| /src/tests/libexec/ld.elf_so/helper_use_static/ |
| h_use_static.c | 31 int *fuse(void);
33 fuse(void) function in typeref:typename:int *
|
| h_use_static.c | 31 int *fuse(void);
33 fuse(void) function in typeref:typename:int *
|
| /src/tests/libexec/ld.elf_so/helper_use_dynamic/ |
| h_use_dynamic.c | 31 int *fuse(void);
33 fuse(void) function in typeref:typename:int *
|
| h_use_dynamic.c | 31 int *fuse(void);
33 fuse(void) function in typeref:typename:int *
|
| /src/tests/libexec/ld.elf_so/helper_abuse_dynamic/ |
| h_abuse_dynamic.c | 31 int *fuse(void);
33 fuse(void) function in typeref:typename:int *
|
| h_abuse_dynamic.c | 31 int *fuse(void);
33 fuse(void) function in typeref:typename:int *
|
| /src/tests/libexec/ld.elf_so/helper_abuse_static/ |
| h_abuse_static.c | 31 int *fuse(void);
33 fuse(void) function in typeref:typename:int *
|
| h_abuse_static.c | 31 int *fuse(void);
33 fuse(void) function in typeref:typename:int *
|
| /src/lib/librefuse/refuse/ |
| v22.c | 39 struct fuse *
44 * loop. However, FUSE 2.2 fuse_setup() takes a pointer to store a
45 * channel fd, which is supposed to be obtained by calling FUSE
52 struct fuse* fuse; local in function:fuse_setup_v22
54 fuse = fuse_setup_v26(argc, argv, op, op_version, mountpoint, multithreaded, NULL);
55 if (fuse == NULL)
59 return fuse;
63 fuse_teardown_v22(struct fuse *fuse,
[all...] |
| v22.c | 39 struct fuse *
44 * loop. However, FUSE 2.2 fuse_setup() takes a pointer to store a
45 * channel fd, which is supposed to be obtained by calling FUSE
52 struct fuse* fuse; local in function:fuse_setup_v22
54 fuse = fuse_setup_v26(argc, argv, op, op_version, mountpoint, multithreaded, NULL);
55 if (fuse == NULL)
59 return fuse;
63 fuse_teardown_v22(struct fuse *fuse,
[all...] |
| session.c | 41 /* The documentation for FUSE is not clear as to what "struct fuse_session" is,
42 * why it exists, or how it's different from "struct fuse". For now we leave it
44 * being identical to "struct fuse *". */
47 fuse_get_session(struct fuse *f) {
53 struct fuse* fuse = (struct fuse*)se; local in function:fuse_session_fd
57 * /dev/fuse, because it's actually /dev/puffs in our implementation. */
58 return puffs_getselectable(fuse->pu);
63 return __fuse_set_signal_handlers((struct fuse*)se)
[all...] |
| session.c | 41 /* The documentation for FUSE is not clear as to what "struct fuse_session" is,
42 * why it exists, or how it's different from "struct fuse". For now we leave it
44 * being identical to "struct fuse *". */
47 fuse_get_session(struct fuse *f) {
53 struct fuse* fuse = (struct fuse*)se; local in function:fuse_session_fd
57 * /dev/fuse, because it's actually /dev/puffs in our implementation. */
58 return puffs_getselectable(fuse->pu);
63 return __fuse_set_signal_handlers((struct fuse*)se)
[all...] |
| v21.c | 40 /* Like FUSE 1.x, fuse_mount() is supposed to be called before
63 struct fuse *
67 struct fuse* fuse; local in function:fuse_new_v21
76 /* "opts" is another set of options to be interpreted by the FUSE
92 fuse = __fuse_new(fuse_chan_args(chan), op, op_version, user_data);
93 if (!fuse) {
97 fuse_chan_set_fuse(chan, fuse);
100 rv = fuse_mount_v30(fuse, fuse_chan_mountpoint(chan));
102 fuse_destroy_v30(fuse);
[all...] |
| v21.c | 40 /* Like FUSE 1.x, fuse_mount() is supposed to be called before
63 struct fuse *
67 struct fuse* fuse; local in function:fuse_new_v21
76 /* "opts" is another set of options to be interpreted by the FUSE
92 fuse = __fuse_new(fuse_chan_args(chan), op, op_version, user_data);
93 if (!fuse) {
97 fuse_chan_set_fuse(chan, fuse);
100 rv = fuse_mount_v30(fuse, fuse_chan_mountpoint(chan));
102 fuse_destroy_v30(fuse);
[all...] |
| v26.c | 46 /* fuse_mount() in FUSE 2.6 returns a fuse_chan instead of fd. We
65 * from FUSE >= 2.6 < 3.0 in fact allows "ch" to be NULL. */
77 struct fuse *
92 struct fuse *
97 struct fuse* fuse; local in function:fuse_setup_v26
100 fuse = __fuse_setup(argc, argv, op, op_version, user_data, &opts);
101 if (fuse == NULL)
106 return fuse;
110 fuse_teardown_v26(struct fuse *fuse
[all...] |
| v26.c | 46 /* fuse_mount() in FUSE 2.6 returns a fuse_chan instead of fd. We
65 * from FUSE >= 2.6 < 3.0 in fact allows "ch" to be NULL. */
77 struct fuse *
92 struct fuse *
97 struct fuse* fuse; local in function:fuse_setup_v26
100 fuse = __fuse_setup(argc, argv, op, op_version, user_data, &opts);
101 if (fuse == NULL)
106 return fuse;
110 fuse_teardown_v26(struct fuse *fuse
[all...] |
| v11.c | 42 /* FUSE < 3.0 had a very strange interface. Filesystems were supposed
44 * fuse. They revised the interface SO MANY TIMES but the fundamental
81 struct fuse* fuse = priv; local in function:is_same_fuse
83 return fuse_chan_fuse(chan) == fuse;
86 /* FUSE < 3.0 didn't require filesystems to call fuse_unmount()
91 * (like FUSE 3.0) wants a context in order to unmount a
97 * 2. fuse_new() fetches the stashed fuse_chan and creates a fuse
98 * object out of it, then mounts a filesystem. The fuse object is
102 * filesystem, it doesn't actually destroy the fuse object but i
119 struct fuse* fuse; local in function:fuse_unmount_v11
[all...] |
| /src/sys/external/bsd/drm2/dist/drm/nouveau/nvkm/subdev/fuse/ |
| nouveau_nvkm_subdev_fuse_base.c | 32 nvkm_fuse_read(struct nvkm_fuse *fuse, u32 addr)
34 return fuse->func->read(fuse, addr);
53 struct nvkm_fuse *fuse; local in function:nvkm_fuse_new_
54 if (!(fuse = *pfuse = kzalloc(sizeof(*fuse), GFP_KERNEL)))
56 nvkm_subdev_ctor(&nvkm_fuse, device, index, &fuse->subdev);
57 fuse->func = func;
58 spin_lock_init(&fuse->lock);
|
| nouveau_nvkm_subdev_fuse_base.c | 32 nvkm_fuse_read(struct nvkm_fuse *fuse, u32 addr)
34 return fuse->func->read(fuse, addr);
53 struct nvkm_fuse *fuse; local in function:nvkm_fuse_new_
54 if (!(fuse = *pfuse = kzalloc(sizeof(*fuse), GFP_KERNEL)))
56 nvkm_subdev_ctor(&nvkm_fuse, device, index, &fuse->subdev);
57 fuse->func = func;
58 spin_lock_init(&fuse->lock);
|
| /src/sys/external/bsd/drm2/dist/drm/nouveau/nvkm/subdev/volt/ |
| nouveau_nvkm_subdev_volt_gf117.c | 31 #include <subdev/fuse.h>
37 struct nvkm_fuse *fuse = device->fuse; local in function:gf117_volt_speedo_read
39 if (!fuse)
42 return nvkm_fuse_read(fuse, 0x3a8);
|
| nouveau_nvkm_subdev_volt_gf117.c | 31 #include <subdev/fuse.h>
37 struct nvkm_fuse *fuse = device->fuse; local in function:gf117_volt_speedo_read
39 if (!fuse)
42 return nvkm_fuse_read(fuse, 0x3a8);
|
| nouveau_nvkm_subdev_volt_gf100.c | 31 #include <subdev/fuse.h>
37 struct nvkm_fuse *fuse = device->fuse; local in function:gf100_volt_speedo_read
39 if (!fuse)
42 return nvkm_fuse_read(fuse, 0x1cc);
|
| nouveau_nvkm_subdev_volt_gf100.c | 31 #include <subdev/fuse.h>
37 struct nvkm_fuse *fuse = device->fuse; local in function:gf100_volt_speedo_read
39 if (!fuse)
42 return nvkm_fuse_read(fuse, 0x1cc);
|
| /src/lib/librefuse/ |
| fuse_internal.h | 34 /* We emit a compiler warning for anyone including <fuse.h> without
39 #include <fuse.h>
47 /* This is the private fuse structure. We can freely change its size
49 struct fuse { struct
62 int __fuse_set_signal_handlers(struct fuse* fuse);
63 int __fuse_remove_signal_handlers(struct fuse* fuse);
64 struct fuse* __fuse_setup(int argc, char* argv[],
67 void __fuse_teardown(struct fuse* fuse)
[all...] |
| fuse_internal.h | 34 /* We emit a compiler warning for anyone including <fuse.h> without
39 #include <fuse.h>
47 /* This is the private fuse structure. We can freely change its size
49 struct fuse { struct
62 int __fuse_set_signal_handlers(struct fuse* fuse);
63 int __fuse_remove_signal_handlers(struct fuse* fuse);
64 struct fuse* __fuse_setup(int argc, char* argv[],
67 void __fuse_teardown(struct fuse* fuse)
[all...] |
