1/* Copyright 2008 The Android Open Source Project
2 */
3
4#ifndef _BINDER_H_
5#define _BINDER_H_
6
7#include <sys/ioctl.h>
8#include <linux/android/binder.h>
9
10struct binder_state;
11
12struct binder_io
13{
14    char *data;            /* pointer to read/write from */
15    binder_size_t *offs;   /* array of offsets */
16    size_t data_avail;     /* bytes available in data buffer */
17    size_t offs_avail;     /* entries available in offsets array */
18
19    char *data0;           /* start of data buffer */
20    binder_size_t *offs0;  /* start of offsets buffer */
21    uint32_t flags;
22    uint32_t unused;
23};
24
25struct binder_death {
26    void (*func)(struct binder_state *bs, void *ptr);
27    void *ptr;
28};
29
30/* the one magic handle */
31#define BINDER_SERVICE_MANAGER  0U
32
33#define SVC_MGR_NAME "android.os.IServiceManager"
34
35enum {
36    /* Must match definitions in IBinder.h and IServiceManager.h */
37    PING_TRANSACTION  = B_PACK_CHARS('_','P','N','G'),
38    SVC_MGR_GET_SERVICE = 1,
39    SVC_MGR_CHECK_SERVICE,
40    SVC_MGR_ADD_SERVICE,
41    SVC_MGR_LIST_SERVICES,
42};
43
44typedef int (*binder_handler)(struct binder_state *bs,
45                              struct binder_transaction_data *txn,
46                              struct binder_io *msg,
47                              struct binder_io *reply);
48
49struct binder_state *binder_open(const char* driver, size_t mapsize);
50void binder_close(struct binder_state *bs);
51
52/* initiate a blocking binder call
53 * - returns zero on success
54 */
55int binder_call(struct binder_state *bs,
56                struct binder_io *msg, struct binder_io *reply,
57                uint32_t target, uint32_t code);
58
59/* release any state associate with the binder_io
60 * - call once any necessary data has been extracted from the
61 *   binder_io after binder_call() returns
62 * - can safely be called even if binder_call() fails
63 */
64void binder_done(struct binder_state *bs,
65                 struct binder_io *msg, struct binder_io *reply);
66
67/* manipulate strong references */
68void binder_acquire(struct binder_state *bs, uint32_t target);
69void binder_release(struct binder_state *bs, uint32_t target);
70
71void binder_link_to_death(struct binder_state *bs, uint32_t target, struct binder_death *death);
72
73void binder_loop(struct binder_state *bs, binder_handler func);
74
75int binder_become_context_manager(struct binder_state *bs);
76
77/* allocate a binder_io, providing a stack-allocated working
78 * buffer, size of the working buffer, and how many object
79 * offset entries to reserve from the buffer
80 */
81void bio_init(struct binder_io *bio, void *data,
82           size_t maxdata, size_t maxobjects);
83
84void bio_put_obj(struct binder_io *bio, void *ptr);
85void bio_put_ref(struct binder_io *bio, uint32_t handle);
86void bio_put_uint32(struct binder_io *bio, uint32_t n);
87void bio_put_string16(struct binder_io *bio, const uint16_t *str);
88void bio_put_string16_x(struct binder_io *bio, const char *_str);
89
90uint32_t bio_get_uint32(struct binder_io *bio);
91uint16_t *bio_get_string16(struct binder_io *bio, size_t *sz);
92uint32_t bio_get_ref(struct binder_io *bio);
93
94#endif
95