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1// Copyright 2016 The Android Open Source Project
2//
3// Licensed under the Apache License, Version 2.0 (the "License");
4// you may not use this file except in compliance with the License.
5// You may obtain a copy of the License at
6//
7//      http://www.apache.org/licenses/LICENSE-2.0
8//
9// Unless required by applicable law or agreed to in writing, software
10// distributed under the License is distributed on an "AS IS" BASIS,
11// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12// See the License for the specific language governing permissions and
13// limitations under the License.
14
15syntax = "proto2";
16
17package android.vts;
18option java_package = "com.android.vts.proto";
19option java_outer_classname = "VtsComponentSpecificationMessage";
20
21// Class of a target component.
22enum ComponentClass {
23  UNKNOWN_CLASS = 0;
24  // For a HAL shared library. Deprecated.
25  HAL_CONVENTIONAL = 1;
26  // For a submodule of a shared library HAL. Deprecated.
27  HAL_CONVENTIONAL_SUBMODULE = 2;
28  // For a legacy HAL. Deprecated.
29  HAL_LEGACY = 3;
30  // For a HAL which uses HIDL (HAL Interface Definition Language).
31  HAL_HIDL = 4;
32  // For a HAL which uses HIDL (HAL Interface Definition Language).
33  HAL_HIDL_WRAPPED_CONVENTIONAL = 5;
34
35  // For a shared library which is not a HAL (e.g., standard library).
36  LIB_SHARED = 11;
37
38  // For an OS kernel.
39  KERNEL = 21;
40  // For an OS kernel module.
41  KERNEL_MODULE = 22;
42}
43
44
45// Type of a target component.
46enum ComponentType {
47  UNKNOWN_TYPE = 0;
48  // For an audio submodule.
49  AUDIO = 1;
50  // For a camera submodule.
51  CAMERA = 2;
52  // For a GPS submodule.
53  GPS = 3;
54  // For a Lights sensor submodule.
55  LIGHT = 4;
56  // For a WiFi submodule.
57  WIFI = 5;
58  // For a mobile networking submodule.
59  MOBILE = 6;
60  // For a WiFi submodule.
61  BLUETOOTH = 7;
62  // For a NFC submodule.
63  NFC = 8;
64  // For a power HAL.
65  POWER = 9;
66  // For a mem track HAL.
67  MEMTRACK = 10;
68  // For a biometrics fingerprint HAL.
69  BFP = 11;
70  // For a vibrator submodule.
71  VIBRATOR = 12;
72  // For a thermal submodule.
73  THERMAL = 13;
74  // For a tv_input HAL.
75  TV_INPUT = 14;
76  // For a tv hdmi_cec submodule
77  TV_CEC = 15;
78  // For sensors submodule
79  SENSORS = 16;
80  // For a vehicle submodule
81  VEHICLE = 17;
82  // For a VR submodule.
83  VR = 18;
84  // For a graphics allocator submodule.
85  GRAPHICS_ALLOCATOR = 19;
86  // For a graphics mapper submodule.
87  GRAPHICS_MAPPER = 20;
88  // For a radio submodule
89  RADIO = 21;
90  // For the context hub HAL.
91  CONTEXTHUB = 22;
92  // For a graphics composer submodule.
93  GRAPHICS_COMPOSER = 23;
94  // For a media omx submodule.
95  MEDIA_OMX = 24;
96  // For msgq test HAL.
97  TESTS_MSGQ = 25;
98  // For memory test HAL.
99  TESTS_MEMORY = 26;
100  // For dumpstate HAL (a lazy HAL, for debugging).
101  DUMPSTATE = 27;
102
103  // for bionic's libm
104  BIONIC_LIBM = 1001;
105
106  // for bionic's libc
107  BIONIC_LIBC = 1002;
108
109  // for VNDK's libcutils
110  VNDK_LIBCUTILS = 1101;
111
112  // for OS kernel's system call.
113  SYSCALL = 2001;
114}
115
116
117// Type of a variable.
118enum VariableType {
119  UNKNOWN_VARIABLE_TYPE = 0;
120  TYPE_PREDEFINED = 1;
121  TYPE_SCALAR = 2;
122  TYPE_STRING = 3;
123  TYPE_ENUM = 4;
124  TYPE_ARRAY = 5;
125  TYPE_VECTOR = 6;
126  TYPE_STRUCT = 7;
127  // for conventional HALs, to keep a data structure with one or multiple
128  // callback functions.
129  TYPE_FUNCTION_POINTER = 8;
130  TYPE_VOID = 9;
131  TYPE_HIDL_CALLBACK = 10;
132  TYPE_SUBMODULE = 11;
133  TYPE_UNION = 12;
134  TYPE_HIDL_INTERFACE = 13;
135  TYPE_HANDLE = 14;
136  // for an enum whose every enumerator value is a number which is power of 2.
137  TYPE_MASK = 15;
138  // for hidl_memory type
139  TYPE_HIDL_MEMORY = 16;
140  // for pointer type
141  TYPE_POINTER = 17;
142  // for FMQ types
143  TYPE_FMQ_SYNC = 18;
144  TYPE_FMQ_UNSYNC = 19;
145  // for HIDL ref<>, a restricted native pointer type.
146  TYPE_REF = 20;
147  // similar to TYPE_UNION, but support runtime type check.
148  TYPE_SAFE_UNION = 21;
149}
150
151
152// Type of a target processor architecture.
153enum TargetArch {
154  UNKNOWN_TARGET_ARCH = 0;
155  TARGET_ARCH_ARM = 1;
156  TARGET_ARCH_ARM64 = 2;
157}
158
159
160// To specify a call flow event.
161message CallFlowSpecificationMessage {
162  // true if for a function call event.
163  optional bool entry = 1 [default = false];
164  // true if for an exit event from a function.
165  optional bool exit = 2 [default = false];
166  // a list of functions that can be called right after this event.
167  repeated bytes next = 11;
168  // a list of functions that can be called right before this event.
169  repeated bytes prev = 12;
170}
171
172
173// To specify the measured native code coverage raw data.
174message NativeCodeCoverageRawDataMessage {
175  // gcno file path.
176  optional bytes file_path = 1;
177
178  // content of a gcda file.
179  optional bytes gcda = 11;
180}
181
182
183// To specify an API call to an interface.
184message FunctionCallMessage {
185  // Name of the interface. Not required if hal_driver_id is set.
186  // Currently only used by fuzzer.
187  optional bytes hidl_interface_name = 1;
188
189  // HAL driver ID, if set (e.g., >0), use the given driver_id to get the
190  // corresponding driver instance; otherwise, create a new driver based
191  // on the component info (package, version etc.)
192  optional int32 hal_driver_id = 11 [default = -1];
193
194  // Component class, e.g., HIDL HAL or Conventional HAL.
195  optional ComponentClass component_class = 21;
196  // Component type, e.g., BLUETOOTH, used for Conventional HAL only.
197  optional ComponentType component_type = 22;
198  // Component version (e.g., 1.0).
199  // Deprecated, use component_type_version_major and component_type_version_minor instead.
200  optional bytes component_type_version = 23 [deprecated = true];
201  // Component name (e.g., INfc), used for HIDL HALs only.
202  optional bytes component_name = 24;
203  // Component package name (e.g., android.hardware.nfc).
204  optional bytes package_name = 25;
205  // Component major and minor versions stored separately.
206  // HAL major version of component (e.g. 1.0 -> 1).
207  optional int32 component_type_version_major = 26 [default = -1];
208  // HAL minor version of component (e.g. 1.0 -> 0).
209  optional int32 component_type_version_minor = 27 [default = -1];
210
211  // Specifies API function and inputs.
212  optional FunctionSpecificationMessage api = 100;
213}
214
215// To specify a function.
216message FunctionSpecificationMessage {
217  // the function name.
218  optional bytes name = 1;
219
220  // the submodule name.
221  optional bytes submodule_name = 2;
222
223  // the HIDL interface ID used to call an API of another nested interface
224  // using a VTS HAL driver (for HIDL HAL). 0 for the main interface.
225  optional int32 hidl_interface_id = 3;
226
227  // whether the function is inherited from another class.
228  optional bool is_inherited = 4;
229
230  // data type of the return value (for legacy HALs and shared libraries).
231  optional VariableSpecificationMessage return_type = 11;
232
233  // data type of the return value (for HIDL HALs).
234  repeated VariableSpecificationMessage return_type_hidl = 12;
235
236  // used to pass the spec of a found HAL_CONVENTIONAL_SUBMODULE to the host.
237  optional ComponentSpecificationMessage return_type_submodule_spec = 13;
238
239  // a list of arguments.
240  repeated VariableSpecificationMessage arg = 21;
241
242  // hidl annotation fields {
243
244  // a specification of the call flows of the function.
245  repeated CallFlowSpecificationMessage callflow = 31;
246  // if true, will not be fuzz tested.
247  optional bool do_not_fuzz = 32 [default = false];
248
249  // } hidl annotation fields
250
251  // whether it is a callback.
252  optional bool is_callback = 41 [deprecated = true];
253
254  // when it is a callback.
255  optional FunctionPointerSpecificationMessage function_pointer = 42;
256
257  // profiling data.
258  repeated float profiling_data = 101;
259
260  // measured processed coverage data.
261  repeated uint32 processed_coverage_data = 201;
262
263  // measured raw coverage data.
264  repeated NativeCodeCoverageRawDataMessage raw_coverage_data = 202;
265
266  // not a user-provided variable. used by the frameworks to tell the sub
267  // struct hierarchy.
268  optional bytes parent_path = 301;
269
270  // to specify a syscall number.
271  optional uint32 syscall_number = 401;
272}
273
274
275// To keep the value of a scalar variable.
276message ScalarDataValueMessage {
277  optional bool bool_t = 1;
278
279  optional int32 int8_t = 11;
280  optional uint32 uint8_t = 12;
281
282  optional int32 char = 13;
283  optional uint32 uchar = 14;
284
285  optional int32 int16_t = 21;
286  optional uint32 uint16_t = 22;
287
288  optional int32 int32_t = 31;
289  optional uint32 uint32_t = 32;
290
291  optional int64 int64_t = 41;
292  optional uint64 uint64_t = 42;
293
294  optional float float_t = 101;
295  optional double double_t = 102;
296
297  optional uint32 pointer = 201;
298  optional uint32 opaque = 202;
299  optional uint32 void_pointer = 211;
300  optional uint32 char_pointer = 212;
301  optional uint32 uchar_pointer = 213;
302  optional uint32 pointer_pointer = 251;
303}
304
305
306// To keep the specification and value of a function pointer.
307message FunctionPointerSpecificationMessage {
308  // used for a function pointer to keep its function name.
309  optional bytes function_name = 1;
310
311  // actual pointer value.
312  optional uint32 address = 11;
313  // ID used for VTS RMI (remote method invocation).
314  optional bytes id = 21;
315
316  // argument(s)
317  repeated VariableSpecificationMessage arg = 101;
318
319  // data type of the return value (for legacy HALs and shared libraries).
320  optional VariableSpecificationMessage return_type = 111;
321}
322
323
324// To keep the value of a string variable.
325message StringDataValueMessage {
326  // for actual contents.
327  optional bytes message = 1;
328
329  // for length in bytes, and usually not required.
330  optional uint32 length = 11;
331}
332
333
334// To keep the value of an enum type variable.
335message EnumDataValueMessage {
336  // for the enumerator names.
337  repeated bytes enumerator = 1;
338
339  // for the corresponding values.
340  repeated ScalarDataValueMessage scalar_value = 2;
341  optional bytes scalar_type = 3;
342}
343
344// To keep the value of a memory variable.
345message MemoryDataValueMessage {
346  optional int64 size = 1;
347  optional bytes contents = 2;
348  // To identify an existing hidl_memory object stored in resource_manager.
349  optional int32 mem_id = 3 [default = -1];
350  // To record the pointer address of hidl_memory object.
351  // We use uint64 to represent the address of the hidl_memory pointer,
352  // which allows vtsc to reinterpret the address when caller wants to use
353  // an existing hidl_memory object stored in resource_manager.
354  // This field is updated by driver_manager when the hidl_memory address
355  // is found in memory.
356  optional uint64 hidl_mem_address = 4;
357}
358
359// Type of a file descriptor.
360enum FdType {
361  FILE_TYPE = 1;
362  DIR_TYPE = 2;
363  DEV_TYPE = 3;
364  PIPE_TYPE = 4;
365  SOCKET_TYPE = 5;
366  LINK_TYPE = 6;
367}
368
369// To keep the value of a file-descriptor.
370message FdMessage {
371  optional FdType type = 1;
372  optional uint32 mode = 2;
373  optional int32 flags = 3;
374  optional bytes file_name = 4;
375  // When opening a file in host side, user specifies file
376  // access mode in string.
377  optional bytes file_mode_str = 5;
378  // For shared memory.
379  optional MemoryDataValueMessage memory = 6;
380}
381
382// To keep the value of a handle variable.
383message HandleDataValueMessage {
384  // sizeof(native_handle_t)
385  optional int32 version = 1;
386  // number of file-descriptors.
387  optional int32 num_fds = 2;
388  // number of ints.
389  optional int32 num_ints = 3;
390  // file-descriptor values.
391  repeated FdMessage fd_val = 4;
392  // ints values
393  repeated int32 int_val = 5;
394  // To specify an existing handle object registered in target-side driver.
395  // If host side specifies this field, HIDL function calls will retrieve
396  // the handle object from target-side driver, instead of creating a new one.
397  optional int32 handle_id = 6 [default = -1];
398  // To record the pointer address of hidl_handle object.
399  // We use uint64 to represent the address of the hidl_handle pointer,
400  // which allows vtsc to reinterpret the address when caller wants to use
401  // an existing hidl_handle object stored in target-side driver.
402  // This field is updated by driver_manager when the hidl_handle address
403  // is found in memory.
404  optional uint64 hidl_handle_address = 7;
405}
406
407// To specify a function argument or an attribute in general.
408message VariableSpecificationMessage {
409  // the variable name. empty if for a type definition.
410  optional bytes name = 1;
411
412  // the variable type which is one of:
413  //     TYPE_SCALAR, TYPE_STRING, TYPE_ENUM, TYPE_ARRAY,
414  //     TYPE_VECTOR, TYPE_STRUCT, TYPE_UNION, TYPE_HIDL_CALLBACK,
415  //     TYPE_HIDL_INTERFACE, TYPE_HANDLE
416  //
417  // not yet supported:
418  //     "template", "typedef", "binder", "parcelable".
419  optional VariableType type = 2;
420
421  // the actual value(s) for an scalar data type.
422  // repeated values for a vector.
423  optional ScalarDataValueMessage scalar_value = 101;
424  optional bytes scalar_type = 102;
425
426  optional StringDataValueMessage string_value = 111;
427
428  // for the definition of enum type only.
429  // The value of an eunm variable is stored in scalar_value message.
430  optional EnumDataValueMessage enum_value = 121;
431
432  // for both TYPE_ARRAY (using size field) and TYPE_VECTOR.
433  repeated VariableSpecificationMessage vector_value = 131;
434  // Length of an array. Also used for TYPE_VECTOR at runtime.
435  optional int32 vector_size = 132;
436
437  // for sub variables when this's a struct type.
438  repeated VariableSpecificationMessage struct_value = 141;
439  // the type name of this struct.
440  optional bytes struct_type = 142;
441
442  // for nested struct type declarations (without actual definitions).
443  repeated VariableSpecificationMessage sub_struct = 143;
444
445  // for sub variables when this's a union type.
446  repeated VariableSpecificationMessage union_value = 151;
447  // the type name of this union.
448  optional bytes union_type = 152;
449
450  // for nested union type declarations (without actual definitions).
451  repeated VariableSpecificationMessage sub_union = 153;
452
453  // for sub variables when this's a safe_union type.
454  repeated VariableSpecificationMessage safe_union_value = 154;
455
456  // the runtime type used in the safe union.
457  optional VariableType safe_union_type = 155;
458
459  // for nested safe_union type declarations.
460  repeated VariableSpecificationMessage sub_safe_union = 156;
461
462  // for the definition/value of TYPE_FMQ_SYNC and TYPE_FMQ_UNSYNC.
463  repeated VariableSpecificationMessage fmq_value = 161;
464  // for queue identifier of TYPE_FMQ_SYNC and TYPE_FMQ_UNSYNC,
465  // when caller wants to use an existing FMQ.
466  optional int32 fmq_id = 162 [default = -1];
467  // descriptor of an existing queue.
468  // The descriptor can be passed in hidl and be used to create new
469  // FMQ objects. We use uint64 to represent the address of the descriptor,
470  // which allows vtsc to reinterpret the address when callers wants to use
471  // an existing FMQ.
472  // This field is updated by driver_manager when the descriptor of
473  // an queue object is located in memory.
474  optional uint64 fmq_desc_address = 163;
475
476  // for TYPE_REF.
477  optional VariableSpecificationMessage ref_value = 171;
478
479  // for TYPE_HIDL_MEMROY.
480  optional MemoryDataValueMessage hidl_memory_value =172;
481
482  // for TYPE_HANDLE.
483  optional HandleDataValueMessage handle_value =181;
484
485  // for non HIDL HAL, to use a custom type defined in C/C++.
486  optional bytes predefined_type = 201;
487
488  // for non HIDL HAL, to set function pointer(s).
489  repeated FunctionPointerSpecificationMessage function_pointer = 221;
490
491  // for HIDL HAL, to use a HIDL callback instance.
492  optional bytes hidl_callback_type = 231;
493
494  // for HIDL HAL, to specify the HIDL_INTERFACE ID. ID is used between
495  // a VTS driver and other modules (e.g., agent and host-side module).
496  optional int32 hidl_interface_id = 241;
497
498  // for HIDL HAL, to specify an HIDL interface's client proxy object's
499  // pointer value. Passed from a DriverBase instance to the VTS HAL driver
500  // framework as a return value of its CallFunction() method. Another use
501  // case is when this variable is passed to a DriverBase instance from the
502  // VTS HAL driver framework which can get this value from another
503  // (potentially nested or main) DriverBase instance.
504  optional uint64 hidl_interface_pointer = 242;
505
506  // true if the argument is an input (valid only for the top-level message).
507  optional bool is_input = 301 [default = true];
508  // true if the argument is an output.
509  optional bool is_output = 302 [default = false];
510  // true if the argument is a constant variable.
511  optional bool is_const = 303 [default = false];
512  // true if the argument is a struct with one or multiple function pointers.
513  optional bool is_callback = 304 [default = false];
514}
515
516
517// To specify a sub-structure.
518message StructSpecificationMessage {
519  // the sub-structure's variable name in its parent data structure.
520  optional bytes name = 1;
521
522  // whether itself a pointer varaible in its parent data structure.
523  optional bool is_pointer = 2 [default = false];
524
525  // a list of functions contained in the struct.
526  repeated FunctionSpecificationMessage api = 1001;
527
528  // a list of structures contained in the component.
529  repeated StructSpecificationMessage sub_struct = 2001;
530
531  // The definitions of custom-defined aggregate types.
532  repeated VariableSpecificationMessage attribute = 3001;
533}
534
535
536// To specify an interface of a component
537message InterfaceSpecificationMessage {
538  // whether this interface is a HIDL callback.
539  optional bool is_hidl_callback = 101 [default = false];
540
541  // a list of functions exposed by the component.
542  repeated FunctionSpecificationMessage api = 2001;
543
544  // The definitions of custom-defined aggregate types.
545  repeated VariableSpecificationMessage attribute = 3001;
546
547  // a list of structures contained in the component.
548  repeated StructSpecificationMessage sub_struct = 4001;
549}
550
551
552// To specify a module (which is logically equivalent to a .hal file in case
553// of a HIDL HAL).
554message ComponentSpecificationMessage {
555  // Class, type, and version of a target component.
556  optional ComponentClass component_class = 1;
557  optional ComponentType component_type = 2;
558  // component HAL version (e.g. 1.0).
559  // Deprecated, use component_type_version_major and component_type_version_minor instead.
560  optional float component_type_version = 3 [deprecated = true];
561
562  // The name of a target component (used for HIDL HALs).
563  optional bytes component_name = 4;
564
565  // for the target processor architecture.
566  optional TargetArch target_arch = 5;
567
568  // use two ints to represent major and minor versions separately.
569  // HAL major version of component (e.g. 1.0 -> 1).
570  optional int32 component_type_version_major = 6 [default = -1];
571  // HAL minor version of component (e.g. 1.0 -> 0).
572  optional int32 component_type_version_minor = 7 [default = -1];
573
574  // The package path of a target component (e.g., android.hardware.name).
575  // name implies the component_type field.
576  optional bytes package = 11;
577
578  // The modules to import (e.g., package_path.component_name).
579  repeated bytes import = 12;
580
581  // The name of original C/C++ data structure
582  // (used for conventional and legacy HALs).
583  optional bytes original_data_structure_name = 1001;
584
585  // a list of headers that need to be imported in order to use the component.
586  repeated bytes header = 1002;
587
588  // For a .hal file which actually defines an interface.
589  optional InterfaceSpecificationMessage interface = 2001;
590
591  // For a .hal file which does not defines an interface (e.g., types.hal).
592  repeated VariableSpecificationMessage attribute = 2101;
593}
594