1 /* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */ 2 /* 3 * Copyright (C) 2008 Google, Inc. 4 * 5 * Based on, but no longer compatible with, the original 6 * OpenBinder.org binder driver interface, which is: 7 * 8 * Copyright (c) 2005 Palmsource, Inc. 9 * 10 * This software is licensed under the terms of the GNU General Public 11 * License version 2, as published by the Free Software Foundation, and 12 * may be copied, distributed, and modified under those terms. 13 * 14 * This program is distributed in the hope that it will be useful, 15 * but WITHOUT ANY WARRANTY; without even the implied warranty of 16 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 17 * GNU General Public License for more details. 18 * 19 */ 20 21 #ifndef _UAPI_LINUX_BINDER_H 22 #define _UAPI_LINUX_BINDER_H 23 24 #include <linux/types.h> 25 #include <linux/ioctl.h> 26 27 #define B_PACK_CHARS(c1, c2, c3, c4) \ 28 ((((c1)<<24)) | (((c2)<<16)) | (((c3)<<8)) | (c4)) 29 #define B_TYPE_LARGE 0x85 30 31 enum { 32 BINDER_TYPE_BINDER = B_PACK_CHARS('s', 'b', '*', B_TYPE_LARGE), 33 BINDER_TYPE_WEAK_BINDER = B_PACK_CHARS('w', 'b', '*', B_TYPE_LARGE), 34 BINDER_TYPE_HANDLE = B_PACK_CHARS('s', 'h', '*', B_TYPE_LARGE), 35 BINDER_TYPE_WEAK_HANDLE = B_PACK_CHARS('w', 'h', '*', B_TYPE_LARGE), 36 BINDER_TYPE_FD = B_PACK_CHARS('f', 'd', '*', B_TYPE_LARGE), 37 BINDER_TYPE_FDA = B_PACK_CHARS('f', 'd', 'a', B_TYPE_LARGE), 38 BINDER_TYPE_PTR = B_PACK_CHARS('p', 't', '*', B_TYPE_LARGE), 39 }; 40 41 enum { 42 FLAT_BINDER_FLAG_PRIORITY_MASK = 0xff, 43 FLAT_BINDER_FLAG_ACCEPTS_FDS = 0x100, 44 45 /** 46 * @FLAT_BINDER_FLAG_TXN_SECURITY_CTX: request security contexts 47 * 48 * Only when set, causes senders to include their security 49 * context 50 */ 51 FLAT_BINDER_FLAG_TXN_SECURITY_CTX = 0x1000, 52 }; 53 54 #ifdef BINDER_IPC_32BIT 55 typedef __u32 binder_size_t; 56 typedef __u32 binder_uintptr_t; 57 #else 58 typedef __u64 binder_size_t; 59 typedef __u64 binder_uintptr_t; 60 #endif 61 62 /** 63 * struct binder_object_header - header shared by all binder metadata objects. 64 * @type: type of the object 65 */ 66 struct binder_object_header { 67 __u32 type; 68 }; 69 70 /* 71 * This is the flattened representation of a Binder object for transfer 72 * between processes. The 'offsets' supplied as part of a binder transaction 73 * contains offsets into the data where these structures occur. The Binder 74 * driver takes care of re-writing the structure type and data as it moves 75 * between processes. 76 */ 77 struct flat_binder_object { 78 struct binder_object_header hdr; 79 __u32 flags; 80 81 /* 8 bytes of data. */ 82 union { 83 binder_uintptr_t binder; /* local object */ 84 __u32 handle; /* remote object */ 85 }; 86 87 /* extra data associated with local object */ 88 binder_uintptr_t cookie; 89 }; 90 91 /** 92 * struct binder_fd_object - describes a filedescriptor to be fixed up. 93 * @hdr: common header structure 94 * @pad_flags: padding to remain compatible with old userspace code 95 * @pad_binder: padding to remain compatible with old userspace code 96 * @fd: file descriptor 97 * @cookie: opaque data, used by user-space 98 */ 99 struct binder_fd_object { 100 struct binder_object_header hdr; 101 __u32 pad_flags; 102 union { 103 binder_uintptr_t pad_binder; 104 __u32 fd; 105 }; 106 107 binder_uintptr_t cookie; 108 }; 109 110 /* struct binder_buffer_object - object describing a userspace buffer 111 * @hdr: common header structure 112 * @flags: one or more BINDER_BUFFER_* flags 113 * @buffer: address of the buffer 114 * @length: length of the buffer 115 * @parent: index in offset array pointing to parent buffer 116 * @parent_offset: offset in @parent pointing to this buffer 117 * 118 * A binder_buffer object represents an object that the 119 * binder kernel driver can copy verbatim to the target 120 * address space. A buffer itself may be pointed to from 121 * within another buffer, meaning that the pointer inside 122 * that other buffer needs to be fixed up as well. This 123 * can be done by setting the BINDER_BUFFER_FLAG_HAS_PARENT 124 * flag in @flags, by setting @parent buffer to the index 125 * in the offset array pointing to the parent binder_buffer_object, 126 * and by setting @parent_offset to the offset in the parent buffer 127 * at which the pointer to this buffer is located. 128 */ 129 struct binder_buffer_object { 130 struct binder_object_header hdr; 131 __u32 flags; 132 binder_uintptr_t buffer; 133 binder_size_t length; 134 binder_size_t parent; 135 binder_size_t parent_offset; 136 }; 137 138 enum { 139 BINDER_BUFFER_FLAG_HAS_PARENT = 0x01, 140 }; 141 142 /* struct binder_fd_array_object - object describing an array of fds in a buffer 143 * @hdr: common header structure 144 * @pad: padding to ensure correct alignment 145 * @num_fds: number of file descriptors in the buffer 146 * @parent: index in offset array to buffer holding the fd array 147 * @parent_offset: start offset of fd array in the buffer 148 * 149 * A binder_fd_array object represents an array of file 150 * descriptors embedded in a binder_buffer_object. It is 151 * different from a regular binder_buffer_object because it 152 * describes a list of file descriptors to fix up, not an opaque 153 * blob of memory, and hence the kernel needs to treat it differently. 154 * 155 * An example of how this would be used is with Android's 156 * native_handle_t object, which is a struct with a list of integers 157 * and a list of file descriptors. The native_handle_t struct itself 158 * will be represented by a struct binder_buffer_objct, whereas the 159 * embedded list of file descriptors is represented by a 160 * struct binder_fd_array_object with that binder_buffer_object as 161 * a parent. 162 */ 163 struct binder_fd_array_object { 164 struct binder_object_header hdr; 165 __u32 pad; 166 binder_size_t num_fds; 167 binder_size_t parent; 168 binder_size_t parent_offset; 169 }; 170 171 /* 172 * On 64-bit platforms where user code may run in 32-bits the driver must 173 * translate the buffer (and local binder) addresses appropriately. 174 */ 175 176 struct binder_write_read { 177 binder_size_t write_size; /* bytes to write */ 178 binder_size_t write_consumed; /* bytes consumed by driver */ 179 binder_uintptr_t write_buffer; 180 binder_size_t read_size; /* bytes to read */ 181 binder_size_t read_consumed; /* bytes consumed by driver */ 182 binder_uintptr_t read_buffer; 183 }; 184 185 /* Use with BINDER_VERSION, driver fills in fields. */ 186 struct binder_version { 187 /* driver protocol version -- increment with incompatible change */ 188 __s32 protocol_version; 189 }; 190 191 /* This is the current protocol version. */ 192 #ifdef BINDER_IPC_32BIT 193 #define BINDER_CURRENT_PROTOCOL_VERSION 7 194 #else 195 #define BINDER_CURRENT_PROTOCOL_VERSION 8 196 #endif 197 198 /* 199 * Use with BINDER_GET_NODE_DEBUG_INFO, driver reads ptr, writes to all fields. 200 * Set ptr to NULL for the first call to get the info for the first node, and 201 * then repeat the call passing the previously returned value to get the next 202 * nodes. ptr will be 0 when there are no more nodes. 203 */ 204 struct binder_node_debug_info { 205 binder_uintptr_t ptr; 206 binder_uintptr_t cookie; 207 __u32 has_strong_ref; 208 __u32 has_weak_ref; 209 }; 210 211 struct binder_node_info_for_ref { 212 __u32 handle; 213 __u32 strong_count; 214 __u32 weak_count; 215 __u32 reserved1; 216 __u32 reserved2; 217 __u32 reserved3; 218 }; 219 220 struct binder_freeze_info { 221 __u32 pid; 222 __u32 enable; 223 __u32 timeout_ms; 224 }; 225 226 struct binder_frozen_status_info { 227 __u32 pid; 228 __u32 sync_recv; 229 __u32 async_recv; 230 }; 231 232 #define BINDER_WRITE_READ _IOWR('b', 1, struct binder_write_read) 233 #define BINDER_SET_IDLE_TIMEOUT _IOW('b', 3, __s64) 234 #define BINDER_SET_MAX_THREADS _IOW('b', 5, __u32) 235 #define BINDER_SET_IDLE_PRIORITY _IOW('b', 6, __s32) 236 #define BINDER_SET_CONTEXT_MGR _IOW('b', 7, __s32) 237 #define BINDER_THREAD_EXIT _IOW('b', 8, __s32) 238 #define BINDER_VERSION _IOWR('b', 9, struct binder_version) 239 #define BINDER_GET_NODE_DEBUG_INFO _IOWR('b', 11, struct binder_node_debug_info) 240 #define BINDER_GET_NODE_INFO_FOR_REF _IOWR('b', 12, struct binder_node_info_for_ref) 241 #define BINDER_SET_CONTEXT_MGR_EXT _IOW('b', 13, struct flat_binder_object) 242 #define BINDER_FREEZE _IOW('b', 14, struct binder_freeze_info) 243 #define BINDER_GET_FROZEN_INFO _IOWR('b', 15, struct binder_frozen_status_info) 244 245 /* 246 * NOTE: Two special error codes you should check for when calling 247 * in to the driver are: 248 * 249 * EINTR -- The operation has been interupted. This should be 250 * handled by retrying the ioctl() until a different error code 251 * is returned. 252 * 253 * ECONNREFUSED -- The driver is no longer accepting operations 254 * from your process. That is, the process is being destroyed. 255 * You should handle this by exiting from your process. Note 256 * that once this error code is returned, all further calls to 257 * the driver from any thread will return this same code. 258 */ 259 260 enum transaction_flags { 261 TF_ONE_WAY = 0x01, /* this is a one-way call: async, no return */ 262 TF_ROOT_OBJECT = 0x04, /* contents are the component's root object */ 263 TF_STATUS_CODE = 0x08, /* contents are a 32-bit status code */ 264 TF_ACCEPT_FDS = 0x10, /* allow replies with file descriptors */ 265 TF_CLEAR_BUF = 0x20, /* clear buffer on txn complete */ 266 }; 267 268 struct binder_transaction_data { 269 /* The first two are only used for bcTRANSACTION and brTRANSACTION, 270 * identifying the target and contents of the transaction. 271 */ 272 union { 273 /* target descriptor of command transaction */ 274 __u32 handle; 275 /* target descriptor of return transaction */ 276 binder_uintptr_t ptr; 277 } target; 278 binder_uintptr_t cookie; /* target object cookie */ 279 __u32 code; /* transaction command */ 280 281 /* General information about the transaction. */ 282 __u32 flags; 283 pid_t sender_pid; 284 uid_t sender_euid; 285 binder_size_t data_size; /* number of bytes of data */ 286 binder_size_t offsets_size; /* number of bytes of offsets */ 287 288 /* If this transaction is inline, the data immediately 289 * follows here; otherwise, it ends with a pointer to 290 * the data buffer. 291 */ 292 union { 293 struct { 294 /* transaction data */ 295 binder_uintptr_t buffer; 296 /* offsets from buffer to flat_binder_object structs */ 297 binder_uintptr_t offsets; 298 } ptr; 299 __u8 buf[8]; 300 } data; 301 }; 302 303 struct binder_transaction_data_secctx { 304 struct binder_transaction_data transaction_data; 305 binder_uintptr_t secctx; 306 }; 307 308 struct binder_transaction_data_sg { 309 struct binder_transaction_data transaction_data; 310 binder_size_t buffers_size; 311 }; 312 313 struct binder_ptr_cookie { 314 binder_uintptr_t ptr; 315 binder_uintptr_t cookie; 316 }; 317 318 struct binder_handle_cookie { 319 __u32 handle; 320 binder_uintptr_t cookie; 321 } __packed; 322 323 struct binder_pri_desc { 324 __s32 priority; 325 __u32 desc; 326 }; 327 328 struct binder_pri_ptr_cookie { 329 __s32 priority; 330 binder_uintptr_t ptr; 331 binder_uintptr_t cookie; 332 }; 333 334 enum binder_driver_return_protocol { 335 BR_ERROR = _IOR('r', 0, __s32), 336 /* 337 * int: error code 338 */ 339 340 BR_OK = _IO('r', 1), 341 /* No parameters! */ 342 343 BR_TRANSACTION_SEC_CTX = _IOR('r', 2, 344 struct binder_transaction_data_secctx), 345 /* 346 * binder_transaction_data_secctx: the received command. 347 */ 348 BR_TRANSACTION = _IOR('r', 2, struct binder_transaction_data), 349 BR_REPLY = _IOR('r', 3, struct binder_transaction_data), 350 /* 351 * binder_transaction_data: the received command. 352 */ 353 354 BR_ACQUIRE_RESULT = _IOR('r', 4, __s32), 355 /* 356 * not currently supported 357 * int: 0 if the last bcATTEMPT_ACQUIRE was not successful. 358 * Else the remote object has acquired a primary reference. 359 */ 360 361 BR_DEAD_REPLY = _IO('r', 5), 362 /* 363 * The target of the last transaction (either a bcTRANSACTION or 364 * a bcATTEMPT_ACQUIRE) is no longer with us. No parameters. 365 */ 366 367 BR_TRANSACTION_COMPLETE = _IO('r', 6), 368 /* 369 * No parameters... always refers to the last transaction requested 370 * (including replies). Note that this will be sent even for 371 * asynchronous transactions. 372 */ 373 374 BR_INCREFS = _IOR('r', 7, struct binder_ptr_cookie), 375 BR_ACQUIRE = _IOR('r', 8, struct binder_ptr_cookie), 376 BR_RELEASE = _IOR('r', 9, struct binder_ptr_cookie), 377 BR_DECREFS = _IOR('r', 10, struct binder_ptr_cookie), 378 /* 379 * void *: ptr to binder 380 * void *: cookie for binder 381 */ 382 383 BR_ATTEMPT_ACQUIRE = _IOR('r', 11, struct binder_pri_ptr_cookie), 384 /* 385 * not currently supported 386 * int: priority 387 * void *: ptr to binder 388 * void *: cookie for binder 389 */ 390 391 BR_NOOP = _IO('r', 12), 392 /* 393 * No parameters. Do nothing and examine the next command. It exists 394 * primarily so that we can replace it with a BR_SPAWN_LOOPER command. 395 */ 396 397 BR_SPAWN_LOOPER = _IO('r', 13), 398 /* 399 * No parameters. The driver has determined that a process has no 400 * threads waiting to service incoming transactions. When a process 401 * receives this command, it must spawn a new service thread and 402 * register it via bcENTER_LOOPER. 403 */ 404 405 BR_FINISHED = _IO('r', 14), 406 /* 407 * not currently supported 408 * stop threadpool thread 409 */ 410 411 BR_DEAD_BINDER = _IOR('r', 15, binder_uintptr_t), 412 /* 413 * void *: cookie 414 */ 415 BR_CLEAR_DEATH_NOTIFICATION_DONE = _IOR('r', 16, binder_uintptr_t), 416 /* 417 * void *: cookie 418 */ 419 420 BR_FAILED_REPLY = _IO('r', 17), 421 /* 422 * The last transaction (either a bcTRANSACTION or 423 * a bcATTEMPT_ACQUIRE) failed (e.g. out of memory). No parameters. 424 */ 425 426 BR_FROZEN_REPLY = _IO('r', 18), 427 /* 428 * The target of the last transaction (either a bcTRANSACTION or 429 * a bcATTEMPT_ACQUIRE) is frozen. No parameters. 430 */ 431 }; 432 433 enum binder_driver_command_protocol { 434 BC_TRANSACTION = _IOW('c', 0, struct binder_transaction_data), 435 BC_REPLY = _IOW('c', 1, struct binder_transaction_data), 436 /* 437 * binder_transaction_data: the sent command. 438 */ 439 440 BC_ACQUIRE_RESULT = _IOW('c', 2, __s32), 441 /* 442 * not currently supported 443 * int: 0 if the last BR_ATTEMPT_ACQUIRE was not successful. 444 * Else you have acquired a primary reference on the object. 445 */ 446 447 BC_FREE_BUFFER = _IOW('c', 3, binder_uintptr_t), 448 /* 449 * void *: ptr to transaction data received on a read 450 */ 451 452 BC_INCREFS = _IOW('c', 4, __u32), 453 BC_ACQUIRE = _IOW('c', 5, __u32), 454 BC_RELEASE = _IOW('c', 6, __u32), 455 BC_DECREFS = _IOW('c', 7, __u32), 456 /* 457 * int: descriptor 458 */ 459 460 BC_INCREFS_DONE = _IOW('c', 8, struct binder_ptr_cookie), 461 BC_ACQUIRE_DONE = _IOW('c', 9, struct binder_ptr_cookie), 462 /* 463 * void *: ptr to binder 464 * void *: cookie for binder 465 */ 466 467 BC_ATTEMPT_ACQUIRE = _IOW('c', 10, struct binder_pri_desc), 468 /* 469 * not currently supported 470 * int: priority 471 * int: descriptor 472 */ 473 474 BC_REGISTER_LOOPER = _IO('c', 11), 475 /* 476 * No parameters. 477 * Register a spawned looper thread with the device. 478 */ 479 480 BC_ENTER_LOOPER = _IO('c', 12), 481 BC_EXIT_LOOPER = _IO('c', 13), 482 /* 483 * No parameters. 484 * These two commands are sent as an application-level thread 485 * enters and exits the binder loop, respectively. They are 486 * used so the binder can have an accurate count of the number 487 * of looping threads it has available. 488 */ 489 490 BC_REQUEST_DEATH_NOTIFICATION = _IOW('c', 14, 491 struct binder_handle_cookie), 492 /* 493 * int: handle 494 * void *: cookie 495 */ 496 497 BC_CLEAR_DEATH_NOTIFICATION = _IOW('c', 15, 498 struct binder_handle_cookie), 499 /* 500 * int: handle 501 * void *: cookie 502 */ 503 504 BC_DEAD_BINDER_DONE = _IOW('c', 16, binder_uintptr_t), 505 /* 506 * void *: cookie 507 */ 508 509 BC_TRANSACTION_SG = _IOW('c', 17, struct binder_transaction_data_sg), 510 BC_REPLY_SG = _IOW('c', 18, struct binder_transaction_data_sg), 511 /* 512 * binder_transaction_data_sg: the sent command. 513 */ 514 }; 515 516 #endif /* _UAPI_LINUX_BINDER_H */ 517 518