_id ? 3 : 4), "GetOverlappedResult returned length %lu, expected %u\n", value, (report_id ? 3 : 4) ); /* first report should be ready and the same */ ret = GetOverlappedResult( async_file, &overlapped, &value, FALSE ); ok( ret, "GetOverlappedResult failed, last error %lu\n", GetLastError() ); ok( value == (report_id ? 3 : 4), "GetOverlappedResult returned length %lu, expected %u\n", value, (report_id ? 3 : 4) ); ok( !memcmp( report, buffer, caps.InputReportByteLength ), "expected identical reports\n" ); send_hid_input( file, expect_small, sizeof(expect_small) ); Sleep( 600 ); SetLastError( 0xdeadbeef ); memset( report, 0, sizeof(report) ); ret = ReadFile( async_file, report, caps.InputReportByteLength, NULL, &overlapped ); ok( !ret, "ReadFile succeeded\n" ); ok( GetLastError() == ERROR_IO_PENDING, "ReadFile returned error %lu\n", GetLastError() ); ret = GetOverlappedResult( async_file, &overlapped, &value, TRUE ); ok( ret, "GetOverlappedResult failed, last error %lu\n", GetLastError() ); ok( value == report_id ? 2 : caps.InputReportByteLength - 1, "got length %lu, expected %u\n", value, report_id ? 2 : caps.InputReportByteLength - 1 ); CloseHandle( overlapped.hEvent ); CloseHandle( overlapped2.hEvent ); } else { struct hid_expect expect[] = { { .code = IOCTL_HID_READ_REPORT, .report_len = caps.InputReportByteLength - (report_id ? 0 : 1), .report_buf = {report_id ? report_id : 0x5a,0x5a,0x5a}, .ret_length = 3, .ret_status = STATUS_SUCCESS, }, { .code = IOCTL_HID_READ_REPORT, .report_len = caps.InputReportByteLength - (report_id ? 0 : 1), .report_buf = {report_id ? report_id : 0xa5,0xa5,0xa5,0xa5,0xa5}, .ret_length = caps.InputReportByteLength - (report_id ? 0 : 1), .ret_status = STATUS_SUCCESS, }, }; struct hid_expect expect_small[] = { { .code = IOCTL_HID_READ_REPORT, .report_len = report_id ? 2 : caps.InputReportByteLength - 1, .report_buf = {report_id ? report_id + 1 : 0x5a,0x5a,0x5a}, .ret_length = report_id ? 2 : caps.InputReportByteLength - 1, .ret_status = STATUS_SUCCESS, }, }; overlapped.hEvent = CreateEventW( NULL, FALSE, FALSE, NULL ); overlapped2.hEvent = CreateEventW( NULL, FALSE, FALSE, NULL ); SetLastError( 0xdeadbeef ); memset( report, 0, sizeof(report) ); ret = ReadFile( async_file, report, caps.InputReportByteLength, NULL, &overlapped ); ok( !ret, "ReadFile succeeded\n" ); ok( GetLastError() == ERROR_IO_PENDING, "ReadFile returned error %lu\n", GetLastError() ); Sleep( 50 ); ret = GetOverlappedResult( async_file, &overlapped, &value, FALSE ); ok( !ret, "GetOverlappedResult succeeded\n" ); ok( GetLastError() == ERROR_IO_INCOMPLETE, "GetOverlappedResult returned error %lu\n", GetLastError() ); SetLastError( 0xdeadbeef ); memset( buffer, 0, sizeof(buffer) ); ret = ReadFile( async_file, buffer, caps.InputReportByteLength, NULL, &overlapped2 ); ok( !ret, "ReadFile succeeded\n" ); ok( GetLastError() == ERROR_IO_PENDING, "ReadFile returned error %lu\n", GetLastError() ); Sleep( 50 ); ret = GetOverlappedResult( async_file, &overlapped2, &value, FALSE ); ok( !ret, "GetOverlappedResult succeeded\n" ); ok( GetLastError() == ERROR_IO_INCOMPLETE, "GetOverlappedResult returned error %lu\n", GetLastError() ); memset( report + caps.InputReportByteLength, 0xa5, 5 ); if (report_id) report[caps.InputReportByteLength] = report_id; send_hid_input( file, expect, sizeof(expect) ); /* first read should be completed */ ret = GetOverlappedResult( async_file, &overlapped, &value, TRUE ); ok( ret, "GetOverlappedResult failed, last error %lu\n", GetLastError() ); ok( value == caps.InputReportByteLength, "got length %lu, expected %u\n", value, caps.InputReportByteLength ); /* second read should still be pending */ Sleep( 50 ); ret = GetOverlappedResult( async_file, &overlapped2, &value, FALSE ); ok( !ret, "GetOverlappedResult succeeded\n" ); ok( GetLastError() == ERROR_IO_INCOMPLETE, "GetOverlappedResult returned error %lu\n", GetLastError() ); memset( buffer + caps.InputReportByteLength, 0x3b, 5 ); if (report_id) buffer[caps.InputReportByteLength] = report_id; memset( expect[1].report_buf, 0x3b, 5 ); if (report_id) expect[1].report_buf[0] = report_id; send_hid_input( file, expect, sizeof(expect) ); ret = GetOverlappedResult( async_file, &overlapped2, &value, TRUE ); ok( ret, "GetOverlappedResult failed, last error %lu\n", GetLastError() ); ok( value == caps.InputReportByteLength, "got length %lu, expected %u\n", value, caps.InputReportByteLength ); off = report_id ? 0 : 1; ok( memcmp( report, buffer, caps.InputReportByteLength ), "expected different report\n" ); ok( !memcmp( report + off, report + caps.InputReportByteLength, caps.InputReportByteLength - off ), "expected identical reports\n" ); ok( !memcmp( buffer + off, buffer + caps.InputReportByteLength, caps.InputReportByteLength - off ), "expected identical reports\n" ); SetLastError( 0xdeadbeef ); memset( report, 0, sizeof(report) ); ret = ReadFile( async_file, report, caps.InputReportByteLength, NULL, &overlapped ); ok( !ret, "ReadFile succeeded\n" ); ok( GetLastError() == ERROR_IO_PENDING, "ReadFile returned error %lu\n", GetLastError() ); send_hid_input( file, expect_small, sizeof(expect_small) ); ret = GetOverlappedResult( async_file, &overlapped, &value, TRUE ); ok( ret, "GetOverlappedResult failed, last error %lu\n", GetLastError() ); ok( value == caps.InputReportByteLength, "got length %lu, expected %u\n", value, caps.InputReportByteLength ); CloseHandle( overlapped.hEvent ); CloseHandle( overlapped2.hEvent ); } HidD_FreePreparsedData( preparsed_data ); } static void test_hid_device( DWORD report_id, DWORD polled, const HIDP_CAPS *expect_caps ) { char buffer[FIELD_OFFSET( SP_DEVICE_INTERFACE_DETAIL_DATA_W, DevicePath[MAX_PATH] )]; SP_DEVICE_INTERFACE_DATA iface = {sizeof(SP_DEVICE_INTERFACE_DATA)}; SP_DEVICE_INTERFACE_DETAIL_DATA_W *iface_detail = (void *)buffer; SP_DEVINFO_DATA device = {sizeof(SP_DEVINFO_DATA)}; ULONG count, poll_freq, out_len; HANDLE file, async_file; BOOL ret, found = FALSE; OBJECT_ATTRIBUTES attr; UNICODE_STRING string; IO_STATUS_BLOCK io; NTSTATUS status; unsigned int i; HDEVINFO set; winetest_push_context( "id %ld%s", report_id, polled ? " poll" : "" ); set = SetupDiGetClassDevsW( &GUID_DEVINTERFACE_HID, NULL, NULL, DIGCF_DEVICEINTERFACE | DIGCF_PRESENT ); ok( set != INVALID_HANDLE_VALUE, "failed to get device list, error %#lx\n", GetLastError() ); for (i = 0; SetupDiEnumDeviceInfo( set, i, &device ); ++i) { ret = SetupDiEnumDeviceInterfaces( set, &device, &GUID_DEVINTERFACE_HID, 0, &iface ); ok( ret, "failed to get interface, error %#lx\n", GetLastError() ); ok( IsEqualGUID( &iface.InterfaceClassGuid, &GUID_DEVINTERFACE_HID ), "wrong class %s\n", debugstr_guid( &iface.InterfaceClassGuid ) ); ok( iface.Flags == SPINT_ACTIVE, "got flags %#lx\n", iface.Flags ); iface_detail->cbSize = sizeof(*iface_detail); ret = SetupDiGetDeviceInterfaceDetailW( set, &iface, iface_detail, sizeof(buffer), NULL, NULL ); ok( ret, "failed to get interface path, error %#lx\n", GetLastError() ); if (wcsstr( iface_detail->DevicePath, L"\\\\?\\hid#winetest#1" )) { found = TRUE; break; } } SetupDiDestroyDeviceInfoList( set ); todo_wine ok( found, "didn't find device\n" ); file = CreateFileW( iface_detail->DevicePath, FILE_READ_ACCESS | FILE_WRITE_ACCESS, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, 0, NULL ); ok( file != INVALID_HANDLE_VALUE, "got error %lu\n", GetLastError() ); count = 0xdeadbeef; SetLastError( 0xdeadbeef ); ret = HidD_GetNumInputBuffers( file, &count ); ok( ret, "HidD_GetNumInputBuffers failed last error %lu\n", GetLastError() ); ok( count == 32, "HidD_GetNumInputBuffers returned %lu\n", count ); SetLastError( 0xdeadbeef ); ret = HidD_SetNumInputBuffers( file, 1 ); ok( !ret, "HidD_SetNumInputBuffers succeeded\n" ); ok( GetLastError() == ERROR_INVALID_PARAMETER, "HidD_SetNumInputBuffers returned error %lu\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = HidD_SetNumInputBuffers( file, 513 ); ok( !ret, "HidD_SetNumInputBuffers succeeded\n" ); ok( GetLastError() == ERROR_INVALID_PARAMETER, "HidD_SetNumInputBuffers returned error %lu\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = HidD_SetNumInputBuffers( file, 16 ); ok( ret, "HidD_SetNumInputBuffers failed last error %lu\n", GetLastError() ); count = 0xdeadbeef; SetLastError( 0xdeadbeef ); ret = HidD_GetNumInputBuffers( file, &count ); ok( ret, "HidD_GetNumInputBuffers failed last error %lu\n", GetLastError() ); ok( count == 16, "HidD_GetNumInputBuffers returned %lu\n", count ); async_file = CreateFileW( iface_detail->DevicePath, FILE_READ_ACCESS | FILE_WRITE_ACCESS, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, FILE_FLAG_OVERLAPPED | FILE_FLAG_NO_BUFFERING, NULL ); ok( async_file != INVALID_HANDLE_VALUE, "got error %lu\n", GetLastError() ); count = 0xdeadbeef; SetLastError( 0xdeadbeef ); ret = HidD_GetNumInputBuffers( async_file, &count ); ok( ret, "HidD_GetNumInputBuffers failed last error %lu\n", GetLastError() ); ok( count == 32, "HidD_GetNumInputBuffers returned %lu\n", count ); SetLastError( 0xdeadbeef ); ret = HidD_SetNumInputBuffers( async_file, 2 ); ok( ret, "HidD_SetNumInputBuffers failed last error %lu\n", GetLastError() ); count = 0xdeadbeef; SetLastError( 0xdeadbeef ); ret = HidD_GetNumInputBuffers( async_file, &count ); ok( ret, "HidD_GetNumInputBuffers failed last error %lu\n", GetLastError() ); ok( count == 2, "HidD_GetNumInputBuffers returned %lu\n", count ); count = 0xdeadbeef; SetLastError( 0xdeadbeef ); ret = HidD_GetNumInputBuffers( file, &count ); ok( ret, "HidD_GetNumInputBuffers failed last error %lu\n", GetLastError() ); ok( count == 16, "HidD_GetNumInputBuffers returned %lu\n", count ); if (polled) { out_len = sizeof(ULONG); SetLastError( 0xdeadbeef ); ret = sync_ioctl( file, IOCTL_HID_GET_POLL_FREQUENCY_MSEC, NULL, 0, &poll_freq, &out_len, INFINITE ); ok( ret, "IOCTL_HID_GET_POLL_FREQUENCY_MSEC failed last error %lu\n", GetLastError() ); ok( out_len == sizeof(ULONG), "got out_len %lu, expected sizeof(ULONG)\n", out_len ); todo_wine ok( poll_freq == 5, "got poll_freq %lu, expected 5\n", poll_freq ); out_len = 0; poll_freq = 500; SetLastError( 0xdeadbeef ); ret = sync_ioctl( file, IOCTL_HID_SET_POLL_FREQUENCY_MSEC, &poll_freq, sizeof(ULONG), NULL, &out_len, INFINITE ); ok( ret, "IOCTL_HID_SET_POLL_FREQUENCY_MSEC failed last error %lu\n", GetLastError() ); ok( out_len == 0, "got out_len %lu, expected 0\n", out_len ); out_len = 0; poll_freq = 10001; SetLastError( 0xdeadbeef ); ret = sync_ioctl( file, IOCTL_HID_SET_POLL_FREQUENCY_MSEC, &poll_freq, sizeof(ULONG), NULL, &out_len, INFINITE ); ok( ret, "IOCTL_HID_SET_POLL_FREQUENCY_MSEC failed last error %lu\n", GetLastError() ); ok( out_len == 0, "got out_len %lu, expected 0\n", out_len ); out_len = 0; poll_freq = 0; SetLastError( 0xdeadbeef ); ret = sync_ioctl( file, IOCTL_HID_SET_POLL_FREQUENCY_MSEC, &poll_freq, sizeof(ULONG), NULL, &out_len, INFINITE ); ok( ret, "IOCTL_HID_SET_POLL_FREQUENCY_MSEC failed last error %lu\n", GetLastError() ); ok( out_len == 0, "got out_len %lu, expected 0\n", out_len ); out_len = sizeof(ULONG); SetLastError( 0xdeadbeef ); ret = sync_ioctl( file, IOCTL_HID_GET_POLL_FREQUENCY_MSEC, NULL, 0, &poll_freq, &out_len, INFINITE ); ok( ret, "IOCTL_HID_GET_POLL_FREQUENCY_MSEC failed last error %lu\n", GetLastError() ); ok( out_len == sizeof(ULONG), "got out_len %lu, expected sizeof(ULONG)\n", out_len ); ok( poll_freq == 10000, "got poll_freq %lu, expected 10000\n", poll_freq ); out_len = 0; poll_freq = 500; SetLastError( 0xdeadbeef ); ret = sync_ioctl( file, IOCTL_HID_SET_POLL_FREQUENCY_MSEC, &poll_freq, sizeof(ULONG), NULL, &out_len, INFINITE ); ok( ret, "IOCTL_HID_SET_POLL_FREQUENCY_MSEC failed last error %lu\n", GetLastError() ); ok( out_len == 0, "got out_len %lu, expected 0\n", out_len ); out_len = sizeof(ULONG); SetLastError( 0xdeadbeef ); ret = sync_ioctl( async_file, IOCTL_HID_GET_POLL_FREQUENCY_MSEC, NULL, 0, &poll_freq, &out_len, INFINITE ); ok( ret, "IOCTL_HID_GET_POLL_FREQUENCY_MSEC failed last error %lu\n", GetLastError() ); ok( out_len == sizeof(ULONG), "got out_len %lu, expected sizeof(ULONG)\n", out_len ); ok( poll_freq == 500, "got poll_freq %lu, expected 500\n", poll_freq ); } test_hidp( file, async_file, report_id, polled, expect_caps ); CloseHandle( async_file ); CloseHandle( file ); RtlInitUnicodeString( &string, L"\\??\\root#winetest#0#{deadbeef-29ef-4538-a5fd-b69573a362c0}" ); InitializeObjectAttributes( &attr, &string, OBJ_CASE_INSENSITIVE, NULL, NULL ); status = NtOpenFile( &file, SYNCHRONIZE, &attr, &io, 0, FILE_SYNCHRONOUS_IO_NONALERT ); todo_wine ok( status == STATUS_UNSUCCESSFUL, "got %#lx\n", status ); winetest_pop_context(); } static void test_hid_driver( DWORD report_id, DWORD polled ) { #include "psh_hid_macros.h" /* Replace REPORT_ID with USAGE_PAGE when id is 0 */ #define REPORT_ID_OR_USAGE_PAGE(size, id, off) SHORT_ITEM_1((id ? 8 : 0), 1, (id + off)) const unsigned char report_desc[] = { USAGE_PAGE(1, HID_USAGE_PAGE_GENERIC), USAGE(1, HID_USAGE_GENERIC_JOYSTICK), COLLECTION(1, Application), USAGE(1, HID_USAGE_GENERIC_JOYSTICK), COLLECTION(1, Logical), REPORT_ID_OR_USAGE_PAGE(1, report_id, 0), USAGE_PAGE(1, HID_USAGE_PAGE_GENERIC), USAGE(1, HID_USAGE_GENERIC_X), USAGE(1, HID_USAGE_GENERIC_Y), LOGICAL_MINIMUM(1, -128), LOGICAL_MAXIMUM(1, 127), REPORT_SIZE(1, 8), REPORT_COUNT(1, 2), INPUT(1, Data|Var|Abs), USAGE_PAGE(1, HID_USAGE_PAGE_BUTTON), USAGE_MINIMUM(1, 1), USAGE_MAXIMUM(1, 8), LOGICAL_MINIMUM(1, 0), LOGICAL_MAXIMUM(1, 1), REPORT_COUNT(1, 8), REPORT_SIZE(1, 1), INPUT(1, Data|Var|Abs), USAGE_MINIMUM(1, 0x18), USAGE_MAXIMUM(1, 0x1f), LOGICAL_MINIMUM(1, 0), LOGICAL_MAXIMUM(1, 1), REPORT_COUNT(1, 8), REPORT_SIZE(1, 1), INPUT(1, Cnst|Var|Abs), REPORT_SIZE(1, 8), INPUT(1, Cnst|Var|Abs), /* needs to be 8 bit aligned as next has Buff */ USAGE_MINIMUM(4, (HID_USAGE_PAGE_KEYBOARD<<16)|0x8), USAGE_MAXIMUM(4, (HID_USAGE_PAGE_KEYBOARD<<16)|0xf), LOGICAL_MINIMUM(1, 0), LOGICAL_MAXIMUM(1, 8), REPORT_COUNT(1, 2), REPORT_SIZE(1, 8), INPUT(2, Data|Ary|Rel|Wrap|Lin|Pref|Null|Vol|Buff), /* needs to be 8 bit aligned as previous has Buff */ USAGE(1, 0x20), LOGICAL_MINIMUM(1, 0), LOGICAL_MAXIMUM(1, 1), REPORT_COUNT(1, 8), REPORT_SIZE(1, 1), INPUT(1, Data|Var|Abs), USAGE_MINIMUM(1, 0x21), USAGE_MAXIMUM(1, 0x22), REPORT_COUNT(1, 2), REPORT_SIZE(1, 0), INPUT(1, Data|Var|Abs), USAGE(1, 0x23), REPORT_COUNT(1, 0), REPORT_SIZE(1, 1), INPUT(1, Data|Var|Abs), USAGE_PAGE(1, HID_USAGE_PAGE_GENERIC), USAGE(1, HID_USAGE_GENERIC_HATSWITCH), LOGICAL_MINIMUM(1, 1), LOGICAL_MAXIMUM(1, 8), REPORT_SIZE(1, 4), REPORT_COUNT(1, 2), INPUT(1, Data|Var|Abs), USAGE_PAGE(1, HID_USAGE_PAGE_GENERIC), USAGE(1, HID_USAGE_GENERIC_Z), LOGICAL_MINIMUM(4, 0x00000000), LOGICAL_MAXIMUM(4, 0x3fffffff), PHYSICAL_MINIMUM(4, 0x80000000), PHYSICAL_MAXIMUM(4, 0x7fffffff), REPORT_SIZE(1, 32), REPORT_COUNT(1, 1), INPUT(1, Data|Var|Abs), /* reset physical range to its default interpretation */ USAGE_PAGE(1, HID_USAGE_PAGE_GENERIC), USAGE(1, HID_USAGE_GENERIC_RX), PHYSICAL_MINIMUM(4, 0), PHYSICAL_MAXIMUM(4, 0), REPORT_SIZE(1, 32), REPORT_COUNT(1, 1), INPUT(1, Data|Var|Abs), USAGE_PAGE(1, HID_USAGE_PAGE_GENERIC), USAGE(1, HID_USAGE_GENERIC_RY), LOGICAL_MINIMUM(4, 0x7fff), LOGICAL_MAXIMUM(4, 0x0000), PHYSICAL_MINIMUM(4, 0x0000), PHYSICAL_MAXIMUM(4, 0x7fff), REPORT_SIZE(1, 32), REPORT_COUNT(1, 1), INPUT(1, Data|Var|Abs), END_COLLECTION, USAGE_PAGE(1, HID_USAGE_PAGE_GENERIC), USAGE(1, HID_USAGE_GENERIC_JOYSTICK), COLLECTION(1, Report), REPORT_ID_OR_USAGE_PAGE(1, report_id, 1), USAGE_PAGE(1, HID_USAGE_PAGE_BUTTON), USAGE_MINIMUM(1, 9), USAGE_MAXIMUM(1, 10), LOGICAL_MINIMUM(1, 0), LOGICAL_MAXIMUM(1, 1), REPORT_COUNT(1, 8), REPORT_SIZE(1, 1), INPUT(1, Data|Var|Abs), END_COLLECTION, USAGE_PAGE(1, HID_USAGE_PAGE_LED), USAGE(1, HID_USAGE_LED_GREEN), COLLECTION(1, Report), REPORT_ID_OR_USAGE_PAGE(1, report_id, 0), USAGE_PAGE(1, HID_USAGE_PAGE_LED), USAGE(1, 1), USAGE(1, 2), USAGE(1, 3), USAGE(1, 4), USAGE(1, 5), USAGE(1, 6), USAGE(1, 7), USAGE(1, 8), LOGICAL_MINIMUM(1, 0), LOGICAL_MAXIMUM(1, 1), PHYSICAL_MINIMUM(1, 0), PHYSICAL_MAXIMUM(1, 1), REPORT_COUNT(1, 8), REPORT_SIZE(1, 1), INPUT(1, Data|Var|Abs), USAGE(4, (HID_USAGE_PAGE_KEYBOARD<<16)|0x8c), USAGE(4, (HID_USAGE_PAGE_KEYBOARD<<16)|0x8d), USAGE(4, (HID_USAGE_PAGE_KEYBOARD<<16)|0x8e), USAGE(4, (HID_USAGE_PAGE_KEYBOARD<<16)|0x8f), LOGICAL_MINIMUM(1, 1), LOGICAL_MAXIMUM(1, 16), REPORT_COUNT(1, 2), REPORT_SIZE(1, 8), INPUT(1, Data|Ary|Abs), END_COLLECTION, USAGE_PAGE(2, HID_USAGE_PAGE_HAPTICS), USAGE(1, HID_USAGE_HAPTICS_SIMPLE_CONTROLLER), COLLECTION(1, Logical), REPORT_ID_OR_USAGE_PAGE(1, report_id, 0), USAGE_PAGE(2, HID_USAGE_PAGE_HAPTICS), USAGE(1, HID_USAGE_HAPTICS_WAVEFORM_LIST), COLLECTION(1, NamedArray), USAGE_PAGE(1, HID_USAGE_PAGE_ORDINAL), USAGE(1, 3), /* HID_USAGE_HAPTICS_WAVEFORM_RUMBLE */ USAGE(1, 4), /* HID_USAGE_HAPTICS_WAVEFORM_BUZZ */ LOGICAL_MINIMUM(2, 0x0000), LOGICAL_MAXIMUM(2, 0xffff), REPORT_COUNT(1, 2), REPORT_SIZE(1, 16), FEATURE(1, Data|Var|Abs|Null), END_COLLECTION, USAGE_PAGE(2, HID_USAGE_PAGE_HAPTICS), USAGE(1, HID_USAGE_HAPTICS_DURATION_LIST), COLLECTION(1, NamedArray), USAGE_PAGE(1, HID_USAGE_PAGE_ORDINAL), USAGE(1, 3), /* 0 (HID_USAGE_HAPTICS_WAVEFORM_RUMBLE) */ USAGE(1, 4), /* 0 (HID_USAGE_HAPTICS_WAVEFORM_BUZZ) */ LOGICAL_MINIMUM(2, 0x0000), LOGICAL_MAXIMUM(2, 0xffff), REPORT_COUNT(1, 2), REPORT_SIZE(1, 16), FEATURE(1, Data|Var|Abs|Null), END_COLLECTION, USAGE_PAGE(2, HID_USAGE_PAGE_HAPTICS), USAGE(1, HID_USAGE_HAPTICS_WAVEFORM_CUTOFF_TIME), UNIT(2, 0x1001), /* seconds */ UNIT_EXPONENT(1, -3), /* 10^-3 */ LOGICAL_MINIMUM(2, 0x8000), LOGICAL_MAXIMUM(2, 0x7fff), PHYSICAL_MINIMUM(4, 0x00000000), PHYSICAL_MAXIMUM(4, 0xffffffff), REPORT_SIZE(1, 32), REPORT_COUNT(1, 2), FEATURE(1, Data|Var|Abs), /* reset global items */ UNIT(1, 0), /* None */ UNIT_EXPONENT(1, 0), USAGE_PAGE(1, HID_USAGE_PAGE_GENERIC), USAGE(1, HID_USAGE_GENERIC_Z), LOGICAL_MINIMUM(4, 0x0000), LOGICAL_MAXIMUM(4, 0x7fff), PHYSICAL_MINIMUM(4, 0xfff90000), PHYSICAL_MAXIMUM(4, 0x0003ffff), REPORT_SIZE(1, 32), REPORT_COUNT(1, 1), FEATURE(1, Data|Var|Abs), END_COLLECTION, USAGE_PAGE(1, HID_USAGE_PAGE_GENERIC), USAGE(1, HID_USAGE_GENERIC_JOYSTICK), COLLECTION(1, Report), REPORT_ID_OR_USAGE_PAGE(1, report_id, 1), USAGE_PAGE(1, HID_USAGE_PAGE_BUTTON), USAGE_MINIMUM(1, 9), USAGE_MAXIMUM(1, 10), LOGICAL_MINIMUM(1, 0), LOGICAL_MAXIMUM(1, 1), PHYSICAL_MINIMUM(1, 0), PHYSICAL_MAXIMUM(1, 1), REPORT_COUNT(1, 8), REPORT_SIZE(1, 1), FEATURE(1, Data|Var|Abs), END_COLLECTION, USAGE_PAGE(1, HID_USAGE_PAGE_LED), USAGE(1, HID_USAGE_LED_GREEN), COLLECTION(1, Report), REPORT_ID_OR_USAGE_PAGE(1, report_id, 0), USAGE_PAGE(1, HID_USAGE_PAGE_LED), REPORT_COUNT(1, 8), REPORT_SIZE(1, 1), OUTPUT(1, Cnst|Var|Abs), END_COLLECTION, USAGE_PAGE(1, HID_USAGE_PAGE_LED), USAGE(1, HID_USAGE_LED_RED), COLLECTION(1, Report), REPORT_ID_OR_USAGE_PAGE(1, report_id, 1), USAGE_PAGE(1, HID_USAGE_PAGE_LED), REPORT_COUNT(1, 8), REPORT_SIZE(1, 1), OUTPUT(1, Cnst|Var|Abs), END_COLLECTION, END_COLLECTION, }; #undef REPORT_ID_OR_USAGE_PAGE #include "pop_hid_macros.h" static const HID_DEVICE_ATTRIBUTES attributes = { .Size = sizeof(HID_DEVICE_ATTRIBUTES), .VendorID = 0x1209, .ProductID = 0x0001, .VersionNumber = 0x0100, }; const HIDP_CAPS caps = { .Usage = HID_USAGE_GENERIC_JOYSTICK, .UsagePage = HID_USAGE_PAGE_GENERIC, .InputReportByteLength = report_id ? 32 : 33, .OutputReportByteLength = report_id ? 2 : 3, .FeatureReportByteLength = report_id ? 21 : 22, .NumberLinkCollectionNodes = 10, .NumberInputButtonCaps = 17, .NumberInputValueCaps = 7, .NumberInputDataIndices = 47, .NumberFeatureButtonCaps = 1, .NumberFeatureValueCaps = 6, .NumberFeatureDataIndices = 8, }; const struct hid_expect expect_in = { .code = IOCTL_HID_READ_REPORT, .report_len = caps.InputReportByteLength - (report_id ? 0 : 1), .report_buf = {report_id ? report_id : 0x5a,0x5a,0x5a}, .ret_length = 3, .ret_status = STATUS_SUCCESS, }; WCHAR cwd[MAX_PATH], tempdir[MAX_PATH]; char context[64]; LSTATUS status; HKEY hkey; GetCurrentDirectoryW( ARRAY_SIZE(cwd), cwd ); GetTempPathW( ARRAY_SIZE(tempdir), tempdir ); SetCurrentDirectoryW( tempdir ); status = RegCreateKeyExW( HKEY_LOCAL_MACHINE, L"System\\CurrentControlSet\\Services\\winetest", 0, NULL, REG_OPTION_VOLATILE, KEY_ALL_ACCESS, NULL, &hkey, NULL ); ok( !status, "RegCreateKeyExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"ReportID", 0, REG_DWORD, (void *)&report_id, sizeof(report_id) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"PolledMode", 0, REG_DWORD, (void *)&polled, sizeof(polled) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Descriptor", 0, REG_BINARY, (void *)report_desc, sizeof(report_desc) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Attributes", 0, REG_BINARY, (void *)&attributes, sizeof(attributes) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Caps", 0, REG_BINARY, (void *)&caps, sizeof(caps) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Expect", 0, REG_BINARY, NULL, 0 ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Input", 0, REG_BINARY, (void *)&expect_in, polled ? sizeof(expect_in) : 0 ); ok( !status, "RegSetValueExW returned %#lx\n", status ); fill_context( __LINE__, context, ARRAY_SIZE(context) ); status = RegSetValueExW( hkey, L"Context", 0, REG_BINARY, (void *)context, sizeof(context) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); if (pnp_driver_start( L"driver_hid.dll" )) test_hid_device( report_id, polled, &caps ); pnp_driver_stop(); SetCurrentDirectoryW( cwd ); } /* undocumented HID internal preparsed data structure */ struct hidp_kdr_caps { USHORT usage_page; UCHAR report_id; UCHAR start_bit; USHORT bit_size; USHORT report_count; USHORT start_byte; USHORT total_bits; ULONG bit_field; USHORT end_byte; USHORT link_collection; USAGE link_usage_page; USAGE link_usage; ULONG flags; ULONG padding[8]; USAGE usage_min; USAGE usage_max; USHORT string_min; USHORT string_max; USHORT designator_min; USHORT designator_max; USHORT data_index_min; USHORT data_index_max; USHORT null_value; USHORT unknown; LONG logical_min; LONG logical_max; LONG physical_min; LONG physical_max; LONG units; LONG units_exp; }; /* named array continues on next caps */ #define HIDP_KDR_CAPS_ARRAY_HAS_MORE 0x01 #define HIDP_KDR_CAPS_IS_CONSTANT 0x02 #define HIDP_KDR_CAPS_IS_BUTTON 0x04 #define HIDP_KDR_CAPS_IS_ABSOLUTE 0x08 #define HIDP_KDR_CAPS_IS_RANGE 0x10 #define HIDP_KDR_CAPS_IS_STRING_RANGE 0x40 #define HIDP_KDR_CAPS_IS_DESIGNATOR_RANGE 0x80 struct hidp_kdr_node { USAGE usage; USAGE usage_page; USHORT parent; USHORT number_of_children; USHORT next_sibling; USHORT first_child; ULONG collection_type; }; struct hidp_kdr { char magic[8]; USAGE usage; USAGE usage_page; USHORT unknown[2]; USHORT input_caps_start; USHORT input_caps_count; USHORT input_caps_end; USHORT input_report_byte_length; USHORT output_caps_start; USHORT output_caps_count; USHORT output_caps_end; USHORT output_report_byte_length; USHORT feature_caps_start; USHORT feature_caps_count; USHORT feature_caps_end; USHORT feature_report_byte_length; USHORT caps_size; USHORT number_link_collection_nodes; struct hidp_kdr_caps caps[1]; /* struct hidp_kdr_node nodes[1] */ }; static void test_hidp_kdr(void) { #include "psh_hid_macros.h" const unsigned char report_desc[] = { USAGE_PAGE(1, HID_USAGE_PAGE_GENERIC), USAGE(1, HID_USAGE_GENERIC_JOYSTICK), COLLECTION(1, Application), USAGE_PAGE(1, HID_USAGE_PAGE_GENERIC), LOGICAL_MINIMUM(1, 1), LOGICAL_MAXIMUM(1, 127), PHYSICAL_MINIMUM(1, -128), PHYSICAL_MAXIMUM(1, 127), USAGE(1, HID_USAGE_GENERIC_RZ), REPORT_SIZE(1, 16), REPORT_COUNT(1, 0), FEATURE(1, Data|Var|Abs), USAGE(1, HID_USAGE_GENERIC_SLIDER), REPORT_SIZE(1, 16), REPORT_COUNT(1, 1), FEATURE(1, Data|Var|Abs), USAGE(1, HID_USAGE_GENERIC_X), REPORT_SIZE(1, 8), REPORT_COUNT(1, 1), UNIT(1, 0x100e), UNIT_EXPONENT(1, -3), INPUT(1, Data|Var|Abs), UNIT_EXPONENT(1, 0), UNIT(1, 0), USAGE(1, HID_USAGE_GENERIC_Y), DESIGNATOR_MINIMUM(1, 1), DESIGNATOR_MAXIMUM(1, 4), REPORT_SIZE(1, 8), REPORT_COUNT(1, 1), INPUT(1, Cnst|Var|Abs), USAGE(1, HID_USAGE_GENERIC_Z), REPORT_SIZE(1, 8), REPORT_COUNT(1, 1), INPUT(1, Data|Var|Rel), USAGE(1, HID_USAGE_GENERIC_RX), USAGE(1, HID_USAGE_GENERIC_RY), REPORT_SIZE(1, 16), REPORT_COUNT(1, 2), LOGICAL_MINIMUM(1, 7), INPUT(1, Data|Var|Abs|Null), COLLECTION(1, Application), USAGE(4, (HID_USAGE_PAGE_BUTTON << 16)|1), USAGE(4, (HID_USAGE_PAGE_BUTTON << 16)|2), REPORT_SIZE(1, 1), REPORT_COUNT(1, 8), LOGICAL_MINIMUM(1, 0), LOGICAL_MAXIMUM(1, 1), INPUT(1, Data|Var|Abs), USAGE_MINIMUM(4, (HID_USAGE_PAGE_BUTTON << 16)|3), USAGE_MAXIMUM(4, (HID_USAGE_PAGE_BUTTON << 16)|8), REPORT_SIZE(1, 8), REPORT_COUNT(1, 1), LOGICAL_MINIMUM(1, 3), LOGICAL_MAXIMUM(1, 8), INPUT(1, Data|Ary|Abs), USAGE_MINIMUM(4, (HID_USAGE_PAGE_BUTTON << 16)|9), USAGE_MAXIMUM(4, (HID_USAGE_PAGE_BUTTON << 16)|12), REPORT_SIZE(1, 8), REPORT_COUNT(1, 4), LOGICAL_MINIMUM(1, 9), LOGICAL_MAXIMUM(1, 12), INPUT(2, Data|Ary|Abs|Buff), USAGE(4, (HID_USAGE_PAGE_BUTTON << 16)|13), USAGE(4, (HID_USAGE_PAGE_BUTTON << 16)|14), USAGE(4, (HID_USAGE_PAGE_BUTTON << 16)|15), USAGE(4, (HID_USAGE_PAGE_BUTTON << 16)|16), REPORT_SIZE(1, 8), REPORT_COUNT(1, 1), LOGICAL_MINIMUM(1, 13), LOGICAL_MAXIMUM(1, 16), INPUT(1, Data|Ary|Abs), END_COLLECTION, END_COLLECTION, }; #include "pop_hid_macros.h" static const HIDP_CAPS expect_hidp_caps = { .Usage = HID_USAGE_GENERIC_JOYSTICK, .UsagePage = HID_USAGE_PAGE_GENERIC, .InputReportByteLength = 15, }; static const HID_DEVICE_ATTRIBUTES attributes = { .Size = sizeof(HID_DEVICE_ATTRIBUTES), .VendorID = 0x1209, .ProductID = 0x0001, .VersionNumber = 0x0100, }; static const struct hidp_kdr expect_kdr = { .magic = "HidP KDR", .usage = 0x04, .usage_page = 0x01, .input_caps_count = 13, .input_caps_end = 13, .input_report_byte_length = 15, .output_caps_start = 13, .output_caps_end = 13, .feature_caps_start = 13, .feature_caps_count = 2, .feature_caps_end = 14, .feature_report_byte_length = 3, .caps_size = 1560, .number_link_collection_nodes = 2, }; static const struct hidp_kdr_caps expect_caps[] = { { .usage_page = 0x01, .bit_size = 0x08, .report_count = 0x1, .start_byte = 0x1, .total_bits = 0x08, .bit_field = 0x002, .end_byte = 0x2, .link_usage_page = 0x01, .link_usage = 0x04, .flags = 0x08, .usage_min = 0x30, .usage_max = 0x30, .logical_min = 1, .logical_max = 127, .physical_min = -128, .physical_max = 127, .units = 0xe, .units_exp = -3 }, { .usage_page = 0x01, .bit_size = 0x08, .report_count = 0x1, .start_byte = 0x2, .total_bits = 0x08, .bit_field = 0x003, .end_byte = 0x3, .link_usage_page = 0x01, .link_usage = 0x04, .flags = 0x8a, .usage_min = 0x31, .usage_max = 0x31, .designator_min = 1, .designator_max = 4, .data_index_min = 0x01, .data_index_max = 0x01, .logical_min = 1, .logical_max = 127, .physical_min = -128, .physical_max = 127 }, { .usage_page = 0x01, .bit_size = 0x08, .report_count = 0x1, .start_byte = 0x3, .total_bits = 0x08, .bit_field = 0x006, .end_byte = 0x4, .link_usage_page = 0x01, .link_usage = 0x04, .usage_min = 0x32, .usage_max = 0x32, .data_index_min = 0x02, .data_index_max = 0x02, .logical_min = 1, .logical_max = 127, .physical_min = -128, .physical_max = 127 }, { .usage_page = 0x01, .bit_size = 0x10, .report_count = 0x1, .start_byte = 0x6, .total_bits = 0x10, .bit_field = 0x042, .end_byte = 0x8, .link_usage_page = 0x01, .link_usage = 0x04, .flags = 0x08, .usage_min = 0x34, .usage_max = 0x34, .data_index_min = 0x03, .data_index_max = 0x03, .null_value = 1, .logical_min = 7, .logical_max = 127, .physical_min = -128, .physical_max = 127 }, { .usage_page = 0x01, .bit_size = 0x10, .report_count = 0x1, .start_byte = 0x4, .total_bits = 0x10, .bit_field = 0x042, .end_byte = 0x6, .link_usage_page = 0x01, .link_usage = 0x04, .flags = 0x08, .usage_min = 0x33, .usage_max = 0x33, .data_index_min = 0x04, .data_index_max = 0x04, .null_value = 1, .logical_min = 7, .logical_max = 127, .physical_min = -128, .physical_max = 127 }, { .usage_page = 0x09, .start_bit = 1, .bit_size = 0x01, .report_count = 0x7, .start_byte = 0x8, .total_bits = 0x07, .bit_field = 0x002, .end_byte = 0x9, .link_collection = 1, .link_usage_page = 0x01, .flags = 0x0c, .usage_min = 0x02, .usage_max = 0x02, .data_index_min = 0x05, .data_index_max = 0x05, }, { .usage_page = 0x09, .bit_size = 0x01, .report_count = 0x1, .start_byte = 0x8, .total_bits = 0x01, .bit_field = 0x002, .end_byte = 0x9, .link_collection = 1, .link_usage_page = 0x01, .flags = 0x0c, .usage_min = 0x01, .usage_max = 0x01, .data_index_min = 0x06, .data_index_max = 0x06, }, { .usage_page = 0x09, .bit_size = 0x08, .report_count = 0x1, .start_byte = 0x9, .total_bits = 0x08, .bit_field = 0x000, .end_byte = 0xa, .link_collection = 1, .link_usage_page = 0x01, .flags = 0x1c, .usage_min = 0x03, .usage_max = 0x08, .data_index_min = 0x07, .data_index_max = 0x0c, .null_value = 3, .logical_min = 8 }, { .usage_page = 0x09, .bit_size = 0x08, .report_count = 0x4, .start_byte = 0xa, .total_bits = 0x20, .bit_field = 0x100, .end_byte = 0xe, .link_collection = 1, .link_usage_page = 0x01, .flags = 0x1c, .usage_min = 0x09, .usage_max = 0x0c, .data_index_min = 0x0d, .data_index_max = 0x10, .null_value = 9, .logical_min = 12 }, { .usage_page = 0x09, .bit_size = 0x08, .report_count = 0x1, .start_byte = 0xe, .total_bits = 0x08, .bit_field = 0x000, .end_byte = 0xf, .link_collection = 1, .link_usage_page = 0x01, .flags = 0x0d, .usage_min = 0x10, .usage_max = 0x10, .data_index_min = 0x14, .data_index_max = 0x14, .null_value = 13, .logical_min = 16 }, { .usage_page = 0x09, .bit_size = 0x08, .report_count = 0x1, .start_byte = 0xe, .total_bits = 0x08, .bit_field = 0x000, .end_byte = 0xf, .link_collection = 1, .link_usage_page = 0x01, .flags = 0x0d, .usage_min = 0x0f, .usage_max = 0x0f, .data_index_min = 0x13, .data_index_max = 0x13, .null_value = 13, .logical_min = 16 }, { .usage_page = 0x09, .bit_size = 0x08, .report_count = 0x1, .start_byte = 0xe, .total_bits = 0x08, .bit_field = 0x000, .end_byte = 0xf, .link_collection = 1, .link_usage_page = 0x01, .flags = 0x0d, .usage_min = 0x0e, .usage_max = 0x0e, .data_index_min = 0x12, .data_index_max = 0x12, .null_value = 13, .logical_min = 16 }, { .usage_page = 0x09, .bit_size = 0x08, .report_count = 0x1, .start_byte = 0xe, .total_bits = 0x08, .bit_field = 0x000, .end_byte = 0xf, .link_collection = 1, .link_usage_page = 0x01, .flags = 0x0c, .usage_min = 0x0d, .usage_max = 0x0d, .data_index_min = 0x11, .data_index_max = 0x11, .null_value = 13, .logical_min = 16 }, { .usage_page = 0x01, .bit_size = 0x10, .report_count = 0x1, .start_byte = 0x1, .total_bits = 0x10, .bit_field = 0x002, .end_byte = 0x3, .link_usage_page = 0x01, .link_usage = 0x04, .flags = 0x08, .usage_min = 0x36, .usage_max = 0x36, .logical_min = 1, .logical_max = 127, .physical_min = -128, .physical_max = 127 }, { }, }; static const struct hidp_kdr_node expect_nodes[] = { { .usage = 0x04, .usage_page = 0x01, .parent = 0, .number_of_children = 0x1, .next_sibling = 0, .first_child = 0x1, .collection_type = 0x1, }, { .usage = 0x00, .usage_page = 0x01, .parent = 0, .number_of_children = 0, .next_sibling = 0, .first_child = 0, .collection_type = 0x1, }, }; char buffer[FIELD_OFFSET( SP_DEVICE_INTERFACE_DETAIL_DATA_W, DevicePath[MAX_PATH] )]; SP_DEVICE_INTERFACE_DATA iface = {sizeof(SP_DEVICE_INTERFACE_DATA)}; SP_DEVICE_INTERFACE_DETAIL_DATA_W *iface_detail = (void *)buffer; SP_DEVINFO_DATA device = {sizeof(SP_DEVINFO_DATA)}; WCHAR cwd[MAX_PATH], tempdir[MAX_PATH]; PHIDP_PREPARSED_DATA preparsed_data; DWORD i, report_id = 0, polled = 0; struct hidp_kdr *kdr; char context[64]; LSTATUS status; HDEVINFO set; HANDLE file; HKEY hkey; BOOL ret; GetCurrentDirectoryW( ARRAY_SIZE(cwd), cwd ); GetTempPathW( ARRAY_SIZE(tempdir), tempdir ); SetCurrentDirectoryW( tempdir ); status = RegCreateKeyExW( HKEY_LOCAL_MACHINE, L"System\\CurrentControlSet\\Services\\winetest", 0, NULL, REG_OPTION_VOLATILE, KEY_ALL_ACCESS, NULL, &hkey, NULL ); ok( !status, "RegCreateKeyExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"ReportID", 0, REG_DWORD, (void *)&report_id, sizeof(report_id) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"PolledMode", 0, REG_DWORD, (void *)&polled, sizeof(polled) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Descriptor", 0, REG_BINARY, (void *)report_desc, sizeof(report_desc) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Attributes", 0, REG_BINARY, (void *)&attributes, sizeof(attributes) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Caps", 0, REG_BINARY, (void *)&expect_hidp_caps, sizeof(expect_hidp_caps) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Expect", 0, REG_BINARY, NULL, 0 ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Input", 0, REG_BINARY, NULL, 0 ); ok( !status, "RegSetValueExW returned %#lx\n", status ); fill_context( __LINE__, context, ARRAY_SIZE(context) ); status = RegSetValueExW( hkey, L"Context", 0, REG_BINARY, (void *)context, sizeof(context) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); if (!pnp_driver_start( L"driver_hid.dll" )) goto done; set = SetupDiGetClassDevsW( &GUID_DEVINTERFACE_HID, NULL, NULL, DIGCF_DEVICEINTERFACE | DIGCF_PRESENT ); ok( set != INVALID_HANDLE_VALUE, "failed to get device list, error %#lx\n", GetLastError() ); for (i = 0; SetupDiEnumDeviceInfo( set, i, &device ); ++i) { ret = SetupDiEnumDeviceInterfaces( set, &device, &GUID_DEVINTERFACE_HID, 0, &iface ); ok( ret, "failed to get interface, error %#lx\n", GetLastError() ); ok( IsEqualGUID( &iface.InterfaceClassGuid, &GUID_DEVINTERFACE_HID ), "wrong class %s\n", debugstr_guid( &iface.InterfaceClassGuid ) ); ok( iface.Flags == SPINT_ACTIVE, "got flags %#lx\n", iface.Flags ); iface_detail->cbSize = sizeof(*iface_detail); ret = SetupDiGetDeviceInterfaceDetailW( set, &iface, iface_detail, sizeof(buffer), NULL, NULL ); ok( ret, "failed to get interface path, error %#lx\n", GetLastError() ); if (wcsstr( iface_detail->DevicePath, L"\\\\?\\hid#winetest#1" )) break; } SetupDiDestroyDeviceInfoList( set ); file = CreateFileW( iface_detail->DevicePath, FILE_READ_ACCESS | FILE_WRITE_ACCESS, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, 0, NULL ); ok( file != INVALID_HANDLE_VALUE, "got error %lu\n", GetLastError() ); ret = HidD_GetPreparsedData( file, &preparsed_data ); ok( ret, "HidD_GetPreparsedData failed with error %lu\n", GetLastError() ); kdr = (struct hidp_kdr *)preparsed_data; ok( !strncmp( kdr->magic, expect_kdr.magic, 8 ), "got %s expected %s\n", debugstr_an(kdr->magic, 8), debugstr_an(expect_kdr.magic, 8) ); if (!strncmp( kdr->magic, expect_kdr.magic, 8 )) { check_member( *kdr, expect_kdr, "%04x", usage ); check_member( *kdr, expect_kdr, "%04x", usage_page ); check_member( *kdr, expect_kdr, "%#x", unknown[0] ); check_member( *kdr, expect_kdr, "%#x", unknown[1] ); check_member( *kdr, expect_kdr, "%d", input_caps_start ); check_member( *kdr, expect_kdr, "%d", input_caps_count ); check_member( *kdr, expect_kdr, "%d", input_caps_end ); check_member( *kdr, expect_kdr, "%d", input_report_byte_length ); check_member( *kdr, expect_kdr, "%d", output_caps_start ); check_member( *kdr, expect_kdr, "%d", output_caps_count ); check_member( *kdr, expect_kdr, "%d", output_caps_end ); check_member( *kdr, expect_kdr, "%d", output_report_byte_length ); check_member( *kdr, expect_kdr, "%d", feature_caps_start ); todo_wine check_member( *kdr, expect_kdr, "%d", feature_caps_count ); check_member( *kdr, expect_kdr, "%d", feature_caps_end ); check_member( *kdr, expect_kdr, "%d", feature_report_byte_length ); todo_wine check_member( *kdr, expect_kdr, "%d", caps_size ); check_member( *kdr, expect_kdr, "%d", number_link_collection_nodes ); for (i = 0; i < min( ARRAY_SIZE(expect_caps), kdr->caps_size / sizeof(struct hidp_kdr_caps) ); ++i) { winetest_push_context( "caps[%ld]", i ); check_member( kdr->caps[i], expect_caps[i], "%04x", usage_page ); check_member( kdr->caps[i], expect_caps[i], "%d", report_id ); check_member( kdr->caps[i], expect_caps[i], "%d", start_bit ); check_member( kdr->caps[i], expect_caps[i], "%d", bit_size ); check_member( kdr->caps[i], expect_caps[i], "%d", report_count ); check_member( kdr->caps[i], expect_caps[i], "%d", start_byte ); check_member( kdr->caps[i], expect_caps[i], "%d", total_bits ); check_member( kdr->caps[i], expect_caps[i], "%#lx", bit_field ); check_member( kdr->caps[i], expect_caps[i], "%d", end_byte ); check_member( kdr->caps[i], expect_caps[i], "%d", link_collection ); check_member( kdr->caps[i], expect_caps[i], "%04x", link_usage_page ); check_member( kdr->caps[i], expect_caps[i], "%04x", link_usage ); check_member( kdr->caps[i], expect_caps[i], "%#lx", flags ); check_member( kdr->caps[i], expect_caps[i], "%#lx", padding[0] ); check_member( kdr->caps[i], expect_caps[i], "%#lx", padding[1] ); check_member( kdr->caps[i], expect_caps[i], "%#lx", padding[2] ); check_member( kdr->caps[i], expect_caps[i], "%#lx", padding[3] ); check_member( kdr->caps[i], expect_caps[i], "%#lx", padding[4] ); check_member( kdr->caps[i], expect_caps[i], "%#lx", padding[5] ); check_member( kdr->caps[i], expect_caps[i], "%#lx", padding[6] ); check_member( kdr->caps[i], expect_caps[i], "%#lx", padding[7] ); check_member( kdr->caps[i], expect_caps[i], "%04x", usage_min ); check_member( kdr->caps[i], expect_caps[i], "%04x", usage_max ); check_member( kdr->caps[i], expect_caps[i], "%d", string_min ); check_member( kdr->caps[i], expect_caps[i], "%d", string_max ); check_member( kdr->caps[i], expect_caps[i], "%d", designator_min ); check_member( kdr->caps[i], expect_caps[i], "%d", designator_max ); check_member( kdr->caps[i], expect_caps[i], "%#x", data_index_min ); check_member( kdr->caps[i], expect_caps[i], "%#x", data_index_max ); check_member( kdr->caps[i], expect_caps[i], "%d", null_value ); check_member( kdr->caps[i], expect_caps[i], "%d", unknown ); check_member( kdr->caps[i], expect_caps[i], "%ld", logical_min ); check_member( kdr->caps[i], expect_caps[i], "%ld", logical_max ); check_member( kdr->caps[i], expect_caps[i], "%ld", physical_min ); check_member( kdr->caps[i], expect_caps[i], "%ld", physical_max ); check_member( kdr->caps[i], expect_caps[i], "%#lx", units ); check_member( kdr->caps[i], expect_caps[i], "%#lx", units_exp ); winetest_pop_context(); } for (i = 0; i < ARRAY_SIZE(expect_nodes); ++i) { struct hidp_kdr_node *nodes = (struct hidp_kdr_node *)((char *)kdr->caps + kdr->caps_size); winetest_push_context( "nodes[%ld]", i ); check_member( nodes[i], expect_nodes[i], "%04x", usage ); check_member( nodes[i], expect_nodes[i], "%04x", usage_page ); check_member( nodes[i], expect_nodes[i], "%d", parent ); check_member( nodes[i], expect_nodes[i], "%d", number_of_children ); check_member( nodes[i], expect_nodes[i], "%d", next_sibling ); check_member( nodes[i], expect_nodes[i], "%d", first_child ); check_member( nodes[i], expect_nodes[i], "%#lx", collection_type ); winetest_pop_context(); } } HidD_FreePreparsedData( preparsed_data ); CloseHandle( file ); done: pnp_driver_stop(); SetCurrentDirectoryW( cwd ); } void cleanup_registry_keys(void) { static const WCHAR joystick_oem_path[] = L"System\\CurrentControlSet\\Control\\MediaProperties\\" "PrivateProperties\\Joystick\\OEM"; static const WCHAR dinput_path[] = L"System\\CurrentControlSet\\Control\\MediaProperties\\" "PrivateProperties\\DirectInput"; HKEY root_key; /* These keys are automatically created by DInput and they store the list of supported force-feedback effects. OEM drivers are supposed to provide a list in HKLM for the vendor-specific force-feedback support. We need to clean them up, or DInput will not refresh the list of effects from the PID report changes. */ RegCreateKeyExW( HKEY_CURRENT_USER, joystick_oem_path, 0, NULL, 0, KEY_ALL_ACCESS, NULL, &root_key, NULL ); RegDeleteTreeW( root_key, expect_vidpid_str ); RegCloseKey( root_key ); RegCreateKeyExW( HKEY_CURRENT_USER, dinput_path, 0, NULL, 0, KEY_ALL_ACCESS, NULL, &root_key, NULL ); RegDeleteTreeW( root_key, expect_vidpid_str ); RegCloseKey( root_key ); RegCreateKeyExW( HKEY_LOCAL_MACHINE, joystick_oem_path, 0, NULL, 0, KEY_ALL_ACCESS, NULL, &root_key, NULL ); RegDeleteTreeW( root_key, expect_vidpid_str ); RegCloseKey( root_key ); RegCreateKeyExW( HKEY_LOCAL_MACHINE, dinput_path, 0, NULL, 0, KEY_ALL_ACCESS, NULL, &root_key, NULL ); RegDeleteTreeW( root_key, expect_vidpid_str ); RegCloseKey( root_key ); } BOOL dinput_driver_start_( const char *file, int line, const BYTE *desc_buf, ULONG desc_len, const HIDP_CAPS *caps, struct hid_expect *expect, ULONG expect_size ) { static const HID_DEVICE_ATTRIBUTES attributes = { .Size = sizeof(HID_DEVICE_ATTRIBUTES), .VendorID = LOWORD( EXPECT_VIDPID ), .ProductID = HIWORD( EXPECT_VIDPID ), .VersionNumber = 0x0100, }; DWORD report_id = 1; DWORD polled = 0; char context[64]; LSTATUS status; HKEY hkey; status = RegCreateKeyExW( HKEY_LOCAL_MACHINE, L"System\\CurrentControlSet\\Services\\winetest", 0, NULL, REG_OPTION_VOLATILE, KEY_ALL_ACCESS, NULL, &hkey, NULL ); ok_(file, line)( !status, "RegCreateKeyExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"ReportID", 0, REG_DWORD, (void *)&report_id, sizeof(report_id) ); ok_(file, line)( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"PolledMode", 0, REG_DWORD, (void *)&polled, sizeof(polled) ); ok_(file, line)( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Descriptor", 0, REG_BINARY, (void *)desc_buf, desc_len ); ok_(file, line)( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Attributes", 0, REG_BINARY, (void *)&attributes, sizeof(attributes) ); ok_(file, line)( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Caps", 0, REG_BINARY, (void *)caps, sizeof(*caps) ); ok_(file, line)( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Expect", 0, REG_BINARY, (void *)expect, expect_size ); ok_(file, line)( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Input", 0, REG_BINARY, NULL, 0 ); ok_(file, line)( !status, "RegSetValueExW returned %#lx\n", status ); fill_context( line, context, ARRAY_SIZE(context) ); status = RegSetValueExW( hkey, L"Context", 0, REG_BINARY, (void *)context, sizeof(context) ); ok_(file, line)( !status, "RegSetValueExW returned %#lx\n", status ); return pnp_driver_start( L"driver_hid.dll" ); } BOOL dinput_test_init_( const char *file, int line ) { BOOL is_wow64; subtest_(file, line)( "hid" ); instance = GetModuleHandleW( NULL ); localized = GetUserDefaultLCID() != MAKELANGID(LANG_ENGLISH, SUBLANG_DEFAULT); pSignerSign = (void *)GetProcAddress( LoadLibraryW( L"mssign32" ), "SignerSign" ); if (IsWow64Process( GetCurrentProcess(), &is_wow64 ) && is_wow64) { skip( "Running in WoW64.\n" ); return FALSE; } test_data_mapping = CreateFileMappingW( INVALID_HANDLE_VALUE, NULL, PAGE_READWRITE, 0, sizeof(*test_data), L"Global\\winetest_dinput_section" ); if (!test_data_mapping && GetLastError() == ERROR_ACCESS_DENIED) { win_skip( "Failed to create test data mapping.\n" ); return FALSE; } ok( !!test_data_mapping, "got error %lu\n", GetLastError() ); test_data = MapViewOfFile( test_data_mapping, FILE_MAP_READ | FILE_MAP_WRITE, 0, 0, 1024 ); test_data->running_under_wine = !strcmp( winetest_platform, "wine" ); test_data->winetest_report_success = winetest_report_success; test_data->winetest_debug = winetest_debug; okfile = CreateFileW( L"C:\\windows\\winetest_dinput_okfile", GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, CREATE_ALWAYS, 0, NULL ); ok( okfile != INVALID_HANDLE_VALUE, "failed to create file, error %lu\n", GetLastError() ); subtest( "driver_hid" ); return TRUE; } void dinput_test_exit(void) { UnmapViewOfFile( test_data ); CloseHandle( test_data_mapping ); CloseHandle( okfile ); DeleteFileW( L"C:\\windows\\winetest_dinput_okfile" ); } BOOL CALLBACK find_test_device( const DIDEVICEINSTANCEW *devinst, void *context ) { if (IsEqualGUID( &devinst->guidProduct, &expect_guid_product )) *(DIDEVICEINSTANCEW *)context = *devinst; return DIENUM_CONTINUE; } HRESULT dinput_test_create_device( DWORD version, DIDEVICEINSTANCEW *devinst, IDirectInputDevice8W **device ) { IDirectInput8W *di8; IDirectInputW *di; HRESULT hr; ULONG ref; if (version >= 0x800) { hr = DirectInput8Create( instance, version, &IID_IDirectInput8W, (void **)&di8, NULL ); if (FAILED(hr)) { win_skip( "DirectInput8Create returned %#lx\n", hr ); return hr; } hr = IDirectInput8_EnumDevices( di8, DI8DEVCLASS_ALL, find_test_device, devinst, DIEDFL_ALLDEVICES ); ok( hr == DI_OK, "EnumDevices returned: %#lx\n", hr ); if (!IsEqualGUID( &devinst->guidProduct, &expect_guid_product )) { win_skip( "device not found, skipping tests\n" ); ref = IDirectInput8_Release( di8 ); ok( ref == 0, "Release returned %ld\n", ref ); return DIERR_DEVICENOTREG; } hr = IDirectInput8_CreateDevice( di8, &expect_guid_product, device, NULL ); ok( hr == DI_OK, "CreateDevice returned %#lx\n", hr ); ref = IDirectInput8_Release( di8 ); todo_wine ok( ref == 0, "Release returned %ld\n", ref ); } else { hr = DirectInputCreateEx( instance, version, &IID_IDirectInput2W, (void **)&di, NULL ); if (FAILED(hr)) { win_skip( "DirectInputCreateEx returned %#lx\n", hr ); return hr; } hr = IDirectInput_EnumDevices( di, 0, find_test_device, devinst, DIEDFL_ALLDEVICES ); ok( hr == DI_OK, "EnumDevices returned: %#lx\n", hr ); if (!IsEqualGUID( &devinst->guidProduct, &expect_guid_product )) { win_skip( "device not found, skipping tests\n" ); ref = IDirectInput_Release( di ); ok( ref == 0, "Release returned %ld\n", ref ); return DIERR_DEVICENOTREG; } hr = IDirectInput_CreateDevice( di, &expect_guid_product, (IDirectInputDeviceW **)device, NULL ); ok( hr == DI_OK, "CreateDevice returned %#lx\n", hr ); ref = IDirectInput_Release( di ); todo_wine ok( ref == 0, "Release returned %ld\n", ref ); } return DI_OK; } DWORD WINAPI dinput_test_device_thread( void *stop_event ) { #include "psh_hid_macros.h" static const unsigned char gamepad_desc[] = { USAGE_PAGE(1, HID_USAGE_PAGE_GENERIC), USAGE(1, HID_USAGE_GENERIC_GAMEPAD), COLLECTION(1, Application), USAGE(1, HID_USAGE_GENERIC_GAMEPAD), COLLECTION(1, Physical), USAGE(1, HID_USAGE_GENERIC_X), USAGE(1, HID_USAGE_GENERIC_Y), LOGICAL_MINIMUM(1, 0), LOGICAL_MAXIMUM(1, 127), PHYSICAL_MINIMUM(1, 0), PHYSICAL_MAXIMUM(1, 127), REPORT_SIZE(1, 8), REPORT_COUNT(1, 2), INPUT(1, Data|Var|Abs), USAGE_PAGE(1, HID_USAGE_PAGE_BUTTON), USAGE_MINIMUM(1, 1), USAGE_MAXIMUM(1, 6), LOGICAL_MINIMUM(1, 0), LOGICAL_MAXIMUM(1, 1), PHYSICAL_MINIMUM(1, 0), PHYSICAL_MAXIMUM(1, 1), REPORT_SIZE(1, 1), REPORT_COUNT(1, 8), INPUT(1, Data|Var|Abs), END_COLLECTION, END_COLLECTION, }; #include "pop_hid_macros.h" static const HID_DEVICE_ATTRIBUTES attributes = { .Size = sizeof(HID_DEVICE_ATTRIBUTES), .VendorID = LOWORD(EXPECT_VIDPID), .ProductID = HIWORD(EXPECT_VIDPID), .VersionNumber = 0x0100, }; static const HIDP_CAPS caps = { .InputReportByteLength = 3, }; WCHAR cwd[MAX_PATH], tempdir[MAX_PATH]; DWORD report_id = 1, polled = 0; char context[64]; LSTATUS status; HKEY hkey; GetCurrentDirectoryW( ARRAY_SIZE(cwd), cwd ); GetTempPathW( ARRAY_SIZE(tempdir), tempdir ); SetCurrentDirectoryW( tempdir ); status = RegCreateKeyExW( HKEY_LOCAL_MACHINE, L"System\\CurrentControlSet\\Services\\winetest", 0, NULL, REG_OPTION_VOLATILE, KEY_ALL_ACCESS, NULL, &hkey, NULL ); ok( !status, "RegCreateKeyExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"ReportID", 0, REG_DWORD, (void *)&report_id, sizeof(report_id) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"PolledMode", 0, REG_DWORD, (void *)&polled, sizeof(polled) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Descriptor", 0, REG_BINARY, (void *)gamepad_desc, sizeof(gamepad_desc) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Attributes", 0, REG_BINARY, (void *)&attributes, sizeof(attributes) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Caps", 0, REG_BINARY, (void *)&caps, sizeof(caps) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Expect", 0, REG_BINARY, NULL, 0 ); ok( !status, "RegSetValueExW returned %#lx\n", status ); status = RegSetValueExW( hkey, L"Input", 0, REG_BINARY, NULL, 0 ); ok( !status, "RegSetValueExW returned %#lx\n", status ); fill_context( __LINE__, context, ARRAY_SIZE(context) ); status = RegSetValueExW( hkey, L"Context", 0, REG_BINARY, (void *)context, sizeof(context) ); ok( !status, "RegSetValueExW returned %#lx\n", status ); pnp_driver_start( L"driver_hid.dll" ); WaitForSingleObject( stop_event, INFINITE ); pnp_driver_stop(); SetCurrentDirectoryW( cwd ); return 0; } START_TEST( hid ) { if (!dinput_test_init()) return; test_hidp_kdr(); test_hid_driver( 0, FALSE ); test_hid_driver( 1, FALSE ); test_hid_driver( 0, TRUE ); test_hid_driver( 1, TRUE ); dinput_test_exit(); }