1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 /* SPDX-License-Identifier: GPL-2.0-only */ /* * fs/kernfs/kernfs-internal.h - kernfs internal header file * * Copyright (c) 2001-3 Patrick Mochel * Copyright (c) 2007 SUSE Linux Products GmbH * Copyright (c) 2007, 2013 Tejun Heo <teheo@suse.de> */ #ifndef __KERNFS_INTERNAL_H #define __KERNFS_INTERNAL_H #include <linux/lockdep.h> #include <linux/fs.h> #include <linux/mutex.h> #include <linux/xattr.h> #include <linux/kernfs.h> #include <linux/fs_context.h> struct kernfs_iattrs { kuid_t ia_uid; kgid_t ia_gid; struct timespec64 ia_atime; struct timespec64 ia_mtime; struct timespec64 ia_ctime; struct simple_xattrs xattrs; atomic_t nr_user_xattrs; atomic_t user_xattr_size; }; /* +1 to avoid triggering overflow warning when negating it */ #define KN_DEACTIVATED_BIAS (INT_MIN + 1) /* KERNFS_TYPE_MASK and types are defined in include/linux/kernfs.h */ /** * kernfs_root - find out the kernfs_root a kernfs_node belongs to * @kn: kernfs_node of interest * * Return the kernfs_root @kn belongs to. */ static inline struct kernfs_root *kernfs_root(struct kernfs_node *kn) { /* if parent exists, it's always a dir; otherwise, @sd is a dir */ if (kn->parent) kn = kn->parent; return kn->dir.root; } /* * mount.c */ struct kernfs_super_info { struct super_block *sb; /* * The root associated with this super_block. Each super_block is * identified by the root and ns it's associated with. */ struct kernfs_root *root; /* * Each sb is associated with one namespace tag, currently the * network namespace of the task which mounted this kernfs * instance. If multiple tags become necessary, make the following * an array and compare kernfs_node tag against every entry. */ const void *ns; /* anchored at kernfs_root->supers, protected by kernfs_mutex */ struct list_head node; }; #define kernfs_info(SB) ((struct kernfs_super_info *)(SB->s_fs_info)) static inline struct kernfs_node *kernfs_dentry_node(struct dentry *dentry) { if (d_really_is_negative(dentry)) return NULL; return d_inode(dentry)->i_private; } extern const struct super_operations kernfs_sops; extern struct kmem_cache *kernfs_node_cache, *kernfs_iattrs_cache; /* * inode.c */ extern const struct xattr_handler *kernfs_xattr_handlers[]; void kernfs_evict_inode(struct inode *inode); int kernfs_iop_permission(struct inode *inode, int mask); int kernfs_iop_setattr(struct dentry *dentry, struct iattr *iattr); int kernfs_iop_getattr(const struct path *path, struct kstat *stat, u32 request_mask, unsigned int query_flags); ssize_t kernfs_iop_listxattr(struct dentry *dentry, char *buf, size_t size); int __kernfs_setattr(struct kernfs_node *kn, const struct iattr *iattr); /* * dir.c */ extern struct mutex kernfs_mutex; extern const struct dentry_operations kernfs_dops; extern const struct file_operations kernfs_dir_fops; extern const struct inode_operations kernfs_dir_iops; struct kernfs_node *kernfs_get_active(struct kernfs_node *kn); void kernfs_put_active(struct kernfs_node *kn); int kernfs_add_one(struct kernfs_node *kn); struct kernfs_node *kernfs_new_node(struct kernfs_node *parent, const char *name, umode_t mode, kuid_t uid, kgid_t gid, unsigned flags); /* * file.c */ extern const struct file_operations kernfs_file_fops; void kernfs_drain_open_files(struct kernfs_node *kn); /* * symlink.c */ extern const struct inode_operations kernfs_symlink_iops; #endif /* __KERNFS_INTERNAL_H */
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 /* SPDX-License-Identifier: GPL-2.0 */ #ifndef __VDSO_HELPERS_H #define __VDSO_HELPERS_H #ifndef __ASSEMBLY__ #include <vdso/datapage.h> static __always_inline u32 vdso_read_begin(const struct vdso_data *vd) { u32 seq; while (unlikely((seq = READ_ONCE(vd->seq)) & 1)) cpu_relax(); smp_rmb(); return seq; } static __always_inline u32 vdso_read_retry(const struct vdso_data *vd, u32 start) { u32 seq; smp_rmb(); seq = READ_ONCE(vd->seq); return seq != start; } static __always_inline void vdso_write_begin(struct vdso_data *vd) { /* * WRITE_ONCE it is required otherwise the compiler can validly tear * updates to vd[x].seq and it is possible that the value seen by the * reader it is inconsistent. */ WRITE_ONCE(vd[CS_HRES_COARSE].seq, vd[CS_HRES_COARSE].seq + 1); WRITE_ONCE(vd[CS_RAW].seq, vd[CS_RAW].seq + 1); smp_wmb(); } static __always_inline void vdso_write_end(struct vdso_data *vd) { smp_wmb(); /* * WRITE_ONCE it is required otherwise the compiler can validly tear * updates to vd[x].seq and it is possible that the value seen by the * reader it is inconsistent. */ WRITE_ONCE(vd[CS_HRES_COARSE].seq, vd[CS_HRES_COARSE].seq + 1); WRITE_ONCE(vd[CS_RAW].seq, vd[CS_RAW].seq + 1); } #endif /* !__ASSEMBLY__ */ #endif /* __VDSO_HELPERS_H */
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 /* SPDX-License-Identifier: GPL-2.0 */ #ifndef _LINUX_MMIOTRACE_H #define _LINUX_MMIOTRACE_H #include <linux/types.h> #include <linux/list.h> struct kmmio_probe; struct pt_regs; typedef void (*kmmio_pre_handler_t)(struct kmmio_probe *, struct pt_regs *, unsigned long addr); typedef void (*kmmio_post_handler_t)(struct kmmio_probe *, unsigned long condition, struct pt_regs *); struct kmmio_probe { /* kmmio internal list: */ struct list_head list; /* start location of the probe point: */ unsigned long addr; /* length of the probe region: */ unsigned long len; /* Called before addr is executed: */ kmmio_pre_handler_t pre_handler; /* Called after addr is executed: */ kmmio_post_handler_t post_handler; void *private; }; extern unsigned int kmmio_count; extern int register_kmmio_probe(struct kmmio_probe *p); extern void unregister_kmmio_probe(struct kmmio_probe *p); extern int kmmio_init(void); extern void kmmio_cleanup(void); #ifdef CONFIG_MMIOTRACE /* kmmio is active by some kmmio_probes? */ static inline int is_kmmio_active(void) { return kmmio_count; } /* Called from page fault handler. */ extern int kmmio_handler(struct pt_regs *regs, unsigned long addr); /* Called from ioremap.c */ extern void mmiotrace_ioremap(resource_size_t offset, unsigned long size, void __iomem *addr); extern void mmiotrace_iounmap(volatile void __iomem *addr); /* For anyone to insert markers. Remember trailing newline. */ extern __printf(1, 2) int mmiotrace_printk(const char *fmt, ...); #else /* !CONFIG_MMIOTRACE: */ static inline int is_kmmio_active(void) { return 0; } static inline int kmmio_handler(struct pt_regs *regs, unsigned long addr) { return 0; } static inline void mmiotrace_ioremap(resource_size_t offset, unsigned long size, void __iomem *addr) { } static inline void mmiotrace_iounmap(volatile void __iomem *addr) { } static inline __printf(1, 2) int mmiotrace_printk(const char *fmt, ...) { return 0; } #endif /* CONFIG_MMIOTRACE */ enum mm_io_opcode { MMIO_READ = 0x1, /* struct mmiotrace_rw */ MMIO_WRITE = 0x2, /* struct mmiotrace_rw */ MMIO_PROBE = 0x3, /* struct mmiotrace_map */ MMIO_UNPROBE = 0x4, /* struct mmiotrace_map */ MMIO_UNKNOWN_OP = 0x5, /* struct mmiotrace_rw */ }; struct mmiotrace_rw { resource_size_t phys; /* PCI address of register */ unsigned long value; unsigned long pc; /* optional program counter */ int map_id; unsigned char opcode; /* one of MMIO_{READ,WRITE,UNKNOWN_OP} */ unsigned char width; /* size of register access in bytes */ }; struct mmiotrace_map { resource_size_t phys; /* base address in PCI space */ unsigned long virt; /* base virtual address */ unsigned long len; /* mapping size */ int map_id; unsigned char opcode; /* MMIO_PROBE or MMIO_UNPROBE */ }; /* in kernel/trace/trace_mmiotrace.c */ extern void enable_mmiotrace(void); extern void disable_mmiotrace(void); extern void mmio_trace_rw(struct mmiotrace_rw *rw); extern void mmio_trace_mapping(struct mmiotrace_map *map); extern __printf(1, 0) int mmio_trace_printk(const char *fmt, va_list args); #endif /* _LINUX_MMIOTRACE_H */
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1020 1021 1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 1181 1182 1183 1184 1185 1186 1187 1188 1189 1190 1191 1192 1193 1194 1195 1196 1197 1198 1199 1200 1201 // SPDX-License-Identifier: GPL-2.0 /* * linux/fs/file.c * * Copyright (C) 1998-1999, Stephen Tweedie and Bill Hawes * * Manage the dynamic fd arrays in the process files_struct. */ #include <linux/syscalls.h> #include <linux/export.h> #include <linux/fs.h> #include <linux/kernel.h> #include <linux/mm.h> #include <linux/sched/signal.h> #include <linux/slab.h> #include <linux/file.h> #include <linux/fdtable.h> #include <linux/bitops.h> #include <linux/spinlock.h> #include <linux/rcupdate.h> #include <linux/close_range.h> #include <net/sock.h> unsigned int sysctl_nr_open __read_mostly = 1024*1024; unsigned int sysctl_nr_open_min = BITS_PER_LONG; /* our min() is unusable in constant expressions ;-/ */ #define __const_min(x, y) ((x) < (y) ? (x) : (y)) unsigned int sysctl_nr_open_max = __const_min(INT_MAX, ~(size_t)0/sizeof(void *)) & -BITS_PER_LONG; static void __free_fdtable(struct fdtable *fdt) { kvfree(fdt->fd); kvfree(fdt->open_fds); kfree(fdt); } static void free_fdtable_rcu(struct rcu_head *rcu) { __free_fdtable(container_of(rcu, struct fdtable, rcu)); } #define BITBIT_NR(nr) BITS_TO_LONGS(BITS_TO_LONGS(nr)) #define BITBIT_SIZE(nr) (BITBIT_NR(nr) * sizeof(long)) /* * Copy 'count' fd bits from the old table to the new table and clear the extra * space if any. This does not copy the file pointers. Called with the files * spinlock held for write. */ static void copy_fd_bitmaps(struct fdtable *nfdt, struct fdtable *ofdt, unsigned int count) { unsigned int cpy, set; cpy = count / BITS_PER_BYTE; set = (nfdt->max_fds - count) / BITS_PER_BYTE; memcpy(nfdt->open_fds, ofdt->open_fds, cpy); memset((char *)nfdt->open_fds + cpy, 0, set); memcpy(nfdt->close_on_exec, ofdt->close_on_exec, cpy); memset((char *)nfdt->close_on_exec + cpy, 0, set); cpy = BITBIT_SIZE(count); set = BITBIT_SIZE(nfdt->max_fds) - cpy; memcpy(nfdt->full_fds_bits, ofdt->full_fds_bits, cpy); memset((char *)nfdt->full_fds_bits + cpy, 0, set); } /* * Copy all file descriptors from the old table to the new, expanded table and * clear the extra space. Called with the files spinlock held for write. */ static void copy_fdtable(struct fdtable *nfdt, struct fdtable *ofdt) { size_t cpy, set; BUG_ON(nfdt->max_fds < ofdt->max_fds); cpy = ofdt->max_fds * sizeof(struct file *); set = (nfdt->max_fds - ofdt->max_fds) * sizeof(struct file *); memcpy(nfdt->fd, ofdt->fd, cpy); memset((char *)nfdt->fd + cpy, 0, set); copy_fd_bitmaps(nfdt, ofdt, ofdt->max_fds); } static struct fdtable * alloc_fdtable(unsigned int nr) { struct fdtable *fdt; void *data; /* * Figure out how many fds we actually want to support in this fdtable. * Allocation steps are keyed to the size of the fdarray, since it * grows far faster than any of the other dynamic data. We try to fit * the fdarray into comfortable page-tuned chunks: starting at 1024B * and growing in powers of two from there on. */ nr /= (1024 / sizeof(struct file *)); nr = roundup_pow_of_two(nr + 1); nr *= (1024 / sizeof(struct file *)); /* * Note that this can drive nr *below* what we had passed if sysctl_nr_open * had been set lower between the check in expand_files() and here. Deal * with that in caller, it's cheaper that way. * * We make sure that nr remains a multiple of BITS_PER_LONG - otherwise * bitmaps handling below becomes unpleasant, to put it mildly... */ if (unlikely(nr > sysctl_nr_open)) nr = ((sysctl_nr_open - 1) | (BITS_PER_LONG - 1)) + 1; fdt = kmalloc(sizeof(struct fdtable), GFP_KERNEL_ACCOUNT); if (!fdt) goto out; fdt->max_fds = nr; data = kvmalloc_array(nr, sizeof(struct file *), GFP_KERNEL_ACCOUNT); if (!data) goto out_fdt; fdt->fd = data; data = kvmalloc(max_t(size_t, 2 * nr / BITS_PER_BYTE + BITBIT_SIZE(nr), L1_CACHE_BYTES), GFP_KERNEL_ACCOUNT); if (!data) goto out_arr; fdt->open_fds = data; data += nr / BITS_PER_BYTE; fdt->close_on_exec = data; data += nr / BITS_PER_BYTE; fdt->full_fds_bits = data; return fdt; out_arr: kvfree(fdt->fd); out_fdt: kfree(fdt); out: return NULL; } /* * Expand the file descriptor table. * This function will allocate a new fdtable and both fd array and fdset, of * the given size. * Return <0 error code on error; 1 on successful completion. * The files->file_lock should be held on entry, and will be held on exit. */ static int expand_fdtable(struct files_struct *files, unsigned int nr) __releases(files->file_lock) __acquires(files->file_lock) { struct fdtable *new_fdt, *cur_fdt; spin_unlock(&files->file_lock); new_fdt = alloc_fdtable(nr); /* make sure all __fd_install() have seen resize_in_progress * or have finished their rcu_read_lock_sched() section. */ if (atomic_read(&files->count) > 1) synchronize_rcu(); spin_lock(&files->file_lock); if (!new_fdt) return -ENOMEM; /* * extremely unlikely race - sysctl_nr_open decreased between the check in * caller and alloc_fdtable(). Cheaper to catch it here... */ if (unlikely(new_fdt->max_fds <= nr)) { __free_fdtable(new_fdt); return -EMFILE; } cur_fdt = files_fdtable(files); BUG_ON(nr < cur_fdt->max_fds); copy_fdtable(new_fdt, cur_fdt); rcu_assign_pointer(files->fdt, new_fdt); if (cur_fdt != &files->fdtab) call_rcu(&cur_fdt->rcu, free_fdtable_rcu); /* coupled with smp_rmb() in __fd_install() */ smp_wmb(); return 1; } /* * Expand files. * This function will expand the file structures, if the requested size exceeds * the current capacity and there is room for expansion. * Return <0 error code on error; 0 when nothing done; 1 when files were * expanded and execution may have blocked. * The files->file_lock should be held on entry, and will be held on exit. */ static int expand_files(struct files_struct *files, unsigned int nr) __releases(files->file_lock) __acquires(files->file_lock) { struct fdtable *fdt; int expanded = 0; repeat: fdt = files_fdtable(files); /* Do we need to expand? */ if (nr < fdt->max_fds) return expanded; /* Can we expand? */ if (nr >= sysctl_nr_open) return -EMFILE; if (unlikely(files->resize_in_progress)) { spin_unlock(&files->file_lock); expanded = 1; wait_event(files->resize_wait, !files->resize_in_progress); spin_lock(&files->file_lock); goto repeat; } /* All good, so we try */ files->resize_in_progress = true; expanded = expand_fdtable(files, nr); files->resize_in_progress = false; wake_up_all(&files->resize_wait); return expanded; } static inline void __set_close_on_exec(unsigned int fd, struct fdtable *fdt) { __set_bit(fd, fdt->close_on_exec); } static inline void __clear_close_on_exec(unsigned int fd, struct fdtable *fdt) { if (test_bit(fd, fdt->close_on_exec)) __clear_bit(fd, fdt->close_on_exec); } static inline void __set_open_fd(unsigned int fd, struct fdtable *fdt) { __set_bit(fd, fdt->open_fds); fd /= BITS_PER_LONG; if (!~fdt->open_fds[fd]) __set_bit(fd, fdt->full_fds_bits); } static inline void __clear_open_fd(unsigned int fd, struct fdtable *fdt) { __clear_bit(fd, fdt->open_fds); __clear_bit(fd / BITS_PER_LONG, fdt->full_fds_bits); } static unsigned int count_open_files(struct fdtable *fdt) { unsigned int size = fdt->max_fds; unsigned int i; /* Find the last open fd */ for (i = size / BITS_PER_LONG; i > 0; ) { if (fdt->open_fds[--i]) break; } i = (i + 1) * BITS_PER_LONG; return i; } static unsigned int sane_fdtable_size(struct fdtable *fdt, unsigned int max_fds) { unsigned int count; count = count_open_files(fdt); if (max_fds < NR_OPEN_DEFAULT) max_fds = NR_OPEN_DEFAULT; return min(count, max_fds); } /* * Allocate a new files structure and copy contents from the * passed in files structure. * errorp will be valid only when the returned files_struct is NULL. */ struct files_struct *dup_fd(struct files_struct *oldf, unsigned int max_fds, int *errorp) { struct files_struct *newf; struct file **old_fds, **new_fds; unsigned int open_files, i; struct fdtable *old_fdt, *new_fdt; *errorp = -ENOMEM; newf = kmem_cache_alloc(files_cachep, GFP_KERNEL); if (!newf) goto out; atomic_set(&newf->count, 1); spin_lock_init(&newf->file_lock); newf->resize_in_progress = false; init_waitqueue_head(&newf->resize_wait); newf->next_fd = 0; new_fdt = &newf->fdtab; new_fdt->max_fds = NR_OPEN_DEFAULT; new_fdt->close_on_exec = newf->close_on_exec_init; new_fdt->open_fds = newf->open_fds_init; new_fdt->full_fds_bits = newf->full_fds_bits_init; new_fdt->fd = &newf->fd_array[0]; spin_lock(&oldf->file_lock); old_fdt = files_fdtable(oldf); open_files = sane_fdtable_size(old_fdt, max_fds); /* * Check whether we need to allocate a larger fd array and fd set. */ while (unlikely(open_files > new_fdt->max_fds)) { spin_unlock(&oldf->file_lock); if (new_fdt != &newf->fdtab) __free_fdtable(new_fdt); new_fdt = alloc_fdtable(open_files - 1); if (!new_fdt) { *errorp = -ENOMEM; goto out_release; } /* beyond sysctl_nr_open; nothing to do */ if (unlikely(new_fdt->max_fds < open_files)) { __free_fdtable(new_fdt); *errorp = -EMFILE; goto out_release; } /* * Reacquire the oldf lock and a pointer to its fd table * who knows it may have a new bigger fd table. We need * the latest pointer. */ spin_lock(&oldf->file_lock); old_fdt = files_fdtable(oldf); open_files = sane_fdtable_size(old_fdt, max_fds); } copy_fd_bitmaps(new_fdt, old_fdt, open_files); old_fds = old_fdt->fd; new_fds = new_fdt->fd; for (i = open_files; i != 0; i--) { struct file *f = *old_fds++; if (f) { get_file(f); } else { /* * The fd may be claimed in the fd bitmap but not yet * instantiated in the files array if a sibling thread * is partway through open(). So make sure that this * fd is available to the new process. */ __clear_open_fd(open_files - i, new_fdt); } rcu_assign_pointer(*new_fds++, f); } spin_unlock(&oldf->file_lock); /* clear the remainder */ memset(new_fds, 0, (new_fdt->max_fds - open_files) * sizeof(struct file *)); rcu_assign_pointer(newf->fdt, new_fdt); return newf; out_release: kmem_cache_free(files_cachep, newf); out: return NULL; } static struct fdtable *close_files(struct files_struct * files) { /* * It is safe to dereference the fd table without RCU or * ->file_lock because this is the last reference to the * files structure. */ struct fdtable *fdt = rcu_dereference_raw(files->fdt); unsigned int i, j = 0; for (;;) { unsigned long set; i = j * BITS_PER_LONG; if (i >= fdt->max_fds) break; set = fdt->open_fds[j++]; while (set) { if (set & 1) { struct file * file = xchg(&fdt->fd[i], NULL); if (file) { filp_close(file, files); cond_resched(); } } i++; set >>= 1; } } return fdt; } struct files_struct *get_files_struct(struct task_struct *task) { struct files_struct *files; task_lock(task); files = task->files; if (files) atomic_inc(&files->count); task_unlock(task); return files; } void put_files_struct(struct files_struct *files) { if (atomic_dec_and_test(&files->count)) { struct fdtable *fdt = close_files(files); /* free the arrays if they are not embedded */ if (fdt != &files->fdtab) __free_fdtable(fdt); kmem_cache_free(files_cachep, files); } } void reset_files_struct(struct files_struct *files) { struct task_struct *tsk = current; struct files_struct *old; old = tsk->files; task_lock(tsk); tsk->files = files; task_unlock(tsk); put_files_struct(old); } void exit_files(struct task_struct *tsk) { struct files_struct * files = tsk->files; if (files) { task_lock(tsk); tsk->files = NULL; task_unlock(tsk); put_files_struct(files); } } struct files_struct init_files = { .count = ATOMIC_INIT(1), .fdt = &init_files.fdtab, .fdtab = { .max_fds = NR_OPEN_DEFAULT, .fd = &init_files.fd_array[0], .close_on_exec = init_files.close_on_exec_init, .open_fds = init_files.open_fds_init, .full_fds_bits = init_files.full_fds_bits_init, }, .file_lock = __SPIN_LOCK_UNLOCKED(init_files.file_lock), .resize_wait = __WAIT_QUEUE_HEAD_INITIALIZER(init_files.resize_wait), }; static unsigned int find_next_fd(struct fdtable *fdt, unsigned int start) { unsigned int maxfd = fdt->max_fds; unsigned int maxbit = maxfd / BITS_PER_LONG; unsigned int bitbit = start / BITS_PER_LONG; bitbit = find_next_zero_bit(fdt->full_fds_bits, maxbit, bitbit) * BITS_PER_LONG; if (bitbit > maxfd) return maxfd; if (bitbit > start) start = bitbit; return find_next_zero_bit(fdt->open_fds, maxfd, start); } /* * allocate a file descriptor, mark it busy. */ int __alloc_fd(struct files_struct *files, unsigned start, unsigned end, unsigned flags) { unsigned int fd; int error; struct fdtable *fdt; spin_lock(&files->file_lock); repeat: fdt = files_fdtable(files); fd = start; if (fd < files->next_fd) fd = files->next_fd; if (fd < fdt->max_fds) fd = find_next_fd(fdt, fd); /* * N.B. For clone tasks sharing a files structure, this test * will limit the total number of files that can be opened. */ error = -EMFILE; if (fd >= end) goto out; error = expand_files(files, fd); if (error < 0) goto out; /* * If we needed to expand the fs array we * might have blocked - try again. */ if (error) goto repeat; if (start <= files->next_fd) files->next_fd = fd + 1; __set_open_fd(fd, fdt); if (flags & O_CLOEXEC) __set_close_on_exec(fd, fdt); else __clear_close_on_exec(fd, fdt); error = fd; #if 1 /* Sanity check */ if (rcu_access_pointer(fdt->fd[fd]) != NULL) { printk(KERN_WARNING "alloc_fd: slot %d not NULL!\n", fd); rcu_assign_pointer(fdt->fd[fd], NULL); } #endif out: spin_unlock(&files->file_lock); return error; } static int alloc_fd(unsigned start, unsigned flags) { return __alloc_fd(current->files, start, rlimit(RLIMIT_NOFILE), flags); } int __get_unused_fd_flags(unsigned flags, unsigned long nofile) { return __alloc_fd(current->files, 0, nofile, flags); } int get_unused_fd_flags(unsigned flags) { return __get_unused_fd_flags(flags, rlimit(RLIMIT_NOFILE)); } EXPORT_SYMBOL(get_unused_fd_flags); static void __put_unused_fd(struct files_struct *files, unsigned int fd) { struct fdtable *fdt = files_fdtable(files); __clear_open_fd(fd, fdt); if (fd < files->next_fd) files->next_fd = fd; } void put_unused_fd(unsigned int fd) { struct files_struct *files = current->files; spin_lock(&files->file_lock); __put_unused_fd(files, fd); spin_unlock(&files->file_lock); } EXPORT_SYMBOL(put_unused_fd); /* * Install a file pointer in the fd array. * * The VFS is full of places where we drop the files lock between * setting the open_fds bitmap and installing the file in the file * array. At any such point, we are vulnerable to a dup2() race * installing a file in the array before us. We need to detect this and * fput() the struct file we are about to overwrite in this case. * * It should never happen - if we allow dup2() do it, _really_ bad things * will follow. * * NOTE: __fd_install() variant is really, really low-level; don't * use it unless you are forced to by truly lousy API shoved down * your throat. 'files' *MUST* be either current->files or obtained * by get_files_struct(current) done by whoever had given it to you, * or really bad things will happen. Normally you want to use * fd_install() instead. */ void __fd_install(struct files_struct *files, unsigned int fd, struct file *file) { struct fdtable *fdt; rcu_read_lock_sched(); if (unlikely(files->resize_in_progress)) { rcu_read_unlock_sched(); spin_lock(&files->file_lock); fdt = files_fdtable(files); BUG_ON(fdt->fd[fd] != NULL); rcu_assign_pointer(fdt->fd[fd], file); spin_unlock(&files->file_lock); return; } /* coupled with smp_wmb() in expand_fdtable() */ smp_rmb(); fdt = rcu_dereference_sched(files->fdt); BUG_ON(fdt->fd[fd] != NULL); rcu_assign_pointer(fdt->fd[fd], file); rcu_read_unlock_sched(); } /* * This consumes the "file" refcount, so callers should treat it * as if they had called fput(file). */ void fd_install(unsigned int fd, struct file *file) { __fd_install(current->files, fd, file); } EXPORT_SYMBOL(fd_install); static struct file *pick_file(struct files_struct *files, unsigned fd) { struct file *file = NULL; struct fdtable *fdt; spin_lock(&files->file_lock); fdt = files_fdtable(files); if (fd >= fdt->max_fds) goto out_unlock; file = fdt->fd[fd]; if (!file) goto out_unlock; rcu_assign_pointer(fdt->fd[fd], NULL); __put_unused_fd(files, fd); out_unlock: spin_unlock(&files->file_lock); return file; } /* * The same warnings as for __alloc_fd()/__fd_install() apply here... */ int __close_fd(struct files_struct *files, unsigned fd) { struct file *file; file = pick_file(files, fd); if (!file) return -EBADF; return filp_close(file, files); } EXPORT_SYMBOL(__close_fd); /* for ksys_close() */ /** * __close_range() - Close all file descriptors in a given range. * * @fd: starting file descriptor to close * @max_fd: last file descriptor to close * * This closes a range of file descriptors. All file descriptors * from @fd up to and including @max_fd are closed. */ int __close_range(unsigned fd, unsigned max_fd, unsigned int flags) { unsigned int cur_max; struct task_struct *me = current; struct files_struct *cur_fds = me->files, *fds = NULL; if (flags & ~CLOSE_RANGE_UNSHARE) return -EINVAL; if (fd > max_fd) return -EINVAL; rcu_read_lock(); cur_max = files_fdtable(cur_fds)->max_fds; rcu_read_unlock(); /* cap to last valid index into fdtable */ cur_max--; if (flags & CLOSE_RANGE_UNSHARE) { int ret; unsigned int max_unshare_fds = NR_OPEN_MAX; /* * If the requested range is greater than the current maximum, * we're closing everything so only copy all file descriptors * beneath the lowest file descriptor. */ if (max_fd >= cur_max) max_unshare_fds = fd; ret = unshare_fd(CLONE_FILES, max_unshare_fds, &fds); if (ret) return ret; /* * We used to share our file descriptor table, and have now * created a private one, make sure we're using it below. */ if (fds) swap(cur_fds, fds); } max_fd = min(max_fd, cur_max); while (fd <= max_fd) { struct file *file; file = pick_file(cur_fds, fd++); if (!file) continue; filp_close(file, cur_fds); cond_resched(); } if (fds) { /* * We're done closing the files we were supposed to. Time to install * the new file descriptor table and drop the old one. */ task_lock(me); me->files = cur_fds; task_unlock(me); put_files_struct(fds); } return 0; } /* * variant of __close_fd that gets a ref on the file for later fput. * The caller must ensure that filp_close() called on the file, and then * an fput(). */ int __close_fd_get_file(unsigned int fd, struct file **res) { struct files_struct *files = current->files; struct file *file; struct fdtable *fdt; spin_lock(&files->file_lock); fdt = files_fdtable(files); if (fd >= fdt->max_fds) goto out_unlock; file = fdt->fd[fd]; if (!file) goto out_unlock; rcu_assign_pointer(fdt->fd[fd], NULL); __put_unused_fd(files, fd); spin_unlock(&files->file_lock); get_file(file); *res = file; return 0; out_unlock: spin_unlock(&files->file_lock); *res = NULL; return -ENOENT; } void do_close_on_exec(struct files_struct *files) { unsigned i; struct fdtable *fdt; /* exec unshares first */ spin_lock(&files->file_lock); for (i = 0; ; i++) { unsigned long set; unsigned fd = i * BITS_PER_LONG; fdt = files_fdtable(files); if (fd >= fdt->max_fds) break; set = fdt->close_on_exec[i]; if (!set) continue; fdt->close_on_exec[i] = 0; for ( ; set ; fd++, set >>= 1) { struct file *file; if (!(set & 1)) continue; file = fdt->fd[fd]; if (!file) continue; rcu_assign_pointer(fdt->fd[fd], NULL); __put_unused_fd(files, fd); spin_unlock(&files->file_lock); filp_close(file, files); cond_resched(); spin_lock(&files->file_lock); } } spin_unlock(&files->file_lock); } static struct file *__fget_files(struct files_struct *files, unsigned int fd, fmode_t mask, unsigned int refs) { struct file *file; rcu_read_lock(); loop: file = fcheck_files(files, fd); if (file) { /* File object ref couldn't be taken. * dup2() atomicity guarantee is the reason * we loop to catch the new file (or NULL pointer) */ if (file->f_mode & mask) file = NULL; else if (!get_file_rcu_many(file, refs)) goto loop; else if (__fcheck_files(files, fd) != file) { fput_many(file, refs); goto loop; } } rcu_read_unlock(); return file; } static inline struct file *__fget(unsigned int fd, fmode_t mask, unsigned int refs) { return __fget_files(current->files, fd, mask, refs); } struct file *fget_many(unsigned int fd, unsigned int refs) { return __fget(fd, FMODE_PATH, refs); } struct file *fget(unsigned int fd) { return __fget(fd, FMODE_PATH, 1); } EXPORT_SYMBOL(fget); struct file *fget_raw(unsigned int fd) { return __fget(fd, 0, 1); } EXPORT_SYMBOL(fget_raw); struct file *fget_task(struct task_struct *task, unsigned int fd) { struct file *file = NULL; task_lock(task); if (task->files) file = __fget_files(task->files, fd, 0, 1); task_unlock(task); return file; } /* * Lightweight file lookup - no refcnt increment if fd table isn't shared. * * You can use this instead of fget if you satisfy all of the following * conditions: * 1) You must call fput_light before exiting the syscall and returning control * to userspace (i.e. you cannot remember the returned struct file * after * returning to userspace). * 2) You must not call filp_close on the returned struct file * in between * calls to fget_light and fput_light. * 3) You must not clone the current task in between the calls to fget_light * and fput_light. * * The fput_needed flag returned by fget_light should be passed to the * corresponding fput_light. */ static unsigned long __fget_light(unsigned int fd, fmode_t mask) { struct files_struct *files = current->files; struct file *file; if (atomic_read(&files->count) == 1) { file = __fcheck_files(files, fd); if (!file || unlikely(file->f_mode & mask)) return 0; return (unsigned long)file; } else { file = __fget(fd, mask, 1); if (!file) return 0; return FDPUT_FPUT | (unsigned long)file; } } unsigned long __fdget(unsigned int fd) { return __fget_light(fd, FMODE_PATH); } EXPORT_SYMBOL(__fdget); unsigned long __fdget_raw(unsigned int fd) { return __fget_light(fd, 0); } unsigned long __fdget_pos(unsigned int fd) { unsigned long v = __fdget(fd); struct file *file = (struct file *)(v & ~3); if (file && (file->f_mode & FMODE_ATOMIC_POS)) { if (file_count(file) > 1) { v |= FDPUT_POS_UNLOCK; mutex_lock(&file->f_pos_lock); } } return v; } void __f_unlock_pos(struct file *f) { mutex_unlock(&f->f_pos_lock); } /* * We only lock f_pos if we have threads or if the file might be * shared with another process. In both cases we'll have an elevated * file count (done either by fdget() or by fork()). */ void set_close_on_exec(unsigned int fd, int flag) { struct files_struct *files = current->files; struct fdtable *fdt; spin_lock(&files->file_lock); fdt = files_fdtable(files); if (flag) __set_close_on_exec(fd, fdt); else __clear_close_on_exec(fd, fdt); spin_unlock(&files->file_lock); } bool get_close_on_exec(unsigned int fd) { struct files_struct *files = current->files; struct fdtable *fdt; bool res; rcu_read_lock(); fdt = files_fdtable(files); res = close_on_exec(fd, fdt); rcu_read_unlock(); return res; } static int do_dup2(struct files_struct *files, struct file *file, unsigned fd, unsigned flags) __releases(&files->file_lock) { struct file *tofree; struct fdtable *fdt; /* * We need to detect attempts to do dup2() over allocated but still * not finished descriptor. NB: OpenBSD avoids that at the price of * extra work in their equivalent of fget() - they insert struct * file immediately after grabbing descriptor, mark it larval if * more work (e.g. actual opening) is needed and make sure that * fget() treats larval files as absent. Potentially interesting, * but while extra work in fget() is trivial, locking implications * and amount of surgery on open()-related paths in VFS are not. * FreeBSD fails with -EBADF in the same situation, NetBSD "solution" * deadlocks in rather amusing ways, AFAICS. All of that is out of * scope of POSIX or SUS, since neither considers shared descriptor * tables and this condition does not arise without those. */ fdt = files_fdtable(files); tofree = fdt->fd[fd]; if (!tofree && fd_is_open(fd, fdt)) goto Ebusy; get_file(file); rcu_assign_pointer(fdt->fd[fd], file); __set_open_fd(fd, fdt); if (flags & O_CLOEXEC) __set_close_on_exec(fd, fdt); else __clear_close_on_exec(fd, fdt); spin_unlock(&files->file_lock); if (tofree) filp_close(tofree, files); return fd; Ebusy: spin_unlock(&files->file_lock); return -EBUSY; } int replace_fd(unsigned fd, struct file *file, unsigned flags) { int err; struct files_struct *files = current->files; if (!file) return __close_fd(files, fd); if (fd >= rlimit(RLIMIT_NOFILE)) return -EBADF; spin_lock(&files->file_lock); err = expand_files(files, fd); if (unlikely(err < 0)) goto out_unlock; return do_dup2(files, file, fd, flags); out_unlock: spin_unlock(&files->file_lock); return err; } /** * __receive_fd() - Install received file into file descriptor table * * @fd: fd to install into (if negative, a new fd will be allocated) * @file: struct file that was received from another process * @ufd: __user pointer to write new fd number to * @o_flags: the O_* flags to apply to the new fd entry * * Installs a received file into the file descriptor table, with appropriate * checks and count updates. Optionally writes the fd number to userspace, if * @ufd is non-NULL. * * This helper handles its own reference counting of the incoming * struct file. * * Returns newly install fd or -ve on error. */ int __receive_fd(int fd, struct file *file, int __user *ufd, unsigned int o_flags) { int new_fd; int error; error = security_file_receive(file); if (error) return error; if (fd < 0) { new_fd = get_unused_fd_flags(o_flags); if (new_fd < 0) return new_fd; } else { new_fd = fd; } if (ufd) { error = put_user(new_fd, ufd); if (error) { if (fd < 0) put_unused_fd(new_fd); return error; } } if (fd < 0) { fd_install(new_fd, get_file(file)); } else { error = replace_fd(new_fd, file, o_flags); if (error) return error; } /* Bump the sock usage counts, if any. */ __receive_sock(file); return new_fd; } static int ksys_dup3(unsigned int oldfd, unsigned int newfd, int flags) { int err = -EBADF; struct file *file; struct files_struct *files = current->files; if ((flags & ~O_CLOEXEC) != 0) return -EINVAL; if (unlikely(oldfd == newfd)) return -EINVAL; if (newfd >= rlimit(RLIMIT_NOFILE)) return -EBADF; spin_lock(&files->file_lock); err = expand_files(files, newfd); file = fcheck(oldfd); if (unlikely(!file)) goto Ebadf; if (unlikely(err < 0)) { if (err == -EMFILE) goto Ebadf; goto out_unlock; } return do_dup2(files, file, newfd, flags); Ebadf: err = -EBADF; out_unlock: spin_unlock(&files->file_lock); return err; } SYSCALL_DEFINE3(dup3, unsigned int, oldfd, unsigned int, newfd, int, flags) { return ksys_dup3(oldfd, newfd, flags); } SYSCALL_DEFINE2(dup2, unsigned int, oldfd, unsigned int, newfd) { if (unlikely(newfd == oldfd)) { /* corner case */ struct files_struct *files = current->files; int retval = oldfd; rcu_read_lock(); if (!fcheck_files(files, oldfd)) retval = -EBADF; rcu_read_unlock(); return retval; } return ksys_dup3(oldfd, newfd, 0); } SYSCALL_DEFINE1(dup, unsigned int, fildes) { int ret = -EBADF; struct file *file = fget_raw(fildes); if (file) { ret = get_unused_fd_flags(0); if (ret >= 0) fd_install(ret, file); else fput(file); } return ret; } int f_dupfd(unsigned int from, struct file *file, unsigned flags) { int err; if (from >= rlimit(RLIMIT_NOFILE)) return -EINVAL; err = alloc_fd(from, flags); if (err >= 0) { get_file(file); fd_install(err, file); } return err; } int iterate_fd(struct files_struct *files, unsigned n, int (*f)(const void *, struct file *, unsigned), const void *p) { struct fdtable *fdt; int res = 0; if (!files) return 0; spin_lock(&files->file_lock); for (fdt = files_fdtable(files); n < fdt->max_fds; n++) { struct file *file; file = rcu_dereference_check_fdtable(files, fdt->fd[n]); if (!file) continue; res = f(p, file, n); if (res) break; } spin_unlock(&files->file_lock); return res; } EXPORT_SYMBOL(iterate_fd);
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 /* * include/linux/ktime.h * * ktime_t - nanosecond-resolution time format. * * Copyright(C) 2005, Thomas Gleixner <tglx@linutronix.de> * Copyright(C) 2005, Red Hat, Inc., Ingo Molnar * * data type definitions, declarations, prototypes and macros. * * Started by: Thomas Gleixner and Ingo Molnar * * Credits: * * Roman Zippel provided the ideas and primary code snippets of * the ktime_t union and further simplifications of the original * code. * * For licencing details see kernel-base/COPYING */ #ifndef _LINUX_KTIME_H #define _LINUX_KTIME_H #include <linux/time.h> #include <linux/jiffies.h> #include <asm/bug.h> /* Nanosecond scalar representation for kernel time values */ typedef s64 ktime_t; /** * ktime_set - Set a ktime_t variable from a seconds/nanoseconds value * @secs: seconds to set * @nsecs: nanoseconds to set * * Return: The ktime_t representation of the value. */ static inline ktime_t ktime_set(const s64 secs, const unsigned long nsecs) { if (unlikely(secs >= KTIME_SEC_MAX)) return KTIME_MAX; return secs * NSEC_PER_SEC + (s64)nsecs; } /* Subtract two ktime_t variables. rem = lhs -rhs: */ #define ktime_sub(lhs, rhs) ((lhs) - (rhs)) /* Add two ktime_t variables. res = lhs + rhs: */ #define ktime_add(lhs, rhs) ((lhs) + (rhs)) /* * Same as ktime_add(), but avoids undefined behaviour on overflow; however, * this means that you must check the result for overflow yourself. */ #define ktime_add_unsafe(lhs, rhs) ((u64) (lhs) + (rhs)) /* * Add a ktime_t variable and a scalar nanosecond value. * res = kt + nsval: */ #define ktime_add_ns(kt, nsval) ((kt) + (nsval)) /* * Subtract a scalar nanosecod from a ktime_t variable * res = kt - nsval: */ #define ktime_sub_ns(kt, nsval) ((kt) - (nsval)) /* convert a timespec64 to ktime_t format: */ static inline ktime_t timespec64_to_ktime(struct timespec64 ts) { return ktime_set(ts.tv_sec, ts.tv_nsec); } /* Map the ktime_t to timespec conversion to ns_to_timespec function */ #define ktime_to_timespec64(kt) ns_to_timespec64((kt)) /* Convert ktime_t to nanoseconds */ static inline s64 ktime_to_ns(const ktime_t kt) { return kt; } /** * ktime_compare - Compares two ktime_t variables for less, greater or equal * @cmp1: comparable1 * @cmp2: comparable2 * * Return: ... * cmp1 < cmp2: return <0 * cmp1 == cmp2: return 0 * cmp1 > cmp2: return >0 */ static inline int ktime_compare(const ktime_t cmp1, const ktime_t cmp2) { if (cmp1 < cmp2) return -1; if (cmp1 > cmp2) return 1; return 0; } /** * ktime_after - Compare if a ktime_t value is bigger than another one. * @cmp1: comparable1 * @cmp2: comparable2 * * Return: true if cmp1 happened after cmp2. */ static inline bool ktime_after(const ktime_t cmp1, const ktime_t cmp2) { return ktime_compare(cmp1, cmp2) > 0; } /** * ktime_before - Compare if a ktime_t value is smaller than another one. * @cmp1: comparable1 * @cmp2: comparable2 * * Return: true if cmp1 happened before cmp2. */ static inline bool ktime_before(const ktime_t cmp1, const ktime_t cmp2) { return ktime_compare(cmp1, cmp2) < 0; } #if BITS_PER_LONG < 64 extern s64 __ktime_divns(const ktime_t kt, s64 div); static inline s64 ktime_divns(const ktime_t kt, s64 div) { /* * Negative divisors could cause an inf loop, * so bug out here. */ BUG_ON(div < 0); if (__builtin_constant_p(div) && !(div >> 32)) { s64 ns = kt; u64 tmp = ns < 0 ? -ns : ns; do_div(tmp, div); return ns < 0 ? -tmp : tmp; } else { return __ktime_divns(kt, div); } } #else /* BITS_PER_LONG < 64 */ static inline s64 ktime_divns(const ktime_t kt, s64 div) { /* * 32-bit implementation cannot handle negative divisors, * so catch them on 64bit as well. */ WARN_ON(div < 0); return kt / div; } #endif static inline s64 ktime_to_us(const ktime_t kt) { return ktime_divns(kt, NSEC_PER_USEC); } static inline s64 ktime_to_ms(const ktime_t kt) { return ktime_divns(kt, NSEC_PER_MSEC); } static inline s64 ktime_us_delta(const ktime_t later, const ktime_t earlier) { return ktime_to_us(ktime_sub(later, earlier)); } static inline s64 ktime_ms_delta(const ktime_t later, const ktime_t earlier) { return ktime_to_ms(ktime_sub(later, earlier)); } static inline ktime_t ktime_add_us(const ktime_t kt, const u64 usec) { return ktime_add_ns(kt, usec * NSEC_PER_USEC); } static inline ktime_t ktime_add_ms(const ktime_t kt, const u64 msec) { return ktime_add_ns(kt, msec * NSEC_PER_MSEC); } static inline ktime_t ktime_sub_us(const ktime_t kt, const u64 usec) { return ktime_sub_ns(kt, usec * NSEC_PER_USEC); } static inline ktime_t ktime_sub_ms(const ktime_t kt, const u64 msec) { return ktime_sub_ns(kt, msec * NSEC_PER_MSEC); } extern ktime_t ktime_add_safe(const ktime_t lhs, const ktime_t rhs); /** * ktime_to_timespec64_cond - convert a ktime_t variable to timespec64 * format only if the variable contains data * @kt: the ktime_t variable to convert * @ts: the timespec variable to store the result in * * Return: %true if there was a successful conversion, %false if kt was 0. */ static inline __must_check bool ktime_to_timespec64_cond(const ktime_t kt, struct timespec64 *ts) { if (kt) { *ts = ktime_to_timespec64(kt); return true; } else { return false; } } #include <vdso/ktime.h> static inline ktime_t ns_to_ktime(u64 ns) { return ns; } static inline ktime_t ms_to_ktime(u64 ms) { return ms * NSEC_PER_MSEC; } # include <linux/timekeeping.h> # include <linux/timekeeping32.h> #endif
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382 383 384 385 386 387 388 389 390 391 392 393 394 395 396 397 398 399 400 401 402 403 404 405 406 407 408 409 410 411 412 413 414 415 416 417 418 419 420 421 422 423 424 425 426 427 428 429 430 431 432 433 434 435 436 437 438 439 440 441 442 443 444 445 446 447 448 449 450 451 452 453 454 455 456 457 458 459 460 461 462 463 464 465 466 467 468 469 470 471 472 473 474 475 476 477 478 479 480 481 482 483 484 485 486 487 488 489 490 491 492 493 494 495 496 497 498 499 500 501 502 503 504 505 506 507 508 509 510 511 512 513 514 515 516 517 518 519 520 521 522 523 /* SPDX-License-Identifier: GPL-2.0-or-later */ /* * AEAD: Authenticated Encryption with Associated Data * * Copyright (c) 2007-2015 Herbert Xu <herbert@gondor.apana.org.au> */ #ifndef _CRYPTO_AEAD_H #define _CRYPTO_AEAD_H #include <linux/crypto.h> #include <linux/kernel.h> #include <linux/slab.h> /** * DOC: Authenticated Encryption With Associated Data (AEAD) Cipher API * * The AEAD cipher API is used with the ciphers of type CRYPTO_ALG_TYPE_AEAD * (listed as type "aead" in /proc/crypto) * * The most prominent examples for this type of encryption is GCM and CCM. * However, the kernel supports other types of AEAD ciphers which are defined * with the following cipher string: * * authenc(keyed message digest, block cipher) * * For example: authenc(hmac(sha256), cbc(aes)) * * The example code provided for the symmetric key cipher operation * applies here as well. Naturally all *skcipher* symbols must be exchanged * the *aead* pendants discussed in the following. In addition, for the AEAD * operation, the aead_request_set_ad function must be used to set the * pointer to the associated data memory location before performing the * encryption or decryption operation. In case of an encryption, the associated * data memory is filled during the encryption operation. For decryption, the * associated data memory must contain data that is used to verify the integrity * of the decrypted data. Another deviation from the asynchronous block cipher * operation is that the caller should explicitly check for -EBADMSG of the * crypto_aead_decrypt. That error indicates an authentication error, i.e. * a breach in the integrity of the message. In essence, that -EBADMSG error * code is the key bonus an AEAD cipher has over "standard" block chaining * modes. * * Memory Structure: * * The source scatterlist must contain the concatenation of * associated data || plaintext or ciphertext. * * The destination scatterlist has the same layout, except that the plaintext * (resp. ciphertext) will grow (resp. shrink) by the authentication tag size * during encryption (resp. decryption). * * In-place encryption/decryption is enabled by using the same scatterlist * pointer for both the source and destination. * * Even in the out-of-place case, space must be reserved in the destination for * the associated data, even though it won't be written to. This makes the * in-place and out-of-place cases more consistent. It is permissible for the * "destination" associated data to alias the "source" associated data. * * As with the other scatterlist crypto APIs, zero-length scatterlist elements * are not allowed in the used part of the scatterlist. Thus, if there is no * associated data, the first element must point to the plaintext/ciphertext. * * To meet the needs of IPsec, a special quirk applies to rfc4106, rfc4309, * rfc4543, and rfc7539esp ciphers. For these ciphers, the final 'ivsize' bytes * of the associated data buffer must contain a second copy of the IV. This is * in addition to the copy passed to aead_request_set_crypt(). These two IV * copies must not differ; different implementations of the same algorithm may * behave differently in that case. Note that the algorithm might not actually * treat the IV as associated data; nevertheless the length passed to * aead_request_set_ad() must include it. */ struct crypto_aead; /** * struct aead_request - AEAD request * @base: Common attributes for async crypto requests * @assoclen: Length in bytes of associated data for authentication * @cryptlen: Length of data to be encrypted or decrypted * @iv: Initialisation vector * @src: Source data * @dst: Destination data * @__ctx: Start of private context data */ struct aead_request { struct crypto_async_request base; unsigned int assoclen; unsigned int cryptlen; u8 *iv; struct scatterlist *src; struct scatterlist *dst; void *__ctx[] CRYPTO_MINALIGN_ATTR; }; /** * struct aead_alg - AEAD cipher definition * @maxauthsize: Set the maximum authentication tag size supported by the * transformation. A transformation may support smaller tag sizes. * As the authentication tag is a message digest to ensure the * integrity of the encrypted data, a consumer typically wants the * largest authentication tag possible as defined by this * variable. * @setauthsize: Set authentication size for the AEAD transformation. This * function is used to specify the consumer requested size of the * authentication tag to be either generated by the transformation * during encryption or the size of the authentication tag to be * supplied during the decryption operation. This function is also * responsible for checking the authentication tag size for * validity. * @setkey: see struct skcipher_alg * @encrypt: see struct skcipher_alg * @decrypt: see struct skcipher_alg * @ivsize: see struct skcipher_alg * @chunksize: see struct skcipher_alg * @init: Initialize the cryptographic transformation object. This function * is used to initialize the cryptographic transformation object. * This function is called only once at the instantiation time, right * after the transformation context was allocated. In case the * cryptographic hardware has some special requirements which need to * be handled by software, this function shall check for the precise * requirement of the transformation and put any software fallbacks * in place. * @exit: Deinitialize the cryptographic transformation object. This is a * counterpart to @init, used to remove various changes set in * @init. * @base: Definition of a generic crypto cipher algorithm. * * All fields except @ivsize is mandatory and must be filled. */ struct aead_alg { int (*setkey)(struct crypto_aead *tfm, const u8 *key, unsigned int keylen); int (*setauthsize)(struct crypto_aead *tfm, unsigned int authsize); int (*encrypt)(struct aead_request *req); int (*decrypt)(struct aead_request *req); int (*init)(struct crypto_aead *tfm); void (*exit)(struct crypto_aead *tfm); unsigned int ivsize; unsigned int maxauthsize; unsigned int chunksize; struct crypto_alg base; }; struct crypto_aead { unsigned int authsize; unsigned int reqsize; struct crypto_tfm base; }; static inline struct crypto_aead *__crypto_aead_cast(struct crypto_tfm *tfm) { return container_of(tfm, struct crypto_aead, base); } /** * crypto_alloc_aead() - allocate AEAD cipher handle * @alg_name: is the cra_name / name or cra_driver_name / driver name of the * AEAD cipher * @type: specifies the type of the cipher * @mask: specifies the mask for the cipher * * Allocate a cipher handle for an AEAD. The returned struct * crypto_aead is the cipher handle that is required for any subsequent * API invocation for that AEAD. * * Return: allocated cipher handle in case of success; IS_ERR() is true in case * of an error, PTR_ERR() returns the error code. */ struct crypto_aead *crypto_alloc_aead(const char *alg_name, u32 type, u32 mask); static inline struct crypto_tfm *crypto_aead_tfm(struct crypto_aead *tfm) { return &tfm->base; } /** * crypto_free_aead() - zeroize and free aead handle * @tfm: cipher handle to be freed * * If @tfm is a NULL or error pointer, this function does nothing. */ static inline void crypto_free_aead(struct crypto_aead *tfm) { crypto_destroy_tfm(tfm, crypto_aead_tfm(tfm)); } static inline struct aead_alg *crypto_aead_alg(struct crypto_aead *tfm) { return container_of(crypto_aead_tfm(tfm)->__crt_alg, struct aead_alg, base); } static inline unsigned int crypto_aead_alg_ivsize(struct aead_alg *alg) { return alg->ivsize; } /** * crypto_aead_ivsize() - obtain IV size * @tfm: cipher handle * * The size of the IV for the aead referenced by the cipher handle is * returned. This IV size may be zero if the cipher does not need an IV. * * Return: IV size in bytes */ static inline unsigned int crypto_aead_ivsize(struct crypto_aead *tfm) { return crypto_aead_alg_ivsize(crypto_aead_alg(tfm)); } /** * crypto_aead_authsize() - obtain maximum authentication data size * @tfm: cipher handle * * The maximum size of the authentication data for the AEAD cipher referenced * by the AEAD cipher handle is returned. The authentication data size may be * zero if the cipher implements a hard-coded maximum. * * The authentication data may also be known as "tag value". * * Return: authentication data size / tag size in bytes */ static inline unsigned int crypto_aead_authsize(struct crypto_aead *tfm) { return tfm->authsize; } static inline unsigned int crypto_aead_alg_maxauthsize(struct aead_alg *alg) { return alg->maxauthsize; } static inline unsigned int crypto_aead_maxauthsize(struct crypto_aead *aead) { return crypto_aead_alg_maxauthsize(crypto_aead_alg(aead)); } /** * crypto_aead_blocksize() - obtain block size of cipher * @tfm: cipher handle * * The block size for the AEAD referenced with the cipher handle is returned. * The caller may use that information to allocate appropriate memory for the * data returned by the encryption or decryption operation * * Return: block size of cipher */ static inline unsigned int crypto_aead_blocksize(struct crypto_aead *tfm) { return crypto_tfm_alg_blocksize(crypto_aead_tfm(tfm)); } static inline unsigned int crypto_aead_alignmask(struct crypto_aead *tfm) { return crypto_tfm_alg_alignmask(crypto_aead_tfm(tfm)); } static inline u32 crypto_aead_get_flags(struct crypto_aead *tfm) { return crypto_tfm_get_flags(crypto_aead_tfm(tfm)); } static inline void crypto_aead_set_flags(struct crypto_aead *tfm, u32 flags) { crypto_tfm_set_flags(crypto_aead_tfm(tfm), flags); } static inline void crypto_aead_clear_flags(struct crypto_aead *tfm, u32 flags) { crypto_tfm_clear_flags(crypto_aead_tfm(tfm), flags); } /** * crypto_aead_setkey() - set key for cipher * @tfm: cipher handle * @key: buffer holding the key * @keylen: length of the key in bytes * * The caller provided key is set for the AEAD referenced by the cipher * handle. * * Note, the key length determines the cipher type. Many block ciphers implement * different cipher modes depending on the key size, such as AES-128 vs AES-192 * vs. AES-256. When providing a 16 byte key for an AES cipher handle, AES-128 * is performed. * * Return: 0 if the setting of the key was successful; < 0 if an error occurred */ int crypto_aead_setkey(struct crypto_aead *tfm, const u8 *key, unsigned int keylen); /** * crypto_aead_setauthsize() - set authentication data size * @tfm: cipher handle * @authsize: size of the authentication data / tag in bytes * * Set the authentication data size / tag size. AEAD requires an authentication * tag (or MAC) in addition to the associated data. * * Return: 0 if the setting of the key was successful; < 0 if an error occurred */ int crypto_aead_setauthsize(struct crypto_aead *tfm, unsigned int authsize); static inline struct crypto_aead *crypto_aead_reqtfm(struct aead_request *req) { return __crypto_aead_cast(req->base.tfm); } /** * crypto_aead_encrypt() - encrypt plaintext * @req: reference to the aead_request handle that holds all information * needed to perform the cipher operation * * Encrypt plaintext data using the aead_request handle. That data structure * and how it is filled with data is discussed with the aead_request_* * functions. * * IMPORTANT NOTE The encryption operation creates the authentication data / * tag. That data is concatenated with the created ciphertext. * The ciphertext memory size is therefore the given number of * block cipher blocks + the size defined by the * crypto_aead_setauthsize invocation. The caller must ensure * that sufficient memory is available for the ciphertext and * the authentication tag. * * Return: 0 if the cipher operation was successful; < 0 if an error occurred */ int crypto_aead_encrypt(struct aead_request *req); /** * crypto_aead_decrypt() - decrypt ciphertext * @req: reference to the aead_request handle that holds all information * needed to perform the cipher operation * * Decrypt ciphertext data using the aead_request handle. That data structure * and how it is filled with data is discussed with the aead_request_* * functions. * * IMPORTANT NOTE The caller must concatenate the ciphertext followed by the * authentication data / tag. That authentication data / tag * must have the size defined by the crypto_aead_setauthsize * invocation. * * * Return: 0 if the cipher operation was successful; -EBADMSG: The AEAD * cipher operation performs the authentication of the data during the * decryption operation. Therefore, the function returns this error if * the authentication of the ciphertext was unsuccessful (i.e. the * integrity of the ciphertext or the associated data was violated); * < 0 if an error occurred. */ int crypto_aead_decrypt(struct aead_request *req); /** * DOC: Asynchronous AEAD Request Handle * * The aead_request data structure contains all pointers to data required for * the AEAD cipher operation. This includes the cipher handle (which can be * used by multiple aead_request instances), pointer to plaintext and * ciphertext, asynchronous callback function, etc. It acts as a handle to the * aead_request_* API calls in a similar way as AEAD handle to the * crypto_aead_* API calls. */ /** * crypto_aead_reqsize() - obtain size of the request data structure * @tfm: cipher handle * * Return: number of bytes */ static inline unsigned int crypto_aead_reqsize(struct crypto_aead *tfm) { return tfm->reqsize; } /** * aead_request_set_tfm() - update cipher handle reference in request * @req: request handle to be modified * @tfm: cipher handle that shall be added to the request handle * * Allow the caller to replace the existing aead handle in the request * data structure with a different one. */ static inline void aead_request_set_tfm(struct aead_request *req, struct crypto_aead *tfm) { req->base.tfm = crypto_aead_tfm(tfm); } /** * aead_request_alloc() - allocate request data structure * @tfm: cipher handle to be registered with the request * @gfp: memory allocation flag that is handed to kmalloc by the API call. * * Allocate the request data structure that must be used with the AEAD * encrypt and decrypt API calls. During the allocation, the provided aead * handle is registered in the request data structure. * * Return: allocated request handle in case of success, or NULL if out of memory */ static inline struct aead_request *aead_request_alloc(struct crypto_aead *tfm, gfp_t gfp) { struct aead_request *req; req = kmalloc(sizeof(*req) + crypto_aead_reqsize(tfm), gfp); if (likely(req)) aead_request_set_tfm(req, tfm); return req; } /** * aead_request_free() - zeroize and free request data structure * @req: request data structure cipher handle to be freed */ static inline void aead_request_free(struct aead_request *req) { kfree_sensitive(req); } /** * aead_request_set_callback() - set asynchronous callback function * @req: request handle * @flags: specify zero or an ORing of the flags * CRYPTO_TFM_REQ_MAY_BACKLOG the request queue may back log and * increase the wait queue beyond the initial maximum size; * CRYPTO_TFM_REQ_MAY_SLEEP the request processing may sleep * @compl: callback function pointer to be registered with the request handle * @data: The data pointer refers to memory that is not used by the kernel * crypto API, but provided to the callback function for it to use. Here, * the caller can provide a reference to memory the callback function can * operate on. As the callback function is invoked asynchronously to the * related functionality, it may need to access data structures of the * related functionality which can be referenced using this pointer. The * callback function can access the memory via the "data" field in the * crypto_async_request data structure provided to the callback function. * * Setting the callback function that is triggered once the cipher operation * completes * * The callback function is registered with the aead_request handle and * must comply with the following template:: * * void callback_function(struct crypto_async_request *req, int error) */ static inline void aead_request_set_callback(struct aead_request *req, u32 flags, crypto_completion_t compl, void *data) { req->base.complete = compl; req->base.data = data; req->base.flags = flags; } /** * aead_request_set_crypt - set data buffers * @req: request handle * @src: source scatter / gather list * @dst: destination scatter / gather list * @cryptlen: number of bytes to process from @src * @iv: IV for the cipher operation which must comply with the IV size defined * by crypto_aead_ivsize() * * Setting the source data and destination data scatter / gather lists which * hold the associated data concatenated with the plaintext or ciphertext. See * below for the authentication tag. * * For encryption, the source is treated as the plaintext and the * destination is the ciphertext. For a decryption operation, the use is * reversed - the source is the ciphertext and the destination is the plaintext. * * The memory structure for cipher operation has the following structure: * * - AEAD encryption input: assoc data || plaintext * - AEAD encryption output: assoc data || cipherntext || auth tag * - AEAD decryption input: assoc data || ciphertext || auth tag * - AEAD decryption output: assoc data || plaintext * * Albeit the kernel requires the presence of the AAD buffer, however, * the kernel does not fill the AAD buffer in the output case. If the * caller wants to have that data buffer filled, the caller must either * use an in-place cipher operation (i.e. same memory location for * input/output memory location). */ static inline void aead_request_set_crypt(struct aead_request *req, struct scatterlist *src, struct scatterlist *dst, unsigned int cryptlen, u8 *iv) { req->src = src; req->dst = dst; req->cryptlen = cryptlen; req->iv = iv; } /** * aead_request_set_ad - set associated data information * @req: request handle * @assoclen: number of bytes in associated data * * Setting the AD information. This function sets the length of * the associated data. */ static inline void aead_request_set_ad(struct aead_request *req, unsigned int assoclen) { req->assoclen = assoclen; } #endif /* _CRYPTO_AEAD_H */
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Note that we have no way to track which tasks are using * a page, though if it is a pagecache page, rmap structures can tell us * who is mapping it. * * If you allocate the page using alloc_pages(), you can use some of the * space in struct page for your own purposes. The five words in the main * union are available, except for bit 0 of the first word which must be * kept clear. Many users use this word to store a pointer to an object * which is guaranteed to be aligned. If you use the same storage as * page->mapping, you must restore it to NULL before freeing the page. * * If your page will not be mapped to userspace, you can also use the four * bytes in the mapcount union, but you must call page_mapcount_reset() * before freeing it. * * If you want to use the refcount field, it must be used in such a way * that other CPUs temporarily incrementing and then decrementing the * refcount does not cause problems. On receiving the page from * alloc_pages(), the refcount will be positive. * * If you allocate pages of order > 0, you can use some of the fields * in each subpage, but you may need to restore some of their values * afterwards. * * SLUB uses cmpxchg_double() to atomically update its freelist and * counters. That requires that freelist & counters be adjacent and * double-word aligned. We align all struct pages to double-word * boundaries, and ensure that 'freelist' is aligned within the * struct. */ #ifdef CONFIG_HAVE_ALIGNED_STRUCT_PAGE #define _struct_page_alignment __aligned(2 * sizeof(unsigned long)) #else #define _struct_page_alignment #endif struct page { unsigned long flags; /* Atomic flags, some possibly * updated asynchronously */ /* * Five words (20/40 bytes) are available in this union. * WARNING: bit 0 of the first word is used for PageTail(). That * means the other users of this union MUST NOT use the bit to * avoid collision and false-positive PageTail(). */ union { struct { /* Page cache and anonymous pages */ /** * @lru: Pageout list, eg. active_list protected by * pgdat->lru_lock. Sometimes used as a generic list * by the page owner. */ struct list_head lru; /* See page-flags.h for PAGE_MAPPING_FLAGS */ struct address_space *mapping; pgoff_t index; /* Our offset within mapping. */ /** * @private: Mapping-private opaque data. * Usually used for buffer_heads if PagePrivate. * Used for swp_entry_t if PageSwapCache. * Indicates order in the buddy system if PageBuddy. */ unsigned long private; }; struct { /* page_pool used by netstack */ /** * @dma_addr: might require a 64-bit value on * 32-bit architectures. */ unsigned long dma_addr[2]; }; struct { /* slab, slob and slub */ union { struct list_head slab_list; struct { /* Partial pages */ struct page *next; #ifdef CONFIG_64BIT int pages; /* Nr of pages left */ int pobjects; /* Approximate count */ #else short int pages; short int pobjects; #endif }; }; struct kmem_cache *slab_cache; /* not slob */ /* Double-word boundary */ void *freelist; /* first free object */ union { void *s_mem; /* slab: first object */ unsigned long counters; /* SLUB */ struct { /* SLUB */ unsigned inuse:16; unsigned objects:15; unsigned frozen:1; }; }; }; struct { /* Tail pages of compound page */ unsigned long compound_head; /* Bit zero is set */ /* First tail page only */ unsigned char compound_dtor; unsigned char compound_order; atomic_t compound_mapcount; unsigned int compound_nr; /* 1 << compound_order */ }; struct { /* Second tail page of compound page */ unsigned long _compound_pad_1; /* compound_head */ atomic_t hpage_pinned_refcount; /* For both global and memcg */ struct list_head deferred_list; }; struct { /* Page table pages */ unsigned long _pt_pad_1; /* compound_head */ pgtable_t pmd_huge_pte; /* protected by page->ptl */ unsigned long _pt_pad_2; /* mapping */ union { struct mm_struct *pt_mm; /* x86 pgds only */ atomic_t pt_frag_refcount; /* powerpc */ }; #if ALLOC_SPLIT_PTLOCKS spinlock_t *ptl; #else spinlock_t ptl; #endif }; struct { /* ZONE_DEVICE pages */ /** @pgmap: Points to the hosting device page map. */ struct dev_pagemap *pgmap; void *zone_device_data; /* * ZONE_DEVICE private pages are counted as being * mapped so the next 3 words hold the mapping, index, * and private fields from the source anonymous or * page cache page while the page is migrated to device * private memory. * ZONE_DEVICE MEMORY_DEVICE_FS_DAX pages also * use the mapping, index, and private fields when * pmem backed DAX files are mapped. */ }; /** @rcu_head: You can use this to free a page by RCU. */ struct rcu_head rcu_head; }; union { /* This union is 4 bytes in size. */ /* * If the page can be mapped to userspace, encodes the number * of times this page is referenced by a page table. */ atomic_t _mapcount; /* * If the page is neither PageSlab nor mappable to userspace, * the value stored here may help determine what this page * is used for. See page-flags.h for a list of page types * which are currently stored here. */ unsigned int page_type; unsigned int active; /* SLAB */ int units; /* SLOB */ }; /* Usage count. *DO NOT USE DIRECTLY*. See page_ref.h */ atomic_t _refcount; #ifdef CONFIG_MEMCG union { struct mem_cgroup *mem_cgroup; struct obj_cgroup **obj_cgroups; }; #endif /* * On machines where all RAM is mapped into kernel address space, * we can simply calculate the virtual address. On machines with * highmem some memory is mapped into kernel virtual memory * dynamically, so we need a place to store that address. * Note that this field could be 16 bits on x86 ... ;) * * Architectures with slow multiplication can define * WANT_PAGE_VIRTUAL in asm/page.h */ #if defined(WANT_PAGE_VIRTUAL) void *virtual; /* Kernel virtual address (NULL if not kmapped, ie. highmem) */ #endif /* WANT_PAGE_VIRTUAL */ #ifdef LAST_CPUPID_NOT_IN_PAGE_FLAGS int _last_cpupid; #endif } _struct_page_alignment; static inline atomic_t *compound_mapcount_ptr(struct page *page) { return &page[1].compound_mapcount; } static inline atomic_t *compound_pincount_ptr(struct page *page) { return &page[2].hpage_pinned_refcount; } /* * Used for sizing the vmemmap region on some architectures */ #define STRUCT_PAGE_MAX_SHIFT (order_base_2(sizeof(struct page))) #define PAGE_FRAG_CACHE_MAX_SIZE __ALIGN_MASK(32768, ~PAGE_MASK) #define PAGE_FRAG_CACHE_MAX_ORDER get_order(PAGE_FRAG_CACHE_MAX_SIZE) #define page_private(page) ((page)->private) static inline void set_page_private(struct page *page, unsigned long private) { page->private = private; } struct page_frag_cache { void * va; #if (PAGE_SIZE < PAGE_FRAG_CACHE_MAX_SIZE) __u16 offset; __u16 size; #else __u32 offset; #endif /* we maintain a pagecount bias, so that we dont dirty cache line * containing page->_refcount every time we allocate a fragment. */ unsigned int pagecnt_bias; bool pfmemalloc; }; typedef unsigned long vm_flags_t; /* * A region containing a mapping of a non-memory backed file under NOMMU * conditions. These are held in a global tree and are pinned by the VMAs that * map parts of them. */ struct vm_region { struct rb_node vm_rb; /* link in global region tree */ vm_flags_t vm_flags; /* VMA vm_flags */ unsigned long vm_start; /* start address of region */ unsigned long vm_end; /* region initialised to here */ unsigned long vm_top; /* region allocated to here */ unsigned long vm_pgoff; /* the offset in vm_file corresponding to vm_start */ struct file *vm_file; /* the backing file or NULL */ int vm_usage; /* region usage count (access under nommu_region_sem) */ bool vm_icache_flushed : 1; /* true if the icache has been flushed for * this region */ }; #ifdef CONFIG_USERFAULTFD #define NULL_VM_UFFD_CTX ((struct vm_userfaultfd_ctx) { NULL, }) struct vm_userfaultfd_ctx { struct userfaultfd_ctx *ctx; }; #else /* CONFIG_USERFAULTFD */ #define NULL_VM_UFFD_CTX ((struct vm_userfaultfd_ctx) {}) struct vm_userfaultfd_ctx {}; #endif /* CONFIG_USERFAULTFD */ /* * This struct describes a virtual memory area. There is one of these * per VM-area/task. A VM area is any part of the process virtual memory * space that has a special rule for the page-fault handlers (ie a shared * library, the executable area etc). */ struct vm_area_struct { /* The first cache line has the info for VMA tree walking. */ unsigned long vm_start; /* Our start address within vm_mm. */ unsigned long vm_end; /* The first byte after our end address within vm_mm. */ /* linked list of VM areas per task, sorted by address */ struct vm_area_struct *vm_next, *vm_prev; struct rb_node vm_rb; /* * Largest free memory gap in bytes to the left of this VMA. * Either between this VMA and vma->vm_prev, or between one of the * VMAs below us in the VMA rbtree and its ->vm_prev. This helps * get_unmapped_area find a free area of the right size. */ unsigned long rb_subtree_gap; /* Second cache line starts here. */ struct mm_struct *vm_mm; /* The address space we belong to. */ /* * Access permissions of this VMA. * See vmf_insert_mixed_prot() for discussion. */ pgprot_t vm_page_prot; unsigned long vm_flags; /* Flags, see mm.h. */ /* * For areas with an address space and backing store, * linkage into the address_space->i_mmap interval tree. */ struct { struct rb_node rb; unsigned long rb_subtree_last; } shared; /* * A file's MAP_PRIVATE vma can be in both i_mmap tree and anon_vma * list, after a COW of one of the file pages. A MAP_SHARED vma * can only be in the i_mmap tree. An anonymous MAP_PRIVATE, stack * or brk vma (with NULL file) can only be in an anon_vma list. */ struct list_head anon_vma_chain; /* Serialized by mmap_lock & * page_table_lock */ struct anon_vma *anon_vma; /* Serialized by page_table_lock */ /* Function pointers to deal with this struct. */ const struct vm_operations_struct *vm_ops; /* Information about our backing store: */ unsigned long vm_pgoff; /* Offset (within vm_file) in PAGE_SIZE units */ struct file * vm_file; /* File we map to (can be NULL). */ void * vm_private_data; /* was vm_pte (shared mem) */ #ifdef CONFIG_SWAP atomic_long_t swap_readahead_info; #endif #ifndef CONFIG_MMU struct vm_region *vm_region; /* NOMMU mapping region */ #endif #ifdef CONFIG_NUMA struct mempolicy *vm_policy; /* NUMA policy for the VMA */ #endif struct vm_userfaultfd_ctx vm_userfaultfd_ctx; } __randomize_layout; struct core_thread { struct task_struct *task; struct core_thread *next; }; struct core_state { atomic_t nr_threads; struct core_thread dumper; struct completion startup; }; struct kioctx_table; struct mm_struct { struct { struct vm_area_struct *mmap; /* list of VMAs */ struct rb_root mm_rb; u64 vmacache_seqnum; /* per-thread vmacache */ #ifdef CONFIG_MMU unsigned long (*get_unmapped_area) (struct file *filp, unsigned long addr, unsigned long len, unsigned long pgoff, unsigned long flags); #endif unsigned long mmap_base; /* base of mmap area */ unsigned long mmap_legacy_base; /* base of mmap area in bottom-up allocations */ #ifdef CONFIG_HAVE_ARCH_COMPAT_MMAP_BASES /* Base adresses for compatible mmap() */ unsigned long mmap_compat_base; unsigned long mmap_compat_legacy_base; #endif unsigned long task_size; /* size of task vm space */ unsigned long highest_vm_end; /* highest vma end address */ pgd_t * pgd; #ifdef CONFIG_MEMBARRIER /** * @membarrier_state: Flags controlling membarrier behavior. * * This field is close to @pgd to hopefully fit in the same * cache-line, which needs to be touched by switch_mm(). */ atomic_t membarrier_state; #endif /** * @mm_users: The number of users including userspace. * * Use mmget()/mmget_not_zero()/mmput() to modify. When this * drops to 0 (i.e. when the task exits and there are no other * temporary reference holders), we also release a reference on * @mm_count (which may then free the &struct mm_struct if * @mm_count also drops to 0). */ atomic_t mm_users; /** * @mm_count: The number of references to &struct mm_struct * (@mm_users count as 1). * * Use mmgrab()/mmdrop() to modify. When this drops to 0, the * &struct mm_struct is freed. */ atomic_t mm_count; /** * @has_pinned: Whether this mm has pinned any pages. This can * be either replaced in the future by @pinned_vm when it * becomes stable, or grow into a counter on its own. We're * aggresive on this bit now - even if the pinned pages were * unpinned later on, we'll still keep this bit set for the * lifecycle of this mm just for simplicity. */ atomic_t has_pinned; #ifdef CONFIG_MMU atomic_long_t pgtables_bytes; /* PTE page table pages */ #endif int map_count; /* number of VMAs */ spinlock_t page_table_lock; /* Protects page tables and some * counters */ /* * With some kernel config, the current mmap_lock's offset * inside 'mm_struct' is at 0x120, which is very optimal, as * its two hot fields 'count' and 'owner' sit in 2 different * cachelines, and when mmap_lock is highly contended, both * of the 2 fields will be accessed frequently, current layout * will help to reduce cache bouncing. * * So please be careful with adding new fields before * mmap_lock, which can easily push the 2 fields into one * cacheline. */ struct rw_semaphore mmap_lock; struct list_head mmlist; /* List of maybe swapped mm's. These * are globally strung together off * init_mm.mmlist, and are protected * by mmlist_lock */ unsigned long hiwater_rss; /* High-watermark of RSS usage */ unsigned long hiwater_vm; /* High-water virtual memory usage */ unsigned long total_vm; /* Total pages mapped */ unsigned long locked_vm; /* Pages that have PG_mlocked set */ atomic64_t pinned_vm; /* Refcount permanently increased */ unsigned long data_vm; /* VM_WRITE & ~VM_SHARED & ~VM_STACK */ unsigned long exec_vm; /* VM_EXEC & ~VM_WRITE & ~VM_STACK */ unsigned long stack_vm; /* VM_STACK */ unsigned long def_flags; /** * @write_protect_seq: Locked when any thread is write * protecting pages mapped by this mm to enforce a later COW, * for instance during page table copying for fork(). */ seqcount_t write_protect_seq; spinlock_t arg_lock; /* protect the below fields */ unsigned long start_code, end_code, start_data, end_data; unsigned long start_brk, brk, start_stack; unsigned long arg_start, arg_end, env_start, env_end; unsigned long saved_auxv[AT_VECTOR_SIZE]; /* for /proc/PID/auxv */ /* * Special counters, in some configurations protected by the * page_table_lock, in other configurations by being atomic. */ struct mm_rss_stat rss_stat; struct linux_binfmt *binfmt; /* Architecture-specific MM context */ mm_context_t context; unsigned long flags; /* Must use atomic bitops to access */ struct core_state *core_state; /* coredumping support */ #ifdef CONFIG_AIO spinlock_t ioctx_lock; struct kioctx_table __rcu *ioctx_table; #endif #ifdef CONFIG_MEMCG /* * "owner" points to a task that is regarded as the canonical * user/owner of this mm. All of the following must be true in * order for it to be changed: * * current == mm->owner * current->mm != mm * new_owner->mm == mm * new_owner->alloc_lock is held */ struct task_struct __rcu *owner; #endif struct user_namespace *user_ns; /* store ref to file /proc/<pid>/exe symlink points to */ struct file __rcu *exe_file; #ifdef CONFIG_MMU_NOTIFIER struct mmu_notifier_subscriptions *notifier_subscriptions; #endif #if defined(CONFIG_TRANSPARENT_HUGEPAGE) && !USE_SPLIT_PMD_PTLOCKS pgtable_t pmd_huge_pte; /* protected by page_table_lock */ #endif #ifdef CONFIG_NUMA_BALANCING /* * numa_next_scan is the next time that the PTEs will be marked * pte_numa. NUMA hinting faults will gather statistics and * migrate pages to new nodes if necessary. */ unsigned long numa_next_scan; /* Restart point for scanning and setting pte_numa */ unsigned long numa_scan_offset; /* numa_scan_seq prevents two threads setting pte_numa */ int numa_scan_seq; #endif /* * An operation with batched TLB flushing is going on. Anything * that can move process memory needs to flush the TLB when * moving a PROT_NONE or PROT_NUMA mapped page. */ atomic_t tlb_flush_pending; #ifdef CONFIG_ARCH_WANT_BATCHED_UNMAP_TLB_FLUSH /* See flush_tlb_batched_pending() */ bool tlb_flush_batched; #endif struct uprobes_state uprobes_state; #ifdef CONFIG_HUGETLB_PAGE atomic_long_t hugetlb_usage; #endif struct work_struct async_put_work; #ifdef CONFIG_IOMMU_SUPPORT u32 pasid; #endif } __randomize_layout; /* * The mm_cpumask needs to be at the end of mm_struct, because it * is dynamically sized based on nr_cpu_ids. */ unsigned long cpu_bitmap[]; }; extern struct mm_struct init_mm; /* Pointer magic because the dynamic array size confuses some compilers. */ static inline void mm_init_cpumask(struct mm_struct *mm) { unsigned long cpu_bitmap = (unsigned long)mm; cpu_bitmap += offsetof(struct mm_struct, cpu_bitmap); cpumask_clear((struct cpumask *)cpu_bitmap); } /* Future-safe accessor for struct mm_struct's cpu_vm_mask. */ static inline cpumask_t *mm_cpumask(struct mm_struct *mm) { return (struct cpumask *)&mm->cpu_bitmap; } struct mmu_gather; extern void tlb_gather_mmu(struct mmu_gather *tlb, struct mm_struct *mm, unsigned long start, unsigned long end); extern void tlb_finish_mmu(struct mmu_gather *tlb, unsigned long start, unsigned long end); static inline void init_tlb_flush_pending(struct mm_struct *mm) { atomic_set(&mm->tlb_flush_pending, 0); } static inline void inc_tlb_flush_pending(struct mm_struct *mm) { atomic_inc(&mm->tlb_flush_pending); /* * The only time this value is relevant is when there are indeed pages * to flush. And we'll only flush pages after changing them, which * requires the PTL. * * So the ordering here is: * * atomic_inc(&mm->tlb_flush_pending); * spin_lock(&ptl); * ... * set_pte_at(); * spin_unlock(&ptl); * * spin_lock(&ptl) * mm_tlb_flush_pending(); * .... * spin_unlock(&ptl); * * flush_tlb_range(); * atomic_dec(&mm->tlb_flush_pending); * * Where the increment if constrained by the PTL unlock, it thus * ensures that the increment is visible if the PTE modification is * visible. After all, if there is no PTE modification, nobody cares * about TLB flushes either. * * This very much relies on users (mm_tlb_flush_pending() and * mm_tlb_flush_nested()) only caring about _specific_ PTEs (and * therefore specific PTLs), because with SPLIT_PTE_PTLOCKS and RCpc * locks (PPC) the unlock of one doesn't order against the lock of * another PTL. * * The decrement is ordered by the flush_tlb_range(), such that * mm_tlb_flush_pending() will not return false unless all flushes have * completed. */ } static inline void dec_tlb_flush_pending(struct mm_struct *mm) { /* * See inc_tlb_flush_pending(). * * This cannot be smp_mb__before_atomic() because smp_mb() simply does * not order against TLB invalidate completion, which is what we need. * * Therefore we must rely on tlb_flush_*() to guarantee order. */ atomic_dec(&mm->tlb_flush_pending); } static inline bool mm_tlb_flush_pending(struct mm_struct *mm) { /* * Must be called after having acquired the PTL; orders against that * PTLs release and therefore ensures that if we observe the modified * PTE we must also observe the increment from inc_tlb_flush_pending(). * * That is, it only guarantees to return true if there is a flush * pending for _this_ PTL. */ return atomic_read(&mm->tlb_flush_pending); } static inline bool mm_tlb_flush_nested(struct mm_struct *mm) { /* * Similar to mm_tlb_flush_pending(), we must have acquired the PTL * for which there is a TLB flush pending in order to guarantee * we've seen both that PTE modification and the increment. * * (no requirement on actually still holding the PTL, that is irrelevant) */ return atomic_read(&mm->tlb_flush_pending) > 1; } struct vm_fault; /** * typedef vm_fault_t - Return type for page fault handlers. * * Page fault handlers return a bitmask of %VM_FAULT values. */ typedef __bitwise unsigned int vm_fault_t; /** * enum vm_fault_reason - Page fault handlers return a bitmask of * these values to tell the core VM what happened when handling the * fault. Used to decide whether a process gets delivered SIGBUS or * just gets major/minor fault counters bumped up. * * @VM_FAULT_OOM: Out Of Memory * @VM_FAULT_SIGBUS: Bad access * @VM_FAULT_MAJOR: Page read from storage * @VM_FAULT_WRITE: Special case for get_user_pages * @VM_FAULT_HWPOISON: Hit poisoned small page * @VM_FAULT_HWPOISON_LARGE: Hit poisoned large page. Index encoded * in upper bits * @VM_FAULT_SIGSEGV: segmentation fault * @VM_FAULT_NOPAGE: ->fault installed the pte, not return page * @VM_FAULT_LOCKED: ->fault locked the returned page * @VM_FAULT_RETRY: ->fault blocked, must retry * @VM_FAULT_FALLBACK: huge page fault failed, fall back to small * @VM_FAULT_DONE_COW: ->fault has fully handled COW * @VM_FAULT_NEEDDSYNC: ->fault did not modify page tables and needs * fsync() to complete (for synchronous page faults * in DAX) * @VM_FAULT_HINDEX_MASK: mask HINDEX value * */ enum vm_fault_reason { VM_FAULT_OOM = (__force vm_fault_t)0x000001, VM_FAULT_SIGBUS = (__force vm_fault_t)0x000002, VM_FAULT_MAJOR = (__force vm_fault_t)0x000004, VM_FAULT_WRITE = (__force vm_fault_t)0x000008, VM_FAULT_HWPOISON = (__force vm_fault_t)0x000010, VM_FAULT_HWPOISON_LARGE = (__force vm_fault_t)0x000020, VM_FAULT_SIGSEGV = (__force vm_fault_t)0x000040, VM_FAULT_NOPAGE = (__force vm_fault_t)0x000100, VM_FAULT_LOCKED = (__force vm_fault_t)0x000200, VM_FAULT_RETRY = (__force vm_fault_t)0x000400, VM_FAULT_FALLBACK = (__force vm_fault_t)0x000800, VM_FAULT_DONE_COW = (__force vm_fault_t)0x001000, VM_FAULT_NEEDDSYNC = (__force vm_fault_t)0x002000, VM_FAULT_HINDEX_MASK = (__force vm_fault_t)0x0f0000, }; /* Encode hstate index for a hwpoisoned large page */ #define VM_FAULT_SET_HINDEX(x) ((__force vm_fault_t)((x) << 16)) #define VM_FAULT_GET_HINDEX(x) (((__force unsigned int)(x) >> 16) & 0xf) #define VM_FAULT_ERROR (VM_FAULT_OOM | VM_FAULT_SIGBUS | \ VM_FAULT_SIGSEGV | VM_FAULT_HWPOISON | \ VM_FAULT_HWPOISON_LARGE | VM_FAULT_FALLBACK) #define VM_FAULT_RESULT_TRACE \ { VM_FAULT_OOM, "OOM" }, \ { VM_FAULT_SIGBUS, "SIGBUS" }, \ { VM_FAULT_MAJOR, "MAJOR" }, \ { VM_FAULT_WRITE, "WRITE" }, \ { VM_FAULT_HWPOISON, "HWPOISON" }, \ { VM_FAULT_HWPOISON_LARGE, "HWPOISON_LARGE" }, \ { VM_FAULT_SIGSEGV, "SIGSEGV" }, \ { VM_FAULT_NOPAGE, "NOPAGE" }, \ { VM_FAULT_LOCKED, "LOCKED" }, \ { VM_FAULT_RETRY, "RETRY" }, \ { VM_FAULT_FALLBACK, "FALLBACK" }, \ { VM_FAULT_DONE_COW, "DONE_COW" }, \ { VM_FAULT_NEEDDSYNC, "NEEDDSYNC" } struct vm_special_mapping { const char *name; /* The name, e.g. "[vdso]". */ /* * If .fault is not provided, this points to a * NULL-terminated array of pages that back the special mapping. * * This must not be NULL unless .fault is provided. */ struct page **pages; /* * If non-NULL, then this is called to resolve page faults * on the special mapping. If used, .pages is not checked. */ vm_fault_t (*fault)(const struct vm_special_mapping *sm, struct vm_area_struct *vma, struct vm_fault *vmf); int (*mremap)(const struct vm_special_mapping *sm, struct vm_area_struct *new_vma); }; enum tlb_flush_reason { TLB_FLUSH_ON_TASK_SWITCH, TLB_REMOTE_SHOOTDOWN, TLB_LOCAL_SHOOTDOWN, TLB_LOCAL_MM_SHOOTDOWN, TLB_REMOTE_SEND_IPI, NR_TLB_FLUSH_REASONS, }; /* * A swap entry has to fit into a "unsigned long", as the entry is hidden * in the "index" field of the swapper address space. */ typedef struct { unsigned long val; } swp_entry_t; #endif /* _LINUX_MM_TYPES_H */
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 /* SPDX-License-Identifier: GPL-2.0 */ /* * Released under the GPLv2 only. */ #include <linux/pm.h> #include <linux/acpi.h> struct usb_hub_descriptor; struct usb_dev_state; /* Functions local to drivers/usb/core/ */ extern int usb_create_sysfs_dev_files(struct usb_device *dev); extern void usb_remove_sysfs_dev_files(struct usb_device *dev); extern void usb_create_sysfs_intf_files(struct usb_interface *intf); extern void usb_remove_sysfs_intf_files(struct usb_interface *intf); extern int usb_create_ep_devs(struct device *parent, struct usb_host_endpoint *endpoint, struct usb_device *udev); extern void usb_remove_ep_devs(struct usb_host_endpoint *endpoint); extern void usb_enable_endpoint(struct usb_device *dev, struct usb_host_endpoint *ep, bool reset_toggle); extern void usb_enable_interface(struct usb_device *dev, struct usb_interface *intf, bool reset_toggles); extern void usb_disable_endpoint(struct usb_device *dev, unsigned int epaddr, bool reset_hardware); extern void usb_disable_interface(struct usb_device *dev, struct usb_interface *intf, bool reset_hardware); extern void usb_release_interface_cache(struct kref *ref); extern void usb_disable_device(struct usb_device *dev, int skip_ep0); extern int usb_deauthorize_device(struct usb_device *); extern int usb_authorize_device(struct usb_device *); extern void usb_deauthorize_interface(struct usb_interface *); extern void usb_authorize_interface(struct usb_interface *); extern void usb_detect_quirks(struct usb_device *udev); extern void usb_detect_interface_quirks(struct usb_device *udev); extern void usb_release_quirk_list(void); extern bool usb_endpoint_is_ignored(struct usb_device *udev, struct usb_host_interface *intf, struct usb_endpoint_descriptor *epd); extern int usb_remove_device(struct usb_device *udev); extern int usb_get_device_descriptor(struct usb_device *dev, unsigned int size); extern int usb_set_isoch_delay(struct usb_device *dev); extern int usb_get_bos_descriptor(struct usb_device *dev); extern void usb_release_bos_descriptor(struct usb_device *dev); extern char *usb_cache_string(struct usb_device *udev, int index); extern int usb_set_configuration(struct usb_device *dev, int configuration); extern int usb_choose_configuration(struct usb_device *udev); extern int usb_generic_driver_probe(struct usb_device *udev); extern void usb_generic_driver_disconnect(struct usb_device *udev); extern int usb_generic_driver_suspend(struct usb_device *udev, pm_message_t msg); extern int usb_generic_driver_resume(struct usb_device *udev, pm_message_t msg); static inline unsigned usb_get_max_power(struct usb_device *udev, struct usb_host_config *c) { /* SuperSpeed power is in 8 mA units; others are in 2 mA units */ unsigned mul = (udev->speed >= USB_SPEED_SUPER ? 8 : 2); return c->desc.bMaxPower * mul; } extern void usb_kick_hub_wq(struct usb_device *dev); extern int usb_match_one_id_intf(struct usb_device *dev, struct usb_host_interface *intf, const struct usb_device_id *id); extern int usb_match_device(struct usb_device *dev, const struct usb_device_id *id); extern const struct usb_device_id *usb_device_match_id(struct usb_device *udev, const struct usb_device_id *id); extern bool usb_driver_applicable(struct usb_device *udev, struct usb_device_driver *udrv); extern void usb_forced_unbind_intf(struct usb_interface *intf); extern void usb_unbind_and_rebind_marked_interfaces(struct usb_device *udev); extern void usb_hub_release_all_ports(struct usb_device *hdev, struct usb_dev_state *owner); extern bool usb_device_is_owned(struct usb_device *udev); extern int usb_hub_init(void); extern void usb_hub_cleanup(void); extern int usb_major_init(void); extern void usb_major_cleanup(void); extern int usb_device_supports_lpm(struct usb_device *udev); extern int usb_port_disable(struct usb_device *udev); #ifdef CONFIG_PM extern int usb_suspend(struct device *dev, pm_message_t msg); extern int usb_resume(struct device *dev, pm_message_t msg); extern int usb_resume_complete(struct device *dev); extern int usb_port_suspend(struct usb_device *dev, pm_message_t msg); extern int usb_port_resume(struct usb_device *dev, pm_message_t msg); extern void usb_autosuspend_device(struct usb_device *udev); extern int usb_autoresume_device(struct usb_device *udev); extern int usb_remote_wakeup(struct usb_device *dev); extern int usb_runtime_suspend(struct device *dev); extern int usb_runtime_resume(struct device *dev); extern int usb_runtime_idle(struct device *dev); extern int usb_enable_usb2_hardware_lpm(struct usb_device *udev); extern int usb_disable_usb2_hardware_lpm(struct usb_device *udev); extern void usbfs_notify_suspend(struct usb_device *udev); extern void usbfs_notify_resume(struct usb_device *udev); #else static inline int usb_port_suspend(struct usb_device *udev, pm_message_t msg) { return 0; } static inline int usb_port_resume(struct usb_device *udev, pm_message_t msg) { return 0; } #define usb_autosuspend_device(udev) do {} while (0) static inline int usb_autoresume_device(struct usb_device *udev) { return 0; } static inline int usb_enable_usb2_hardware_lpm(struct usb_device *udev) { return 0; } static inline int usb_disable_usb2_hardware_lpm(struct usb_device *udev) { return 0; } #endif extern struct bus_type usb_bus_type; extern struct mutex usb_port_peer_mutex; extern struct device_type usb_device_type; extern struct device_type usb_if_device_type; extern struct device_type usb_ep_device_type; extern struct device_type usb_port_device_type; extern struct usb_device_driver usb_generic_driver; static inline int is_usb_device(const struct device *dev) { return dev->type == &usb_device_type; } static inline int is_usb_interface(const struct device *dev) { return dev->type == &usb_if_device_type; } static inline int is_usb_endpoint(const struct device *dev) { return dev->type == &usb_ep_device_type; } static inline int is_usb_port(const struct device *dev) { return dev->type == &usb_port_device_type; } static inline int is_root_hub(struct usb_device *udev) { return (udev->parent == NULL); } /* Do the same for device drivers and interface drivers. */ static inline int is_usb_device_driver(struct device_driver *drv) { return container_of(drv, struct usbdrv_wrap, driver)-> for_devices; } /* for labeling diagnostics */ extern const char *usbcore_name; /* sysfs stuff */ extern const struct attribute_group *usb_device_groups[]; extern const struct attribute_group *usb_interface_groups[]; /* usbfs stuff */ extern struct usb_driver usbfs_driver; extern const struct file_operations usbfs_devices_fops; extern const struct file_operations usbdev_file_operations; extern int usb_devio_init(void); extern void usb_devio_cleanup(void); /* * Firmware specific cookie identifying a port's location. '0' == no location * data available */ typedef u32 usb_port_location_t; /* internal notify stuff */ extern void usb_notify_add_device(struct usb_device *udev); extern void usb_notify_remove_device(struct usb_device *udev); extern void usb_notify_add_bus(struct usb_bus *ubus); extern void usb_notify_remove_bus(struct usb_bus *ubus); extern void usb_hub_adjust_deviceremovable(struct usb_device *hdev, struct usb_hub_descriptor *desc); #ifdef CONFIG_ACPI extern int usb_acpi_register(void); extern void usb_acpi_unregister(void); extern acpi_handle usb_get_hub_port_acpi_handle(struct usb_device *hdev, int port1); #else static inline int usb_acpi_register(void) { return 0; }; static inline void usb_acpi_unregister(void) { }; #endif
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 /* SPDX-License-Identifier: GPL-2.0 */ #ifndef _LINUX_LIST_BL_H #define _LINUX_LIST_BL_H #include <linux/list.h> #include <linux/bit_spinlock.h> /* * Special version of lists, where head of the list has a lock in the lowest * bit. This is useful for scalable hash tables without increasing memory * footprint overhead. * * For modification operations, the 0 bit of hlist_bl_head->first * pointer must be set. * * With some small modifications, this can easily be adapted to store several * arbitrary bits (not just a single lock bit), if the need arises to store * some fast and compact auxiliary data. */ #if defined(CONFIG_SMP) || defined(CONFIG_DEBUG_SPINLOCK) #define LIST_BL_LOCKMASK 1UL #else #define LIST_BL_LOCKMASK 0UL #endif #ifdef CONFIG_DEBUG_LIST #define LIST_BL_BUG_ON(x) BUG_ON(x) #else #define LIST_BL_BUG_ON(x) #endif struct hlist_bl_head { struct hlist_bl_node *first; }; struct hlist_bl_node { struct hlist_bl_node *next, **pprev; }; #define INIT_HLIST_BL_HEAD(ptr) \ ((ptr)->first = NULL) static inline void INIT_HLIST_BL_NODE(struct hlist_bl_node *h) { h->next = NULL; h->pprev = NULL; } #define hlist_bl_entry(ptr, type, member) container_of(ptr,type,member) static inline bool hlist_bl_unhashed(const struct hlist_bl_node *h) { return !h->pprev; } static inline struct hlist_bl_node *hlist_bl_first(struct hlist_bl_head *h) { return (struct hlist_bl_node *) ((unsigned long)h->first & ~LIST_BL_LOCKMASK); } static inline void hlist_bl_set_first(struct hlist_bl_head *h, struct hlist_bl_node *n) { LIST_BL_BUG_ON((unsigned long)n & LIST_BL_LOCKMASK); LIST_BL_BUG_ON(((unsigned long)h->first & LIST_BL_LOCKMASK) != LIST_BL_LOCKMASK); h->first = (struct hlist_bl_node *)((unsigned long)n | LIST_BL_LOCKMASK); } static inline bool hlist_bl_empty(const struct hlist_bl_head *h) { return !((unsigned long)READ_ONCE(h->first) & ~LIST_BL_LOCKMASK); } static inline void hlist_bl_add_head(struct hlist_bl_node *n, struct hlist_bl_head *h) { struct hlist_bl_node *first = hlist_bl_first(h); n->next = first; if (first) first->pprev = &n->next; n->pprev = &h->first; hlist_bl_set_first(h, n); } static inline void hlist_bl_add_before(struct hlist_bl_node *n, struct hlist_bl_node *next) { struct hlist_bl_node **pprev = next->pprev; n->pprev = pprev; n->next = next; next->pprev = &n->next; /* pprev may be `first`, so be careful not to lose the lock bit */ WRITE_ONCE(*pprev, (struct hlist_bl_node *) ((uintptr_t)n | ((uintptr_t)*pprev & LIST_BL_LOCKMASK))); } static inline void hlist_bl_add_behind(struct hlist_bl_node *n, struct hlist_bl_node *prev) { n->next = prev->next; n->pprev = &prev->next; prev->next = n; if (n->next) n->next->pprev = &n->next; } static inline void __hlist_bl_del(struct hlist_bl_node *n) { struct hlist_bl_node *next = n->next; struct hlist_bl_node **pprev = n->pprev; LIST_BL_BUG_ON((unsigned long)n & LIST_BL_LOCKMASK); /* pprev may be `first`, so be careful not to lose the lock bit */ WRITE_ONCE(*pprev, (struct hlist_bl_node *) ((unsigned long)next | ((unsigned long)*pprev & LIST_BL_LOCKMASK))); if (next) next->pprev = pprev; } static inline void hlist_bl_del(struct hlist_bl_node *n) { __hlist_bl_del(n); n->next = LIST_POISON1; n->pprev = LIST_POISON2; } static inline void hlist_bl_del_init(struct hlist_bl_node *n) { if (!hlist_bl_unhashed(n)) { __hlist_bl_del(n); INIT_HLIST_BL_NODE(n); } } static inline void hlist_bl_lock(struct hlist_bl_head *b) { bit_spin_lock(0, (unsigned long *)b); } static inline void hlist_bl_unlock(struct hlist_bl_head *b) { __bit_spin_unlock(0, (unsigned long *)b); } static inline bool hlist_bl_is_locked(struct hlist_bl_head *b) { return bit_spin_is_locked(0, (unsigned long *)b); } /** * hlist_bl_for_each_entry - iterate over list of given type * @tpos: the type * to use as a loop cursor. * @pos: the &struct hlist_node to use as a loop cursor. * @head: the head for your list. * @member: the name of the hlist_node within the struct. * */ #define hlist_bl_for_each_entry(tpos, pos, head, member) \ for (pos = hlist_bl_first(head); \ pos && \ ({ tpos = hlist_bl_entry(pos, typeof(*tpos), member); 1;}); \ pos = pos->next) /** * hlist_bl_for_each_entry_safe - iterate over list of given type safe against removal of list entry * @tpos: the type * to use as a loop cursor. * @pos: the &struct hlist_node to use as a loop cursor. * @n: another &struct hlist_node to use as temporary storage * @head: the head for your list. * @member: the name of the hlist_node within the struct. */ #define hlist_bl_for_each_entry_safe(tpos, pos, n, head, member) \ for (pos = hlist_bl_first(head); \ pos && ({ n = pos->next; 1; }) && \ ({ tpos = hlist_bl_entry(pos, typeof(*tpos), member); 1;}); \ pos = n) #endif
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 /* SPDX-License-Identifier: GPL-2.0 */ /* * Copyright (c) 2013 Red Hat, Inc. and Parallels Inc. All rights reserved. * Authors: David Chinner and Glauber Costa * * Generic LRU infrastructure */ #ifndef _LRU_LIST_H #define _LRU_LIST_H #include <linux/list.h> #include <linux/nodemask.h> #include <linux/shrinker.h> struct mem_cgroup; /* list_lru_walk_cb has to always return one of those */ enum lru_status { LRU_REMOVED, /* item removed from list */ LRU_REMOVED_RETRY, /* item removed, but lock has been dropped and reacquired */ LRU_ROTATE, /* item referenced, give another pass */ LRU_SKIP, /* item cannot be locked, skip */ LRU_RETRY, /* item not freeable. May drop the lock internally, but has to return locked. */ }; struct list_lru_one { struct list_head list; /* may become negative during memcg reparenting */ long nr_items; }; struct list_lru_memcg { struct rcu_head rcu; /* array of per cgroup lists, indexed by memcg_cache_id */ struct list_lru_one *lru[]; }; struct list_lru_node { /* protects all lists on the node, including per cgroup */ spinlock_t lock; /* global list, used for the root cgroup in cgroup aware lrus */ struct list_lru_one lru; #ifdef CONFIG_MEMCG_KMEM /* for cgroup aware lrus points to per cgroup lists, otherwise NULL */ struct list_lru_memcg __rcu *memcg_lrus; #endif long nr_items; } ____cacheline_aligned_in_smp; struct list_lru { struct list_lru_node *node; #ifdef CONFIG_MEMCG_KMEM struct list_head list; int shrinker_id; bool memcg_aware; #endif }; void list_lru_destroy(struct list_lru *lru); int __list_lru_init(struct list_lru *lru, bool memcg_aware, struct lock_class_key *key, struct shrinker *shrinker); #define list_lru_init(lru) \ __list_lru_init((lru), false, NULL, NULL) #define list_lru_init_key(lru, key) \ __list_lru_init((lru), false, (key), NULL) #define list_lru_init_memcg(lru, shrinker) \ __list_lru_init((lru), true, NULL, shrinker) int memcg_update_all_list_lrus(int num_memcgs); void memcg_drain_all_list_lrus(int src_idx, struct mem_cgroup *dst_memcg); /** * list_lru_add: add an element to the lru list's tail * @list_lru: the lru pointer * @item: the item to be added. * * If the element is already part of a list, this function returns doing * nothing. Therefore the caller does not need to keep state about whether or * not the element already belongs in the list and is allowed to lazy update * it. Note however that this is valid for *a* list, not *this* list. If * the caller organize itself in a way that elements can be in more than * one type of list, it is up to the caller to fully remove the item from * the previous list (with list_lru_del() for instance) before moving it * to @list_lru * * Return value: true if the list was updated, false otherwise */ bool list_lru_add(struct list_lru *lru, struct list_head *item); /** * list_lru_del: delete an element to the lru list * @list_lru: the lru pointer * @item: the item to be deleted. * * This function works analogously as list_lru_add in terms of list * manipulation. The comments about an element already pertaining to * a list are also valid for list_lru_del. * * Return value: true if the list was updated, false otherwise */ bool list_lru_del(struct list_lru *lru, struct list_head *item); /** * list_lru_count_one: return the number of objects currently held by @lru * @lru: the lru pointer. * @nid: the node id to count from. * @memcg: the cgroup to count from. * * Always return a non-negative number, 0 for empty lists. There is no * guarantee that the list is not updated while the count is being computed. * Callers that want such a guarantee need to provide an outer lock. */ unsigned long list_lru_count_one(struct list_lru *lru, int nid, struct mem_cgroup *memcg); unsigned long list_lru_count_node(struct list_lru *lru, int nid); static inline unsigned long list_lru_shrink_count(struct list_lru *lru, struct shrink_control *sc) { return list_lru_count_one(lru, sc->nid, sc->memcg); } static inline unsigned long list_lru_count(struct list_lru *lru) { long count = 0; int nid; for_each_node_state(nid, N_NORMAL_MEMORY) count += list_lru_count_node(lru, nid); return count; } void list_lru_isolate(struct list_lru_one *list, struct list_head *item); void list_lru_isolate_move(struct list_lru_one *list, struct list_head *item, struct list_head *head); typedef enum lru_status (*list_lru_walk_cb)(struct list_head *item, struct list_lru_one *list, spinlock_t *lock, void *cb_arg); /** * list_lru_walk_one: walk a list_lru, isolating and disposing freeable items. * @lru: the lru pointer. * @nid: the node id to scan from. * @memcg: the cgroup to scan from. * @isolate: callback function that is resposible for deciding what to do with * the item currently being scanned * @cb_arg: opaque type that will be passed to @isolate * @nr_to_walk: how many items to scan. * * This function will scan all elements in a particular list_lru, calling the * @isolate callback for each of those items, along with the current list * spinlock and a caller-provided opaque. The @isolate callback can choose to * drop the lock internally, but *must* return with the lock held. The callback * will return an enum lru_status telling the list_lru infrastructure what to * do with the object being scanned. * * Please note that nr_to_walk does not mean how many objects will be freed, * just how many objects will be scanned. * * Return value: the number of objects effectively removed from the LRU. */ unsigned long list_lru_walk_one(struct list_lru *lru, int nid, struct mem_cgroup *memcg, list_lru_walk_cb isolate, void *cb_arg, unsigned long *nr_to_walk); /** * list_lru_walk_one_irq: walk a list_lru, isolating and disposing freeable items. * @lru: the lru pointer. * @nid: the node id to scan from. * @memcg: the cgroup to scan from. * @isolate: callback function that is resposible for deciding what to do with * the item currently being scanned * @cb_arg: opaque type that will be passed to @isolate * @nr_to_walk: how many items to scan. * * Same as @list_lru_walk_one except that the spinlock is acquired with * spin_lock_irq(). */ unsigned long list_lru_walk_one_irq(struct list_lru *lru, int nid, struct mem_cgroup *memcg, list_lru_walk_cb isolate, void *cb_arg, unsigned long *nr_to_walk); unsigned long list_lru_walk_node(struct list_lru *lru, int nid, list_lru_walk_cb isolate, void *cb_arg, unsigned long *nr_to_walk); static inline unsigned long list_lru_shrink_walk(struct list_lru *lru, struct shrink_control *sc, list_lru_walk_cb isolate, void *cb_arg) { return list_lru_walk_one(lru, sc->nid, sc->memcg, isolate, cb_arg, &sc->nr_to_scan); } static inline unsigned long list_lru_shrink_walk_irq(struct list_lru *lru, struct shrink_control *sc, list_lru_walk_cb isolate, void *cb_arg) { return list_lru_walk_one_irq(lru, sc->nid, sc->memcg, isolate, cb_arg, &sc->nr_to_scan); } static inline unsigned long list_lru_walk(struct list_lru *lru, list_lru_walk_cb isolate, void *cb_arg, unsigned long nr_to_walk) { long isolated = 0; int nid; for_each_node_state(nid, N_NORMAL_MEMORY) { isolated += list_lru_walk_node(lru, nid, isolate, cb_arg, &nr_to_walk); if (nr_to_walk <= 0) break; } return isolated; } #endif /* _LRU_LIST_H */
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3422 3423 3424 3425 3426 3427 3428 3429 3430 3431 3432 3433 3434 3435 3436 3437 3438 3439 3440 3441 3442 3443 3444 3445 3446 3447 3448 3449 3450 3451 3452 3453 3454 3455 3456 3457 3458 3459 3460 3461 3462 3463 3464 3465 3466 3467 3468 3469 3470 3471 3472 3473 3474 3475 3476 3477 3478 3479 3480 3481 3482 3483 3484 3485 3486 3487 3488 3489 3490 3491 3492 3493 3494 3495 3496 3497 3498 3499 3500 3501 3502 3503 3504 3505 3506 3507 3508 3509 3510 3511 3512 3513 3514 3515 3516 3517 3518 3519 3520 3521 3522 3523 3524 3525 3526 3527 3528 3529 3530 3531 3532 3533 3534 3535 3536 3537 3538 3539 3540 3541 3542 3543 3544 3545 3546 3547 3548 3549 3550 3551 3552 3553 3554 3555 3556 /* SPDX-License-Identifier: GPL-2.0 */ #undef TRACE_SYSTEM #define TRACE_SYSTEM cfg80211 #if !defined(__RDEV_OPS_TRACE) || defined(TRACE_HEADER_MULTI_READ) #define __RDEV_OPS_TRACE #include <linux/tracepoint.h> #include <linux/rtnetlink.h> #include <linux/etherdevice.h> #include <net/cfg80211.h> #include "core.h" #define MAC_ENTRY(entry_mac) __array(u8, entry_mac, ETH_ALEN) #define MAC_ASSIGN(entry_mac, given_mac) do { \ if (given_mac) \ memcpy(__entry->entry_mac, given_mac, ETH_ALEN); \ else \ eth_zero_addr(__entry->entry_mac); \ } while (0) #define MAC_PR_FMT "%pM" #define MAC_PR_ARG(entry_mac) (__entry->entry_mac) #define MAXNAME 32 #define WIPHY_ENTRY __array(char, wiphy_name, 32) #define WIPHY_ASSIGN strlcpy(__entry->wiphy_name, wiphy_name(wiphy), MAXNAME) #define WIPHY_PR_FMT "%s" #define WIPHY_PR_ARG __entry->wiphy_name #define WDEV_ENTRY __field(u32, id) #define WDEV_ASSIGN (__entry->id) = (!IS_ERR_OR_NULL(wdev) \ ? wdev->identifier : 0) #define WDEV_PR_FMT "wdev(%u)" #define WDEV_PR_ARG (__entry->id) #define NETDEV_ENTRY __array(char, name, IFNAMSIZ) \ __field(int, ifindex) #define NETDEV_ASSIGN \ do { \ memcpy(__entry->name, netdev->name, IFNAMSIZ); \ (__entry->ifindex) = (netdev->ifindex); \ } while (0) #define NETDEV_PR_FMT "netdev:%s(%d)" #define NETDEV_PR_ARG __entry->name, __entry->ifindex #define MESH_CFG_ENTRY __field(u16, dot11MeshRetryTimeout) \ __field(u16, dot11MeshConfirmTimeout) \ __field(u16, dot11MeshHoldingTimeout) \ __field(u16, dot11MeshMaxPeerLinks) \ __field(u8, dot11MeshMaxRetries) \ __field(u8, dot11MeshTTL) \ __field(u8, element_ttl) \ __field(bool, auto_open_plinks) \ __field(u32, dot11MeshNbrOffsetMaxNeighbor) \ __field(u8, dot11MeshHWMPmaxPREQretries) \ __field(u32, path_refresh_time) \ __field(u32, dot11MeshHWMPactivePathTimeout) \ __field(u16, min_discovery_timeout) \ __field(u16, dot11MeshHWMPpreqMinInterval) \ __field(u16, dot11MeshHWMPperrMinInterval) \ __field(u16, dot11MeshHWMPnetDiameterTraversalTime) \ __field(u8, dot11MeshHWMPRootMode) \ __field(u16, dot11MeshHWMPRannInterval) \ __field(bool, dot11MeshGateAnnouncementProtocol) \ __field(bool, dot11MeshForwarding) \ __field(s32, rssi_threshold) \ __field(u16, ht_opmode) \ __field(u32, dot11MeshHWMPactivePathToRootTimeout) \ __field(u16, dot11MeshHWMProotInterval) \ __field(u16, dot11MeshHWMPconfirmationInterval) \ __field(bool, dot11MeshNolearn) #define MESH_CFG_ASSIGN \ do { \ __entry->dot11MeshRetryTimeout = conf->dot11MeshRetryTimeout; \ __entry->dot11MeshConfirmTimeout = \ conf->dot11MeshConfirmTimeout; \ __entry->dot11MeshHoldingTimeout = \ conf->dot11MeshHoldingTimeout; \ __entry->dot11MeshMaxPeerLinks = conf->dot11MeshMaxPeerLinks; \ __entry->dot11MeshMaxRetries = conf->dot11MeshMaxRetries; \ __entry->dot11MeshTTL = conf->dot11MeshTTL; \ __entry->element_ttl = conf->element_ttl; \ __entry->auto_open_plinks = conf->auto_open_plinks; \ __entry->dot11MeshNbrOffsetMaxNeighbor = \ conf->dot11MeshNbrOffsetMaxNeighbor; \ __entry->dot11MeshHWMPmaxPREQretries = \ conf->dot11MeshHWMPmaxPREQretries; \ __entry->path_refresh_time = conf->path_refresh_time; \ __entry->dot11MeshHWMPactivePathTimeout = \ conf->dot11MeshHWMPactivePathTimeout; \ __entry->min_discovery_timeout = conf->min_discovery_timeout; \ __entry->dot11MeshHWMPpreqMinInterval = \ conf->dot11MeshHWMPpreqMinInterval; \ __entry->dot11MeshHWMPperrMinInterval = \ conf->dot11MeshHWMPperrMinInterval; \ __entry->dot11MeshHWMPnetDiameterTraversalTime = \ conf->dot11MeshHWMPnetDiameterTraversalTime; \ __entry->dot11MeshHWMPRootMode = conf->dot11MeshHWMPRootMode; \ __entry->dot11MeshHWMPRannInterval = \ conf->dot11MeshHWMPRannInterval; \ __entry->dot11MeshGateAnnouncementProtocol = \ conf->dot11MeshGateAnnouncementProtocol; \ __entry->dot11MeshForwarding = conf->dot11MeshForwarding; \ __entry->rssi_threshold = conf->rssi_threshold; \ __entry->ht_opmode = conf->ht_opmode; \ __entry->dot11MeshHWMPactivePathToRootTimeout = \ conf->dot11MeshHWMPactivePathToRootTimeout; \ __entry->dot11MeshHWMProotInterval = \ conf->dot11MeshHWMProotInterval; \ __entry->dot11MeshHWMPconfirmationInterval = \ conf->dot11MeshHWMPconfirmationInterval; \ __entry->dot11MeshNolearn = conf->dot11MeshNolearn; \ } while (0) #define CHAN_ENTRY __field(enum nl80211_band, band) \ __field(u32, center_freq) \ __field(u16, freq_offset) #define CHAN_ASSIGN(chan) \ do { \ if (chan) { \ __entry->band = chan->band; \ __entry->center_freq = chan->center_freq; \ __entry->freq_offset = chan->freq_offset; \ } else { \ __entry->band = 0; \ __entry->center_freq = 0; \ __entry->freq_offset = 0; \ } \ } while (0) #define CHAN_PR_FMT "band: %d, freq: %u.%03u" #define CHAN_PR_ARG __entry->band, __entry->center_freq, __entry->freq_offset #define CHAN_DEF_ENTRY __field(enum nl80211_band, band) \ __field(u32, control_freq) \ __field(u32, freq_offset) \ __field(u32, width) \ __field(u32, center_freq1) \ __field(u32, freq1_offset) \ __field(u32, center_freq2) #define CHAN_DEF_ASSIGN(chandef) \ do { \ if ((chandef) && (chandef)->chan) { \ __entry->band = (chandef)->chan->band; \ __entry->control_freq = \ (chandef)->chan->center_freq; \ __entry->freq_offset = \ (chandef)->chan->freq_offset; \ __entry->width = (chandef)->width; \ __entry->center_freq1 = (chandef)->center_freq1;\ __entry->freq1_offset = (chandef)->freq1_offset;\ __entry->center_freq2 = (chandef)->center_freq2;\ } else { \ __entry->band = 0; \ __entry->control_freq = 0; \ __entry->freq_offset = 0; \ __entry->width = 0; \ __entry->center_freq1 = 0; \ __entry->freq1_offset = 0; \ __entry->center_freq2 = 0; \ } \ } while (0) #define CHAN_DEF_PR_FMT \ "band: %d, control freq: %u.%03u, width: %d, cf1: %u.%03u, cf2: %u" #define CHAN_DEF_PR_ARG __entry->band, __entry->control_freq, \ __entry->freq_offset, __entry->width, \ __entry->center_freq1, __entry->freq1_offset, \ __entry->center_freq2 #define SINFO_ENTRY __field(int, generation) \ __field(u32, connected_time) \ __field(u32, inactive_time) \ __field(u32, rx_bytes) \ __field(u32, tx_bytes) \ __field(u32, rx_packets) \ __field(u32, tx_packets) \ __field(u32, tx_retries) \ __field(u32, tx_failed) \ __field(u32, rx_dropped_misc) \ __field(u32, beacon_loss_count) \ __field(u16, llid) \ __field(u16, plid) \ __field(u8, plink_state) #define SINFO_ASSIGN \ do { \ __entry->generation = sinfo->generation; \ __entry->connected_time = sinfo->connected_time; \ __entry->inactive_time = sinfo->inactive_time; \ __entry->rx_bytes = sinfo->rx_bytes; \ __entry->tx_bytes = sinfo->tx_bytes; \ __entry->rx_packets = sinfo->rx_packets; \ __entry->tx_packets = sinfo->tx_packets; \ __entry->tx_retries = sinfo->tx_retries; \ __entry->tx_failed = sinfo->tx_failed; \ __entry->rx_dropped_misc = sinfo->rx_dropped_misc; \ __entry->beacon_loss_count = sinfo->beacon_loss_count; \ __entry->llid = sinfo->llid; \ __entry->plid = sinfo->plid; \ __entry->plink_state = sinfo->plink_state; \ } while (0) #define BOOL_TO_STR(bo) (bo) ? "true" : "false" #define QOS_MAP_ENTRY __field(u8, num_des) \ __array(u8, dscp_exception, \ 2 * IEEE80211_QOS_MAP_MAX_EX) \ __array(u8, up, IEEE80211_QOS_MAP_LEN_MIN) #define QOS_MAP_ASSIGN(qos_map) \ do { \ if ((qos_map)) { \ __entry->num_des = (qos_map)->num_des; \ memcpy(__entry->dscp_exception, \ &(qos_map)->dscp_exception, \ 2 * IEEE80211_QOS_MAP_MAX_EX); \ memcpy(__entry->up, &(qos_map)->up, \ IEEE80211_QOS_MAP_LEN_MIN); \ } else { \ __entry->num_des = 0; \ memset(__entry->dscp_exception, 0, \ 2 * IEEE80211_QOS_MAP_MAX_EX); \ memset(__entry->up, 0, \ IEEE80211_QOS_MAP_LEN_MIN); \ } \ } while (0) /************************************************************* * rdev->ops traces * *************************************************************/ TRACE_EVENT(rdev_suspend, TP_PROTO(struct wiphy *wiphy, struct cfg80211_wowlan *wow), TP_ARGS(wiphy, wow), TP_STRUCT__entry( WIPHY_ENTRY __field(bool, any) __field(bool, disconnect) __field(bool, magic_pkt) __field(bool, gtk_rekey_failure) __field(bool, eap_identity_req) __field(bool, four_way_handshake) __field(bool, rfkill_release) __field(bool, valid_wow) ), TP_fast_assign( WIPHY_ASSIGN; if (wow) { __entry->any = wow->any; __entry->disconnect = wow->disconnect; __entry->magic_pkt = wow->magic_pkt; __entry->gtk_rekey_failure = wow->gtk_rekey_failure; __entry->eap_identity_req = wow->eap_identity_req; __entry->four_way_handshake = wow->four_way_handshake; __entry->rfkill_release = wow->rfkill_release; __entry->valid_wow = true; } else { __entry->valid_wow = false; } ), TP_printk(WIPHY_PR_FMT ", wow%s - any: %d, disconnect: %d, " "magic pkt: %d, gtk rekey failure: %d, eap identify req: %d, " "four way handshake: %d, rfkill release: %d.", WIPHY_PR_ARG, __entry->valid_wow ? "" : "(Not configured!)", __entry->any, __entry->disconnect, __entry->magic_pkt, __entry->gtk_rekey_failure, __entry->eap_identity_req, __entry->four_way_handshake, __entry->rfkill_release) ); TRACE_EVENT(rdev_return_int, TP_PROTO(struct wiphy *wiphy, int ret), TP_ARGS(wiphy, ret), TP_STRUCT__entry( WIPHY_ENTRY __field(int, ret) ), TP_fast_assign( WIPHY_ASSIGN; __entry->ret = ret; ), TP_printk(WIPHY_PR_FMT ", returned: %d", WIPHY_PR_ARG, __entry->ret) ); TRACE_EVENT(rdev_scan, TP_PROTO(struct wiphy *wiphy, struct cfg80211_scan_request *request), TP_ARGS(wiphy, request), TP_STRUCT__entry( WIPHY_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; ), TP_printk(WIPHY_PR_FMT, WIPHY_PR_ARG) ); DECLARE_EVENT_CLASS(wiphy_only_evt, TP_PROTO(struct wiphy *wiphy), TP_ARGS(wiphy), TP_STRUCT__entry( WIPHY_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; ), TP_printk(WIPHY_PR_FMT, WIPHY_PR_ARG) ); DEFINE_EVENT(wiphy_only_evt, rdev_resume, TP_PROTO(struct wiphy *wiphy), TP_ARGS(wiphy) ); DEFINE_EVENT(wiphy_only_evt, rdev_return_void, TP_PROTO(struct wiphy *wiphy), TP_ARGS(wiphy) ); DEFINE_EVENT(wiphy_only_evt, rdev_get_antenna, TP_PROTO(struct wiphy *wiphy), TP_ARGS(wiphy) ); DEFINE_EVENT(wiphy_only_evt, rdev_rfkill_poll, TP_PROTO(struct wiphy *wiphy), TP_ARGS(wiphy) ); DECLARE_EVENT_CLASS(wiphy_enabled_evt, TP_PROTO(struct wiphy *wiphy, bool enabled), TP_ARGS(wiphy, enabled), TP_STRUCT__entry( WIPHY_ENTRY __field(bool, enabled) ), TP_fast_assign( WIPHY_ASSIGN; __entry->enabled = enabled; ), TP_printk(WIPHY_PR_FMT ", %senabled ", WIPHY_PR_ARG, __entry->enabled ? "" : "not ") ); DEFINE_EVENT(wiphy_enabled_evt, rdev_set_wakeup, TP_PROTO(struct wiphy *wiphy, bool enabled), TP_ARGS(wiphy, enabled) ); TRACE_EVENT(rdev_add_virtual_intf, TP_PROTO(struct wiphy *wiphy, char *name, enum nl80211_iftype type), TP_ARGS(wiphy, name, type), TP_STRUCT__entry( WIPHY_ENTRY __string(vir_intf_name, name ? name : "<noname>") __field(enum nl80211_iftype, type) ), TP_fast_assign( WIPHY_ASSIGN; __assign_str(vir_intf_name, name ? name : "<noname>"); __entry->type = type; ), TP_printk(WIPHY_PR_FMT ", virtual intf name: %s, type: %d", WIPHY_PR_ARG, __get_str(vir_intf_name), __entry->type) ); DECLARE_EVENT_CLASS(wiphy_wdev_evt, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev), TP_ARGS(wiphy, wdev), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT, WIPHY_PR_ARG, WDEV_PR_ARG) ); DECLARE_EVENT_CLASS(wiphy_wdev_cookie_evt, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, u64 cookie), TP_ARGS(wiphy, wdev, cookie), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY __field(u64, cookie) ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; __entry->cookie = cookie; ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT ", cookie: %lld", WIPHY_PR_ARG, WDEV_PR_ARG, (unsigned long long)__entry->cookie) ); DEFINE_EVENT(wiphy_wdev_evt, rdev_return_wdev, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev), TP_ARGS(wiphy, wdev) ); DEFINE_EVENT(wiphy_wdev_evt, rdev_del_virtual_intf, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev), TP_ARGS(wiphy, wdev) ); TRACE_EVENT(rdev_change_virtual_intf, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, enum nl80211_iftype type), TP_ARGS(wiphy, netdev, type), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(enum nl80211_iftype, type) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->type = type; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", type: %d", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->type) ); DECLARE_EVENT_CLASS(key_handle, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 key_index, bool pairwise, const u8 *mac_addr), TP_ARGS(wiphy, netdev, key_index, pairwise, mac_addr), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(mac_addr) __field(u8, key_index) __field(bool, pairwise) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(mac_addr, mac_addr); __entry->key_index = key_index; __entry->pairwise = pairwise; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", key_index: %u, pairwise: %s, mac addr: " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->key_index, BOOL_TO_STR(__entry->pairwise), MAC_PR_ARG(mac_addr)) ); DEFINE_EVENT(key_handle, rdev_get_key, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 key_index, bool pairwise, const u8 *mac_addr), TP_ARGS(wiphy, netdev, key_index, pairwise, mac_addr) ); DEFINE_EVENT(key_handle, rdev_del_key, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 key_index, bool pairwise, const u8 *mac_addr), TP_ARGS(wiphy, netdev, key_index, pairwise, mac_addr) ); TRACE_EVENT(rdev_add_key, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 key_index, bool pairwise, const u8 *mac_addr, u8 mode), TP_ARGS(wiphy, netdev, key_index, pairwise, mac_addr, mode), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(mac_addr) __field(u8, key_index) __field(bool, pairwise) __field(u8, mode) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(mac_addr, mac_addr); __entry->key_index = key_index; __entry->pairwise = pairwise; __entry->mode = mode; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", key_index: %u, " "mode: %u, pairwise: %s, mac addr: " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->key_index, __entry->mode, BOOL_TO_STR(__entry->pairwise), MAC_PR_ARG(mac_addr)) ); TRACE_EVENT(rdev_set_default_key, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 key_index, bool unicast, bool multicast), TP_ARGS(wiphy, netdev, key_index, unicast, multicast), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(u8, key_index) __field(bool, unicast) __field(bool, multicast) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->key_index = key_index; __entry->unicast = unicast; __entry->multicast = multicast; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", key index: %u, unicast: %s, multicast: %s", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->key_index, BOOL_TO_STR(__entry->unicast), BOOL_TO_STR(__entry->multicast)) ); TRACE_EVENT(rdev_set_default_mgmt_key, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 key_index), TP_ARGS(wiphy, netdev, key_index), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(u8, key_index) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->key_index = key_index; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", key index: %u", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->key_index) ); TRACE_EVENT(rdev_set_default_beacon_key, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 key_index), TP_ARGS(wiphy, netdev, key_index), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(u8, key_index) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->key_index = key_index; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", key index: %u", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->key_index) ); TRACE_EVENT(rdev_start_ap, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_ap_settings *settings), TP_ARGS(wiphy, netdev, settings), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY CHAN_DEF_ENTRY __field(int, beacon_interval) __field(int, dtim_period) __array(char, ssid, IEEE80211_MAX_SSID_LEN + 1) __field(enum nl80211_hidden_ssid, hidden_ssid) __field(u32, wpa_ver) __field(bool, privacy) __field(enum nl80211_auth_type, auth_type) __field(int, inactivity_timeout) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; CHAN_DEF_ASSIGN(&settings->chandef); __entry->beacon_interval = settings->beacon_interval; __entry->dtim_period = settings->dtim_period; __entry->hidden_ssid = settings->hidden_ssid; __entry->wpa_ver = settings->crypto.wpa_versions; __entry->privacy = settings->privacy; __entry->auth_type = settings->auth_type; __entry->inactivity_timeout = settings->inactivity_timeout; memset(__entry->ssid, 0, IEEE80211_MAX_SSID_LEN + 1); memcpy(__entry->ssid, settings->ssid, settings->ssid_len); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", AP settings - ssid: %s, " CHAN_DEF_PR_FMT ", beacon interval: %d, dtim period: %d, " "hidden ssid: %d, wpa versions: %u, privacy: %s, " "auth type: %d, inactivity timeout: %d", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->ssid, CHAN_DEF_PR_ARG, __entry->beacon_interval, __entry->dtim_period, __entry->hidden_ssid, __entry->wpa_ver, BOOL_TO_STR(__entry->privacy), __entry->auth_type, __entry->inactivity_timeout) ); TRACE_EVENT(rdev_change_beacon, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_beacon_data *info), TP_ARGS(wiphy, netdev, info), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __dynamic_array(u8, head, info ? info->head_len : 0) __dynamic_array(u8, tail, info ? info->tail_len : 0) __dynamic_array(u8, beacon_ies, info ? info->beacon_ies_len : 0) __dynamic_array(u8, proberesp_ies, info ? info->proberesp_ies_len : 0) __dynamic_array(u8, assocresp_ies, info ? info->assocresp_ies_len : 0) __dynamic_array(u8, probe_resp, info ? info->probe_resp_len : 0) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; if (info) { if (info->head) memcpy(__get_dynamic_array(head), info->head, info->head_len); if (info->tail) memcpy(__get_dynamic_array(tail), info->tail, info->tail_len); if (info->beacon_ies) memcpy(__get_dynamic_array(beacon_ies), info->beacon_ies, info->beacon_ies_len); if (info->proberesp_ies) memcpy(__get_dynamic_array(proberesp_ies), info->proberesp_ies, info->proberesp_ies_len); if (info->assocresp_ies) memcpy(__get_dynamic_array(assocresp_ies), info->assocresp_ies, info->assocresp_ies_len); if (info->probe_resp) memcpy(__get_dynamic_array(probe_resp), info->probe_resp, info->probe_resp_len); } ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG) ); DECLARE_EVENT_CLASS(wiphy_netdev_evt, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev), TP_ARGS(wiphy, netdev), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG) ); DEFINE_EVENT(wiphy_netdev_evt, rdev_stop_ap, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev), TP_ARGS(wiphy, netdev) ); DEFINE_EVENT(wiphy_netdev_evt, rdev_set_rekey_data, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev), TP_ARGS(wiphy, netdev) ); DEFINE_EVENT(wiphy_netdev_evt, rdev_get_mesh_config, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev), TP_ARGS(wiphy, netdev) ); DEFINE_EVENT(wiphy_netdev_evt, rdev_leave_mesh, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev), TP_ARGS(wiphy, netdev) ); DEFINE_EVENT(wiphy_netdev_evt, rdev_leave_ibss, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev), TP_ARGS(wiphy, netdev) ); DEFINE_EVENT(wiphy_netdev_evt, rdev_leave_ocb, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev), TP_ARGS(wiphy, netdev) ); DEFINE_EVENT(wiphy_netdev_evt, rdev_flush_pmksa, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev), TP_ARGS(wiphy, netdev) ); DEFINE_EVENT(wiphy_netdev_evt, rdev_end_cac, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev), TP_ARGS(wiphy, netdev) ); DECLARE_EVENT_CLASS(station_add_change, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 *mac, struct station_parameters *params), TP_ARGS(wiphy, netdev, mac, params), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(sta_mac) __field(u32, sta_flags_mask) __field(u32, sta_flags_set) __field(u32, sta_modify_mask) __field(int, listen_interval) __field(u16, capability) __field(u16, aid) __field(u8, plink_action) __field(u8, plink_state) __field(u8, uapsd_queues) __field(u8, max_sp) __field(u8, opmode_notif) __field(bool, opmode_notif_used) __array(u8, ht_capa, (int)sizeof(struct ieee80211_ht_cap)) __array(u8, vht_capa, (int)sizeof(struct ieee80211_vht_cap)) __array(char, vlan, IFNAMSIZ) __dynamic_array(u8, supported_rates, params->supported_rates_len) __dynamic_array(u8, ext_capab, params->ext_capab_len) __dynamic_array(u8, supported_channels, params->supported_channels_len) __dynamic_array(u8, supported_oper_classes, params->supported_oper_classes_len) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(sta_mac, mac); __entry->sta_flags_mask = params->sta_flags_mask; __entry->sta_flags_set = params->sta_flags_set; __entry->sta_modify_mask = params->sta_modify_mask; __entry->listen_interval = params->listen_interval; __entry->aid = params->aid; __entry->plink_action = params->plink_action; __entry->plink_state = params->plink_state; __entry->uapsd_queues = params->uapsd_queues; memset(__entry->ht_capa, 0, sizeof(struct ieee80211_ht_cap)); if (params->ht_capa) memcpy(__entry->ht_capa, params->ht_capa, sizeof(struct ieee80211_ht_cap)); memset(__entry->vht_capa, 0, sizeof(struct ieee80211_vht_cap)); if (params->vht_capa) memcpy(__entry->vht_capa, params->vht_capa, sizeof(struct ieee80211_vht_cap)); memset(__entry->vlan, 0, sizeof(__entry->vlan)); if (params->vlan) memcpy(__entry->vlan, params->vlan->name, IFNAMSIZ); if (params->supported_rates && params->supported_rates_len) memcpy(__get_dynamic_array(supported_rates), params->supported_rates, params->supported_rates_len); if (params->ext_capab && params->ext_capab_len) memcpy(__get_dynamic_array(ext_capab), params->ext_capab, params->ext_capab_len); if (params->supported_channels && params->supported_channels_len) memcpy(__get_dynamic_array(supported_channels), params->supported_channels, params->supported_channels_len); if (params->supported_oper_classes && params->supported_oper_classes_len) memcpy(__get_dynamic_array(supported_oper_classes), params->supported_oper_classes, params->supported_oper_classes_len); __entry->max_sp = params->max_sp; __entry->capability = params->capability; __entry->opmode_notif = params->opmode_notif; __entry->opmode_notif_used = params->opmode_notif_used; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", station mac: " MAC_PR_FMT ", station flags mask: %u, station flags set: %u, " "station modify mask: %u, listen interval: %d, aid: %u, " "plink action: %u, plink state: %u, uapsd queues: %u, vlan:%s", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(sta_mac), __entry->sta_flags_mask, __entry->sta_flags_set, __entry->sta_modify_mask, __entry->listen_interval, __entry->aid, __entry->plink_action, __entry->plink_state, __entry->uapsd_queues, __entry->vlan) ); DEFINE_EVENT(station_add_change, rdev_add_station, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 *mac, struct station_parameters *params), TP_ARGS(wiphy, netdev, mac, params) ); DEFINE_EVENT(station_add_change, rdev_change_station, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 *mac, struct station_parameters *params), TP_ARGS(wiphy, netdev, mac, params) ); DECLARE_EVENT_CLASS(wiphy_netdev_mac_evt, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const u8 *mac), TP_ARGS(wiphy, netdev, mac), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(sta_mac) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(sta_mac, mac); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", mac: " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(sta_mac)) ); DECLARE_EVENT_CLASS(station_del, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct station_del_parameters *params), TP_ARGS(wiphy, netdev, params), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(sta_mac) __field(u8, subtype) __field(u16, reason_code) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(sta_mac, params->mac); __entry->subtype = params->subtype; __entry->reason_code = params->reason_code; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", station mac: " MAC_PR_FMT ", subtype: %u, reason_code: %u", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(sta_mac), __entry->subtype, __entry->reason_code) ); DEFINE_EVENT(station_del, rdev_del_station, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct station_del_parameters *params), TP_ARGS(wiphy, netdev, params) ); DEFINE_EVENT(wiphy_netdev_mac_evt, rdev_get_station, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const u8 *mac), TP_ARGS(wiphy, netdev, mac) ); DEFINE_EVENT(wiphy_netdev_mac_evt, rdev_del_mpath, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const u8 *mac), TP_ARGS(wiphy, netdev, mac) ); DEFINE_EVENT(wiphy_netdev_mac_evt, rdev_set_wds_peer, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const u8 *mac), TP_ARGS(wiphy, netdev, mac) ); TRACE_EVENT(rdev_dump_station, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, int _idx, u8 *mac), TP_ARGS(wiphy, netdev, _idx, mac), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(sta_mac) __field(int, idx) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(sta_mac, mac); __entry->idx = _idx; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", station mac: " MAC_PR_FMT ", idx: %d", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(sta_mac), __entry->idx) ); TRACE_EVENT(rdev_return_int_station_info, TP_PROTO(struct wiphy *wiphy, int ret, struct station_info *sinfo), TP_ARGS(wiphy, ret, sinfo), TP_STRUCT__entry( WIPHY_ENTRY __field(int, ret) SINFO_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; __entry->ret = ret; SINFO_ASSIGN; ), TP_printk(WIPHY_PR_FMT ", returned %d" , WIPHY_PR_ARG, __entry->ret) ); DECLARE_EVENT_CLASS(mpath_evt, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 *dst, u8 *next_hop), TP_ARGS(wiphy, netdev, dst, next_hop), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(dst) MAC_ENTRY(next_hop) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(dst, dst); MAC_ASSIGN(next_hop, next_hop); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", destination: " MAC_PR_FMT ", next hop: " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(dst), MAC_PR_ARG(next_hop)) ); DEFINE_EVENT(mpath_evt, rdev_add_mpath, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 *dst, u8 *next_hop), TP_ARGS(wiphy, netdev, dst, next_hop) ); DEFINE_EVENT(mpath_evt, rdev_change_mpath, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 *dst, u8 *next_hop), TP_ARGS(wiphy, netdev, dst, next_hop) ); DEFINE_EVENT(mpath_evt, rdev_get_mpath, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 *dst, u8 *next_hop), TP_ARGS(wiphy, netdev, dst, next_hop) ); TRACE_EVENT(rdev_dump_mpath, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, int _idx, u8 *dst, u8 *next_hop), TP_ARGS(wiphy, netdev, _idx, dst, next_hop), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(dst) MAC_ENTRY(next_hop) __field(int, idx) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(dst, dst); MAC_ASSIGN(next_hop, next_hop); __entry->idx = _idx; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", index: %d, destination: " MAC_PR_FMT ", next hop: " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->idx, MAC_PR_ARG(dst), MAC_PR_ARG(next_hop)) ); TRACE_EVENT(rdev_get_mpp, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 *dst, u8 *mpp), TP_ARGS(wiphy, netdev, dst, mpp), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(dst) MAC_ENTRY(mpp) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(dst, dst); MAC_ASSIGN(mpp, mpp); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", destination: " MAC_PR_FMT ", mpp: " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(dst), MAC_PR_ARG(mpp)) ); TRACE_EVENT(rdev_dump_mpp, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, int _idx, u8 *dst, u8 *mpp), TP_ARGS(wiphy, netdev, _idx, mpp, dst), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(dst) MAC_ENTRY(mpp) __field(int, idx) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(dst, dst); MAC_ASSIGN(mpp, mpp); __entry->idx = _idx; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", index: %d, destination: " MAC_PR_FMT ", mpp: " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->idx, MAC_PR_ARG(dst), MAC_PR_ARG(mpp)) ); TRACE_EVENT(rdev_return_int_mpath_info, TP_PROTO(struct wiphy *wiphy, int ret, struct mpath_info *pinfo), TP_ARGS(wiphy, ret, pinfo), TP_STRUCT__entry( WIPHY_ENTRY __field(int, ret) __field(int, generation) __field(u32, filled) __field(u32, frame_qlen) __field(u32, sn) __field(u32, metric) __field(u32, exptime) __field(u32, discovery_timeout) __field(u8, discovery_retries) __field(u8, flags) ), TP_fast_assign( WIPHY_ASSIGN; __entry->ret = ret; __entry->generation = pinfo->generation; __entry->filled = pinfo->filled; __entry->frame_qlen = pinfo->frame_qlen; __entry->sn = pinfo->sn; __entry->metric = pinfo->metric; __entry->exptime = pinfo->exptime; __entry->discovery_timeout = pinfo->discovery_timeout; __entry->discovery_retries = pinfo->discovery_retries; __entry->flags = pinfo->flags; ), TP_printk(WIPHY_PR_FMT ", returned %d. mpath info - generation: %d, " "filled: %u, frame qlen: %u, sn: %u, metric: %u, exptime: %u," " discovery timeout: %u, discovery retries: %u, flags: %u", WIPHY_PR_ARG, __entry->ret, __entry->generation, __entry->filled, __entry->frame_qlen, __entry->sn, __entry->metric, __entry->exptime, __entry->discovery_timeout, __entry->discovery_retries, __entry->flags) ); TRACE_EVENT(rdev_return_int_mesh_config, TP_PROTO(struct wiphy *wiphy, int ret, struct mesh_config *conf), TP_ARGS(wiphy, ret, conf), TP_STRUCT__entry( WIPHY_ENTRY MESH_CFG_ENTRY __field(int, ret) ), TP_fast_assign( WIPHY_ASSIGN; MESH_CFG_ASSIGN; __entry->ret = ret; ), TP_printk(WIPHY_PR_FMT ", returned: %d", WIPHY_PR_ARG, __entry->ret) ); TRACE_EVENT(rdev_update_mesh_config, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u32 mask, const struct mesh_config *conf), TP_ARGS(wiphy, netdev, mask, conf), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MESH_CFG_ENTRY __field(u32, mask) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MESH_CFG_ASSIGN; __entry->mask = mask; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", mask: %u", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->mask) ); TRACE_EVENT(rdev_join_mesh, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const struct mesh_config *conf, const struct mesh_setup *setup), TP_ARGS(wiphy, netdev, conf, setup), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MESH_CFG_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MESH_CFG_ASSIGN; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG) ); TRACE_EVENT(rdev_change_bss, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct bss_parameters *params), TP_ARGS(wiphy, netdev, params), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(int, use_cts_prot) __field(int, use_short_preamble) __field(int, use_short_slot_time) __field(int, ap_isolate) __field(int, ht_opmode) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->use_cts_prot = params->use_cts_prot; __entry->use_short_preamble = params->use_short_preamble; __entry->use_short_slot_time = params->use_short_slot_time; __entry->ap_isolate = params->ap_isolate; __entry->ht_opmode = params->ht_opmode; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", use cts prot: %d, " "use short preamble: %d, use short slot time: %d, " "ap isolate: %d, ht opmode: %d", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->use_cts_prot, __entry->use_short_preamble, __entry->use_short_slot_time, __entry->ap_isolate, __entry->ht_opmode) ); TRACE_EVENT(rdev_set_txq_params, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct ieee80211_txq_params *params), TP_ARGS(wiphy, netdev, params), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(enum nl80211_ac, ac) __field(u16, txop) __field(u16, cwmin) __field(u16, cwmax) __field(u8, aifs) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->ac = params->ac; __entry->txop = params->txop; __entry->cwmin = params->cwmin; __entry->cwmax = params->cwmax; __entry->aifs = params->aifs; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", ac: %d, txop: %u, cwmin: %u, cwmax: %u, aifs: %u", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->ac, __entry->txop, __entry->cwmin, __entry->cwmax, __entry->aifs) ); TRACE_EVENT(rdev_libertas_set_mesh_channel, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct ieee80211_channel *chan), TP_ARGS(wiphy, netdev, chan), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY CHAN_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; CHAN_ASSIGN(chan); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " CHAN_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, CHAN_PR_ARG) ); TRACE_EVENT(rdev_set_monitor_channel, TP_PROTO(struct wiphy *wiphy, struct cfg80211_chan_def *chandef), TP_ARGS(wiphy, chandef), TP_STRUCT__entry( WIPHY_ENTRY CHAN_DEF_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; CHAN_DEF_ASSIGN(chandef); ), TP_printk(WIPHY_PR_FMT ", " CHAN_DEF_PR_FMT, WIPHY_PR_ARG, CHAN_DEF_PR_ARG) ); TRACE_EVENT(rdev_auth, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_auth_request *req), TP_ARGS(wiphy, netdev, req), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(bssid) __field(enum nl80211_auth_type, auth_type) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; if (req->bss) MAC_ASSIGN(bssid, req->bss->bssid); else eth_zero_addr(__entry->bssid); __entry->auth_type = req->auth_type; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", auth type: %d, bssid: " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->auth_type, MAC_PR_ARG(bssid)) ); TRACE_EVENT(rdev_assoc, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_assoc_request *req), TP_ARGS(wiphy, netdev, req), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(bssid) MAC_ENTRY(prev_bssid) __field(bool, use_mfp) __field(u32, flags) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; if (req->bss) MAC_ASSIGN(bssid, req->bss->bssid); else eth_zero_addr(__entry->bssid); MAC_ASSIGN(prev_bssid, req->prev_bssid); __entry->use_mfp = req->use_mfp; __entry->flags = req->flags; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", bssid: " MAC_PR_FMT ", previous bssid: " MAC_PR_FMT ", use mfp: %s, flags: %u", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(bssid), MAC_PR_ARG(prev_bssid), BOOL_TO_STR(__entry->use_mfp), __entry->flags) ); TRACE_EVENT(rdev_deauth, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_deauth_request *req), TP_ARGS(wiphy, netdev, req), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(bssid) __field(u16, reason_code) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(bssid, req->bssid); __entry->reason_code = req->reason_code; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", bssid: " MAC_PR_FMT ", reason: %u", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(bssid), __entry->reason_code) ); TRACE_EVENT(rdev_disassoc, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_disassoc_request *req), TP_ARGS(wiphy, netdev, req), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(bssid) __field(u16, reason_code) __field(bool, local_state_change) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; if (req->bss) MAC_ASSIGN(bssid, req->bss->bssid); else eth_zero_addr(__entry->bssid); __entry->reason_code = req->reason_code; __entry->local_state_change = req->local_state_change; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", bssid: " MAC_PR_FMT ", reason: %u, local state change: %s", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(bssid), __entry->reason_code, BOOL_TO_STR(__entry->local_state_change)) ); TRACE_EVENT(rdev_mgmt_tx_cancel_wait, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, u64 cookie), TP_ARGS(wiphy, wdev, cookie), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY __field(u64, cookie) ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; __entry->cookie = cookie; ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT ", cookie: %llu ", WIPHY_PR_ARG, WDEV_PR_ARG, __entry->cookie) ); TRACE_EVENT(rdev_set_power_mgmt, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, bool enabled, int timeout), TP_ARGS(wiphy, netdev, enabled, timeout), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(bool, enabled) __field(int, timeout) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->enabled = enabled; __entry->timeout = timeout; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", %senabled, timeout: %d ", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->enabled ? "" : "not ", __entry->timeout) ); TRACE_EVENT(rdev_connect, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_connect_params *sme), TP_ARGS(wiphy, netdev, sme), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(bssid) __array(char, ssid, IEEE80211_MAX_SSID_LEN + 1) __field(enum nl80211_auth_type, auth_type) __field(bool, privacy) __field(u32, wpa_versions) __field(u32, flags) MAC_ENTRY(prev_bssid) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(bssid, sme->bssid); memset(__entry->ssid, 0, IEEE80211_MAX_SSID_LEN + 1); memcpy(__entry->ssid, sme->ssid, sme->ssid_len); __entry->auth_type = sme->auth_type; __entry->privacy = sme->privacy; __entry->wpa_versions = sme->crypto.wpa_versions; __entry->flags = sme->flags; MAC_ASSIGN(prev_bssid, sme->prev_bssid); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", bssid: " MAC_PR_FMT ", ssid: %s, auth type: %d, privacy: %s, wpa versions: %u, " "flags: %u, previous bssid: " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(bssid), __entry->ssid, __entry->auth_type, BOOL_TO_STR(__entry->privacy), __entry->wpa_versions, __entry->flags, MAC_PR_ARG(prev_bssid)) ); TRACE_EVENT(rdev_update_connect_params, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_connect_params *sme, u32 changed), TP_ARGS(wiphy, netdev, sme, changed), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(u32, changed) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->changed = changed; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", parameters changed: %u", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->changed) ); TRACE_EVENT(rdev_set_cqm_rssi_config, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, s32 rssi_thold, u32 rssi_hyst), TP_ARGS(wiphy, netdev, rssi_thold, rssi_hyst), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(s32, rssi_thold) __field(u32, rssi_hyst) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->rssi_thold = rssi_thold; __entry->rssi_hyst = rssi_hyst; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", rssi_thold: %d, rssi_hyst: %u ", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->rssi_thold, __entry->rssi_hyst) ); TRACE_EVENT(rdev_set_cqm_rssi_range_config, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, s32 low, s32 high), TP_ARGS(wiphy, netdev, low, high), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(s32, rssi_low) __field(s32, rssi_high) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->rssi_low = low; __entry->rssi_high = high; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", range: %d - %d ", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->rssi_low, __entry->rssi_high) ); TRACE_EVENT(rdev_set_cqm_txe_config, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u32 rate, u32 pkts, u32 intvl), TP_ARGS(wiphy, netdev, rate, pkts, intvl), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(u32, rate) __field(u32, pkts) __field(u32, intvl) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->rate = rate; __entry->pkts = pkts; __entry->intvl = intvl; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", rate: %u, packets: %u, interval: %u", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->rate, __entry->pkts, __entry->intvl) ); TRACE_EVENT(rdev_disconnect, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u16 reason_code), TP_ARGS(wiphy, netdev, reason_code), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(u16, reason_code) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->reason_code = reason_code; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", reason code: %u", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->reason_code) ); TRACE_EVENT(rdev_join_ibss, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_ibss_params *params), TP_ARGS(wiphy, netdev, params), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(bssid) __array(char, ssid, IEEE80211_MAX_SSID_LEN + 1) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(bssid, params->bssid); memset(__entry->ssid, 0, IEEE80211_MAX_SSID_LEN + 1); memcpy(__entry->ssid, params->ssid, params->ssid_len); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", bssid: " MAC_PR_FMT ", ssid: %s", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(bssid), __entry->ssid) ); TRACE_EVENT(rdev_join_ocb, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const struct ocb_setup *setup), TP_ARGS(wiphy, netdev, setup), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG) ); TRACE_EVENT(rdev_set_wiphy_params, TP_PROTO(struct wiphy *wiphy, u32 changed), TP_ARGS(wiphy, changed), TP_STRUCT__entry( WIPHY_ENTRY __field(u32, changed) ), TP_fast_assign( WIPHY_ASSIGN; __entry->changed = changed; ), TP_printk(WIPHY_PR_FMT ", changed: %u", WIPHY_PR_ARG, __entry->changed) ); DEFINE_EVENT(wiphy_wdev_evt, rdev_get_tx_power, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev), TP_ARGS(wiphy, wdev) ); TRACE_EVENT(rdev_set_tx_power, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, enum nl80211_tx_power_setting type, int mbm), TP_ARGS(wiphy, wdev, type, mbm), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY __field(enum nl80211_tx_power_setting, type) __field(int, mbm) ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; __entry->type = type; __entry->mbm = mbm; ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT ", type: %u, mbm: %d", WIPHY_PR_ARG, WDEV_PR_ARG,__entry->type, __entry->mbm) ); TRACE_EVENT(rdev_return_int_int, TP_PROTO(struct wiphy *wiphy, int func_ret, int func_fill), TP_ARGS(wiphy, func_ret, func_fill), TP_STRUCT__entry( WIPHY_ENTRY __field(int, func_ret) __field(int, func_fill) ), TP_fast_assign( WIPHY_ASSIGN; __entry->func_ret = func_ret; __entry->func_fill = func_fill; ), TP_printk(WIPHY_PR_FMT ", function returns: %d, function filled: %d", WIPHY_PR_ARG, __entry->func_ret, __entry->func_fill) ); #ifdef CONFIG_NL80211_TESTMODE TRACE_EVENT(rdev_testmode_cmd, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev), TP_ARGS(wiphy, wdev), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; ), TP_printk(WIPHY_PR_FMT WDEV_PR_FMT, WIPHY_PR_ARG, WDEV_PR_ARG) ); TRACE_EVENT(rdev_testmode_dump, TP_PROTO(struct wiphy *wiphy), TP_ARGS(wiphy), TP_STRUCT__entry( WIPHY_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; ), TP_printk(WIPHY_PR_FMT, WIPHY_PR_ARG) ); #endif /* CONFIG_NL80211_TESTMODE */ TRACE_EVENT(rdev_set_bitrate_mask, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const u8 *peer, const struct cfg80211_bitrate_mask *mask), TP_ARGS(wiphy, netdev, peer, mask), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(peer) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(peer, peer); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", peer: " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(peer)) ); TRACE_EVENT(rdev_update_mgmt_frame_registrations, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, struct mgmt_frame_regs *upd), TP_ARGS(wiphy, wdev, upd), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY __field(u16, global_stypes) __field(u16, interface_stypes) ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; __entry->global_stypes = upd->global_stypes; __entry->interface_stypes = upd->interface_stypes; ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT ", global: 0x%.2x, intf: 0x%.2x", WIPHY_PR_ARG, WDEV_PR_ARG, __entry->global_stypes, __entry->interface_stypes) ); TRACE_EVENT(rdev_return_int_tx_rx, TP_PROTO(struct wiphy *wiphy, int ret, u32 tx, u32 rx), TP_ARGS(wiphy, ret, tx, rx), TP_STRUCT__entry( WIPHY_ENTRY __field(int, ret) __field(u32, tx) __field(u32, rx) ), TP_fast_assign( WIPHY_ASSIGN; __entry->ret = ret; __entry->tx = tx; __entry->rx = rx; ), TP_printk(WIPHY_PR_FMT ", returned %d, tx: %u, rx: %u", WIPHY_PR_ARG, __entry->ret, __entry->tx, __entry->rx) ); TRACE_EVENT(rdev_return_void_tx_rx, TP_PROTO(struct wiphy *wiphy, u32 tx, u32 tx_max, u32 rx, u32 rx_max), TP_ARGS(wiphy, tx, tx_max, rx, rx_max), TP_STRUCT__entry( WIPHY_ENTRY __field(u32, tx) __field(u32, tx_max) __field(u32, rx) __field(u32, rx_max) ), TP_fast_assign( WIPHY_ASSIGN; __entry->tx = tx; __entry->tx_max = tx_max; __entry->rx = rx; __entry->rx_max = rx_max; ), TP_printk(WIPHY_PR_FMT ", tx: %u, tx_max: %u, rx: %u, rx_max: %u ", WIPHY_PR_ARG, __entry->tx, __entry->tx_max, __entry->rx, __entry->rx_max) ); DECLARE_EVENT_CLASS(tx_rx_evt, TP_PROTO(struct wiphy *wiphy, u32 tx, u32 rx), TP_ARGS(wiphy, rx, tx), TP_STRUCT__entry( WIPHY_ENTRY __field(u32, tx) __field(u32, rx) ), TP_fast_assign( WIPHY_ASSIGN; __entry->tx = tx; __entry->rx = rx; ), TP_printk(WIPHY_PR_FMT ", tx: %u, rx: %u ", WIPHY_PR_ARG, __entry->tx, __entry->rx) ); DEFINE_EVENT(tx_rx_evt, rdev_set_antenna, TP_PROTO(struct wiphy *wiphy, u32 tx, u32 rx), TP_ARGS(wiphy, rx, tx) ); DECLARE_EVENT_CLASS(wiphy_netdev_id_evt, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u64 id), TP_ARGS(wiphy, netdev, id), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(u64, id) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->id = id; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", id: %llu", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->id) ); DEFINE_EVENT(wiphy_netdev_id_evt, rdev_sched_scan_start, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u64 id), TP_ARGS(wiphy, netdev, id) ); DEFINE_EVENT(wiphy_netdev_id_evt, rdev_sched_scan_stop, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u64 id), TP_ARGS(wiphy, netdev, id) ); TRACE_EVENT(rdev_tdls_mgmt, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 *peer, u8 action_code, u8 dialog_token, u16 status_code, u32 peer_capability, bool initiator, const u8 *buf, size_t len), TP_ARGS(wiphy, netdev, peer, action_code, dialog_token, status_code, peer_capability, initiator, buf, len), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(peer) __field(u8, action_code) __field(u8, dialog_token) __field(u16, status_code) __field(u32, peer_capability) __field(bool, initiator) __dynamic_array(u8, buf, len) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(peer, peer); __entry->action_code = action_code; __entry->dialog_token = dialog_token; __entry->status_code = status_code; __entry->peer_capability = peer_capability; __entry->initiator = initiator; memcpy(__get_dynamic_array(buf), buf, len); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " MAC_PR_FMT ", action_code: %u, " "dialog_token: %u, status_code: %u, peer_capability: %u " "initiator: %s buf: %#.2x ", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(peer), __entry->action_code, __entry->dialog_token, __entry->status_code, __entry->peer_capability, BOOL_TO_STR(__entry->initiator), ((u8 *)__get_dynamic_array(buf))[0]) ); TRACE_EVENT(rdev_dump_survey, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, int _idx), TP_ARGS(wiphy, netdev, _idx), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(int, idx) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->idx = _idx; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", index: %d", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->idx) ); TRACE_EVENT(rdev_return_int_survey_info, TP_PROTO(struct wiphy *wiphy, int ret, struct survey_info *info), TP_ARGS(wiphy, ret, info), TP_STRUCT__entry( WIPHY_ENTRY CHAN_ENTRY __field(int, ret) __field(u64, time) __field(u64, time_busy) __field(u64, time_ext_busy) __field(u64, time_rx) __field(u64, time_tx) __field(u64, time_scan) __field(u32, filled) __field(s8, noise) ), TP_fast_assign( WIPHY_ASSIGN; CHAN_ASSIGN(info->channel); __entry->ret = ret; __entry->time = info->time; __entry->time_busy = info->time_busy; __entry->time_ext_busy = info->time_ext_busy; __entry->time_rx = info->time_rx; __entry->time_tx = info->time_tx; __entry->time_scan = info->time_scan; __entry->filled = info->filled; __entry->noise = info->noise; ), TP_printk(WIPHY_PR_FMT ", returned: %d, " CHAN_PR_FMT ", channel time: %llu, channel time busy: %llu, " "channel time extension busy: %llu, channel time rx: %llu, " "channel time tx: %llu, scan time: %llu, filled: %u, noise: %d", WIPHY_PR_ARG, __entry->ret, CHAN_PR_ARG, __entry->time, __entry->time_busy, __entry->time_ext_busy, __entry->time_rx, __entry->time_tx, __entry->time_scan, __entry->filled, __entry->noise) ); TRACE_EVENT(rdev_tdls_oper, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 *peer, enum nl80211_tdls_operation oper), TP_ARGS(wiphy, netdev, peer, oper), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(peer) __field(enum nl80211_tdls_operation, oper) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(peer, peer); __entry->oper = oper; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " MAC_PR_FMT ", oper: %d", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(peer), __entry->oper) ); DECLARE_EVENT_CLASS(rdev_pmksa, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_pmksa *pmksa), TP_ARGS(wiphy, netdev, pmksa), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(bssid) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(bssid, pmksa->bssid); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", bssid: " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(bssid)) ); TRACE_EVENT(rdev_probe_client, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const u8 *peer), TP_ARGS(wiphy, netdev, peer), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(peer) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(peer, peer); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(peer)) ); DEFINE_EVENT(rdev_pmksa, rdev_set_pmksa, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_pmksa *pmksa), TP_ARGS(wiphy, netdev, pmksa) ); DEFINE_EVENT(rdev_pmksa, rdev_del_pmksa, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_pmksa *pmksa), TP_ARGS(wiphy, netdev, pmksa) ); TRACE_EVENT(rdev_remain_on_channel, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, struct ieee80211_channel *chan, unsigned int duration), TP_ARGS(wiphy, wdev, chan, duration), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY CHAN_ENTRY __field(unsigned int, duration) ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; CHAN_ASSIGN(chan); __entry->duration = duration; ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT ", " CHAN_PR_FMT ", duration: %u", WIPHY_PR_ARG, WDEV_PR_ARG, CHAN_PR_ARG, __entry->duration) ); TRACE_EVENT(rdev_return_int_cookie, TP_PROTO(struct wiphy *wiphy, int ret, u64 cookie), TP_ARGS(wiphy, ret, cookie), TP_STRUCT__entry( WIPHY_ENTRY __field(int, ret) __field(u64, cookie) ), TP_fast_assign( WIPHY_ASSIGN; __entry->ret = ret; __entry->cookie = cookie; ), TP_printk(WIPHY_PR_FMT ", returned %d, cookie: %llu", WIPHY_PR_ARG, __entry->ret, __entry->cookie) ); TRACE_EVENT(rdev_cancel_remain_on_channel, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, u64 cookie), TP_ARGS(wiphy, wdev, cookie), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY __field(u64, cookie) ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; __entry->cookie = cookie; ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT ", cookie: %llu", WIPHY_PR_ARG, WDEV_PR_ARG, __entry->cookie) ); TRACE_EVENT(rdev_mgmt_tx, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, struct cfg80211_mgmt_tx_params *params), TP_ARGS(wiphy, wdev, params), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY CHAN_ENTRY __field(bool, offchan) __field(unsigned int, wait) __field(bool, no_cck) __field(bool, dont_wait_for_ack) ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; CHAN_ASSIGN(params->chan); __entry->offchan = params->offchan; __entry->wait = params->wait; __entry->no_cck = params->no_cck; __entry->dont_wait_for_ack = params->dont_wait_for_ack; ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT ", " CHAN_PR_FMT ", offchan: %s," " wait: %u, no cck: %s, dont wait for ack: %s", WIPHY_PR_ARG, WDEV_PR_ARG, CHAN_PR_ARG, BOOL_TO_STR(__entry->offchan), __entry->wait, BOOL_TO_STR(__entry->no_cck), BOOL_TO_STR(__entry->dont_wait_for_ack)) ); TRACE_EVENT(rdev_tx_control_port, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const u8 *buf, size_t len, const u8 *dest, __be16 proto, bool unencrypted), TP_ARGS(wiphy, netdev, buf, len, dest, proto, unencrypted), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(dest) __field(__be16, proto) __field(bool, unencrypted) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(dest, dest); __entry->proto = proto; __entry->unencrypted = unencrypted; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " MAC_PR_FMT "," " proto: 0x%x, unencrypted: %s", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(dest), be16_to_cpu(__entry->proto), BOOL_TO_STR(__entry->unencrypted)) ); TRACE_EVENT(rdev_set_noack_map, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u16 noack_map), TP_ARGS(wiphy, netdev, noack_map), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(u16, noack_map) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->noack_map = noack_map; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", noack_map: %u", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->noack_map) ); DEFINE_EVENT(wiphy_wdev_evt, rdev_get_channel, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev), TP_ARGS(wiphy, wdev) ); TRACE_EVENT(rdev_return_chandef, TP_PROTO(struct wiphy *wiphy, int ret, struct cfg80211_chan_def *chandef), TP_ARGS(wiphy, ret, chandef), TP_STRUCT__entry( WIPHY_ENTRY __field(int, ret) CHAN_DEF_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; if (ret == 0) CHAN_DEF_ASSIGN(chandef); else CHAN_DEF_ASSIGN((struct cfg80211_chan_def *)NULL); __entry->ret = ret; ), TP_printk(WIPHY_PR_FMT ", " CHAN_DEF_PR_FMT ", ret: %d", WIPHY_PR_ARG, CHAN_DEF_PR_ARG, __entry->ret) ); DEFINE_EVENT(wiphy_wdev_evt, rdev_start_p2p_device, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev), TP_ARGS(wiphy, wdev) ); DEFINE_EVENT(wiphy_wdev_evt, rdev_stop_p2p_device, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev), TP_ARGS(wiphy, wdev) ); TRACE_EVENT(rdev_start_nan, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, struct cfg80211_nan_conf *conf), TP_ARGS(wiphy, wdev, conf), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY __field(u8, master_pref) __field(u8, bands) ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; __entry->master_pref = conf->master_pref; __entry->bands = conf->bands; ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT ", master preference: %u, bands: 0x%0x", WIPHY_PR_ARG, WDEV_PR_ARG, __entry->master_pref, __entry->bands) ); TRACE_EVENT(rdev_nan_change_conf, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, struct cfg80211_nan_conf *conf, u32 changes), TP_ARGS(wiphy, wdev, conf, changes), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY __field(u8, master_pref) __field(u8, bands) __field(u32, changes) ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; __entry->master_pref = conf->master_pref; __entry->bands = conf->bands; __entry->changes = changes; ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT ", master preference: %u, bands: 0x%0x, changes: %x", WIPHY_PR_ARG, WDEV_PR_ARG, __entry->master_pref, __entry->bands, __entry->changes) ); DEFINE_EVENT(wiphy_wdev_evt, rdev_stop_nan, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev), TP_ARGS(wiphy, wdev) ); TRACE_EVENT(rdev_add_nan_func, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, const struct cfg80211_nan_func *func), TP_ARGS(wiphy, wdev, func), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY __field(u8, func_type) __field(u64, cookie) ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; __entry->func_type = func->type; __entry->cookie = func->cookie ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT ", type=%u, cookie=%llu", WIPHY_PR_ARG, WDEV_PR_ARG, __entry->func_type, __entry->cookie) ); TRACE_EVENT(rdev_del_nan_func, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, u64 cookie), TP_ARGS(wiphy, wdev, cookie), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY __field(u64, cookie) ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; __entry->cookie = cookie; ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT ", cookie=%llu", WIPHY_PR_ARG, WDEV_PR_ARG, __entry->cookie) ); TRACE_EVENT(rdev_set_mac_acl, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_acl_data *params), TP_ARGS(wiphy, netdev, params), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(u32, acl_policy) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->acl_policy = params->acl_policy; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", acl policy: %d", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->acl_policy) ); TRACE_EVENT(rdev_update_ft_ies, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_update_ft_ies_params *ftie), TP_ARGS(wiphy, netdev, ftie), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(u16, md) __dynamic_array(u8, ie, ftie->ie_len) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->md = ftie->md; memcpy(__get_dynamic_array(ie), ftie->ie, ftie->ie_len); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", md: 0x%x", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->md) ); TRACE_EVENT(rdev_crit_proto_start, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, enum nl80211_crit_proto_id protocol, u16 duration), TP_ARGS(wiphy, wdev, protocol, duration), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY __field(u16, proto) __field(u16, duration) ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; __entry->proto = protocol; __entry->duration = duration; ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT ", proto=%x, duration=%u", WIPHY_PR_ARG, WDEV_PR_ARG, __entry->proto, __entry->duration) ); TRACE_EVENT(rdev_crit_proto_stop, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev), TP_ARGS(wiphy, wdev), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT, WIPHY_PR_ARG, WDEV_PR_ARG) ); TRACE_EVENT(rdev_channel_switch, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_csa_settings *params), TP_ARGS(wiphy, netdev, params), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY CHAN_DEF_ENTRY __field(bool, radar_required) __field(bool, block_tx) __field(u8, count) __dynamic_array(u16, bcn_ofs, params->n_counter_offsets_beacon) __dynamic_array(u16, pres_ofs, params->n_counter_offsets_presp) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; CHAN_DEF_ASSIGN(&params->chandef); __entry->radar_required = params->radar_required; __entry->block_tx = params->block_tx; __entry->count = params->count; memcpy(__get_dynamic_array(bcn_ofs), params->counter_offsets_beacon, params->n_counter_offsets_beacon * sizeof(u16)); /* probe response offsets are optional */ if (params->n_counter_offsets_presp) memcpy(__get_dynamic_array(pres_ofs), params->counter_offsets_presp, params->n_counter_offsets_presp * sizeof(u16)); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " CHAN_DEF_PR_FMT ", block_tx: %d, count: %u, radar_required: %d", WIPHY_PR_ARG, NETDEV_PR_ARG, CHAN_DEF_PR_ARG, __entry->block_tx, __entry->count, __entry->radar_required) ); TRACE_EVENT(rdev_set_qos_map, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_qos_map *qos_map), TP_ARGS(wiphy, netdev, qos_map), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY QOS_MAP_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; QOS_MAP_ASSIGN(qos_map); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", num_des: %u", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->num_des) ); TRACE_EVENT(rdev_set_ap_chanwidth, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_chan_def *chandef), TP_ARGS(wiphy, netdev, chandef), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY CHAN_DEF_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; CHAN_DEF_ASSIGN(chandef); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " CHAN_DEF_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, CHAN_DEF_PR_ARG) ); TRACE_EVENT(rdev_add_tx_ts, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 tsid, const u8 *peer, u8 user_prio, u16 admitted_time), TP_ARGS(wiphy, netdev, tsid, peer, user_prio, admitted_time), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(peer) __field(u8, tsid) __field(u8, user_prio) __field(u16, admitted_time) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(peer, peer); __entry->tsid = tsid; __entry->user_prio = user_prio; __entry->admitted_time = admitted_time; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " MAC_PR_FMT ", TSID %d, UP %d, time %d", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(peer), __entry->tsid, __entry->user_prio, __entry->admitted_time) ); TRACE_EVENT(rdev_del_tx_ts, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, u8 tsid, const u8 *peer), TP_ARGS(wiphy, netdev, tsid, peer), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(peer) __field(u8, tsid) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(peer, peer); __entry->tsid = tsid; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " MAC_PR_FMT ", TSID %d", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(peer), __entry->tsid) ); TRACE_EVENT(rdev_tdls_channel_switch, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const u8 *addr, u8 oper_class, struct cfg80211_chan_def *chandef), TP_ARGS(wiphy, netdev, addr, oper_class, chandef), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(addr) __field(u8, oper_class) CHAN_DEF_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(addr, addr); CHAN_DEF_ASSIGN(chandef); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " MAC_PR_FMT " oper class %d, " CHAN_DEF_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(addr), __entry->oper_class, CHAN_DEF_PR_ARG) ); TRACE_EVENT(rdev_tdls_cancel_channel_switch, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const u8 *addr), TP_ARGS(wiphy, netdev, addr), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(addr) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(addr, addr); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(addr)) ); TRACE_EVENT(rdev_set_pmk, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_pmk_conf *pmk_conf), TP_ARGS(wiphy, netdev, pmk_conf), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(aa) __field(u8, pmk_len) __field(u8, pmk_r0_name_len) __dynamic_array(u8, pmk, pmk_conf->pmk_len) __dynamic_array(u8, pmk_r0_name, WLAN_PMK_NAME_LEN) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(aa, pmk_conf->aa); __entry->pmk_len = pmk_conf->pmk_len; __entry->pmk_r0_name_len = pmk_conf->pmk_r0_name ? WLAN_PMK_NAME_LEN : 0; memcpy(__get_dynamic_array(pmk), pmk_conf->pmk, pmk_conf->pmk_len); memcpy(__get_dynamic_array(pmk_r0_name), pmk_conf->pmk_r0_name, pmk_conf->pmk_r0_name ? WLAN_PMK_NAME_LEN : 0); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " MAC_PR_FMT "pmk_len=%u, pmk: %s pmk_r0_name: %s", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(aa), __entry->pmk_len, __print_array(__get_dynamic_array(pmk), __get_dynamic_array_len(pmk), 1), __entry->pmk_r0_name_len ? __print_array(__get_dynamic_array(pmk_r0_name), __get_dynamic_array_len(pmk_r0_name), 1) : "") ); TRACE_EVENT(rdev_del_pmk, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const u8 *aa), TP_ARGS(wiphy, netdev, aa), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(aa) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(aa, aa); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(aa)) ); TRACE_EVENT(rdev_external_auth, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_external_auth_params *params), TP_ARGS(wiphy, netdev, params), TP_STRUCT__entry(WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(bssid) __array(u8, ssid, IEEE80211_MAX_SSID_LEN + 1) __field(u16, status) ), TP_fast_assign(WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(bssid, params->bssid); memset(__entry->ssid, 0, IEEE80211_MAX_SSID_LEN + 1); memcpy(__entry->ssid, params->ssid.ssid, params->ssid.ssid_len); __entry->status = params->status; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", bssid: " MAC_PR_FMT ", ssid: %s, status: %u", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->bssid, __entry->ssid, __entry->status) ); TRACE_EVENT(rdev_start_radar_detection, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_chan_def *chandef, u32 cac_time_ms), TP_ARGS(wiphy, netdev, chandef, cac_time_ms), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY CHAN_DEF_ENTRY __field(u32, cac_time_ms) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; CHAN_DEF_ASSIGN(chandef); __entry->cac_time_ms = cac_time_ms; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " CHAN_DEF_PR_FMT ", cac_time_ms=%u", WIPHY_PR_ARG, NETDEV_PR_ARG, CHAN_DEF_PR_ARG, __entry->cac_time_ms) ); TRACE_EVENT(rdev_set_mcast_rate, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, int *mcast_rate), TP_ARGS(wiphy, netdev, mcast_rate), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __array(int, mcast_rate, NUM_NL80211_BANDS) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; memcpy(__entry->mcast_rate, mcast_rate, sizeof(int) * NUM_NL80211_BANDS); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " "mcast_rates [2.4GHz=0x%x, 5.2GHz=0x%x, 6GHz=0x%x, 60GHz=0x%x]", WIPHY_PR_ARG, NETDEV_PR_ARG, __entry->mcast_rate[NL80211_BAND_2GHZ], __entry->mcast_rate[NL80211_BAND_5GHZ], __entry->mcast_rate[NL80211_BAND_6GHZ], __entry->mcast_rate[NL80211_BAND_60GHZ]) ); TRACE_EVENT(rdev_set_coalesce, TP_PROTO(struct wiphy *wiphy, struct cfg80211_coalesce *coalesce), TP_ARGS(wiphy, coalesce), TP_STRUCT__entry( WIPHY_ENTRY __field(int, n_rules) ), TP_fast_assign( WIPHY_ASSIGN; __entry->n_rules = coalesce ? coalesce->n_rules : 0; ), TP_printk(WIPHY_PR_FMT ", n_rules=%d", WIPHY_PR_ARG, __entry->n_rules) ); DEFINE_EVENT(wiphy_wdev_evt, rdev_abort_scan, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev), TP_ARGS(wiphy, wdev) ); TRACE_EVENT(rdev_set_multicast_to_unicast, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const bool enabled), TP_ARGS(wiphy, netdev, enabled), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(bool, enabled) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->enabled = enabled; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", unicast: %s", WIPHY_PR_ARG, NETDEV_PR_ARG, BOOL_TO_STR(__entry->enabled)) ); DEFINE_EVENT(wiphy_wdev_evt, rdev_get_txq_stats, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev), TP_ARGS(wiphy, wdev) ); TRACE_EVENT(rdev_get_ftm_responder_stats, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_ftm_responder_stats *ftm_stats), TP_ARGS(wiphy, netdev, ftm_stats), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __field(u64, timestamp) __field(u32, success_num) __field(u32, partial_num) __field(u32, failed_num) __field(u32, asap_num) __field(u32, non_asap_num) __field(u64, duration) __field(u32, unknown_triggers) __field(u32, reschedule) __field(u32, out_of_window) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; __entry->success_num = ftm_stats->success_num; __entry->partial_num = ftm_stats->partial_num; __entry->failed_num = ftm_stats->failed_num; __entry->asap_num = ftm_stats->asap_num; __entry->non_asap_num = ftm_stats->non_asap_num; __entry->duration = ftm_stats->total_duration_ms; __entry->unknown_triggers = ftm_stats->unknown_triggers_num; __entry->reschedule = ftm_stats->reschedule_requests_num; __entry->out_of_window = ftm_stats->out_of_window_triggers_num; ), TP_printk(WIPHY_PR_FMT "Ftm responder stats: success %u, partial %u, " "failed %u, asap %u, non asap %u, total duration %llu, unknown " "triggers %u, rescheduled %u, out of window %u", WIPHY_PR_ARG, __entry->success_num, __entry->partial_num, __entry->failed_num, __entry->asap_num, __entry->non_asap_num, __entry->duration, __entry->unknown_triggers, __entry->reschedule, __entry->out_of_window) ); DEFINE_EVENT(wiphy_wdev_cookie_evt, rdev_start_pmsr, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, u64 cookie), TP_ARGS(wiphy, wdev, cookie) ); DEFINE_EVENT(wiphy_wdev_cookie_evt, rdev_abort_pmsr, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, u64 cookie), TP_ARGS(wiphy, wdev, cookie) ); /************************************************************* * cfg80211 exported functions traces * *************************************************************/ TRACE_EVENT(cfg80211_return_bool, TP_PROTO(bool ret), TP_ARGS(ret), TP_STRUCT__entry( __field(bool, ret) ), TP_fast_assign( __entry->ret = ret; ), TP_printk("returned %s", BOOL_TO_STR(__entry->ret)) ); DECLARE_EVENT_CLASS(cfg80211_netdev_mac_evt, TP_PROTO(struct net_device *netdev, const u8 *macaddr), TP_ARGS(netdev, macaddr), TP_STRUCT__entry( NETDEV_ENTRY MAC_ENTRY(macaddr) ), TP_fast_assign( NETDEV_ASSIGN; MAC_ASSIGN(macaddr, macaddr); ), TP_printk(NETDEV_PR_FMT ", mac: " MAC_PR_FMT, NETDEV_PR_ARG, MAC_PR_ARG(macaddr)) ); DEFINE_EVENT(cfg80211_netdev_mac_evt, cfg80211_notify_new_peer_candidate, TP_PROTO(struct net_device *netdev, const u8 *macaddr), TP_ARGS(netdev, macaddr) ); DECLARE_EVENT_CLASS(netdev_evt_only, TP_PROTO(struct net_device *netdev), TP_ARGS(netdev), TP_STRUCT__entry( NETDEV_ENTRY ), TP_fast_assign( NETDEV_ASSIGN; ), TP_printk(NETDEV_PR_FMT , NETDEV_PR_ARG) ); DEFINE_EVENT(netdev_evt_only, cfg80211_send_rx_auth, TP_PROTO(struct net_device *netdev), TP_ARGS(netdev) ); TRACE_EVENT(cfg80211_send_rx_assoc, TP_PROTO(struct net_device *netdev, struct cfg80211_bss *bss), TP_ARGS(netdev, bss), TP_STRUCT__entry( NETDEV_ENTRY MAC_ENTRY(bssid) CHAN_ENTRY ), TP_fast_assign( NETDEV_ASSIGN; MAC_ASSIGN(bssid, bss->bssid); CHAN_ASSIGN(bss->channel); ), TP_printk(NETDEV_PR_FMT ", " MAC_PR_FMT ", " CHAN_PR_FMT, NETDEV_PR_ARG, MAC_PR_ARG(bssid), CHAN_PR_ARG) ); DECLARE_EVENT_CLASS(netdev_frame_event, TP_PROTO(struct net_device *netdev, const u8 *buf, int len), TP_ARGS(netdev, buf, len), TP_STRUCT__entry( NETDEV_ENTRY __dynamic_array(u8, frame, len) ), TP_fast_assign( NETDEV_ASSIGN; memcpy(__get_dynamic_array(frame), buf, len); ), TP_printk(NETDEV_PR_FMT ", ftype:0x%.2x", NETDEV_PR_ARG, le16_to_cpup((__le16 *)__get_dynamic_array(frame))) ); DEFINE_EVENT(netdev_frame_event, cfg80211_rx_unprot_mlme_mgmt, TP_PROTO(struct net_device *netdev, const u8 *buf, int len), TP_ARGS(netdev, buf, len) ); DEFINE_EVENT(netdev_frame_event, cfg80211_rx_mlme_mgmt, TP_PROTO(struct net_device *netdev, const u8 *buf, int len), TP_ARGS(netdev, buf, len) ); TRACE_EVENT(cfg80211_tx_mlme_mgmt, TP_PROTO(struct net_device *netdev, const u8 *buf, int len), TP_ARGS(netdev, buf, len), TP_STRUCT__entry( NETDEV_ENTRY __dynamic_array(u8, frame, len) ), TP_fast_assign( NETDEV_ASSIGN; memcpy(__get_dynamic_array(frame), buf, len); ), TP_printk(NETDEV_PR_FMT ", ftype:0x%.2x", NETDEV_PR_ARG, le16_to_cpup((__le16 *)__get_dynamic_array(frame))) ); DECLARE_EVENT_CLASS(netdev_mac_evt, TP_PROTO(struct net_device *netdev, const u8 *mac), TP_ARGS(netdev, mac), TP_STRUCT__entry( NETDEV_ENTRY MAC_ENTRY(mac) ), TP_fast_assign( NETDEV_ASSIGN; MAC_ASSIGN(mac, mac) ), TP_printk(NETDEV_PR_FMT ", mac: " MAC_PR_FMT, NETDEV_PR_ARG, MAC_PR_ARG(mac)) ); DEFINE_EVENT(netdev_mac_evt, cfg80211_send_auth_timeout, TP_PROTO(struct net_device *netdev, const u8 *mac), TP_ARGS(netdev, mac) ); DEFINE_EVENT(netdev_mac_evt, cfg80211_send_assoc_timeout, TP_PROTO(struct net_device *netdev, const u8 *mac), TP_ARGS(netdev, mac) ); TRACE_EVENT(cfg80211_michael_mic_failure, TP_PROTO(struct net_device *netdev, const u8 *addr, enum nl80211_key_type key_type, int key_id, const u8 *tsc), TP_ARGS(netdev, addr, key_type, key_id, tsc), TP_STRUCT__entry( NETDEV_ENTRY MAC_ENTRY(addr) __field(enum nl80211_key_type, key_type) __field(int, key_id) __array(u8, tsc, 6) ), TP_fast_assign( NETDEV_ASSIGN; MAC_ASSIGN(addr, addr); __entry->key_type = key_type; __entry->key_id = key_id; if (tsc) memcpy(__entry->tsc, tsc, 6); ), TP_printk(NETDEV_PR_FMT ", " MAC_PR_FMT ", key type: %d, key id: %d, tsc: %pm", NETDEV_PR_ARG, MAC_PR_ARG(addr), __entry->key_type, __entry->key_id, __entry->tsc) ); TRACE_EVENT(cfg80211_ready_on_channel, TP_PROTO(struct wireless_dev *wdev, u64 cookie, struct ieee80211_channel *chan, unsigned int duration), TP_ARGS(wdev, cookie, chan, duration), TP_STRUCT__entry( WDEV_ENTRY __field(u64, cookie) CHAN_ENTRY __field(unsigned int, duration) ), TP_fast_assign( WDEV_ASSIGN; __entry->cookie = cookie; CHAN_ASSIGN(chan); __entry->duration = duration; ), TP_printk(WDEV_PR_FMT ", cookie: %llu, " CHAN_PR_FMT ", duration: %u", WDEV_PR_ARG, __entry->cookie, CHAN_PR_ARG, __entry->duration) ); TRACE_EVENT(cfg80211_ready_on_channel_expired, TP_PROTO(struct wireless_dev *wdev, u64 cookie, struct ieee80211_channel *chan), TP_ARGS(wdev, cookie, chan), TP_STRUCT__entry( WDEV_ENTRY __field(u64, cookie) CHAN_ENTRY ), TP_fast_assign( WDEV_ASSIGN; __entry->cookie = cookie; CHAN_ASSIGN(chan); ), TP_printk(WDEV_PR_FMT ", cookie: %llu, " CHAN_PR_FMT, WDEV_PR_ARG, __entry->cookie, CHAN_PR_ARG) ); TRACE_EVENT(cfg80211_tx_mgmt_expired, TP_PROTO(struct wireless_dev *wdev, u64 cookie, struct ieee80211_channel *chan), TP_ARGS(wdev, cookie, chan), TP_STRUCT__entry( WDEV_ENTRY __field(u64, cookie) CHAN_ENTRY ), TP_fast_assign( WDEV_ASSIGN; __entry->cookie = cookie; CHAN_ASSIGN(chan); ), TP_printk(WDEV_PR_FMT ", cookie: %llu, " CHAN_PR_FMT, WDEV_PR_ARG, __entry->cookie, CHAN_PR_ARG) ); TRACE_EVENT(cfg80211_new_sta, TP_PROTO(struct net_device *netdev, const u8 *mac_addr, struct station_info *sinfo), TP_ARGS(netdev, mac_addr, sinfo), TP_STRUCT__entry( NETDEV_ENTRY MAC_ENTRY(mac_addr) SINFO_ENTRY ), TP_fast_assign( NETDEV_ASSIGN; MAC_ASSIGN(mac_addr, mac_addr); SINFO_ASSIGN; ), TP_printk(NETDEV_PR_FMT ", " MAC_PR_FMT, NETDEV_PR_ARG, MAC_PR_ARG(mac_addr)) ); DEFINE_EVENT(cfg80211_netdev_mac_evt, cfg80211_del_sta, TP_PROTO(struct net_device *netdev, const u8 *macaddr), TP_ARGS(netdev, macaddr) ); TRACE_EVENT(cfg80211_rx_mgmt, TP_PROTO(struct wireless_dev *wdev, int freq, int sig_dbm), TP_ARGS(wdev, freq, sig_dbm), TP_STRUCT__entry( WDEV_ENTRY __field(int, freq) __field(int, sig_dbm) ), TP_fast_assign( WDEV_ASSIGN; __entry->freq = freq; __entry->sig_dbm = sig_dbm; ), TP_printk(WDEV_PR_FMT ", freq: "KHZ_F", sig dbm: %d", WDEV_PR_ARG, PR_KHZ(__entry->freq), __entry->sig_dbm) ); TRACE_EVENT(cfg80211_mgmt_tx_status, TP_PROTO(struct wireless_dev *wdev, u64 cookie, bool ack), TP_ARGS(wdev, cookie, ack), TP_STRUCT__entry( WDEV_ENTRY __field(u64, cookie) __field(bool, ack) ), TP_fast_assign( WDEV_ASSIGN; __entry->cookie = cookie; __entry->ack = ack; ), TP_printk(WDEV_PR_FMT", cookie: %llu, ack: %s", WDEV_PR_ARG, __entry->cookie, BOOL_TO_STR(__entry->ack)) ); TRACE_EVENT(cfg80211_control_port_tx_status, TP_PROTO(struct wireless_dev *wdev, u64 cookie, bool ack), TP_ARGS(wdev, cookie, ack), TP_STRUCT__entry( WDEV_ENTRY __field(u64, cookie) __field(bool, ack) ), TP_fast_assign( WDEV_ASSIGN; __entry->cookie = cookie; __entry->ack = ack; ), TP_printk(WDEV_PR_FMT", cookie: %llu, ack: %s", WDEV_PR_ARG, __entry->cookie, BOOL_TO_STR(__entry->ack)) ); TRACE_EVENT(cfg80211_rx_control_port, TP_PROTO(struct net_device *netdev, struct sk_buff *skb, bool unencrypted), TP_ARGS(netdev, skb, unencrypted), TP_STRUCT__entry( NETDEV_ENTRY __field(int, len) MAC_ENTRY(from) __field(u16, proto) __field(bool, unencrypted) ), TP_fast_assign( NETDEV_ASSIGN; __entry->len = skb->len; MAC_ASSIGN(from, eth_hdr(skb)->h_source); __entry->proto = be16_to_cpu(skb->protocol); __entry->unencrypted = unencrypted; ), TP_printk(NETDEV_PR_FMT ", len=%d, " MAC_PR_FMT ", proto: 0x%x, unencrypted: %s", NETDEV_PR_ARG, __entry->len, MAC_PR_ARG(from), __entry->proto, BOOL_TO_STR(__entry->unencrypted)) ); TRACE_EVENT(cfg80211_cqm_rssi_notify, TP_PROTO(struct net_device *netdev, enum nl80211_cqm_rssi_threshold_event rssi_event, s32 rssi_level), TP_ARGS(netdev, rssi_event, rssi_level), TP_STRUCT__entry( NETDEV_ENTRY __field(enum nl80211_cqm_rssi_threshold_event, rssi_event) __field(s32, rssi_level) ), TP_fast_assign( NETDEV_ASSIGN; __entry->rssi_event = rssi_event; __entry->rssi_level = rssi_level; ), TP_printk(NETDEV_PR_FMT ", rssi event: %d, level: %d", NETDEV_PR_ARG, __entry->rssi_event, __entry->rssi_level) ); TRACE_EVENT(cfg80211_reg_can_beacon, TP_PROTO(struct wiphy *wiphy, struct cfg80211_chan_def *chandef, enum nl80211_iftype iftype, bool check_no_ir), TP_ARGS(wiphy, chandef, iftype, check_no_ir), TP_STRUCT__entry( WIPHY_ENTRY CHAN_DEF_ENTRY __field(enum nl80211_iftype, iftype) __field(bool, check_no_ir) ), TP_fast_assign( WIPHY_ASSIGN; CHAN_DEF_ASSIGN(chandef); __entry->iftype = iftype; __entry->check_no_ir = check_no_ir; ), TP_printk(WIPHY_PR_FMT ", " CHAN_DEF_PR_FMT ", iftype=%d check_no_ir=%s", WIPHY_PR_ARG, CHAN_DEF_PR_ARG, __entry->iftype, BOOL_TO_STR(__entry->check_no_ir)) ); TRACE_EVENT(cfg80211_chandef_dfs_required, TP_PROTO(struct wiphy *wiphy, struct cfg80211_chan_def *chandef), TP_ARGS(wiphy, chandef), TP_STRUCT__entry( WIPHY_ENTRY CHAN_DEF_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; CHAN_DEF_ASSIGN(chandef); ), TP_printk(WIPHY_PR_FMT ", " CHAN_DEF_PR_FMT, WIPHY_PR_ARG, CHAN_DEF_PR_ARG) ); TRACE_EVENT(cfg80211_ch_switch_notify, TP_PROTO(struct net_device *netdev, struct cfg80211_chan_def *chandef), TP_ARGS(netdev, chandef), TP_STRUCT__entry( NETDEV_ENTRY CHAN_DEF_ENTRY ), TP_fast_assign( NETDEV_ASSIGN; CHAN_DEF_ASSIGN(chandef); ), TP_printk(NETDEV_PR_FMT ", " CHAN_DEF_PR_FMT, NETDEV_PR_ARG, CHAN_DEF_PR_ARG) ); TRACE_EVENT(cfg80211_ch_switch_started_notify, TP_PROTO(struct net_device *netdev, struct cfg80211_chan_def *chandef), TP_ARGS(netdev, chandef), TP_STRUCT__entry( NETDEV_ENTRY CHAN_DEF_ENTRY ), TP_fast_assign( NETDEV_ASSIGN; CHAN_DEF_ASSIGN(chandef); ), TP_printk(NETDEV_PR_FMT ", " CHAN_DEF_PR_FMT, NETDEV_PR_ARG, CHAN_DEF_PR_ARG) ); TRACE_EVENT(cfg80211_radar_event, TP_PROTO(struct wiphy *wiphy, struct cfg80211_chan_def *chandef), TP_ARGS(wiphy, chandef), TP_STRUCT__entry( WIPHY_ENTRY CHAN_DEF_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; CHAN_DEF_ASSIGN(chandef); ), TP_printk(WIPHY_PR_FMT ", " CHAN_DEF_PR_FMT, WIPHY_PR_ARG, CHAN_DEF_PR_ARG) ); TRACE_EVENT(cfg80211_cac_event, TP_PROTO(struct net_device *netdev, enum nl80211_radar_event evt), TP_ARGS(netdev, evt), TP_STRUCT__entry( NETDEV_ENTRY __field(enum nl80211_radar_event, evt) ), TP_fast_assign( NETDEV_ASSIGN; __entry->evt = evt; ), TP_printk(NETDEV_PR_FMT ", event: %d", NETDEV_PR_ARG, __entry->evt) ); DECLARE_EVENT_CLASS(cfg80211_rx_evt, TP_PROTO(struct net_device *netdev, const u8 *addr), TP_ARGS(netdev, addr), TP_STRUCT__entry( NETDEV_ENTRY MAC_ENTRY(addr) ), TP_fast_assign( NETDEV_ASSIGN; MAC_ASSIGN(addr, addr); ), TP_printk(NETDEV_PR_FMT ", " MAC_PR_FMT, NETDEV_PR_ARG, MAC_PR_ARG(addr)) ); DEFINE_EVENT(cfg80211_rx_evt, cfg80211_rx_spurious_frame, TP_PROTO(struct net_device *netdev, const u8 *addr), TP_ARGS(netdev, addr) ); DEFINE_EVENT(cfg80211_rx_evt, cfg80211_rx_unexpected_4addr_frame, TP_PROTO(struct net_device *netdev, const u8 *addr), TP_ARGS(netdev, addr) ); TRACE_EVENT(cfg80211_ibss_joined, TP_PROTO(struct net_device *netdev, const u8 *bssid, struct ieee80211_channel *channel), TP_ARGS(netdev, bssid, channel), TP_STRUCT__entry( NETDEV_ENTRY MAC_ENTRY(bssid) CHAN_ENTRY ), TP_fast_assign( NETDEV_ASSIGN; MAC_ASSIGN(bssid, bssid); CHAN_ASSIGN(channel); ), TP_printk(NETDEV_PR_FMT ", bssid: " MAC_PR_FMT ", " CHAN_PR_FMT, NETDEV_PR_ARG, MAC_PR_ARG(bssid), CHAN_PR_ARG) ); TRACE_EVENT(cfg80211_probe_status, TP_PROTO(struct net_device *netdev, const u8 *addr, u64 cookie, bool acked), TP_ARGS(netdev, addr, cookie, acked), TP_STRUCT__entry( NETDEV_ENTRY MAC_ENTRY(addr) __field(u64, cookie) __field(bool, acked) ), TP_fast_assign( NETDEV_ASSIGN; MAC_ASSIGN(addr, addr); __entry->cookie = cookie; __entry->acked = acked; ), TP_printk(NETDEV_PR_FMT " addr:" MAC_PR_FMT ", cookie: %llu, acked: %s", NETDEV_PR_ARG, MAC_PR_ARG(addr), __entry->cookie, BOOL_TO_STR(__entry->acked)) ); TRACE_EVENT(cfg80211_cqm_pktloss_notify, TP_PROTO(struct net_device *netdev, const u8 *peer, u32 num_packets), TP_ARGS(netdev, peer, num_packets), TP_STRUCT__entry( NETDEV_ENTRY MAC_ENTRY(peer) __field(u32, num_packets) ), TP_fast_assign( NETDEV_ASSIGN; MAC_ASSIGN(peer, peer); __entry->num_packets = num_packets; ), TP_printk(NETDEV_PR_FMT ", peer: " MAC_PR_FMT ", num of lost packets: %u", NETDEV_PR_ARG, MAC_PR_ARG(peer), __entry->num_packets) ); DEFINE_EVENT(cfg80211_netdev_mac_evt, cfg80211_gtk_rekey_notify, TP_PROTO(struct net_device *netdev, const u8 *macaddr), TP_ARGS(netdev, macaddr) ); TRACE_EVENT(cfg80211_pmksa_candidate_notify, TP_PROTO(struct net_device *netdev, int index, const u8 *bssid, bool preauth), TP_ARGS(netdev, index, bssid, preauth), TP_STRUCT__entry( NETDEV_ENTRY __field(int, index) MAC_ENTRY(bssid) __field(bool, preauth) ), TP_fast_assign( NETDEV_ASSIGN; __entry->index = index; MAC_ASSIGN(bssid, bssid); __entry->preauth = preauth; ), TP_printk(NETDEV_PR_FMT ", index:%d, bssid: " MAC_PR_FMT ", pre auth: %s", NETDEV_PR_ARG, __entry->index, MAC_PR_ARG(bssid), BOOL_TO_STR(__entry->preauth)) ); TRACE_EVENT(cfg80211_report_obss_beacon, TP_PROTO(struct wiphy *wiphy, const u8 *frame, size_t len, int freq, int sig_dbm), TP_ARGS(wiphy, frame, len, freq, sig_dbm), TP_STRUCT__entry( WIPHY_ENTRY __field(int, freq) __field(int, sig_dbm) ), TP_fast_assign( WIPHY_ASSIGN; __entry->freq = freq; __entry->sig_dbm = sig_dbm; ), TP_printk(WIPHY_PR_FMT ", freq: "KHZ_F", sig_dbm: %d", WIPHY_PR_ARG, PR_KHZ(__entry->freq), __entry->sig_dbm) ); TRACE_EVENT(cfg80211_tdls_oper_request, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const u8 *peer, enum nl80211_tdls_operation oper, u16 reason_code), TP_ARGS(wiphy, netdev, peer, oper, reason_code), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(peer) __field(enum nl80211_tdls_operation, oper) __field(u16, reason_code) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(peer, peer); __entry->oper = oper; __entry->reason_code = reason_code; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", peer: " MAC_PR_FMT ", oper: %d, reason_code %u", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(peer), __entry->oper, __entry->reason_code) ); TRACE_EVENT(cfg80211_scan_done, TP_PROTO(struct cfg80211_scan_request *request, struct cfg80211_scan_info *info), TP_ARGS(request, info), TP_STRUCT__entry( __field(u32, n_channels) __dynamic_array(u8, ie, request ? request->ie_len : 0) __array(u32, rates, NUM_NL80211_BANDS) __field(u32, wdev_id) MAC_ENTRY(wiphy_mac) __field(bool, no_cck) __field(bool, aborted) __field(u64, scan_start_tsf) MAC_ENTRY(tsf_bssid) ), TP_fast_assign( if (request) { memcpy(__get_dynamic_array(ie), request->ie, request->ie_len); memcpy(__entry->rates, request->rates, NUM_NL80211_BANDS); __entry->wdev_id = request->wdev ? request->wdev->identifier : 0; if (request->wiphy) MAC_ASSIGN(wiphy_mac, request->wiphy->perm_addr); __entry->no_cck = request->no_cck; } if (info) { __entry->aborted = info->aborted; __entry->scan_start_tsf = info->scan_start_tsf; MAC_ASSIGN(tsf_bssid, info->tsf_bssid); } ), TP_printk("aborted: %s, scan start (TSF): %llu, tsf_bssid: " MAC_PR_FMT, BOOL_TO_STR(__entry->aborted), (unsigned long long)__entry->scan_start_tsf, MAC_PR_ARG(tsf_bssid)) ); DECLARE_EVENT_CLASS(wiphy_id_evt, TP_PROTO(struct wiphy *wiphy, u64 id), TP_ARGS(wiphy, id), TP_STRUCT__entry( WIPHY_ENTRY __field(u64, id) ), TP_fast_assign( WIPHY_ASSIGN; __entry->id = id; ), TP_printk(WIPHY_PR_FMT ", id: %llu", WIPHY_PR_ARG, __entry->id) ); DEFINE_EVENT(wiphy_id_evt, cfg80211_sched_scan_stopped, TP_PROTO(struct wiphy *wiphy, u64 id), TP_ARGS(wiphy, id) ); DEFINE_EVENT(wiphy_id_evt, cfg80211_sched_scan_results, TP_PROTO(struct wiphy *wiphy, u64 id), TP_ARGS(wiphy, id) ); TRACE_EVENT(cfg80211_get_bss, TP_PROTO(struct wiphy *wiphy, struct ieee80211_channel *channel, const u8 *bssid, const u8 *ssid, size_t ssid_len, enum ieee80211_bss_type bss_type, enum ieee80211_privacy privacy), TP_ARGS(wiphy, channel, bssid, ssid, ssid_len, bss_type, privacy), TP_STRUCT__entry( WIPHY_ENTRY CHAN_ENTRY MAC_ENTRY(bssid) __dynamic_array(u8, ssid, ssid_len) __field(enum ieee80211_bss_type, bss_type) __field(enum ieee80211_privacy, privacy) ), TP_fast_assign( WIPHY_ASSIGN; CHAN_ASSIGN(channel); MAC_ASSIGN(bssid, bssid); memcpy(__get_dynamic_array(ssid), ssid, ssid_len); __entry->bss_type = bss_type; __entry->privacy = privacy; ), TP_printk(WIPHY_PR_FMT ", " CHAN_PR_FMT ", " MAC_PR_FMT ", buf: %#.2x, bss_type: %d, privacy: %d", WIPHY_PR_ARG, CHAN_PR_ARG, MAC_PR_ARG(bssid), ((u8 *)__get_dynamic_array(ssid))[0], __entry->bss_type, __entry->privacy) ); TRACE_EVENT(cfg80211_inform_bss_frame, TP_PROTO(struct wiphy *wiphy, struct cfg80211_inform_bss *data, struct ieee80211_mgmt *mgmt, size_t len), TP_ARGS(wiphy, data, mgmt, len), TP_STRUCT__entry( WIPHY_ENTRY CHAN_ENTRY __field(enum nl80211_bss_scan_width, scan_width) __dynamic_array(u8, mgmt, len) __field(s32, signal) __field(u64, ts_boottime) __field(u64, parent_tsf) MAC_ENTRY(parent_bssid) ), TP_fast_assign( WIPHY_ASSIGN; CHAN_ASSIGN(data->chan); __entry->scan_width = data->scan_width; if (mgmt) memcpy(__get_dynamic_array(mgmt), mgmt, len); __entry->signal = data->signal; __entry->ts_boottime = data->boottime_ns; __entry->parent_tsf = data->parent_tsf; MAC_ASSIGN(parent_bssid, data->parent_bssid); ), TP_printk(WIPHY_PR_FMT ", " CHAN_PR_FMT "(scan_width: %d) signal: %d, tsb:%llu, detect_tsf:%llu, tsf_bssid: " MAC_PR_FMT, WIPHY_PR_ARG, CHAN_PR_ARG, __entry->scan_width, __entry->signal, (unsigned long long)__entry->ts_boottime, (unsigned long long)__entry->parent_tsf, MAC_PR_ARG(parent_bssid)) ); DECLARE_EVENT_CLASS(cfg80211_bss_evt, TP_PROTO(struct cfg80211_bss *pub), TP_ARGS(pub), TP_STRUCT__entry( MAC_ENTRY(bssid) CHAN_ENTRY ), TP_fast_assign( MAC_ASSIGN(bssid, pub->bssid); CHAN_ASSIGN(pub->channel); ), TP_printk(MAC_PR_FMT ", " CHAN_PR_FMT, MAC_PR_ARG(bssid), CHAN_PR_ARG) ); DEFINE_EVENT(cfg80211_bss_evt, cfg80211_return_bss, TP_PROTO(struct cfg80211_bss *pub), TP_ARGS(pub) ); TRACE_EVENT(cfg80211_return_uint, TP_PROTO(unsigned int ret), TP_ARGS(ret), TP_STRUCT__entry( __field(unsigned int, ret) ), TP_fast_assign( __entry->ret = ret; ), TP_printk("ret: %d", __entry->ret) ); TRACE_EVENT(cfg80211_return_u32, TP_PROTO(u32 ret), TP_ARGS(ret), TP_STRUCT__entry( __field(u32, ret) ), TP_fast_assign( __entry->ret = ret; ), TP_printk("ret: %u", __entry->ret) ); TRACE_EVENT(cfg80211_report_wowlan_wakeup, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, struct cfg80211_wowlan_wakeup *wakeup), TP_ARGS(wiphy, wdev, wakeup), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY __field(bool, non_wireless) __field(bool, disconnect) __field(bool, magic_pkt) __field(bool, gtk_rekey_failure) __field(bool, eap_identity_req) __field(bool, four_way_handshake) __field(bool, rfkill_release) __field(s32, pattern_idx) __field(u32, packet_len) __dynamic_array(u8, packet, wakeup ? wakeup->packet_present_len : 0) ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; __entry->non_wireless = !wakeup; __entry->disconnect = wakeup ? wakeup->disconnect : false; __entry->magic_pkt = wakeup ? wakeup->magic_pkt : false; __entry->gtk_rekey_failure = wakeup ? wakeup->gtk_rekey_failure : false; __entry->eap_identity_req = wakeup ? wakeup->eap_identity_req : false; __entry->four_way_handshake = wakeup ? wakeup->four_way_handshake : false; __entry->rfkill_release = wakeup ? wakeup->rfkill_release : false; __entry->pattern_idx = wakeup ? wakeup->pattern_idx : false; __entry->packet_len = wakeup ? wakeup->packet_len : false; if (wakeup && wakeup->packet && wakeup->packet_present_len) memcpy(__get_dynamic_array(packet), wakeup->packet, wakeup->packet_present_len); ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT, WIPHY_PR_ARG, WDEV_PR_ARG) ); TRACE_EVENT(cfg80211_ft_event, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_ft_event_params *ft_event), TP_ARGS(wiphy, netdev, ft_event), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY __dynamic_array(u8, ies, ft_event->ies_len) MAC_ENTRY(target_ap) __dynamic_array(u8, ric_ies, ft_event->ric_ies_len) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; if (ft_event->ies) memcpy(__get_dynamic_array(ies), ft_event->ies, ft_event->ies_len); MAC_ASSIGN(target_ap, ft_event->target_ap); if (ft_event->ric_ies) memcpy(__get_dynamic_array(ric_ies), ft_event->ric_ies, ft_event->ric_ies_len); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", target_ap: " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(target_ap)) ); TRACE_EVENT(cfg80211_stop_iface, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev), TP_ARGS(wiphy, wdev), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT, WIPHY_PR_ARG, WDEV_PR_ARG) ); TRACE_EVENT(cfg80211_pmsr_report, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, u64 cookie, const u8 *addr), TP_ARGS(wiphy, wdev, cookie, addr), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY __field(u64, cookie) MAC_ENTRY(addr) ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; __entry->cookie = cookie; MAC_ASSIGN(addr, addr); ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT ", cookie:%lld, " MAC_PR_FMT, WIPHY_PR_ARG, WDEV_PR_ARG, (unsigned long long)__entry->cookie, MAC_PR_ARG(addr)) ); TRACE_EVENT(cfg80211_pmsr_complete, TP_PROTO(struct wiphy *wiphy, struct wireless_dev *wdev, u64 cookie), TP_ARGS(wiphy, wdev, cookie), TP_STRUCT__entry( WIPHY_ENTRY WDEV_ENTRY __field(u64, cookie) ), TP_fast_assign( WIPHY_ASSIGN; WDEV_ASSIGN; __entry->cookie = cookie; ), TP_printk(WIPHY_PR_FMT ", " WDEV_PR_FMT ", cookie:%lld", WIPHY_PR_ARG, WDEV_PR_ARG, (unsigned long long)__entry->cookie) ); TRACE_EVENT(rdev_update_owe_info, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_update_owe_info *owe_info), TP_ARGS(wiphy, netdev, owe_info), TP_STRUCT__entry(WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(peer) __field(u16, status) __dynamic_array(u8, ie, owe_info->ie_len)), TP_fast_assign(WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(peer, owe_info->peer); __entry->status = owe_info->status; memcpy(__get_dynamic_array(ie), owe_info->ie, owe_info->ie_len);), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", peer: " MAC_PR_FMT " status %d", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(peer), __entry->status) ); TRACE_EVENT(cfg80211_update_owe_info_event, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_update_owe_info *owe_info), TP_ARGS(wiphy, netdev, owe_info), TP_STRUCT__entry(WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(peer) __dynamic_array(u8, ie, owe_info->ie_len)), TP_fast_assign(WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(peer, owe_info->peer); memcpy(__get_dynamic_array(ie), owe_info->ie, owe_info->ie_len);), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", peer: " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(peer)) ); TRACE_EVENT(rdev_probe_mesh_link, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const u8 *dest, const u8 *buf, size_t len), TP_ARGS(wiphy, netdev, dest, buf, len), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(dest) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(dest, dest); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(dest)) ); TRACE_EVENT(rdev_set_tid_config, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_tid_config *tid_conf), TP_ARGS(wiphy, netdev, tid_conf), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(peer) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(peer, tid_conf->peer); ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", peer: " MAC_PR_FMT, WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(peer)) ); TRACE_EVENT(rdev_reset_tid_config, TP_PROTO(struct wiphy *wiphy, struct net_device *netdev, const u8 *peer, u8 tids), TP_ARGS(wiphy, netdev, peer, tids), TP_STRUCT__entry( WIPHY_ENTRY NETDEV_ENTRY MAC_ENTRY(peer) __field(u8, tids) ), TP_fast_assign( WIPHY_ASSIGN; NETDEV_ASSIGN; MAC_ASSIGN(peer, peer); __entry->tids = tids; ), TP_printk(WIPHY_PR_FMT ", " NETDEV_PR_FMT ", peer: " MAC_PR_FMT ", tids: 0x%x", WIPHY_PR_ARG, NETDEV_PR_ARG, MAC_PR_ARG(peer), __entry->tids) ); #endif /* !__RDEV_OPS_TRACE || TRACE_HEADER_MULTI_READ */ #undef TRACE_INCLUDE_PATH #define TRACE_INCLUDE_PATH . #undef TRACE_INCLUDE_FILE #define TRACE_INCLUDE_FILE trace #include <trace/define_trace.h>
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 #ifndef _CRYPTO_GCM_H #define _CRYPTO_GCM_H #include <linux/errno.h> #define GCM_AES_IV_SIZE 12 #define GCM_RFC4106_IV_SIZE 8 #define GCM_RFC4543_IV_SIZE 8 /* * validate authentication tag for GCM */ static inline int crypto_gcm_check_authsize(unsigned int authsize) { switch (authsize) { case 4: case 8: case 12: case 13: case 14: case 15: case 16: break; default: return -EINVAL; } return 0; } /* * validate authentication tag for RFC4106 */ static inline int crypto_rfc4106_check_authsize(unsigned int authsize) { switch (authsize) { case 8: case 12: case 16: break; default: return -EINVAL; } return 0; } /* * validate assoclen for RFC4106/RFC4543 */ static inline int crypto_ipsec_check_assoclen(unsigned int assoclen) { switch (assoclen) { case 16: case 20: break; default: return -EINVAL; } return 0; } #endif
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2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 /* SPDX-License-Identifier: GPL-2.0-or-later */ /* * Copyright 2003-2005 Red Hat, Inc. All rights reserved. * Copyright 2003-2005 Jeff Garzik * * libata documentation is available via 'make {ps|pdf}docs', * as Documentation/driver-api/libata.rst */ #ifndef __LINUX_LIBATA_H__ #define __LINUX_LIBATA_H__ #include <linux/delay.h> #include <linux/jiffies.h> #include <linux/interrupt.h> #include <linux/dma-mapping.h> #include <linux/scatterlist.h> #include <linux/io.h> #include <linux/ata.h> #include <linux/workqueue.h> #include <scsi/scsi_host.h> #include <linux/acpi.h> #include <linux/cdrom.h> #include <linux/sched.h> #include <linux/async.h> /* * Define if arch has non-standard setup. This is a _PCI_ standard * not a legacy or ISA standard. */ #ifdef CONFIG_ATA_NONSTANDARD #include <asm/libata-portmap.h> #else #define ATA_PRIMARY_IRQ(dev) 14 #define ATA_SECONDARY_IRQ(dev) 15 #endif /* * compile-time options: to be removed as soon as all the drivers are * converted to the new debugging mechanism */ #undef ATA_DEBUG /* debugging output */ #undef ATA_VERBOSE_DEBUG /* yet more debugging output */ #undef ATA_IRQ_TRAP /* define to ack screaming irqs */ #undef ATA_NDEBUG /* define to disable quick runtime checks */ /* note: prints function name for you */ #ifdef ATA_DEBUG #define DPRINTK(fmt, args...) printk(KERN_ERR "%s: " fmt, __func__, ## args) #ifdef ATA_VERBOSE_DEBUG #define VPRINTK(fmt, args...) printk(KERN_ERR "%s: " fmt, __func__, ## args) #else #define VPRINTK(fmt, args...) #endif /* ATA_VERBOSE_DEBUG */ #else #define DPRINTK(fmt, args...) #define VPRINTK(fmt, args...) #endif /* ATA_DEBUG */ #define ata_print_version_once(dev, version) \ ({ \ static bool __print_once; \ \ if (!__print_once) { \ __print_once = true; \ ata_print_version(dev, version); \ } \ }) /* NEW: debug levels */ #define HAVE_LIBATA_MSG 1 enum { ATA_MSG_DRV = 0x0001, ATA_MSG_INFO = 0x0002, ATA_MSG_PROBE = 0x0004, ATA_MSG_WARN = 0x0008, ATA_MSG_MALLOC = 0x0010, ATA_MSG_CTL = 0x0020, ATA_MSG_INTR = 0x0040, ATA_MSG_ERR = 0x0080, }; #define ata_msg_drv(p) ((p)->msg_enable & ATA_MSG_DRV) #define ata_msg_info(p) ((p)->msg_enable & ATA_MSG_INFO) #define ata_msg_probe(p) ((p)->msg_enable & ATA_MSG_PROBE) #define ata_msg_warn(p) ((p)->msg_enable & ATA_MSG_WARN) #define ata_msg_malloc(p) ((p)->msg_enable & ATA_MSG_MALLOC) #define ata_msg_ctl(p) ((p)->msg_enable & ATA_MSG_CTL) #define ata_msg_intr(p) ((p)->msg_enable & ATA_MSG_INTR) #define ata_msg_err(p) ((p)->msg_enable & ATA_MSG_ERR) static inline u32 ata_msg_init(int dval, int default_msg_enable_bits) { if (dval < 0 || dval >= (sizeof(u32) * 8)) return default_msg_enable_bits; /* should be 0x1 - only driver info msgs */ if (!dval) return 0; return (1 << dval) - 1; } /* defines only for the constants which don't work well as enums */ #define ATA_TAG_POISON 0xfafbfcfdU enum { /* various global constants */ LIBATA_MAX_PRD = ATA_MAX_PRD / 2, LIBATA_DUMB_MAX_PRD = ATA_MAX_PRD / 4, /* Worst case */ ATA_DEF_QUEUE = 1, ATA_MAX_QUEUE = 32, ATA_TAG_INTERNAL = ATA_MAX_QUEUE, ATA_SHORT_PAUSE = 16, ATAPI_MAX_DRAIN = 16 << 10, ATA_ALL_DEVICES = (1 << ATA_MAX_DEVICES) - 1, ATA_SHT_EMULATED = 1, ATA_SHT_THIS_ID = -1, /* struct ata_taskfile flags */ ATA_TFLAG_LBA48 = (1 << 0), /* enable 48-bit LBA and "HOB" */ ATA_TFLAG_ISADDR = (1 << 1), /* enable r/w to nsect/lba regs */ ATA_TFLAG_DEVICE = (1 << 2), /* enable r/w to device reg */ ATA_TFLAG_WRITE = (1 << 3), /* data dir: host->dev==1 (write) */ ATA_TFLAG_LBA = (1 << 4), /* enable LBA */ ATA_TFLAG_FUA = (1 << 5), /* enable FUA */ ATA_TFLAG_POLLING = (1 << 6), /* set nIEN to 1 and use polling */ /* struct ata_device stuff */ ATA_DFLAG_LBA = (1 << 0), /* device supports LBA */ ATA_DFLAG_LBA48 = (1 << 1), /* device supports LBA48 */ ATA_DFLAG_CDB_INTR = (1 << 2), /* device asserts INTRQ when ready for CDB */ ATA_DFLAG_NCQ = (1 << 3), /* device supports NCQ */ ATA_DFLAG_FLUSH_EXT = (1 << 4), /* do FLUSH_EXT instead of FLUSH */ ATA_DFLAG_ACPI_PENDING = (1 << 5), /* ACPI resume action pending */ ATA_DFLAG_ACPI_FAILED = (1 << 6), /* ACPI on devcfg has failed */ ATA_DFLAG_AN = (1 << 7), /* AN configured */ ATA_DFLAG_TRUSTED = (1 << 8), /* device supports trusted send/recv */ ATA_DFLAG_DMADIR = (1 << 10), /* device requires DMADIR */ ATA_DFLAG_CFG_MASK = (1 << 12) - 1, ATA_DFLAG_PIO = (1 << 12), /* device limited to PIO mode */ ATA_DFLAG_NCQ_OFF = (1 << 13), /* device limited to non-NCQ mode */ ATA_DFLAG_SLEEPING = (1 << 15), /* device is sleeping */ ATA_DFLAG_DUBIOUS_XFER = (1 << 16), /* data transfer not verified */ ATA_DFLAG_NO_UNLOAD = (1 << 17), /* device doesn't support unload */ ATA_DFLAG_UNLOCK_HPA = (1 << 18), /* unlock HPA */ ATA_DFLAG_NCQ_SEND_RECV = (1 << 19), /* device supports NCQ SEND and RECV */ ATA_DFLAG_NCQ_PRIO = (1 << 20), /* device supports NCQ priority */ ATA_DFLAG_NCQ_PRIO_ENABLE = (1 << 21), /* Priority cmds sent to dev */ ATA_DFLAG_INIT_MASK = (1 << 24) - 1, ATA_DFLAG_DETACH = (1 << 24), ATA_DFLAG_DETACHED = (1 << 25), ATA_DFLAG_DA = (1 << 26), /* device supports Device Attention */ ATA_DFLAG_DEVSLP = (1 << 27), /* device supports Device Sleep */ ATA_DFLAG_ACPI_DISABLED = (1 << 28), /* ACPI for the device is disabled */ ATA_DFLAG_D_SENSE = (1 << 29), /* Descriptor sense requested */ ATA_DFLAG_ZAC = (1 << 30), /* ZAC device */ ATA_DEV_UNKNOWN = 0, /* unknown device */ ATA_DEV_ATA = 1, /* ATA device */ ATA_DEV_ATA_UNSUP = 2, /* ATA device (unsupported) */ ATA_DEV_ATAPI = 3, /* ATAPI device */ ATA_DEV_ATAPI_UNSUP = 4, /* ATAPI device (unsupported) */ ATA_DEV_PMP = 5, /* SATA port multiplier */ ATA_DEV_PMP_UNSUP = 6, /* SATA port multiplier (unsupported) */ ATA_DEV_SEMB = 7, /* SEMB */ ATA_DEV_SEMB_UNSUP = 8, /* SEMB (unsupported) */ ATA_DEV_ZAC = 9, /* ZAC device */ ATA_DEV_ZAC_UNSUP = 10, /* ZAC device (unsupported) */ ATA_DEV_NONE = 11, /* no device */ /* struct ata_link flags */ /* NOTE: struct ata_force_param currently stores lflags in u16 */ ATA_LFLAG_NO_HRST = (1 << 1), /* avoid hardreset */ ATA_LFLAG_NO_SRST = (1 << 2), /* avoid softreset */ ATA_LFLAG_ASSUME_ATA = (1 << 3), /* assume ATA class */ ATA_LFLAG_ASSUME_SEMB = (1 << 4), /* assume SEMB class */ ATA_LFLAG_ASSUME_CLASS = ATA_LFLAG_ASSUME_ATA | ATA_LFLAG_ASSUME_SEMB, ATA_LFLAG_NO_RETRY = (1 << 5), /* don't retry this link */ ATA_LFLAG_DISABLED = (1 << 6), /* link is disabled */ ATA_LFLAG_SW_ACTIVITY = (1 << 7), /* keep activity stats */ ATA_LFLAG_NO_LPM = (1 << 8), /* disable LPM on this link */ ATA_LFLAG_RST_ONCE = (1 << 9), /* limit recovery to one reset */ ATA_LFLAG_CHANGED = (1 << 10), /* LPM state changed on this link */ ATA_LFLAG_NO_DB_DELAY = (1 << 11), /* no debounce delay on link resume */ /* struct ata_port flags */ ATA_FLAG_SLAVE_POSS = (1 << 0), /* host supports slave dev */ /* (doesn't imply presence) */ ATA_FLAG_SATA = (1 << 1), ATA_FLAG_NO_LPM = (1 << 2), /* host not happy with LPM */ ATA_FLAG_NO_LOG_PAGE = (1 << 5), /* do not issue log page read */ ATA_FLAG_NO_ATAPI = (1 << 6), /* No ATAPI support */ ATA_FLAG_PIO_DMA = (1 << 7), /* PIO cmds via DMA */ ATA_FLAG_PIO_LBA48 = (1 << 8), /* Host DMA engine is LBA28 only */ ATA_FLAG_PIO_POLLING = (1 << 9), /* use polling PIO if LLD * doesn't handle PIO interrupts */ ATA_FLAG_NCQ = (1 << 10), /* host supports NCQ */ ATA_FLAG_NO_POWEROFF_SPINDOWN = (1 << 11), /* don't spindown before poweroff */ ATA_FLAG_NO_HIBERNATE_SPINDOWN = (1 << 12), /* don't spindown before hibernation */ ATA_FLAG_DEBUGMSG = (1 << 13), ATA_FLAG_FPDMA_AA = (1 << 14), /* driver supports Auto-Activate */ ATA_FLAG_IGN_SIMPLEX = (1 << 15), /* ignore SIMPLEX */ ATA_FLAG_NO_IORDY = (1 << 16), /* controller lacks iordy */ ATA_FLAG_ACPI_SATA = (1 << 17), /* need native SATA ACPI layout */ ATA_FLAG_AN = (1 << 18), /* controller supports AN */ ATA_FLAG_PMP = (1 << 19), /* controller supports PMP */ ATA_FLAG_FPDMA_AUX = (1 << 20), /* controller supports H2DFIS aux field */ ATA_FLAG_EM = (1 << 21), /* driver supports enclosure * management */ ATA_FLAG_SW_ACTIVITY = (1 << 22), /* driver supports sw activity * led */ ATA_FLAG_NO_DIPM = (1 << 23), /* host not happy with DIPM */ ATA_FLAG_SAS_HOST = (1 << 24), /* SAS host */ /* bits 24:31 of ap->flags are reserved for LLD specific flags */ /* struct ata_port pflags */ ATA_PFLAG_EH_PENDING = (1 << 0), /* EH pending */ ATA_PFLAG_EH_IN_PROGRESS = (1 << 1), /* EH in progress */ ATA_PFLAG_FROZEN = (1 << 2), /* port is frozen */ ATA_PFLAG_RECOVERED = (1 << 3), /* recovery action performed */ ATA_PFLAG_LOADING = (1 << 4), /* boot/loading probe */ ATA_PFLAG_SCSI_HOTPLUG = (1 << 6), /* SCSI hotplug scheduled */ ATA_PFLAG_INITIALIZING = (1 << 7), /* being initialized, don't touch */ ATA_PFLAG_RESETTING = (1 << 8), /* reset in progress */ ATA_PFLAG_UNLOADING = (1 << 9), /* driver is being unloaded */ ATA_PFLAG_UNLOADED = (1 << 10), /* driver is unloaded */ ATA_PFLAG_SUSPENDED = (1 << 17), /* port is suspended (power) */ ATA_PFLAG_PM_PENDING = (1 << 18), /* PM operation pending */ ATA_PFLAG_INIT_GTM_VALID = (1 << 19), /* initial gtm data valid */ ATA_PFLAG_PIO32 = (1 << 20), /* 32bit PIO */ ATA_PFLAG_PIO32CHANGE = (1 << 21), /* 32bit PIO can be turned on/off */ ATA_PFLAG_EXTERNAL = (1 << 22), /* eSATA/external port */ /* struct ata_queued_cmd flags */ ATA_QCFLAG_ACTIVE = (1 << 0), /* cmd not yet ack'd to scsi lyer */ ATA_QCFLAG_DMAMAP = (1 << 1), /* SG table is DMA mapped */ ATA_QCFLAG_IO = (1 << 3), /* standard IO command */ ATA_QCFLAG_RESULT_TF = (1 << 4), /* result TF requested */ ATA_QCFLAG_CLEAR_EXCL = (1 << 5), /* clear excl_link on completion */ ATA_QCFLAG_QUIET = (1 << 6), /* don't report device error */ ATA_QCFLAG_RETRY = (1 << 7), /* retry after failure */ ATA_QCFLAG_FAILED = (1 << 16), /* cmd failed and is owned by EH */ ATA_QCFLAG_SENSE_VALID = (1 << 17), /* sense data valid */ ATA_QCFLAG_EH_SCHEDULED = (1 << 18), /* EH scheduled (obsolete) */ /* host set flags */ ATA_HOST_SIMPLEX = (1 << 0), /* Host is simplex, one DMA channel per host only */ ATA_HOST_STARTED = (1 << 1), /* Host started */ ATA_HOST_PARALLEL_SCAN = (1 << 2), /* Ports on this host can be scanned in parallel */ ATA_HOST_IGNORE_ATA = (1 << 3), /* Ignore ATA devices on this host. */ /* bits 24:31 of host->flags are reserved for LLD specific flags */ /* various lengths of time */ ATA_TMOUT_BOOT = 30000, /* heuristic */ ATA_TMOUT_BOOT_QUICK = 7000, /* heuristic */ ATA_TMOUT_INTERNAL_QUICK = 5000, ATA_TMOUT_MAX_PARK = 30000, /* * GoVault needs 2s and iVDR disk HHD424020F7SV00 800ms. 2s * is too much without parallel probing. Use 2s if parallel * probing is available, 800ms otherwise. */ ATA_TMOUT_FF_WAIT_LONG = 2000, ATA_TMOUT_FF_WAIT = 800, /* Spec mandates to wait for ">= 2ms" before checking status * after reset. We wait 150ms, because that was the magic * delay used for ATAPI devices in Hale Landis's ATADRVR, for * the period of time between when the ATA command register is * written, and then status is checked. Because waiting for * "a while" before checking status is fine, post SRST, we * perform this magic delay here as well. * * Old drivers/ide uses the 2mS rule and then waits for ready. */ ATA_WAIT_AFTER_RESET = 150, /* If PMP is supported, we have to do follow-up SRST. As some * PMPs don't send D2H Reg FIS after hardreset, LLDs are * advised to wait only for the following duration before * doing SRST. */ ATA_TMOUT_PMP_SRST_WAIT = 5000, /* When the LPM policy is set to ATA_LPM_MAX_POWER, there might * be a spurious PHY event, so ignore the first PHY event that * occurs within 10s after the policy change. */ ATA_TMOUT_SPURIOUS_PHY = 10000, /* ATA bus states */ BUS_UNKNOWN = 0, BUS_DMA = 1, BUS_IDLE = 2, BUS_NOINTR = 3, BUS_NODATA = 4, BUS_TIMER = 5, BUS_PIO = 6, BUS_EDD = 7, BUS_IDENTIFY = 8, BUS_PACKET = 9, /* SATA port states */ PORT_UNKNOWN = 0, PORT_ENABLED = 1, PORT_DISABLED = 2, /* encoding various smaller bitmaps into a single * unsigned long bitmap */ ATA_NR_PIO_MODES = 7, ATA_NR_MWDMA_MODES = 5, ATA_NR_UDMA_MODES = 8, ATA_SHIFT_PIO = 0, ATA_SHIFT_MWDMA = ATA_SHIFT_PIO + ATA_NR_PIO_MODES, ATA_SHIFT_UDMA = ATA_SHIFT_MWDMA + ATA_NR_MWDMA_MODES, ATA_SHIFT_PRIO = 6, ATA_PRIO_HIGH = 2, /* size of buffer to pad xfers ending on unaligned boundaries */ ATA_DMA_PAD_SZ = 4, /* ering size */ ATA_ERING_SIZE = 32, /* return values for ->qc_defer */ ATA_DEFER_LINK = 1, ATA_DEFER_PORT = 2, /* desc_len for ata_eh_info and context */ ATA_EH_DESC_LEN = 80, /* reset / recovery action types */ ATA_EH_REVALIDATE = (1 << 0), ATA_EH_SOFTRESET = (1 << 1), /* meaningful only in ->prereset */ ATA_EH_HARDRESET = (1 << 2), /* meaningful only in ->prereset */ ATA_EH_RESET = ATA_EH_SOFTRESET | ATA_EH_HARDRESET, ATA_EH_ENABLE_LINK = (1 << 3), ATA_EH_PARK = (1 << 5), /* unload heads and stop I/O */ ATA_EH_PERDEV_MASK = ATA_EH_REVALIDATE | ATA_EH_PARK, ATA_EH_ALL_ACTIONS = ATA_EH_REVALIDATE | ATA_EH_RESET | ATA_EH_ENABLE_LINK, /* ata_eh_info->flags */ ATA_EHI_HOTPLUGGED = (1 << 0), /* could have been hotplugged */ ATA_EHI_NO_AUTOPSY = (1 << 2), /* no autopsy */ ATA_EHI_QUIET = (1 << 3), /* be quiet */ ATA_EHI_NO_RECOVERY = (1 << 4), /* no recovery */ ATA_EHI_DID_SOFTRESET = (1 << 16), /* already soft-reset this port */ ATA_EHI_DID_HARDRESET = (1 << 17), /* already soft-reset this port */ ATA_EHI_PRINTINFO = (1 << 18), /* print configuration info */ ATA_EHI_SETMODE = (1 << 19), /* configure transfer mode */ ATA_EHI_POST_SETMODE = (1 << 20), /* revalidating after setmode */ ATA_EHI_DID_RESET = ATA_EHI_DID_SOFTRESET | ATA_EHI_DID_HARDRESET, /* mask of flags to transfer *to* the slave link */ ATA_EHI_TO_SLAVE_MASK = ATA_EHI_NO_AUTOPSY | ATA_EHI_QUIET, /* max tries if error condition is still set after ->error_handler */ ATA_EH_MAX_TRIES = 5, /* sometimes resuming a link requires several retries */ ATA_LINK_RESUME_TRIES = 5, /* how hard are we gonna try to probe/recover devices */ ATA_PROBE_MAX_TRIES = 3, ATA_EH_DEV_TRIES = 3, ATA_EH_PMP_TRIES = 5, ATA_EH_PMP_LINK_TRIES = 3, SATA_PMP_RW_TIMEOUT = 3000, /* PMP read/write timeout */ /* This should match the actual table size of * ata_eh_cmd_timeout_table in libata-eh.c. */ ATA_EH_CMD_TIMEOUT_TABLE_SIZE = 7, /* Horkage types. May be set by libata or controller on drives (some horkage may be drive/controller pair dependent */ ATA_HORKAGE_DIAGNOSTIC = (1 << 0), /* Failed boot diag */ ATA_HORKAGE_NODMA = (1 << 1), /* DMA problems */ ATA_HORKAGE_NONCQ = (1 << 2), /* Don't use NCQ */ ATA_HORKAGE_MAX_SEC_128 = (1 << 3), /* Limit max sects to 128 */ ATA_HORKAGE_BROKEN_HPA = (1 << 4), /* Broken HPA */ ATA_HORKAGE_DISABLE = (1 << 5), /* Disable it */ ATA_HORKAGE_HPA_SIZE = (1 << 6), /* native size off by one */ ATA_HORKAGE_IVB = (1 << 8), /* cbl det validity bit bugs */ ATA_HORKAGE_STUCK_ERR = (1 << 9), /* stuck ERR on next PACKET */ ATA_HORKAGE_BRIDGE_OK = (1 << 10), /* no bridge limits */ ATA_HORKAGE_ATAPI_MOD16_DMA = (1 << 11), /* use ATAPI DMA for commands not multiple of 16 bytes */ ATA_HORKAGE_FIRMWARE_WARN = (1 << 12), /* firmware update warning */ ATA_HORKAGE_1_5_GBPS = (1 << 13), /* force 1.5 Gbps */ ATA_HORKAGE_NOSETXFER = (1 << 14), /* skip SETXFER, SATA only */ ATA_HORKAGE_BROKEN_FPDMA_AA = (1 << 15), /* skip AA */ ATA_HORKAGE_DUMP_ID = (1 << 16), /* dump IDENTIFY data */ ATA_HORKAGE_MAX_SEC_LBA48 = (1 << 17), /* Set max sects to 65535 */ ATA_HORKAGE_ATAPI_DMADIR = (1 << 18), /* device requires dmadir */ ATA_HORKAGE_NO_NCQ_TRIM = (1 << 19), /* don't use queued TRIM */ ATA_HORKAGE_NOLPM = (1 << 20), /* don't use LPM */ ATA_HORKAGE_WD_BROKEN_LPM = (1 << 21), /* some WDs have broken LPM */ ATA_HORKAGE_ZERO_AFTER_TRIM = (1 << 22),/* guarantees zero after trim */ ATA_HORKAGE_NO_DMA_LOG = (1 << 23), /* don't use DMA for log read */ ATA_HORKAGE_NOTRIM = (1 << 24), /* don't use TRIM */ ATA_HORKAGE_MAX_SEC_1024 = (1 << 25), /* Limit max sects to 1024 */ ATA_HORKAGE_MAX_TRIM_128M = (1 << 26), /* Limit max trim size to 128M */ ATA_HORKAGE_NO_NCQ_ON_ATI = (1 << 27), /* Disable NCQ on ATI chipset */ /* DMA mask for user DMA control: User visible values; DO NOT renumber */ ATA_DMA_MASK_ATA = (1 << 0), /* DMA on ATA Disk */ ATA_DMA_MASK_ATAPI = (1 << 1), /* DMA on ATAPI */ ATA_DMA_MASK_CFA = (1 << 2), /* DMA on CF Card */ /* ATAPI command types */ ATAPI_READ = 0, /* READs */ ATAPI_WRITE = 1, /* WRITEs */ ATAPI_READ_CD = 2, /* READ CD [MSF] */ ATAPI_PASS_THRU = 3, /* SAT pass-thru */ ATAPI_MISC = 4, /* the rest */ /* Timing constants */ ATA_TIMING_SETUP = (1 << 0), ATA_TIMING_ACT8B = (1 << 1), ATA_TIMING_REC8B = (1 << 2), ATA_TIMING_CYC8B = (1 << 3), ATA_TIMING_8BIT = ATA_TIMING_ACT8B | ATA_TIMING_REC8B | ATA_TIMING_CYC8B, ATA_TIMING_ACTIVE = (1 << 4), ATA_TIMING_RECOVER = (1 << 5), ATA_TIMING_DMACK_HOLD = (1 << 6), ATA_TIMING_CYCLE = (1 << 7), ATA_TIMING_UDMA = (1 << 8), ATA_TIMING_ALL = ATA_TIMING_SETUP | ATA_TIMING_ACT8B | ATA_TIMING_REC8B | ATA_TIMING_CYC8B | ATA_TIMING_ACTIVE | ATA_TIMING_RECOVER | ATA_TIMING_DMACK_HOLD | ATA_TIMING_CYCLE | ATA_TIMING_UDMA, /* ACPI constants */ ATA_ACPI_FILTER_SETXFER = 1 << 0, ATA_ACPI_FILTER_LOCK = 1 << 1, ATA_ACPI_FILTER_DIPM = 1 << 2, ATA_ACPI_FILTER_FPDMA_OFFSET = 1 << 3, /* FPDMA non-zero offset */ ATA_ACPI_FILTER_FPDMA_AA = 1 << 4, /* FPDMA auto activate */ ATA_ACPI_FILTER_DEFAULT = ATA_ACPI_FILTER_SETXFER | ATA_ACPI_FILTER_LOCK | ATA_ACPI_FILTER_DIPM, }; enum ata_xfer_mask { ATA_MASK_PIO = ((1LU << ATA_NR_PIO_MODES) - 1) << ATA_SHIFT_PIO, ATA_MASK_MWDMA = ((1LU << ATA_NR_MWDMA_MODES) - 1) << ATA_SHIFT_MWDMA, ATA_MASK_UDMA = ((1LU << ATA_NR_UDMA_MODES) - 1) << ATA_SHIFT_UDMA, }; enum hsm_task_states { HSM_ST_IDLE, /* no command on going */ HSM_ST_FIRST, /* (waiting the device to) write CDB or first data block */ HSM_ST, /* (waiting the device to) transfer data */ HSM_ST_LAST, /* (waiting the device to) complete command */ HSM_ST_ERR, /* error */ }; enum ata_completion_errors { AC_ERR_OK = 0, /* no error */ AC_ERR_DEV = (1 << 0), /* device reported error */ AC_ERR_HSM = (1 << 1), /* host state machine violation */ AC_ERR_TIMEOUT = (1 << 2), /* timeout */ AC_ERR_MEDIA = (1 << 3), /* media error */ AC_ERR_ATA_BUS = (1 << 4), /* ATA bus error */ AC_ERR_HOST_BUS = (1 << 5), /* host bus error */ AC_ERR_SYSTEM = (1 << 6), /* system error */ AC_ERR_INVALID = (1 << 7), /* invalid argument */ AC_ERR_OTHER = (1 << 8), /* unknown */ AC_ERR_NODEV_HINT = (1 << 9), /* polling device detection hint */ AC_ERR_NCQ = (1 << 10), /* marker for offending NCQ qc */ }; /* * Link power management policy: If you alter this, you also need to * alter libata-scsi.c (for the ascii descriptions) */ enum ata_lpm_policy { ATA_LPM_UNKNOWN, ATA_LPM_MAX_POWER, ATA_LPM_MED_POWER, ATA_LPM_MED_POWER_WITH_DIPM, /* Med power + DIPM as win IRST does */ ATA_LPM_MIN_POWER_WITH_PARTIAL, /* Min Power + partial and slumber */ ATA_LPM_MIN_POWER, /* Min power + no partial (slumber only) */ }; enum ata_lpm_hints { ATA_LPM_EMPTY = (1 << 0), /* port empty/probing */ ATA_LPM_HIPM = (1 << 1), /* may use HIPM */ ATA_LPM_WAKE_ONLY = (1 << 2), /* only wake up link */ }; /* forward declarations */ struct scsi_device; struct ata_port_operations; struct ata_port; struct ata_link; struct ata_queued_cmd; /* typedefs */ typedef void (*ata_qc_cb_t) (struct ata_queued_cmd *qc); typedef int (*ata_prereset_fn_t)(struct ata_link *link, unsigned long deadline); typedef int (*ata_reset_fn_t)(struct ata_link *link, unsigned int *classes, unsigned long deadline); typedef void (*ata_postreset_fn_t)(struct ata_link *link, unsigned int *classes); extern struct device_attribute dev_attr_unload_heads; #ifdef CONFIG_SATA_HOST extern struct device_attribute dev_attr_link_power_management_policy; extern struct device_attribute dev_attr_ncq_prio_enable; extern struct device_attribute dev_attr_em_message_type; extern struct device_attribute dev_attr_em_message; extern struct device_attribute dev_attr_sw_activity; #endif enum sw_activity { OFF, BLINK_ON, BLINK_OFF, }; struct ata_taskfile { unsigned long flags; /* ATA_TFLAG_xxx */ u8 protocol; /* ATA_PROT_xxx */ u8 ctl; /* control reg */ u8 hob_feature; /* additional data */ u8 hob_nsect; /* to support LBA48 */ u8 hob_lbal; u8 hob_lbam; u8 hob_lbah; u8 feature; u8 nsect; u8 lbal; u8 lbam; u8 lbah; u8 device; u8 command; /* IO operation */ u32 auxiliary; /* auxiliary field */ /* from SATA 3.1 and */ /* ATA-8 ACS-3 */ }; #ifdef CONFIG_ATA_SFF struct ata_ioports { void __iomem *cmd_addr; void __iomem *data_addr; void __iomem *error_addr; void __iomem *feature_addr; void __iomem *nsect_addr; void __iomem *lbal_addr; void __iomem *lbam_addr; void __iomem *lbah_addr; void __iomem *device_addr; void __iomem *status_addr; void __iomem *command_addr; void __iomem *altstatus_addr; void __iomem *ctl_addr; #ifdef CONFIG_ATA_BMDMA void __iomem *bmdma_addr; #endif /* CONFIG_ATA_BMDMA */ void __iomem *scr_addr; }; #endif /* CONFIG_ATA_SFF */ struct ata_host { spinlock_t lock; struct device *dev; void __iomem * const *iomap; unsigned int n_ports; unsigned int n_tags; /* nr of NCQ tags */ void *private_data; struct ata_port_operations *ops; unsigned long flags; struct kref kref; struct mutex eh_mutex; struct task_struct *eh_owner; struct ata_port *simplex_claimed; /* channel owning the DMA */ struct ata_port *ports[]; }; struct ata_queued_cmd { struct ata_port *ap; struct ata_device *dev; struct scsi_cmnd *scsicmd; void (*scsidone)(struct scsi_cmnd *); struct ata_taskfile tf; u8 cdb[ATAPI_CDB_LEN]; unsigned long flags; /* ATA_QCFLAG_xxx */ unsigned int tag; /* libata core tag */ unsigned int hw_tag; /* driver tag */ unsigned int n_elem; unsigned int orig_n_elem; int dma_dir; unsigned int sect_size; unsigned int nbytes; unsigned int extrabytes; unsigned int curbytes; struct scatterlist sgent; struct scatterlist *sg; struct scatterlist *cursg; unsigned int cursg_ofs; unsigned int err_mask; struct ata_taskfile result_tf; ata_qc_cb_t complete_fn; void *private_data; void *lldd_task; }; struct ata_port_stats { unsigned long unhandled_irq; unsigned long idle_irq; unsigned long rw_reqbuf; }; struct ata_ering_entry { unsigned int eflags; unsigned int err_mask; u64 timestamp; }; struct ata_ering { int cursor; struct ata_ering_entry ring[ATA_ERING_SIZE]; }; struct ata_device { struct ata_link *link; unsigned int devno; /* 0 or 1 */ unsigned int horkage; /* List of broken features */ unsigned long flags; /* ATA_DFLAG_xxx */ struct scsi_device *sdev; /* attached SCSI device */ void *private_data; #ifdef CONFIG_ATA_ACPI union acpi_object *gtf_cache; unsigned int gtf_filter; #endif #ifdef CONFIG_SATA_ZPODD void *zpodd; #endif struct device tdev; /* n_sector is CLEAR_BEGIN, read comment above CLEAR_BEGIN */ u64 n_sectors; /* size of device, if ATA */ u64 n_native_sectors; /* native size, if ATA */ unsigned int class; /* ATA_DEV_xxx */ unsigned long unpark_deadline; u8 pio_mode; u8 dma_mode; u8 xfer_mode; unsigned int xfer_shift; /* ATA_SHIFT_xxx */ unsigned int multi_count; /* sectors count for READ/WRITE MULTIPLE */ unsigned int max_sectors; /* per-device max sectors */ unsigned int cdb_len; /* per-dev xfer mask */ unsigned long pio_mask; unsigned long mwdma_mask; unsigned long udma_mask; /* for CHS addressing */ u16 cylinders; /* Number of cylinders */ u16 heads; /* Number of heads */ u16 sectors; /* Number of sectors per track */ union { u16 id[ATA_ID_WORDS]; /* IDENTIFY xxx DEVICE data */ u32 gscr[SATA_PMP_GSCR_DWORDS]; /* PMP GSCR block */ } ____cacheline_aligned; /* DEVSLP Timing Variables from Identify Device Data Log */ u8 devslp_timing[ATA_LOG_DEVSLP_SIZE]; /* NCQ send and receive log subcommand support */ u8 ncq_send_recv_cmds[ATA_LOG_NCQ_SEND_RECV_SIZE]; u8 ncq_non_data_cmds[ATA_LOG_NCQ_NON_DATA_SIZE]; /* ZAC zone configuration */ u32 zac_zoned_cap; u32 zac_zones_optimal_open; u32 zac_zones_optimal_nonseq; u32 zac_zones_max_open; /* error history */ int spdn_cnt; /* ering is CLEAR_END, read comment above CLEAR_END */ struct ata_ering ering; }; /* Fields between ATA_DEVICE_CLEAR_BEGIN and ATA_DEVICE_CLEAR_END are * cleared to zero on ata_dev_init(). */ #define ATA_DEVICE_CLEAR_BEGIN offsetof(struct ata_device, n_sectors) #define ATA_DEVICE_CLEAR_END offsetof(struct ata_device, ering) struct ata_eh_info { struct ata_device *dev; /* offending device */ u32 serror; /* SError from LLDD */ unsigned int err_mask; /* port-wide err_mask */ unsigned int action; /* ATA_EH_* action mask */ unsigned int dev_action[ATA_MAX_DEVICES]; /* dev EH action */ unsigned int flags; /* ATA_EHI_* flags */ unsigned int probe_mask; char desc[ATA_EH_DESC_LEN]; int desc_len; }; struct ata_eh_context { struct ata_eh_info i; int tries[ATA_MAX_DEVICES]; int cmd_timeout_idx[ATA_MAX_DEVICES] [ATA_EH_CMD_TIMEOUT_TABLE_SIZE]; unsigned int classes[ATA_MAX_DEVICES]; unsigned int did_probe_mask; unsigned int unloaded_mask; unsigned int saved_ncq_enabled; u8 saved_xfer_mode[ATA_MAX_DEVICES]; /* timestamp for the last reset attempt or success */ unsigned long last_reset; }; struct ata_acpi_drive { u32 pio; u32 dma; } __packed; struct ata_acpi_gtm { struct ata_acpi_drive drive[2]; u32 flags; } __packed; struct ata_link { struct ata_port *ap; int pmp; /* port multiplier port # */ struct device tdev; unsigned int active_tag; /* active tag on this link */ u32 sactive; /* active NCQ commands */ unsigned int flags; /* ATA_LFLAG_xxx */ u32 saved_scontrol; /* SControl on probe */ unsigned int hw_sata_spd_limit; unsigned int sata_spd_limit; unsigned int sata_spd; /* current SATA PHY speed */ enum ata_lpm_policy lpm_policy; /* record runtime error info, protected by host_set lock */ struct ata_eh_info eh_info; /* EH context */ struct ata_eh_context eh_context; struct ata_device device[ATA_MAX_DEVICES]; unsigned long last_lpm_change; /* when last LPM change happened */ }; #define ATA_LINK_CLEAR_BEGIN offsetof(struct ata_link, active_tag) #define ATA_LINK_CLEAR_END offsetof(struct ata_link, device[0]) struct ata_port { struct Scsi_Host *scsi_host; /* our co-allocated scsi host */ struct ata_port_operations *ops; spinlock_t *lock; /* Flags owned by the EH context. Only EH should touch these once the port is active */ unsigned long flags; /* ATA_FLAG_xxx */ /* Flags that change dynamically, protected by ap->lock */ unsigned int pflags; /* ATA_PFLAG_xxx */ unsigned int print_id; /* user visible unique port ID */ unsigned int local_port_no; /* host local port num */ unsigned int port_no; /* 0 based port no. inside the host */ #ifdef CONFIG_ATA_SFF struct ata_ioports ioaddr; /* ATA cmd/ctl/dma register blocks */ u8 ctl; /* cache of ATA control register */ u8 last_ctl; /* Cache last written value */ struct ata_link* sff_pio_task_link; /* link currently used */ struct delayed_work sff_pio_task; #ifdef CONFIG_ATA_BMDMA struct ata_bmdma_prd *bmdma_prd; /* BMDMA SG list */ dma_addr_t bmdma_prd_dma; /* and its DMA mapping */ #endif /* CONFIG_ATA_BMDMA */ #endif /* CONFIG_ATA_SFF */ unsigned int pio_mask; unsigned int mwdma_mask; unsigned int udma_mask; unsigned int cbl; /* cable type; ATA_CBL_xxx */ struct ata_queued_cmd qcmd[ATA_MAX_QUEUE + 1]; unsigned long sas_tag_allocated; /* for sas tag allocation only */ u64 qc_active; int nr_active_links; /* #links with active qcs */ unsigned int sas_last_tag; /* track next tag hw expects */ struct ata_link link; /* host default link */ struct ata_link *slave_link; /* see ata_slave_link_init() */ int nr_pmp_links; /* nr of available PMP links */ struct ata_link *pmp_link; /* array of PMP links */ struct ata_link *excl_link; /* for PMP qc exclusion */ struct ata_port_stats stats; struct ata_host *host; struct device *dev; struct device tdev; struct mutex scsi_scan_mutex; struct delayed_work hotplug_task; struct work_struct scsi_rescan_task; unsigned int hsm_task_state; u32 msg_enable; struct list_head eh_done_q; wait_queue_head_t eh_wait_q; int eh_tries; struct completion park_req_pending; pm_message_t pm_mesg; enum ata_lpm_policy target_lpm_policy; struct timer_list fastdrain_timer; unsigned long fastdrain_cnt; async_cookie_t cookie; int em_message_type; void *private_data; #ifdef CONFIG_ATA_ACPI struct ata_acpi_gtm __acpi_init_gtm; /* use ata_acpi_init_gtm() */ #endif /* owned by EH */ u8 sector_buf[ATA_SECT_SIZE] ____cacheline_aligned; }; /* The following initializer overrides a method to NULL whether one of * its parent has the method defined or not. This is equivalent to * ERR_PTR(-ENOENT). Unfortunately, ERR_PTR doesn't render a constant * expression and thus can't be used as an initializer. */ #define ATA_OP_NULL (void *)(unsigned long)(-ENOENT) struct ata_port_operations { /* * Command execution */ int (*qc_defer)(struct ata_queued_cmd *qc); int (*check_atapi_dma)(struct ata_queued_cmd *qc); enum ata_completion_errors (*qc_prep)(struct ata_queued_cmd *qc); unsigned int (*qc_issue)(struct ata_queued_cmd *qc); bool (*qc_fill_rtf)(struct ata_queued_cmd *qc); /* * Configuration and exception handling */ int (*cable_detect)(struct ata_port *ap); unsigned long (*mode_filter)(struct ata_device *dev, unsigned long xfer_mask); void (*set_piomode)(struct ata_port *ap, struct ata_device *dev); void (*set_dmamode)(struct ata_port *ap, struct ata_device *dev); int (*set_mode)(struct ata_link *link, struct ata_device **r_failed_dev); unsigned int (*read_id)(struct ata_device *dev, struct ata_taskfile *tf, u16 *id); void (*dev_config)(struct ata_device *dev); void (*freeze)(struct ata_port *ap); void (*thaw)(struct ata_port *ap); ata_prereset_fn_t prereset; ata_reset_fn_t softreset; ata_reset_fn_t hardreset; ata_postreset_fn_t postreset; ata_prereset_fn_t pmp_prereset; ata_reset_fn_t pmp_softreset; ata_reset_fn_t pmp_hardreset; ata_postreset_fn_t pmp_postreset; void (*error_handler)(struct ata_port *ap); void (*lost_interrupt)(struct ata_port *ap); void (*post_internal_cmd)(struct ata_queued_cmd *qc); void (*sched_eh)(struct ata_port *ap); void (*end_eh)(struct ata_port *ap); /* * Optional features */ int (*scr_read)(struct ata_link *link, unsigned int sc_reg, u32 *val); int (*scr_write)(struct ata_link *link, unsigned int sc_reg, u32 val); void (*pmp_attach)(struct ata_port *ap); void (*pmp_detach)(struct ata_port *ap); int (*set_lpm)(struct ata_link *link, enum ata_lpm_policy policy, unsigned hints); /* * Start, stop, suspend and resume */ int (*port_suspend)(struct ata_port *ap, pm_message_t mesg); int (*port_resume)(struct ata_port *ap); int (*port_start)(struct ata_port *ap); void (*port_stop)(struct ata_port *ap); void (*host_stop)(struct ata_host *host); #ifdef CONFIG_ATA_SFF /* * SFF / taskfile oriented ops */ void (*sff_dev_select)(struct ata_port *ap, unsigned int device); void (*sff_set_devctl)(struct ata_port *ap, u8 ctl); u8 (*sff_check_status)(struct ata_port *ap); u8 (*sff_check_altstatus)(struct ata_port *ap); void (*sff_tf_load)(struct ata_port *ap, const struct ata_taskfile *tf); void (*sff_tf_read)(struct ata_port *ap, struct ata_taskfile *tf); void (*sff_exec_command)(struct ata_port *ap, const struct ata_taskfile *tf); unsigned int (*sff_data_xfer)(struct ata_queued_cmd *qc, unsigned char *buf, unsigned int buflen, int rw); void (*sff_irq_on)(struct ata_port *); bool (*sff_irq_check)(struct ata_port *); void (*sff_irq_clear)(struct ata_port *); void (*sff_drain_fifo)(struct ata_queued_cmd *qc); #ifdef CONFIG_ATA_BMDMA void (*bmdma_setup)(struct ata_queued_cmd *qc); void (*bmdma_start)(struct ata_queued_cmd *qc); void (*bmdma_stop)(struct ata_queued_cmd *qc); u8 (*bmdma_status)(struct ata_port *ap); #endif /* CONFIG_ATA_BMDMA */ #endif /* CONFIG_ATA_SFF */ ssize_t (*em_show)(struct ata_port *ap, char *buf); ssize_t (*em_store)(struct ata_port *ap, const char *message, size_t size); ssize_t (*sw_activity_show)(struct ata_device *dev, char *buf); ssize_t (*sw_activity_store)(struct ata_device *dev, enum sw_activity val); ssize_t (*transmit_led_message)(struct ata_port *ap, u32 state, ssize_t size); /* * Obsolete */ void (*phy_reset)(struct ata_port *ap); void (*eng_timeout)(struct ata_port *ap); /* * ->inherits must be the last field and all the preceding * fields must be pointers. */ const struct ata_port_operations *inherits; }; struct ata_port_info { unsigned long flags; unsigned long link_flags; unsigned long pio_mask; unsigned long mwdma_mask; unsigned long udma_mask; struct ata_port_operations *port_ops; void *private_data; }; struct ata_timing { unsigned short mode; /* ATA mode */ unsigned short setup; /* t1 */ unsigned short act8b; /* t2 for 8-bit I/O */ unsigned short rec8b; /* t2i for 8-bit I/O */ unsigned short cyc8b; /* t0 for 8-bit I/O */ unsigned short active; /* t2 or tD */ unsigned short recover; /* t2i or tK */ unsigned short dmack_hold; /* tj */ unsigned short cycle; /* t0 */ unsigned short udma; /* t2CYCTYP/2 */ }; /* * Core layer - drivers/ata/libata-core.c */ extern struct ata_port_operations ata_dummy_port_ops; extern const struct ata_port_info ata_dummy_port_info; static inline bool ata_is_atapi(u8 prot) { return prot & ATA_PROT_FLAG_ATAPI; } static inline bool ata_is_pio(u8 prot) { return prot & ATA_PROT_FLAG_PIO; } static inline bool ata_is_dma(u8 prot) { return prot & ATA_PROT_FLAG_DMA; } static inline bool ata_is_ncq(u8 prot) { return prot & ATA_PROT_FLAG_NCQ; } static inline bool ata_is_data(u8 prot) { return prot & (ATA_PROT_FLAG_PIO | ATA_PROT_FLAG_DMA); } static inline int is_multi_taskfile(struct ata_taskfile *tf) { return (tf->command == ATA_CMD_READ_MULTI) || (tf->command == ATA_CMD_WRITE_MULTI) || (tf->command == ATA_CMD_READ_MULTI_EXT) || (tf->command == ATA_CMD_WRITE_MULTI_EXT) || (tf->command == ATA_CMD_WRITE_MULTI_FUA_EXT); } static inline int ata_port_is_dummy(struct ata_port *ap) { return ap->ops == &ata_dummy_port_ops; } extern int ata_std_prereset(struct ata_link *link, unsigned long deadline); extern int ata_wait_after_reset(struct ata_link *link, unsigned long deadline, int (*check_ready)(struct ata_link *link)); extern int sata_std_hardreset(struct ata_link *link, unsigned int *class, unsigned long deadline); extern void ata_std_postreset(struct ata_link *link, unsigned int *classes); extern struct ata_host *ata_host_alloc(struct device *dev, int max_ports); extern struct ata_host *ata_host_alloc_pinfo(struct device *dev, const struct ata_port_info * const * ppi, int n_ports); extern void ata_host_get(struct ata_host *host); extern void ata_host_put(struct ata_host *host); extern int ata_host_start(struct ata_host *host); extern int ata_host_register(struct ata_host *host, struct scsi_host_template *sht); extern int ata_host_activate(struct ata_host *host, int irq, irq_handler_t irq_handler, unsigned long irq_flags, struct scsi_host_template *sht); extern void ata_host_detach(struct ata_host *host); extern void ata_host_init(struct ata_host *, struct device *, struct ata_port_operations *); extern int ata_scsi_detect(struct scsi_host_template *sht); extern int ata_scsi_ioctl(struct scsi_device *dev, unsigned int cmd, void __user *arg); #ifdef CONFIG_COMPAT #define ATA_SCSI_COMPAT_IOCTL .compat_ioctl = ata_scsi_ioctl, #else #define ATA_SCSI_COMPAT_IOCTL /* empty */ #endif extern int ata_scsi_queuecmd(struct Scsi_Host *h, struct scsi_cmnd *cmd); #if IS_REACHABLE(CONFIG_ATA) bool ata_scsi_dma_need_drain(struct request *rq); #else #define ata_scsi_dma_need_drain NULL #endif extern int ata_sas_scsi_ioctl(struct ata_port *ap, struct scsi_device *dev, unsigned int cmd, void __user *arg); extern bool ata_link_online(struct ata_link *link); extern bool ata_link_offline(struct ata_link *link); #ifdef CONFIG_PM extern int ata_host_suspend(struct ata_host *host, pm_message_t mesg); extern void ata_host_resume(struct ata_host *host); extern void ata_sas_port_suspend(struct ata_port *ap); extern void ata_sas_port_resume(struct ata_port *ap); #else static inline void ata_sas_port_suspend(struct ata_port *ap) { } static inline void ata_sas_port_resume(struct ata_port *ap) { } #endif extern int ata_ratelimit(void); extern void ata_msleep(struct ata_port *ap, unsigned int msecs); extern u32 ata_wait_register(struct ata_port *ap, void __iomem *reg, u32 mask, u32 val, unsigned long interval, unsigned long timeout); extern int atapi_cmd_type(u8 opcode); extern unsigned long ata_pack_xfermask(unsigned long pio_mask, unsigned long mwdma_mask, unsigned long udma_mask); extern void ata_unpack_xfermask(unsigned long xfer_mask, unsigned long *pio_mask, unsigned long *mwdma_mask, unsigned long *udma_mask); extern u8 ata_xfer_mask2mode(unsigned long xfer_mask); extern unsigned long ata_xfer_mode2mask(u8 xfer_mode); extern int ata_xfer_mode2shift(unsigned long xfer_mode); extern const char *ata_mode_string(unsigned long xfer_mask); extern unsigned long ata_id_xfermask(const u16 *id); extern int ata_std_qc_defer(struct ata_queued_cmd *qc); extern enum ata_completion_errors ata_noop_qc_prep(struct ata_queued_cmd *qc); extern void ata_sg_init(struct ata_queued_cmd *qc, struct scatterlist *sg, unsigned int n_elem); extern unsigned int ata_dev_classify(const struct ata_taskfile *tf); extern void ata_dev_disable(struct ata_device *adev); extern void ata_id_string(const u16 *id, unsigned char *s, unsigned int ofs, unsigned int len); extern void ata_id_c_string(const u16 *id, unsigned char *s, unsigned int ofs, unsigned int len); extern unsigned int ata_do_dev_read_id(struct ata_device *dev, struct ata_taskfile *tf, u16 *id); extern void ata_qc_complete(struct ata_queued_cmd *qc); extern u64 ata_qc_get_active(struct ata_port *ap); extern void ata_scsi_simulate(struct ata_device *dev, struct scsi_cmnd *cmd); extern int ata_std_bios_param(struct scsi_device *sdev, struct block_device *bdev, sector_t capacity, int geom[]); extern void ata_scsi_unlock_native_capacity(struct scsi_device *sdev); extern int ata_scsi_slave_config(struct scsi_device *sdev); extern void ata_scsi_slave_destroy(struct scsi_device *sdev); extern int ata_scsi_change_queue_depth(struct scsi_device *sdev, int queue_depth); extern int __ata_change_queue_depth(struct ata_port *ap, struct scsi_device *sdev, int queue_depth); extern struct ata_device *ata_dev_pair(struct ata_device *adev); extern int ata_do_set_mode(struct ata_link *link, struct ata_device **r_failed_dev); extern void ata_scsi_port_error_handler(struct Scsi_Host *host, struct ata_port *ap); extern void ata_scsi_cmd_error_handler(struct Scsi_Host *host, struct ata_port *ap, struct list_head *eh_q); /* * SATA specific code - drivers/ata/libata-sata.c */ #ifdef CONFIG_SATA_HOST extern const unsigned long sata_deb_timing_normal[]; extern const unsigned long sata_deb_timing_hotplug[]; extern const unsigned long sata_deb_timing_long[]; static inline const unsigned long * sata_ehc_deb_timing(struct ata_eh_context *ehc) { if (ehc->i.flags & ATA_EHI_HOTPLUGGED) return sata_deb_timing_hotplug; else return sata_deb_timing_normal; } extern int sata_scr_valid(struct ata_link *link); extern int sata_scr_read(struct ata_link *link, int reg, u32 *val); extern int sata_scr_write(struct ata_link *link, int reg, u32 val); extern int sata_scr_write_flush(struct ata_link *link, int reg, u32 val); extern int sata_set_spd(struct ata_link *link); extern int sata_link_hardreset(struct ata_link *link, const unsigned long *timing, unsigned long deadline, bool *online, int (*check_ready)(struct ata_link *)); extern int sata_link_resume(struct ata_link *link, const unsigned long *params, unsigned long deadline); extern void ata_eh_analyze_ncq_error(struct ata_link *link); #else static inline const unsigned long * sata_ehc_deb_timing(struct ata_eh_context *ehc) { return NULL; } static inline int sata_scr_valid(struct ata_link *link) { return 0; } static inline int sata_scr_read(struct ata_link *link, int reg, u32 *val) { return -EOPNOTSUPP; } static inline int sata_scr_write(struct ata_link *link, int reg, u32 val) { return -EOPNOTSUPP; } static inline int sata_scr_write_flush(struct ata_link *link, int reg, u32 val) { return -EOPNOTSUPP; } static inline int sata_set_spd(struct ata_link *link) { return -EOPNOTSUPP; } static inline int sata_link_hardreset(struct ata_link *link, const unsigned long *timing, unsigned long deadline, bool *online, int (*check_ready)(struct ata_link *)) { if (online) *online = false; return -EOPNOTSUPP; } static inline int sata_link_resume(struct ata_link *link, const unsigned long *params, unsigned long deadline) { return -EOPNOTSUPP; } static inline void ata_eh_analyze_ncq_error(struct ata_link *link) { } #endif extern int sata_link_debounce(struct ata_link *link, const unsigned long *params, unsigned long deadline); extern int sata_link_scr_lpm(struct ata_link *link, enum ata_lpm_policy policy, bool spm_wakeup); extern int ata_slave_link_init(struct ata_port *ap); extern void ata_sas_port_destroy(struct ata_port *); extern struct ata_port *ata_sas_port_alloc(struct ata_host *, struct ata_port_info *, struct Scsi_Host *); extern void ata_sas_async_probe(struct ata_port *ap); extern int ata_sas_sync_probe(struct ata_port *ap); extern int ata_sas_port_init(struct ata_port *); extern int ata_sas_port_start(struct ata_port *ap); extern int ata_sas_tport_add(struct device *parent, struct ata_port *ap); extern void ata_sas_tport_delete(struct ata_port *ap); extern void ata_sas_port_stop(struct ata_port *ap); extern int ata_sas_slave_configure(struct scsi_device *, struct ata_port *); extern int ata_sas_queuecmd(struct scsi_cmnd *cmd, struct ata_port *ap); extern void ata_tf_to_fis(const struct ata_taskfile *tf, u8 pmp, int is_cmd, u8 *fis); extern void ata_tf_from_fis(const u8 *fis, struct ata_taskfile *tf); extern int ata_qc_complete_multiple(struct ata_port *ap, u64 qc_active); extern bool sata_lpm_ignore_phy_events(struct ata_link *link); extern int sata_async_notification(struct ata_port *ap); extern int ata_cable_40wire(struct ata_port *ap); extern int ata_cable_80wire(struct ata_port *ap); extern int ata_cable_sata(struct ata_port *ap); extern int ata_cable_ignore(struct ata_port *ap); extern int ata_cable_unknown(struct ata_port *ap); /* Timing helpers */ extern unsigned int ata_pio_need_iordy(const struct ata_device *); extern u8 ata_timing_cycle2mode(unsigned int xfer_shift, int cycle); /* PCI */ #ifdef CONFIG_PCI struct pci_dev; struct pci_bits { unsigned int reg; /* PCI config register to read */ unsigned int width; /* 1 (8 bit), 2 (16 bit), 4 (32 bit) */ unsigned long mask; unsigned long val; }; extern int pci_test_config_bits(struct pci_dev *pdev, const struct pci_bits *bits); extern void ata_pci_shutdown_one(struct pci_dev *pdev); extern void ata_pci_remove_one(struct pci_dev *pdev); #ifdef CONFIG_PM extern void ata_pci_device_do_suspend(struct pci_dev *pdev, pm_message_t mesg); extern int __must_check ata_pci_device_do_resume(struct pci_dev *pdev); extern int ata_pci_device_suspend(struct pci_dev *pdev, pm_message_t mesg); extern int ata_pci_device_resume(struct pci_dev *pdev); #endif /* CONFIG_PM */ #endif /* CONFIG_PCI */ struct platform_device; extern int ata_platform_remove_one(struct platform_device *pdev); /* * ACPI - drivers/ata/libata-acpi.c */ #ifdef CONFIG_ATA_ACPI static inline const struct ata_acpi_gtm *ata_acpi_init_gtm(struct ata_port *ap) { if (ap->pflags & ATA_PFLAG_INIT_GTM_VALID) return &ap->__acpi_init_gtm; return NULL; } int ata_acpi_stm(struct ata_port *ap, const struct ata_acpi_gtm *stm); int ata_acpi_gtm(struct ata_port *ap, struct ata_acpi_gtm *stm); unsigned long ata_acpi_gtm_xfermask(struct ata_device *dev, const struct ata_acpi_gtm *gtm); int ata_acpi_cbl_80wire(struct ata_port *ap, const struct ata_acpi_gtm *gtm); #else static inline const struct ata_acpi_gtm *ata_acpi_init_gtm(struct ata_port *ap) { return NULL; } static inline int ata_acpi_stm(const struct ata_port *ap, struct ata_acpi_gtm *stm) { return -ENOSYS; } static inline int ata_acpi_gtm(const struct ata_port *ap, struct ata_acpi_gtm *stm) { return -ENOSYS; } static inline unsigned int ata_acpi_gtm_xfermask(struct ata_device *dev, const struct ata_acpi_gtm *gtm) { return 0; } static inline int ata_acpi_cbl_80wire(struct ata_port *ap, const struct ata_acpi_gtm *gtm) { return 0; } #endif /* * EH - drivers/ata/libata-eh.c */ extern void ata_port_schedule_eh(struct ata_port *ap); extern void ata_port_wait_eh(struct ata_port *ap); extern int ata_link_abort(struct ata_link *link); extern int ata_port_abort(struct ata_port *ap); extern int ata_port_freeze(struct ata_port *ap); extern void ata_eh_freeze_port(struct ata_port *ap); extern void ata_eh_thaw_port(struct ata_port *ap); extern void ata_eh_qc_complete(struct ata_queued_cmd *qc); extern void ata_eh_qc_retry(struct ata_queued_cmd *qc); extern void ata_do_eh(struct ata_port *ap, ata_prereset_fn_t prereset, ata_reset_fn_t softreset, ata_reset_fn_t hardreset, ata_postreset_fn_t postreset); extern void ata_std_error_handler(struct ata_port *ap); extern void ata_std_sched_eh(struct ata_port *ap); extern void ata_std_end_eh(struct ata_port *ap); extern int ata_link_nr_enabled(struct ata_link *link); /* * Base operations to inherit from and initializers for sht * * Operations * * base : Common to all libata drivers. * sata : SATA controllers w/ native interface. * pmp : SATA controllers w/ PMP support. * sff : SFF ATA controllers w/o BMDMA support. * bmdma : SFF ATA controllers w/ BMDMA support. * * sht initializers * * BASE : Common to all libata drivers. The user must set * sg_tablesize and dma_boundary. * PIO : SFF ATA controllers w/ only PIO support. * BMDMA : SFF ATA controllers w/ BMDMA support. sg_tablesize and * dma_boundary are set to BMDMA limits. * NCQ : SATA controllers supporting NCQ. The user must set * sg_tablesize, dma_boundary and can_queue. */ extern const struct ata_port_operations ata_base_port_ops; extern const struct ata_port_operations sata_port_ops; extern struct device_attribute *ata_common_sdev_attrs[]; /* * All sht initializers (BASE, PIO, BMDMA, NCQ) must be instantiated * by the edge drivers. Because the 'module' field of sht must be the * edge driver's module reference, otherwise the driver can be unloaded * even if the scsi_device is being accessed. */ #define __ATA_BASE_SHT(drv_name) \ .module = THIS_MODULE, \ .name = drv_name, \ .ioctl = ata_scsi_ioctl, \ ATA_SCSI_COMPAT_IOCTL \ .queuecommand = ata_scsi_queuecmd, \ .dma_need_drain = ata_scsi_dma_need_drain, \ .can_queue = ATA_DEF_QUEUE, \ .tag_alloc_policy = BLK_TAG_ALLOC_RR, \ .this_id = ATA_SHT_THIS_ID, \ .emulated = ATA_SHT_EMULATED, \ .proc_name = drv_name, \ .slave_configure = ata_scsi_slave_config, \ .slave_destroy = ata_scsi_slave_destroy, \ .bios_param = ata_std_bios_param, \ .unlock_native_capacity = ata_scsi_unlock_native_capacity #define ATA_BASE_SHT(drv_name) \ __ATA_BASE_SHT(drv_name), \ .sdev_attrs = ata_common_sdev_attrs #ifdef CONFIG_SATA_HOST extern struct device_attribute *ata_ncq_sdev_attrs[]; #define ATA_NCQ_SHT(drv_name) \ __ATA_BASE_SHT(drv_name), \ .sdev_attrs = ata_ncq_sdev_attrs, \ .change_queue_depth = ata_scsi_change_queue_depth #endif /* * PMP helpers */ #ifdef CONFIG_SATA_PMP static inline bool sata_pmp_supported(struct ata_port *ap) { return ap->flags & ATA_FLAG_PMP; } static inline bool sata_pmp_attached(struct ata_port *ap) { return ap->nr_pmp_links != 0; } static inline bool ata_is_host_link(const struct ata_link *link) { return link == &link->ap->link || link == link->ap->slave_link; } #else /* CONFIG_SATA_PMP */ static inline bool sata_pmp_supported(struct ata_port *ap) { return false; } static inline bool sata_pmp_attached(struct ata_port *ap) { return false; } static inline bool ata_is_host_link(const struct ata_link *link) { return 1; } #endif /* CONFIG_SATA_PMP */ static inline int sata_srst_pmp(struct ata_link *link) { if (sata_pmp_supported(link->ap) && ata_is_host_link(link)) return SATA_PMP_CTRL_PORT; return link->pmp; } /* * printk helpers */ __printf(3, 4) void ata_port_printk(const struct ata_port *ap, const char *level, const char *fmt, ...); __printf(3, 4) void ata_link_printk(const struct ata_link *link, const char *level, const char *fmt, ...); __printf(3, 4) void ata_dev_printk(const struct ata_device *dev, const char *level, const char *fmt, ...); #define ata_port_err(ap, fmt, ...) \ ata_port_printk(ap, KERN_ERR, fmt, ##__VA_ARGS__) #define ata_port_warn(ap, fmt, ...) \ ata_port_printk(ap, KERN_WARNING, fmt, ##__VA_ARGS__) #define ata_port_notice(ap, fmt, ...) \ ata_port_printk(ap, KERN_NOTICE, fmt, ##__VA_ARGS__) #define ata_port_info(ap, fmt, ...) \ ata_port_printk(ap, KERN_INFO, fmt, ##__VA_ARGS__) #define ata_port_dbg(ap, fmt, ...) \ ata_port_printk(ap, KERN_DEBUG, fmt, ##__VA_ARGS__) #define ata_link_err(link, fmt, ...) \ ata_link_printk(link, KERN_ERR, fmt, ##__VA_ARGS__) #define ata_link_warn(link, fmt, ...) \ ata_link_printk(link, KERN_WARNING, fmt, ##__VA_ARGS__) #define ata_link_notice(link, fmt, ...) \ ata_link_printk(link, KERN_NOTICE, fmt, ##__VA_ARGS__) #define ata_link_info(link, fmt, ...) \ ata_link_printk(link, KERN_INFO, fmt, ##__VA_ARGS__) #define ata_link_dbg(link, fmt, ...) \ ata_link_printk(link, KERN_DEBUG, fmt, ##__VA_ARGS__) #define ata_dev_err(dev, fmt, ...) \ ata_dev_printk(dev, KERN_ERR, fmt, ##__VA_ARGS__) #define ata_dev_warn(dev, fmt, ...) \ ata_dev_printk(dev, KERN_WARNING, fmt, ##__VA_ARGS__) #define ata_dev_notice(dev, fmt, ...) \ ata_dev_printk(dev, KERN_NOTICE, fmt, ##__VA_ARGS__) #define ata_dev_info(dev, fmt, ...) \ ata_dev_printk(dev, KERN_INFO, fmt, ##__VA_ARGS__) #define ata_dev_dbg(dev, fmt, ...) \ ata_dev_printk(dev, KERN_DEBUG, fmt, ##__VA_ARGS__) void ata_print_version(const struct device *dev, const char *version); /* * ata_eh_info helpers */ extern __printf(2, 3) void __ata_ehi_push_desc(struct ata_eh_info *ehi, const char *fmt, ...); extern __printf(2, 3) void ata_ehi_push_desc(struct ata_eh_info *ehi, const char *fmt, ...); extern void ata_ehi_clear_desc(struct ata_eh_info *ehi); static inline void ata_ehi_hotplugged(struct ata_eh_info *ehi) { ehi->probe_mask |= (1 << ATA_MAX_DEVICES) - 1; ehi->flags |= ATA_EHI_HOTPLUGGED; ehi->action |= ATA_EH_RESET | ATA_EH_ENABLE_LINK; ehi->err_mask |= AC_ERR_ATA_BUS; } /* * port description helpers */ extern __printf(2, 3) void ata_port_desc(struct ata_port *ap, const char *fmt, ...); #ifdef CONFIG_PCI extern void ata_port_pbar_desc(struct ata_port *ap, int bar, ssize_t offset, const char *name); #endif static inline bool ata_tag_internal(unsigned int tag) { return tag == ATA_TAG_INTERNAL; } static inline bool ata_tag_valid(unsigned int tag) { return tag < ATA_MAX_QUEUE || ata_tag_internal(tag); } #define __ata_qc_for_each(ap, qc, tag, max_tag, fn) \ for ((tag) = 0; (tag) < (max_tag) && \ ({ qc = fn((ap), (tag)); 1; }); (tag)++) \ /* * Internal use only, iterate commands ignoring error handling and * status of 'qc'. */ #define ata_qc_for_each_raw(ap, qc, tag) \ __ata_qc_for_each(ap, qc, tag, ATA_MAX_QUEUE, __ata_qc_from_tag) /* * Iterate all potential commands that can be queued */ #define ata_qc_for_each(ap, qc, tag) \ __ata_qc_for_each(ap, qc, tag, ATA_MAX_QUEUE, ata_qc_from_tag) /* * Like ata_qc_for_each, but with the internal tag included */ #define ata_qc_for_each_with_internal(ap, qc, tag) \ __ata_qc_for_each(ap, qc, tag, ATA_MAX_QUEUE + 1, ata_qc_from_tag) /* * device helpers */ static inline unsigned int ata_class_enabled(unsigned int class) { return class == ATA_DEV_ATA || class == ATA_DEV_ATAPI || class == ATA_DEV_PMP || class == ATA_DEV_SEMB || class == ATA_DEV_ZAC; } static inline unsigned int ata_class_disabled(unsigned int class) { return class == ATA_DEV_ATA_UNSUP || class == ATA_DEV_ATAPI_UNSUP || class == ATA_DEV_PMP_UNSUP || class == ATA_DEV_SEMB_UNSUP || class == ATA_DEV_ZAC_UNSUP; } static inline unsigned int ata_class_absent(unsigned int class) { return !ata_class_enabled(class) && !ata_class_disabled(class); } static inline unsigned int ata_dev_enabled(const struct ata_device *dev) { return ata_class_enabled(dev->class); } static inline unsigned int ata_dev_disabled(const struct ata_device *dev) { return ata_class_disabled(dev->class); } static inline unsigned int ata_dev_absent(const struct ata_device *dev) { return ata_class_absent(dev->class); } /* * link helpers */ static inline int ata_link_max_devices(const struct ata_link *link) { if (ata_is_host_link(link) && link->ap->flags & ATA_FLAG_SLAVE_POSS) return 2; return 1; } static inline int ata_link_active(struct ata_link *link) { return ata_tag_valid(link->active_tag) || link->sactive; } /* * Iterators * * ATA_LITER_* constants are used to select link iteration mode and * ATA_DITER_* device iteration mode. * * For a custom iteration directly using ata_{link|dev}_next(), if * @link or @dev, respectively, is NULL, the first element is * returned. @dev and @link can be any valid device or link and the * next element according to the iteration mode will be returned. * After the last element, NULL is returned. */ enum ata_link_iter_mode { ATA_LITER_EDGE, /* if present, PMP links only; otherwise, * host link. no slave link */ ATA_LITER_HOST_FIRST, /* host link followed by PMP or slave links */ ATA_LITER_PMP_FIRST, /* PMP links followed by host link, * slave link still comes after host link */ }; enum ata_dev_iter_mode { ATA_DITER_ENABLED, ATA_DITER_ENABLED_REVERSE, ATA_DITER_ALL, ATA_DITER_ALL_REVERSE, }; extern struct ata_link *ata_link_next(struct ata_link *link, struct ata_port *ap, enum ata_link_iter_mode mode); extern struct ata_device *ata_dev_next(struct ata_device *dev, struct ata_link *link, enum ata_dev_iter_mode mode); /* * Shortcut notation for iterations * * ata_for_each_link() iterates over each link of @ap according to * @mode. @link points to the current link in the loop. @link is * NULL after loop termination. ata_for_each_dev() works the same way * except that it iterates over each device of @link. * * Note that the mode prefixes ATA_{L|D}ITER_ shouldn't need to be * specified when using the following shorthand notations. Only the * mode itself (EDGE, HOST_FIRST, ENABLED, etc...) should be * specified. This not only increases brevity but also makes it * impossible to use ATA_LITER_* for device iteration or vice-versa. */ #define ata_for_each_link(link, ap, mode) \ for ((link) = ata_link_next(NULL, (ap), ATA_LITER_##mode); (link); \ (link) = ata_link_next((link), (ap), ATA_LITER_##mode)) #define ata_for_each_dev(dev, link, mode) \ for ((dev) = ata_dev_next(NULL, (link), ATA_DITER_##mode); (dev); \ (dev) = ata_dev_next((dev), (link), ATA_DITER_##mode)) /** * ata_ncq_enabled - Test whether NCQ is enabled * @dev: ATA device to test for * * LOCKING: * spin_lock_irqsave(host lock) * * RETURNS: * 1 if NCQ is enabled for @dev, 0 otherwise. */ static inline int ata_ncq_enabled(struct ata_device *dev) { if (!IS_ENABLED(CONFIG_SATA_HOST)) return 0; return (dev->flags & (ATA_DFLAG_PIO | ATA_DFLAG_NCQ_OFF | ATA_DFLAG_NCQ)) == ATA_DFLAG_NCQ; } static inline bool ata_fpdma_dsm_supported(struct ata_device *dev) { return (dev->flags & ATA_DFLAG_NCQ_SEND_RECV) && (dev->ncq_send_recv_cmds[ATA_LOG_NCQ_SEND_RECV_DSM_OFFSET] & ATA_LOG_NCQ_SEND_RECV_DSM_TRIM); } static inline bool ata_fpdma_read_log_supported(struct ata_device *dev) { return (dev->flags & ATA_DFLAG_NCQ_SEND_RECV) && (dev->ncq_send_recv_cmds[ATA_LOG_NCQ_SEND_RECV_RD_LOG_OFFSET] & ATA_LOG_NCQ_SEND_RECV_RD_LOG_SUPPORTED); } static inline bool ata_fpdma_zac_mgmt_in_supported(struct ata_device *dev) { return (dev->flags & ATA_DFLAG_NCQ_SEND_RECV) && (dev->ncq_send_recv_cmds[ATA_LOG_NCQ_SEND_RECV_ZAC_MGMT_OFFSET] & ATA_LOG_NCQ_SEND_RECV_ZAC_MGMT_IN_SUPPORTED); } static inline bool ata_fpdma_zac_mgmt_out_supported(struct ata_device *dev) { return (dev->ncq_non_data_cmds[ATA_LOG_NCQ_NON_DATA_ZAC_MGMT_OFFSET] & ATA_LOG_NCQ_NON_DATA_ZAC_MGMT_OUT); } static inline void ata_qc_set_polling(struct ata_queued_cmd *qc) { qc->tf.ctl |= ATA_NIEN; } static inline struct ata_queued_cmd *__ata_qc_from_tag(struct ata_port *ap, unsigned int tag) { if (ata_tag_valid(tag)) return &ap->qcmd[tag]; return NULL; } static inline struct ata_queued_cmd *ata_qc_from_tag(struct ata_port *ap, unsigned int tag) { struct ata_queued_cmd *qc = __ata_qc_from_tag(ap, tag); if (unlikely(!qc) || !ap->ops->error_handler) return qc; if ((qc->flags & (ATA_QCFLAG_ACTIVE | ATA_QCFLAG_FAILED)) == ATA_QCFLAG_ACTIVE) return qc; return NULL; } static inline unsigned int ata_qc_raw_nbytes(struct ata_queued_cmd *qc) { return qc->nbytes - min(qc->extrabytes, qc->nbytes); } static inline void ata_tf_init(struct ata_device *dev, struct ata_taskfile *tf) { memset(tf, 0, sizeof(*tf)); #ifdef CONFIG_ATA_SFF tf->ctl = dev->link->ap->ctl; #else tf->ctl = ATA_DEVCTL_OBS; #endif if (dev->devno == 0) tf->device = ATA_DEVICE_OBS; else tf->device = ATA_DEVICE_OBS | ATA_DEV1; } static inline void ata_qc_reinit(struct ata_queued_cmd *qc) { qc->dma_dir = DMA_NONE; qc->sg = NULL; qc->flags = 0; qc->cursg = NULL; qc->cursg_ofs = 0; qc->nbytes = qc->extrabytes = qc->curbytes = 0; qc->n_elem = 0; qc->err_mask = 0; qc->sect_size = ATA_SECT_SIZE; ata_tf_init(qc->dev, &qc->tf); /* init result_tf such that it indicates normal completion */ qc->result_tf.command = ATA_DRDY; qc->result_tf.feature = 0; } static inline int ata_try_flush_cache(const struct ata_device *dev) { return ata_id_wcache_enabled(dev->id) || ata_id_has_flush(dev->id) || ata_id_has_flush_ext(dev->id); } static inline unsigned int ac_err_mask(u8 status) { if (status & (ATA_BUSY | ATA_DRQ)) return AC_ERR_HSM; if (status & (ATA_ERR | ATA_DF)) return AC_ERR_DEV; return 0; } static inline unsigned int __ac_err_mask(u8 status) { unsigned int mask = ac_err_mask(status); if (mask == 0) return AC_ERR_OTHER; return mask; } static inline struct ata_port *ata_shost_to_port(struct Scsi_Host *host) { return *(struct ata_port **)&host->hostdata[0]; } static inline int ata_check_ready(u8 status) { if (!(status & ATA_BUSY)) return 1; /* 0xff indicates either no device or device not ready */ if (status == 0xff) return -ENODEV; return 0; } static inline unsigned long ata_deadline(unsigned long from_jiffies, unsigned long timeout_msecs) { return from_jiffies + msecs_to_jiffies(timeout_msecs); } /* Don't open code these in drivers as there are traps. Firstly the range may change in future hardware and specs, secondly 0xFF means 'no DMA' but is > UDMA_0. Dyma ddreigiau */ static inline int ata_using_mwdma(struct ata_device *adev) { if (adev->dma_mode >= XFER_MW_DMA_0 && adev->dma_mode <= XFER_MW_DMA_4) return 1; return 0; } static inline int ata_using_udma(struct ata_device *adev) { if (adev->dma_mode >= XFER_UDMA_0 && adev->dma_mode <= XFER_UDMA_7) return 1; return 0; } static inline int ata_dma_enabled(struct ata_device *adev) { return (adev->dma_mode == 0xFF ? 0 : 1); } /************************************************************************** * PATA timings - drivers/ata/libata-pata-timings.c */ extern const struct ata_timing *ata_timing_find_mode(u8 xfer_mode); extern int ata_timing_compute(struct ata_device *, unsigned short, struct ata_timing *, int, int); extern void ata_timing_merge(const struct ata_timing *, const struct ata_timing *, struct ata_timing *, unsigned int); /************************************************************************** * PMP - drivers/ata/libata-pmp.c */ #ifdef CONFIG_SATA_PMP extern const struct ata_port_operations sata_pmp_port_ops; extern int sata_pmp_qc_defer_cmd_switch(struct ata_queued_cmd *qc); extern void sata_pmp_error_handler(struct ata_port *ap); #else /* CONFIG_SATA_PMP */ #define sata_pmp_port_ops sata_port_ops #define sata_pmp_qc_defer_cmd_switch ata_std_qc_defer #define sata_pmp_error_handler ata_std_error_handler #endif /* CONFIG_SATA_PMP */ /************************************************************************** * SFF - drivers/ata/libata-sff.c */ #ifdef CONFIG_ATA_SFF extern const struct ata_port_operations ata_sff_port_ops; extern const struct ata_port_operations ata_bmdma32_port_ops; /* PIO only, sg_tablesize and dma_boundary limits can be removed */ #define ATA_PIO_SHT(drv_name) \ ATA_BASE_SHT(drv_name), \ .sg_tablesize = LIBATA_MAX_PRD, \ .dma_boundary = ATA_DMA_BOUNDARY extern void ata_sff_dev_select(struct ata_port *ap, unsigned int device); extern u8 ata_sff_check_status(struct ata_port *ap); extern void ata_sff_pause(struct ata_port *ap); extern void ata_sff_dma_pause(struct ata_port *ap); extern int ata_sff_busy_sleep(struct ata_port *ap, unsigned long timeout_pat, unsigned long timeout); extern int ata_sff_wait_ready(struct ata_link *link, unsigned long deadline); extern void ata_sff_tf_load(struct ata_port *ap, const struct ata_taskfile *tf); extern void ata_sff_tf_read(struct ata_port *ap, struct ata_taskfile *tf); extern void ata_sff_exec_command(struct ata_port *ap, const struct ata_taskfile *tf); extern unsigned int ata_sff_data_xfer(struct ata_queued_cmd *qc, unsigned char *buf, unsigned int buflen, int rw); extern unsigned int ata_sff_data_xfer32(struct ata_queued_cmd *qc, unsigned char *buf, unsigned int buflen, int rw); extern void ata_sff_irq_on(struct ata_port *ap); extern void ata_sff_irq_clear(struct ata_port *ap); extern int ata_sff_hsm_move(struct ata_port *ap, struct ata_queued_cmd *qc, u8 status, int in_wq); extern void ata_sff_queue_work(struct work_struct *work); extern void ata_sff_queue_delayed_work(struct delayed_work *dwork, unsigned long delay); extern void ata_sff_queue_pio_task(struct ata_link *link, unsigned long delay); extern unsigned int ata_sff_qc_issue(struct ata_queued_cmd *qc); extern bool ata_sff_qc_fill_rtf(struct ata_queued_cmd *qc); extern unsigned int ata_sff_port_intr(struct ata_port *ap, struct ata_queued_cmd *qc); extern irqreturn_t ata_sff_interrupt(int irq, void *dev_instance); extern void ata_sff_lost_interrupt(struct ata_port *ap); extern void ata_sff_freeze(struct ata_port *ap); extern void ata_sff_thaw(struct ata_port *ap); extern int ata_sff_prereset(struct ata_link *link, unsigned long deadline); extern unsigned int ata_sff_dev_classify(struct ata_device *dev, int present, u8 *r_err); extern int ata_sff_wait_after_reset(struct ata_link *link, unsigned int devmask, unsigned long deadline); extern int ata_sff_softreset(struct ata_link *link, unsigned int *classes, unsigned long deadline); extern int sata_sff_hardreset(struct ata_link *link, unsigned int *class, unsigned long deadline); extern void ata_sff_postreset(struct ata_link *link, unsigned int *classes); extern void ata_sff_drain_fifo(struct ata_queued_cmd *qc); extern void ata_sff_error_handler(struct ata_port *ap); extern void ata_sff_std_ports(struct ata_ioports *ioaddr); #ifdef CONFIG_PCI extern int ata_pci_sff_init_host(struct ata_host *host); extern int ata_pci_sff_prepare_host(struct pci_dev *pdev, const struct ata_port_info * const * ppi, struct ata_host **r_host); extern int ata_pci_sff_activate_host(struct ata_host *host, irq_handler_t irq_handler, struct scsi_host_template *sht); extern int ata_pci_sff_init_one(struct pci_dev *pdev, const struct ata_port_info * const * ppi, struct scsi_host_template *sht, void *host_priv, int hflags); #endif /* CONFIG_PCI */ #ifdef CONFIG_ATA_BMDMA extern const struct ata_port_operations ata_bmdma_port_ops; #define ATA_BMDMA_SHT(drv_name) \ ATA_BASE_SHT(drv_name), \ .sg_tablesize = LIBATA_MAX_PRD, \ .dma_boundary = ATA_DMA_BOUNDARY extern enum ata_completion_errors ata_bmdma_qc_prep(struct ata_queued_cmd *qc); extern unsigned int ata_bmdma_qc_issue(struct ata_queued_cmd *qc); extern enum ata_completion_errors ata_bmdma_dumb_qc_prep(struct ata_queued_cmd *qc); extern unsigned int ata_bmdma_port_intr(struct ata_port *ap, struct ata_queued_cmd *qc); extern irqreturn_t ata_bmdma_interrupt(int irq, void *dev_instance); extern void ata_bmdma_error_handler(struct ata_port *ap); extern void ata_bmdma_post_internal_cmd(struct ata_queued_cmd *qc); extern void ata_bmdma_irq_clear(struct ata_port *ap); extern void ata_bmdma_setup(struct ata_queued_cmd *qc); extern void ata_bmdma_start(struct ata_queued_cmd *qc); extern void ata_bmdma_stop(struct ata_queued_cmd *qc); extern u8 ata_bmdma_status(struct ata_port *ap); extern int ata_bmdma_port_start(struct ata_port *ap); extern int ata_bmdma_port_start32(struct ata_port *ap); #ifdef CONFIG_PCI extern int ata_pci_bmdma_clear_simplex(struct pci_dev *pdev); extern void ata_pci_bmdma_init(struct ata_host *host); extern int ata_pci_bmdma_prepare_host(struct pci_dev *pdev, const struct ata_port_info * const * ppi, struct ata_host **r_host); extern int ata_pci_bmdma_init_one(struct pci_dev *pdev, const struct ata_port_info * const * ppi, struct scsi_host_template *sht, void *host_priv, int hflags); #endif /* CONFIG_PCI */ #endif /* CONFIG_ATA_BMDMA */ /** * ata_sff_busy_wait - Wait for a port status register * @ap: Port to wait for. * @bits: bits that must be clear * @max: number of 10uS waits to perform * * Waits up to max*10 microseconds for the selected bits in the port's * status register to be cleared. * Returns final value of status register. * * LOCKING: * Inherited from caller. */ static inline u8 ata_sff_busy_wait(struct ata_port *ap, unsigned int bits, unsigned int max) { u8 status; do { udelay(10); status = ap->ops->sff_check_status(ap); max--; } while (status != 0xff && (status & bits) && (max > 0)); return status; } /** * ata_wait_idle - Wait for a port to be idle. * @ap: Port to wait for. * * Waits up to 10ms for port's BUSY and DRQ signals to clear. * Returns final value of status register. * * LOCKING: * Inherited from caller. */ static inline u8 ata_wait_idle(struct ata_port *ap) { u8 status = ata_sff_busy_wait(ap, ATA_BUSY | ATA_DRQ, 1000); #ifdef ATA_DEBUG if (status != 0xff && (status & (ATA_BUSY | ATA_DRQ))) ata_port_printk(ap, KERN_DEBUG, "abnormal Status 0x%X\n", status); #endif return status; } #endif /* CONFIG_ATA_SFF */ #endif /* __LINUX_LIBATA_H__ */
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 // SPDX-License-Identifier: GPL-2.0 /* File: fs/ext4/acl.h (C) 2001 Andreas Gruenbacher, <a.gruenbacher@computer.org> */ #include <linux/posix_acl_xattr.h> #define EXT4_ACL_VERSION 0x0001 typedef struct { __le16 e_tag; __le16 e_perm; __le32 e_id; } ext4_acl_entry; typedef struct { __le16 e_tag; __le16 e_perm; } ext4_acl_entry_short; typedef struct { __le32 a_version; } ext4_acl_header; static inline size_t ext4_acl_size(int count) { if (count <= 4) { return sizeof(ext4_acl_header) + count * sizeof(ext4_acl_entry_short); } else { return sizeof(ext4_acl_header) + 4 * sizeof(ext4_acl_entry_short) + (count - 4) * sizeof(ext4_acl_entry); } } static inline int ext4_acl_count(size_t size) { ssize_t s; size -= sizeof(ext4_acl_header); s = size - 4 * sizeof(ext4_acl_entry_short); if (s < 0) { if (size % sizeof(ext4_acl_entry_short)) return -1; return size / sizeof(ext4_acl_entry_short); } else { if (s % sizeof(ext4_acl_entry)) return -1; return s / sizeof(ext4_acl_entry) + 4; } } #ifdef CONFIG_EXT4_FS_POSIX_ACL /* acl.c */ struct posix_acl *ext4_get_acl(struct inode *inode, int type); int ext4_set_acl(struct inode *inode, struct posix_acl *acl, int type); extern int ext4_init_acl(handle_t *, struct inode *, struct inode *); #else /* CONFIG_EXT4_FS_POSIX_ACL */ #include <linux/sched.h> #define ext4_get_acl NULL #define ext4_set_acl NULL static inline int ext4_init_acl(handle_t *handle, struct inode *inode, struct inode *dir) { return 0; } #endif /* CONFIG_EXT4_FS_POSIX_ACL */
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 /* SPDX-License-Identifier: GPL-2.0 */ #ifndef _FIB_LOOKUP_H #define _FIB_LOOKUP_H #include <linux/types.h> #include <linux/list.h> #include <net/ip_fib.h> #include <net/nexthop.h> struct fib_alias { struct hlist_node fa_list; struct fib_info *fa_info; u8 fa_tos; u8 fa_type; u8 fa_state; u8 fa_slen; u32 tb_id; s16 fa_default; u8 offload:1, trap:1, unused:6; struct rcu_head rcu; }; #define FA_S_ACCESSED 0x01 /* Dont write on fa_state unless needed, to keep it shared on all cpus */ static inline void fib_alias_accessed(struct fib_alias *fa) { if (!(fa->fa_state & FA_S_ACCESSED)) fa->fa_state |= FA_S_ACCESSED; } /* Exported by fib_semantics.c */ void fib_release_info(struct fib_info *); struct fib_info *fib_create_info(struct fib_config *cfg, struct netlink_ext_ack *extack); int fib_nh_match(struct net *net, struct fib_config *cfg, struct fib_info *fi, struct netlink_ext_ack *extack); bool fib_metrics_match(struct fib_config *cfg, struct fib_info *fi); int fib_dump_info(struct sk_buff *skb, u32 pid, u32 seq, int event, struct fib_rt_info *fri, unsigned int flags); void rtmsg_fib(int event, __be32 key, struct fib_alias *fa, int dst_len, u32 tb_id, const struct nl_info *info, unsigned int nlm_flags); static inline void fib_result_assign(struct fib_result *res, struct fib_info *fi) { /* we used to play games with refcounts, but we now use RCU */ res->fi = fi; res->nhc = fib_info_nhc(fi, 0); } struct fib_prop { int error; u8 scope; }; extern const struct fib_prop fib_props[RTN_MAX + 1]; #endif /* _FIB_LOOKUP_H */
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 /* SPDX-License-Identifier: GPL-2.0 */ #ifndef _ASM_X86_PAGE_64_H #define _ASM_X86_PAGE_64_H #include <asm/page_64_types.h> #ifndef __ASSEMBLY__ #include <asm/alternative.h> /* duplicated to the one in bootmem.h */ extern unsigned long max_pfn; extern unsigned long phys_base; extern unsigned long page_offset_base; extern unsigned long vmalloc_base; extern unsigned long vmemmap_base; static inline unsigned long __phys_addr_nodebug(unsigned long x) { unsigned long y = x - __START_KERNEL_map; /* use the carry flag to determine if x was < __START_KERNEL_map */ x = y + ((x > y) ? phys_base : (__START_KERNEL_map - PAGE_OFFSET)); return x; } #ifdef CONFIG_DEBUG_VIRTUAL extern unsigned long __phys_addr(unsigned long); extern unsigned long __phys_addr_symbol(unsigned long); #else #define __phys_addr(x) __phys_addr_nodebug(x) #define __phys_addr_symbol(x) \ ((unsigned long)(x) - __START_KERNEL_map + phys_base) #endif #define __phys_reloc_hide(x) (x) #ifdef CONFIG_FLATMEM #define pfn_valid(pfn) ((pfn) < max_pfn) #endif void clear_page_orig(void *page); void clear_page_rep(void *page); void clear_page_erms(void *page); static inline void clear_page(void *page) { alternative_call_2(clear_page_orig, clear_page_rep, X86_FEATURE_REP_GOOD, clear_page_erms, X86_FEATURE_ERMS, "=D" (page), "0" (page) : "cc", "memory", "rax", "rcx"); } void copy_page(void *to, void *from); #endif /* !__ASSEMBLY__ */ #ifdef CONFIG_X86_VSYSCALL_EMULATION # define __HAVE_ARCH_GATE_AREA 1 #endif #endif /* _ASM_X86_PAGE_64_H */
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 // SPDX-License-Identifier: GPL-2.0 /* * fs/ext4/mballoc.h * * Written by: Alex Tomas <alex@clusterfs.com> * */ #ifndef _EXT4_MBALLOC_H #define _EXT4_MBALLOC_H #include <linux/time.h> #include <linux/fs.h> #include <linux/namei.h> #include <linux/quotaops.h> #include <linux/buffer_head.h> #include <linux/module.h> #include <linux/swap.h> #include <linux/proc_fs.h> #include <linux/pagemap.h> #include <linux/seq_file.h> #include <linux/blkdev.h> #include <linux/mutex.h> #include "ext4_jbd2.h" #include "ext4.h" /* * mb_debug() dynamic printk msgs could be used to debug mballoc code. */ #ifdef CONFIG_EXT4_DEBUG #define mb_debug(sb, fmt, ...) \ pr_debug("[%s/%d] EXT4-fs (%s): (%s, %d): %s: " fmt, \ current->comm, task_pid_nr(current), sb->s_id, \ __FILE__, __LINE__, __func__, ##__VA_ARGS__) #else #define mb_debug(sb, fmt, ...) no_printk(fmt, ##__VA_ARGS__) #endif #define EXT4_MB_HISTORY_ALLOC 1 /* allocation */ #define EXT4_MB_HISTORY_PREALLOC 2 /* preallocated blocks used */ /* * How long mballoc can look for a best extent (in found extents) */ #define MB_DEFAULT_MAX_TO_SCAN 200 /* * How long mballoc must look for a best extent */ #define MB_DEFAULT_MIN_TO_SCAN 10 /* * with 'ext4_mb_stats' allocator will collect stats that will be * shown at umount. The collecting costs though! */ #define MB_DEFAULT_STATS 0 /* * files smaller than MB_DEFAULT_STREAM_THRESHOLD are served * by the stream allocator, which purpose is to pack requests * as close each to other as possible to produce smooth I/O traffic * We use locality group prealloc space for stream request. * We can tune the same via /proc/fs/ext4/<parition>/stream_req */ #define MB_DEFAULT_STREAM_THRESHOLD 16 /* 64K */ /* * for which requests use 2^N search using buddies */ #define MB_DEFAULT_ORDER2_REQS 2 /* * default group prealloc size 512 blocks */ #define MB_DEFAULT_GROUP_PREALLOC 512 /* * maximum length of inode prealloc list */ #define MB_DEFAULT_MAX_INODE_PREALLOC 512 struct ext4_free_data { /* this links the free block information from sb_info */ struct list_head efd_list; /* this links the free block information from group_info */ struct rb_node efd_node; /* group which free block extent belongs */ ext4_group_t efd_group; /* free block extent */ ext4_grpblk_t efd_start_cluster; ext4_grpblk_t efd_count; /* transaction which freed this extent */ tid_t efd_tid; }; struct ext4_prealloc_space { struct list_head pa_inode_list; struct list_head pa_group_list; union { struct list_head pa_tmp_list; struct rcu_head pa_rcu; } u; spinlock_t pa_lock; atomic_t pa_count; unsigned pa_deleted; ext4_fsblk_t pa_pstart; /* phys. block */ ext4_lblk_t pa_lstart; /* log. block */ ext4_grpblk_t pa_len; /* len of preallocated chunk */ ext4_grpblk_t pa_free; /* how many blocks are free */ unsigned short pa_type; /* pa type. inode or group */ spinlock_t *pa_obj_lock; struct inode *pa_inode; /* hack, for history only */ }; enum { MB_INODE_PA = 0, MB_GROUP_PA = 1 }; struct ext4_free_extent { ext4_lblk_t fe_logical; ext4_grpblk_t fe_start; /* In cluster units */ ext4_group_t fe_group; ext4_grpblk_t fe_len; /* In cluster units */ }; /* * Locality group: * we try to group all related changes together * so that writeback can flush/allocate them together as well * Size of lg_prealloc_list hash is determined by MB_DEFAULT_GROUP_PREALLOC * (512). We store prealloc space into the hash based on the pa_free blocks * order value.ie, fls(pa_free)-1; */ #define PREALLOC_TB_SIZE 10 struct ext4_locality_group { /* for allocator */ /* to serialize allocates */ struct mutex lg_mutex; /* list of preallocations */ struct list_head lg_prealloc_list[PREALLOC_TB_SIZE]; spinlock_t lg_prealloc_lock; }; struct ext4_allocation_context { struct inode *ac_inode; struct super_block *ac_sb; /* original request */ struct ext4_free_extent ac_o_ex; /* goal request (normalized ac_o_ex) */ struct ext4_free_extent ac_g_ex; /* the best found extent */ struct ext4_free_extent ac_b_ex; /* copy of the best found extent taken before preallocation efforts */ struct ext4_free_extent ac_f_ex; __u16 ac_groups_scanned; __u16 ac_found; __u16 ac_tail; __u16 ac_buddy; __u16 ac_flags; /* allocation hints */ __u8 ac_status; __u8 ac_criteria; __u8 ac_2order; /* if request is to allocate 2^N blocks and * N > 0, the field stores N, otherwise 0 */ __u8 ac_op; /* operation, for history only */ struct page *ac_bitmap_page; struct page *ac_buddy_page; struct ext4_prealloc_space *ac_pa; struct ext4_locality_group *ac_lg; }; #define AC_STATUS_CONTINUE 1 #define AC_STATUS_FOUND 2 #define AC_STATUS_BREAK 3 struct ext4_buddy { struct page *bd_buddy_page; void *bd_buddy; struct page *bd_bitmap_page; void *bd_bitmap; struct ext4_group_info *bd_info; struct super_block *bd_sb; __u16 bd_blkbits; ext4_group_t bd_group; }; static inline ext4_fsblk_t ext4_grp_offs_to_block(struct super_block *sb, struct ext4_free_extent *fex) { return ext4_group_first_block_no(sb, fex->fe_group) + (fex->fe_start << EXT4_SB(sb)->s_cluster_bits); } typedef int (*ext4_mballoc_query_range_fn)( struct super_block *sb, ext4_group_t agno, ext4_grpblk_t start, ext4_grpblk_t len, void *priv); int ext4_mballoc_query_range( struct super_block *sb, ext4_group_t agno, ext4_grpblk_t start, ext4_grpblk_t end, ext4_mballoc_query_range_fn formatter, void *priv); #endif
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 /* SPDX-License-Identifier: GPL-2.0 */ #ifndef _LINUX_VMALLOC_H #define _LINUX_VMALLOC_H #include <linux/spinlock.h> #include <linux/init.h> #include <linux/list.h> #include <linux/llist.h> #include <asm/page.h> /* pgprot_t */ #include <linux/rbtree.h> #include <linux/overflow.h> #include <asm/vmalloc.h> struct vm_area_struct; /* vma defining user mapping in mm_types.h */ struct notifier_block; /* in notifier.h */ /* bits in flags of vmalloc's vm_struct below */ #define VM_IOREMAP 0x00000001 /* ioremap() and friends */ #define VM_ALLOC 0x00000002 /* vmalloc() */ #define VM_MAP 0x00000004 /* vmap()ed pages */ #define VM_USERMAP 0x00000008 /* suitable for remap_vmalloc_range */ #define VM_DMA_COHERENT 0x00000010 /* dma_alloc_coherent */ #define VM_UNINITIALIZED 0x00000020 /* vm_struct is not fully initialized */ #define VM_NO_GUARD 0x00000040 /* don't add guard page */ #define VM_KASAN 0x00000080 /* has allocated kasan shadow memory */ #define VM_FLUSH_RESET_PERMS 0x00000100 /* reset direct map and flush TLB on unmap, can't be freed in atomic context */ #define VM_MAP_PUT_PAGES 0x00000200 /* put pages and free array in vfree */ /* * VM_KASAN is used slighly differently depending on CONFIG_KASAN_VMALLOC. * * If IS_ENABLED(CONFIG_KASAN_VMALLOC), VM_KASAN is set on a vm_struct after * shadow memory has been mapped. It's used to handle allocation errors so that * we don't try to poision shadow on free if it was never allocated. * * Otherwise, VM_KASAN is set for kasan_module_alloc() allocations and used to * determine which allocations need the module shadow freed. */ /* bits [20..32] reserved for arch specific ioremap internals */ /* * Maximum alignment for ioremap() regions. * Can be overriden by arch-specific value. */ #ifndef IOREMAP_MAX_ORDER #define IOREMAP_MAX_ORDER (7 + PAGE_SHIFT) /* 128 pages */ #endif struct vm_struct { struct vm_struct *next; void *addr; unsigned long size; unsigned long flags; struct page **pages; unsigned int nr_pages; phys_addr_t phys_addr; const void *caller; }; struct vmap_area { unsigned long va_start; unsigned long va_end; struct rb_node rb_node; /* address sorted rbtree */ struct list_head list; /* address sorted list */ /* * The following three variables can be packed, because * a vmap_area object is always one of the three states: * 1) in "free" tree (root is vmap_area_root) * 2) in "busy" tree (root is free_vmap_area_root) * 3) in purge list (head is vmap_purge_list) */ union { unsigned long subtree_max_size; /* in "free" tree */ struct vm_struct *vm; /* in "busy" tree */ struct llist_node purge_list; /* in purge list */ }; }; /* * Highlevel APIs for driver use */ extern void vm_unmap_ram(const void *mem, unsigned int count); extern void *vm_map_ram(struct page **pages, unsigned int count, int node); extern void vm_unmap_aliases(void); #ifdef CONFIG_MMU extern void __init vmalloc_init(void); extern unsigned long vmalloc_nr_pages(void); #else static inline void vmalloc_init(void) { } static inline unsigned long vmalloc_nr_pages(void) { return 0; } #endif extern void *vmalloc(unsigned long size); extern void *vzalloc(unsigned long size); extern void *vmalloc_user(unsigned long size); extern void *vmalloc_node(unsigned long size, int node); extern void *vzalloc_node(unsigned long size, int node); extern void *vmalloc_32(unsigned long size); extern void *vmalloc_32_user(unsigned long size); extern void *__vmalloc(unsigned long size, gfp_t gfp_mask); extern void *__vmalloc_node_range(unsigned long size, unsigned long align, unsigned long start, unsigned long end, gfp_t gfp_mask, pgprot_t prot, unsigned long vm_flags, int node, const void *caller); void *__vmalloc_node(unsigned long size, unsigned long align, gfp_t gfp_mask, int node, const void *caller); extern void vfree(const void *addr); extern void vfree_atomic(const void *addr); extern void *vmap(struct page **pages, unsigned int count, unsigned long flags, pgprot_t prot); void *vmap_pfn(unsigned long *pfns, unsigned int count, pgprot_t prot); extern void vunmap(const void *addr); extern int remap_vmalloc_range_partial(struct vm_area_struct *vma, unsigned long uaddr, void *kaddr, unsigned long pgoff, unsigned long size); extern int remap_vmalloc_range(struct vm_area_struct *vma, void *addr, unsigned long pgoff); /* * Architectures can set this mask to a combination of PGTBL_P?D_MODIFIED values * and let generic vmalloc and ioremap code know when arch_sync_kernel_mappings() * needs to be called. */ #ifndef ARCH_PAGE_TABLE_SYNC_MASK #define ARCH_PAGE_TABLE_SYNC_MASK 0 #endif /* * There is no default implementation for arch_sync_kernel_mappings(). It is * relied upon the compiler to optimize calls out if ARCH_PAGE_TABLE_SYNC_MASK * is 0. */ void arch_sync_kernel_mappings(unsigned long start, unsigned long end); /* * Lowlevel-APIs (not for driver use!) */ static inline size_t get_vm_area_size(const struct vm_struct *area) { if (!(area->flags & VM_NO_GUARD)) /* return actual size without guard page */ return area->size - PAGE_SIZE; else return area->size; } extern struct vm_struct *get_vm_area(unsigned long size, unsigned long flags); extern struct vm_struct *get_vm_area_caller(unsigned long size, unsigned long flags, const void *caller); extern struct vm_struct *__get_vm_area_caller(unsigned long size, unsigned long flags, unsigned long start, unsigned long end, const void *caller); void free_vm_area(struct vm_struct *area); extern struct vm_struct *remove_vm_area(const void *addr); extern struct vm_struct *find_vm_area(const void *addr); #ifdef CONFIG_MMU extern int map_kernel_range_noflush(unsigned long start, unsigned long size, pgprot_t prot, struct page **pages); int map_kernel_range(unsigned long start, unsigned long size, pgprot_t prot, struct page **pages); extern void unmap_kernel_range_noflush(unsigned long addr, unsigned long size); extern void unmap_kernel_range(unsigned long addr, unsigned long size); static inline void set_vm_flush_reset_perms(void *addr) { struct vm_struct *vm = find_vm_area(addr); if (vm) vm->flags |= VM_FLUSH_RESET_PERMS; } #else static inline int map_kernel_range_noflush(unsigned long start, unsigned long size, pgprot_t prot, struct page **pages) { return size >> PAGE_SHIFT; } #define map_kernel_range map_kernel_range_noflush static inline void unmap_kernel_range_noflush(unsigned long addr, unsigned long size) { } #define unmap_kernel_range unmap_kernel_range_noflush static inline void set_vm_flush_reset_perms(void *addr) { } #endif /* for /dev/kmem */ extern long vread(char *buf, char *addr, unsigned long count); extern long vwrite(char *buf, char *addr, unsigned long count); /* * Internals. Dont't use.. */ extern struct list_head vmap_area_list; extern __init void vm_area_add_early(struct vm_struct *vm); extern __init void vm_area_register_early(struct vm_struct *vm, size_t align); #ifdef CONFIG_SMP # ifdef CONFIG_MMU struct vm_struct **pcpu_get_vm_areas(const unsigned long *offsets, const size_t *sizes, int nr_vms, size_t align); void pcpu_free_vm_areas(struct vm_struct **vms, int nr_vms); # else static inline struct vm_struct ** pcpu_get_vm_areas(const unsigned long *offsets, const size_t *sizes, int nr_vms, size_t align) { return NULL; } static inline void pcpu_free_vm_areas(struct vm_struct **vms, int nr_vms) { } # endif #endif #ifdef CONFIG_MMU #define VMALLOC_TOTAL (VMALLOC_END - VMALLOC_START) #else #define VMALLOC_TOTAL 0UL #endif int register_vmap_purge_notifier(struct notifier_block *nb); int unregister_vmap_purge_notifier(struct notifier_block *nb); #endif /* _LINUX_VMALLOC_H */
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382 383 384 385 386 387 388 389 390 391 392 393 394 395 396 397 398 399 400 401 402 403 404 405 406 407 408 409 410 411 412 413 414 415 416 417 418 419 420 421 422 423 424 425 426 427 428 429 430 431 432 433 434 435 436 437 438 439 440 441 442 443 444 445 446 447 448 449 450 451 452 453 454 455 456 457 458 459 460 461 462 463 464 465 466 467 468 469 470 471 472 473 474 475 476 477 478 479 480 481 482 483 484 485 486 487 488 489 490 491 492 493 494 495 496 497 498 499 500 501 502 503 504 505 506 507 508 509 510 511 512 513 514 515 516 517 518 519 520 521 522 523 524 525 526 527 528 529 530 531 532 533 534 535 536 537 538 539 540 541 542 543 544 545 546 547 548 549 550 551 552 553 554 555 556 557 558 559 560 561 562 563 564 565 566 567 568 569 570 571 572 573 574 575 576 577 578 579 580 581 582 583 584 585 586 587 588 589 590 591 592 593 594 595 596 597 598 599 600 601 602 603 604 605 606 607 608 609 610 611 612 613 614 615 616 617 618 619 620 621 622 623 624 /* SPDX-License-Identifier: GPL-2.0 */ /* * Filesystem access notification for Linux * * Copyright (C) 2008 Red Hat, Inc., Eric Paris <eparis@redhat.com> */ #ifndef __LINUX_FSNOTIFY_BACKEND_H #define __LINUX_FSNOTIFY_BACKEND_H #ifdef __KERNEL__ #include <linux/idr.h> /* inotify uses this */ #include <linux/fs.h> /* struct inode */ #include <linux/list.h> #include <linux/path.h> /* struct path */ #include <linux/spinlock.h> #include <linux/types.h> #include <linux/atomic.h> #include <linux/user_namespace.h> #include <linux/refcount.h> /* * IN_* from inotfy.h lines up EXACTLY with FS_*, this is so we can easily * convert between them. dnotify only needs conversion at watch creation * so no perf loss there. fanotify isn't defined yet, so it can use the * wholes if it needs more events. */ #define FS_ACCESS 0x00000001 /* File was accessed */ #define FS_MODIFY 0x00000002 /* File was modified */ #define FS_ATTRIB 0x00000004 /* Metadata changed */ #define FS_CLOSE_WRITE 0x00000008 /* Writtable file was closed */ #define FS_CLOSE_NOWRITE 0x00000010 /* Unwrittable file closed */ #define FS_OPEN 0x00000020 /* File was opened */ #define FS_MOVED_FROM 0x00000040 /* File was moved from X */ #define FS_MOVED_TO 0x00000080 /* File was moved to Y */ #define FS_CREATE 0x00000100 /* Subfile was created */ #define FS_DELETE 0x00000200 /* Subfile was deleted */ #define FS_DELETE_SELF 0x00000400 /* Self was deleted */ #define FS_MOVE_SELF 0x00000800 /* Self was moved */ #define FS_OPEN_EXEC 0x00001000 /* File was opened for exec */ #define FS_UNMOUNT 0x00002000 /* inode on umount fs */ #define FS_Q_OVERFLOW 0x00004000 /* Event queued overflowed */ #define FS_IN_IGNORED 0x00008000 /* last inotify event here */ #define FS_OPEN_PERM 0x00010000 /* open event in an permission hook */ #define FS_ACCESS_PERM 0x00020000 /* access event in a permissions hook */ #define FS_OPEN_EXEC_PERM 0x00040000 /* open/exec event in a permission hook */ #define FS_EXCL_UNLINK 0x04000000 /* do not send events if object is unlinked */ /* * Set on inode mark that cares about things that happen to its children. * Always set for dnotify and inotify. * Set on inode/sb/mount marks that care about parent/name info. */ #define FS_EVENT_ON_CHILD 0x08000000 #define FS_DN_RENAME 0x10000000 /* file renamed */ #define FS_DN_MULTISHOT 0x20000000 /* dnotify multishot */ #define FS_ISDIR 0x40000000 /* event occurred against dir */ #define FS_IN_ONESHOT 0x80000000 /* only send event once */ #define FS_MOVE (FS_MOVED_FROM | FS_MOVED_TO) /* * Directory entry modification events - reported only to directory * where entry is modified and not to a watching parent. * The watching parent may get an FS_ATTRIB|FS_EVENT_ON_CHILD event * when a directory entry inside a child subdir changes. */ #define ALL_FSNOTIFY_DIRENT_EVENTS (FS_CREATE | FS_DELETE | FS_MOVE) #define ALL_FSNOTIFY_PERM_EVENTS (FS_OPEN_PERM | FS_ACCESS_PERM | \ FS_OPEN_EXEC_PERM) /* * This is a list of all events that may get sent to a parent that is watching * with flag FS_EVENT_ON_CHILD based on fs event on a child of that directory. */ #define FS_EVENTS_POSS_ON_CHILD (ALL_FSNOTIFY_PERM_EVENTS | \ FS_ACCESS | FS_MODIFY | FS_ATTRIB | \ FS_CLOSE_WRITE | FS_CLOSE_NOWRITE | \ FS_OPEN | FS_OPEN_EXEC) /* * This is a list of all events that may get sent with the parent inode as the * @to_tell argument of fsnotify(). * It may include events that can be sent to an inode/sb/mount mark, but cannot * be sent to a parent watching children. */ #define FS_EVENTS_POSS_TO_PARENT (FS_EVENTS_POSS_ON_CHILD) /* Events that can be reported to backends */ #define ALL_FSNOTIFY_EVENTS (ALL_FSNOTIFY_DIRENT_EVENTS | \ FS_EVENTS_POSS_ON_CHILD | \ FS_DELETE_SELF | FS_MOVE_SELF | FS_DN_RENAME | \ FS_UNMOUNT | FS_Q_OVERFLOW | FS_IN_IGNORED) /* Extra flags that may be reported with event or control handling of events */ #define ALL_FSNOTIFY_FLAGS (FS_EXCL_UNLINK | FS_ISDIR | FS_IN_ONESHOT | \ FS_DN_MULTISHOT | FS_EVENT_ON_CHILD) #define ALL_FSNOTIFY_BITS (ALL_FSNOTIFY_EVENTS | ALL_FSNOTIFY_FLAGS) struct fsnotify_group; struct fsnotify_event; struct fsnotify_mark; struct fsnotify_event_private_data; struct fsnotify_fname; struct fsnotify_iter_info; struct mem_cgroup; /* * Each group much define these ops. The fsnotify infrastructure will call * these operations for each relevant group. * * handle_event - main call for a group to handle an fs event * @group: group to notify * @mask: event type and flags * @data: object that event happened on * @data_type: type of object for fanotify_data_XXX() accessors * @dir: optional directory associated with event - * if @file_name is not NULL, this is the directory that * @file_name is relative to * @file_name: optional file name associated with event * @cookie: inotify rename cookie * @iter_info: array of marks from this group that are interested in the event * * handle_inode_event - simple variant of handle_event() for groups that only * have inode marks and don't have ignore mask * @mark: mark to notify * @mask: event type and flags * @inode: inode that event happened on * @dir: optional directory associated with event - * if @file_name is not NULL, this is the directory that * @file_name is relative to. * @file_name: optional file name associated with event * @cookie: inotify rename cookie * * free_group_priv - called when a group refcnt hits 0 to clean up the private union * freeing_mark - called when a mark is being destroyed for some reason. The group * MUST be holding a reference on each mark and that reference must be * dropped in this function. inotify uses this function to send * userspace messages that marks have been removed. */ struct fsnotify_ops { int (*handle_event)(struct fsnotify_group *group, u32 mask, const void *data, int data_type, struct inode *dir, const struct qstr *file_name, u32 cookie, struct fsnotify_iter_info *iter_info); int (*handle_inode_event)(struct fsnotify_mark *mark, u32 mask, struct inode *inode, struct inode *dir, const struct qstr *file_name, u32 cookie); void (*free_group_priv)(struct fsnotify_group *group); void (*freeing_mark)(struct fsnotify_mark *mark, struct fsnotify_group *group); void (*free_event)(struct fsnotify_event *event); /* called on final put+free to free memory */ void (*free_mark)(struct fsnotify_mark *mark); }; /* * all of the information about the original object we want to now send to * a group. If you want to carry more info from the accessing task to the * listener this structure is where you need to be adding fields. */ struct fsnotify_event { struct list_head list; unsigned long objectid; /* identifier for queue merges */ }; /* * A group is a "thing" that wants to receive notification about filesystem * events. The mask holds the subset of event types this group cares about. * refcnt on a group is up to the implementor and at any moment if it goes 0 * everything will be cleaned up. */ struct fsnotify_group { const struct fsnotify_ops *ops; /* how this group handles things */ /* * How the refcnt is used is up to each group. When the refcnt hits 0 * fsnotify will clean up all of the resources associated with this group. * As an example, the dnotify group will always have a refcnt=1 and that * will never change. Inotify, on the other hand, has a group per * inotify_init() and the refcnt will hit 0 only when that fd has been * closed. */ refcount_t refcnt; /* things with interest in this group */ /* needed to send notification to userspace */ spinlock_t notification_lock; /* protect the notification_list */ struct list_head notification_list; /* list of event_holder this group needs to send to userspace */ wait_queue_head_t notification_waitq; /* read() on the notification file blocks on this waitq */ unsigned int q_len; /* events on the queue */ unsigned int max_events; /* maximum events allowed on the list */ /* * Valid fsnotify group priorities. Events are send in order from highest * priority to lowest priority. We default to the lowest priority. */ #define FS_PRIO_0 0 /* normal notifiers, no permissions */ #define FS_PRIO_1 1 /* fanotify content based access control */ #define FS_PRIO_2 2 /* fanotify pre-content access */ unsigned int priority; bool shutdown; /* group is being shut down, don't queue more events */ /* stores all fastpath marks assoc with this group so they can be cleaned on unregister */ struct mutex mark_mutex; /* protect marks_list */ atomic_t num_marks; /* 1 for each mark and 1 for not being * past the point of no return when freeing * a group */ atomic_t user_waits; /* Number of tasks waiting for user * response */ struct list_head marks_list; /* all inode marks for this group */ struct fasync_struct *fsn_fa; /* async notification */ struct fsnotify_event *overflow_event; /* Event we queue when the * notification list is too * full */ struct mem_cgroup *memcg; /* memcg to charge allocations */ /* groups can define private fields here or use the void *private */ union { void *private; #ifdef CONFIG_INOTIFY_USER struct inotify_group_private_data { spinlock_t idr_lock; struct idr idr; struct ucounts *ucounts; } inotify_data; #endif #ifdef CONFIG_FANOTIFY struct fanotify_group_private_data { /* allows a group to block waiting for a userspace response */ struct list_head access_list; wait_queue_head_t access_waitq; int flags; /* flags from fanotify_init() */ int f_flags; /* event_f_flags from fanotify_init() */ unsigned int max_marks; struct user_struct *user; } fanotify_data; #endif /* CONFIG_FANOTIFY */ }; }; /* When calling fsnotify tell it if the data is a path or inode */ enum fsnotify_data_type { FSNOTIFY_EVENT_NONE, FSNOTIFY_EVENT_PATH, FSNOTIFY_EVENT_INODE, }; static inline struct inode *fsnotify_data_inode(const void *data, int data_type) { switch (data_type) { case FSNOTIFY_EVENT_INODE: return (struct inode *)data; case FSNOTIFY_EVENT_PATH: return d_inode(((const struct path *)data)->dentry); default: return NULL; } } static inline const struct path *fsnotify_data_path(const void *data, int data_type) { switch (data_type) { case FSNOTIFY_EVENT_PATH: return data; default: return NULL; } } enum fsnotify_obj_type { FSNOTIFY_OBJ_TYPE_INODE, FSNOTIFY_OBJ_TYPE_PARENT, FSNOTIFY_OBJ_TYPE_VFSMOUNT, FSNOTIFY_OBJ_TYPE_SB, FSNOTIFY_OBJ_TYPE_COUNT, FSNOTIFY_OBJ_TYPE_DETACHED = FSNOTIFY_OBJ_TYPE_COUNT }; #define FSNOTIFY_OBJ_TYPE_INODE_FL (1U << FSNOTIFY_OBJ_TYPE_INODE) #define FSNOTIFY_OBJ_TYPE_PARENT_FL (1U << FSNOTIFY_OBJ_TYPE_PARENT) #define FSNOTIFY_OBJ_TYPE_VFSMOUNT_FL (1U << FSNOTIFY_OBJ_TYPE_VFSMOUNT) #define FSNOTIFY_OBJ_TYPE_SB_FL (1U << FSNOTIFY_OBJ_TYPE_SB) #define FSNOTIFY_OBJ_ALL_TYPES_MASK ((1U << FSNOTIFY_OBJ_TYPE_COUNT) - 1) static inline bool fsnotify_valid_obj_type(unsigned int type) { return (type < FSNOTIFY_OBJ_TYPE_COUNT); } struct fsnotify_iter_info { struct fsnotify_mark *marks[FSNOTIFY_OBJ_TYPE_COUNT]; unsigned int report_mask; int srcu_idx; }; static inline bool fsnotify_iter_should_report_type( struct fsnotify_iter_info *iter_info, int type) { return (iter_info->report_mask & (1U << type)); } static inline void fsnotify_iter_set_report_type( struct fsnotify_iter_info *iter_info, int type) { iter_info->report_mask |= (1U << type); } static inline void fsnotify_iter_set_report_type_mark( struct fsnotify_iter_info *iter_info, int type, struct fsnotify_mark *mark) { iter_info->marks[type] = mark; iter_info->report_mask |= (1U << type); } #define FSNOTIFY_ITER_FUNCS(name, NAME) \ static inline struct fsnotify_mark *fsnotify_iter_##name##_mark( \ struct fsnotify_iter_info *iter_info) \ { \ return (iter_info->report_mask & FSNOTIFY_OBJ_TYPE_##NAME##_FL) ? \ iter_info->marks[FSNOTIFY_OBJ_TYPE_##NAME] : NULL; \ } FSNOTIFY_ITER_FUNCS(inode, INODE) FSNOTIFY_ITER_FUNCS(parent, PARENT) FSNOTIFY_ITER_FUNCS(vfsmount, VFSMOUNT) FSNOTIFY_ITER_FUNCS(sb, SB) #define fsnotify_foreach_obj_type(type) \ for (type = 0; type < FSNOTIFY_OBJ_TYPE_COUNT; type++) /* * fsnotify_connp_t is what we embed in objects which connector can be attached * to. fsnotify_connp_t * is how we refer from connector back to object. */ struct fsnotify_mark_connector; typedef struct fsnotify_mark_connector __rcu *fsnotify_connp_t; /* * Inode/vfsmount/sb point to this structure which tracks all marks attached to * the inode/vfsmount/sb. The reference to inode/vfsmount/sb is held by this * structure. We destroy this structure when there are no more marks attached * to it. The structure is protected by fsnotify_mark_srcu. */ struct fsnotify_mark_connector { spinlock_t lock; unsigned short type; /* Type of object [lock] */ #define FSNOTIFY_CONN_FLAG_HAS_FSID 0x01 unsigned short flags; /* flags [lock] */ __kernel_fsid_t fsid; /* fsid of filesystem containing object */ union { /* Object pointer [lock] */ fsnotify_connp_t *obj; /* Used listing heads to free after srcu period expires */ struct fsnotify_mark_connector *destroy_next; }; struct hlist_head list; }; /* * A mark is simply an object attached to an in core inode which allows an * fsnotify listener to indicate they are either no longer interested in events * of a type matching mask or only interested in those events. * * These are flushed when an inode is evicted from core and may be flushed * when the inode is modified (as seen by fsnotify_access). Some fsnotify * users (such as dnotify) will flush these when the open fd is closed and not * at inode eviction or modification. * * Text in brackets is showing the lock(s) protecting modifications of a * particular entry. obj_lock means either inode->i_lock or * mnt->mnt_root->d_lock depending on the mark type. */ struct fsnotify_mark { /* Mask this mark is for [mark->lock, group->mark_mutex] */ __u32 mask; /* We hold one for presence in g_list. Also one ref for each 'thing' * in kernel that found and may be using this mark. */ refcount_t refcnt; /* Group this mark is for. Set on mark creation, stable until last ref * is dropped */ struct fsnotify_group *group; /* List of marks by group->marks_list. Also reused for queueing * mark into destroy_list when it's waiting for the end of SRCU period * before it can be freed. [group->mark_mutex] */ struct list_head g_list; /* Protects inode / mnt pointers, flags, masks */ spinlock_t lock; /* List of marks for inode / vfsmount [connector->lock, mark ref] */ struct hlist_node obj_list; /* Head of list of marks for an object [mark ref] */ struct fsnotify_mark_connector *connector; /* Events types to ignore [mark->lock, group->mark_mutex] */ __u32 ignored_mask; #define FSNOTIFY_MARK_FLAG_IGNORED_SURV_MODIFY 0x01 #define FSNOTIFY_MARK_FLAG_ALIVE 0x02 #define FSNOTIFY_MARK_FLAG_ATTACHED 0x04 unsigned int flags; /* flags [mark->lock] */ }; #ifdef CONFIG_FSNOTIFY /* called from the vfs helpers */ /* main fsnotify call to send events */ extern int fsnotify(__u32 mask, const void *data, int data_type, struct inode *dir, const struct qstr *name, struct inode *inode, u32 cookie); extern int __fsnotify_parent(struct dentry *dentry, __u32 mask, const void *data, int data_type); extern void __fsnotify_inode_delete(struct inode *inode); extern void __fsnotify_vfsmount_delete(struct vfsmount *mnt); extern void fsnotify_sb_delete(struct super_block *sb); extern u32 fsnotify_get_cookie(void); static inline __u32 fsnotify_parent_needed_mask(__u32 mask) { /* FS_EVENT_ON_CHILD is set on marks that want parent/name info */ if (!(mask & FS_EVENT_ON_CHILD)) return 0; /* * This object might be watched by a mark that cares about parent/name * info, does it care about the specific set of events that can be * reported with parent/name info? */ return mask & FS_EVENTS_POSS_TO_PARENT; } static inline int fsnotify_inode_watches_children(struct inode *inode) { /* FS_EVENT_ON_CHILD is set if the inode may care */ if (!(inode->i_fsnotify_mask & FS_EVENT_ON_CHILD)) return 0; /* this inode might care about child events, does it care about the * specific set of events that can happen on a child? */ return inode->i_fsnotify_mask & FS_EVENTS_POSS_ON_CHILD; } /* * Update the dentry with a flag indicating the interest of its parent to receive * filesystem events when those events happens to this dentry->d_inode. */ static inline void fsnotify_update_flags(struct dentry *dentry) { assert_spin_locked(&dentry->d_lock); /* * Serialisation of setting PARENT_WATCHED on the dentries is provided * by d_lock. If inotify_inode_watched changes after we have taken * d_lock, the following __fsnotify_update_child_dentry_flags call will * find our entry, so it will spin until we complete here, and update * us with the new state. */ if (fsnotify_inode_watches_children(dentry->d_parent->d_inode)) dentry->d_flags |= DCACHE_FSNOTIFY_PARENT_WATCHED; else dentry->d_flags &= ~DCACHE_FSNOTIFY_PARENT_WATCHED; } /* called from fsnotify listeners, such as fanotify or dnotify */ /* create a new group */ extern struct fsnotify_group *fsnotify_alloc_group(const struct fsnotify_ops *ops); /* get reference to a group */ extern void fsnotify_get_group(struct fsnotify_group *group); /* drop reference on a group from fsnotify_alloc_group */ extern void fsnotify_put_group(struct fsnotify_group *group); /* group destruction begins, stop queuing new events */ extern void fsnotify_group_stop_queueing(struct fsnotify_group *group); /* destroy group */ extern void fsnotify_destroy_group(struct fsnotify_group *group); /* fasync handler function */ extern int fsnotify_fasync(int fd, struct file *file, int on); /* Free event from memory */ extern void fsnotify_destroy_event(struct fsnotify_group *group, struct fsnotify_event *event); /* attach the event to the group notification queue */ extern int fsnotify_add_event(struct fsnotify_group *group, struct fsnotify_event *event, int (*merge)(struct list_head *, struct fsnotify_event *)); /* Queue overflow event to a notification group */ static inline void fsnotify_queue_overflow(struct fsnotify_group *group) { fsnotify_add_event(group, group->overflow_event, NULL); } /* true if the group notification queue is empty */ extern bool fsnotify_notify_queue_is_empty(struct fsnotify_group *group); /* return, but do not dequeue the first event on the notification queue */ extern struct fsnotify_event *fsnotify_peek_first_event(struct fsnotify_group *group); /* return AND dequeue the first event on the notification queue */ extern struct fsnotify_event *fsnotify_remove_first_event(struct fsnotify_group *group); /* Remove event queued in the notification list */ extern void fsnotify_remove_queued_event(struct fsnotify_group *group, struct fsnotify_event *event); /* functions used to manipulate the marks attached to inodes */ /* Get mask of events for a list of marks */ extern __u32 fsnotify_conn_mask(struct fsnotify_mark_connector *conn); /* Calculate mask of events for a list of marks */ extern void fsnotify_recalc_mask(struct fsnotify_mark_connector *conn); extern void fsnotify_init_mark(struct fsnotify_mark *mark, struct fsnotify_group *group); /* Find mark belonging to given group in the list of marks */ extern struct fsnotify_mark *fsnotify_find_mark(fsnotify_connp_t *connp, struct fsnotify_group *group); /* Get cached fsid of filesystem containing object */ extern int fsnotify_get_conn_fsid(const struct fsnotify_mark_connector *conn, __kernel_fsid_t *fsid); /* attach the mark to the object */ extern int fsnotify_add_mark(struct fsnotify_mark *mark, fsnotify_connp_t *connp, unsigned int type, int allow_dups, __kernel_fsid_t *fsid); extern int fsnotify_add_mark_locked(struct fsnotify_mark *mark, fsnotify_connp_t *connp, unsigned int type, int allow_dups, __kernel_fsid_t *fsid); /* attach the mark to the inode */ static inline int fsnotify_add_inode_mark(struct fsnotify_mark *mark, struct inode *inode, int allow_dups) { return fsnotify_add_mark(mark, &inode->i_fsnotify_marks, FSNOTIFY_OBJ_TYPE_INODE, allow_dups, NULL); } static inline int fsnotify_add_inode_mark_locked(struct fsnotify_mark *mark, struct inode *inode, int allow_dups) { return fsnotify_add_mark_locked(mark, &inode->i_fsnotify_marks, FSNOTIFY_OBJ_TYPE_INODE, allow_dups, NULL); } /* given a group and a mark, flag mark to be freed when all references are dropped */ extern void fsnotify_destroy_mark(struct fsnotify_mark *mark, struct fsnotify_group *group); /* detach mark from inode / mount list, group list, drop inode reference */ extern void fsnotify_detach_mark(struct fsnotify_mark *mark); /* free mark */ extern void fsnotify_free_mark(struct fsnotify_mark *mark); /* Wait until all marks queued for destruction are destroyed */ extern void fsnotify_wait_marks_destroyed(void); /* run all the marks in a group, and clear all of the marks attached to given object type */ extern void fsnotify_clear_marks_by_group(struct fsnotify_group *group, unsigned int type); /* run all the marks in a group, and clear all of the vfsmount marks */ static inline void fsnotify_clear_vfsmount_marks_by_group(struct fsnotify_group *group) { fsnotify_clear_marks_by_group(group, FSNOTIFY_OBJ_TYPE_VFSMOUNT_FL); } /* run all the marks in a group, and clear all of the inode marks */ static inline void fsnotify_clear_inode_marks_by_group(struct fsnotify_group *group) { fsnotify_clear_marks_by_group(group, FSNOTIFY_OBJ_TYPE_INODE_FL); } /* run all the marks in a group, and clear all of the sn marks */ static inline void fsnotify_clear_sb_marks_by_group(struct fsnotify_group *group) { fsnotify_clear_marks_by_group(group, FSNOTIFY_OBJ_TYPE_SB_FL); } extern void fsnotify_get_mark(struct fsnotify_mark *mark); extern void fsnotify_put_mark(struct fsnotify_mark *mark); extern void fsnotify_finish_user_wait(struct fsnotify_iter_info *iter_info); extern bool fsnotify_prepare_user_wait(struct fsnotify_iter_info *iter_info); static inline void fsnotify_init_event(struct fsnotify_event *event, unsigned long objectid) { INIT_LIST_HEAD(&event->list); event->objectid = objectid; } #else static inline int fsnotify(__u32 mask, const void *data, int data_type, struct inode *dir, const struct qstr *name, struct inode *inode, u32 cookie) { return 0; } static inline int __fsnotify_parent(struct dentry *dentry, __u32 mask, const void *data, int data_type) { return 0; } static inline void __fsnotify_inode_delete(struct inode *inode) {} static inline void __fsnotify_vfsmount_delete(struct vfsmount *mnt) {} static inline void fsnotify_sb_delete(struct super_block *sb) {} static inline void fsnotify_update_flags(struct dentry *dentry) {} static inline u32 fsnotify_get_cookie(void) { return 0; } static inline void fsnotify_unmount_inodes(struct super_block *sb) {} #endif /* CONFIG_FSNOTIFY */ #endif /* __KERNEL __ */ #endif /* __LINUX_FSNOTIFY_BACKEND_H */
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SPDX-License-Identifier: GPL-2.0-or-later /* * NET3 Protocol independent device support routines. * * Derived from the non IP parts of dev.c 1.0.19 * Authors: Ross Biro * Fred N. van Kempen, <waltje@uWalt.NL.Mugnet.ORG> * Mark Evans, <evansmp@uhura.aston.ac.uk> * * Additional Authors: * Florian la Roche <rzsfl@rz.uni-sb.de> * Alan Cox <gw4pts@gw4pts.ampr.org> * David Hinds <dahinds@users.sourceforge.net> * Alexey Kuznetsov <kuznet@ms2.inr.ac.ru> * Adam Sulmicki <adam@cfar.umd.edu> * Pekka Riikonen <priikone@poesidon.pspt.fi> * * Changes: * D.J. Barrow : Fixed bug where dev->refcnt gets set * to 2 if register_netdev gets called * before net_dev_init & also removed a * few lines of code in the process. * Alan Cox : device private ioctl copies fields back. * Alan Cox : Transmit queue code does relevant * stunts to keep the queue safe. * Alan Cox : Fixed double lock. * Alan Cox : Fixed promisc NULL pointer trap * ???????? : Support the full private ioctl range * Alan Cox : Moved ioctl permission check into * drivers * Tim Kordas : SIOCADDMULTI/SIOCDELMULTI * Alan Cox : 100 backlog just doesn't cut it when * you start doing multicast video 8) * Alan Cox : Rewrote net_bh and list manager. * Alan Cox : Fix ETH_P_ALL echoback lengths. * Alan Cox : Took out transmit every packet pass * Saved a few bytes in the ioctl handler * Alan Cox : Network driver sets packet type before * calling netif_rx. Saves a function * call a packet. * Alan Cox : Hashed net_bh() * Richard Kooijman: Timestamp fixes. * Alan Cox : Wrong field in SIOCGIFDSTADDR * Alan Cox : Device lock protection. * Alan Cox : Fixed nasty side effect of device close * changes. * Rudi Cilibrasi : Pass the right thing to * set_mac_address() * Dave Miller : 32bit quantity for the device lock to * make it work out on a Sparc. * Bjorn Ekwall : Added KERNELD hack. * Alan Cox : Cleaned up the backlog initialise. * Craig Metz : SIOCGIFCONF fix if space for under * 1 device. * Thomas Bogendoerfer : Return ENODEV for dev_open, if there * is no device open function. * Andi Kleen : Fix error reporting for SIOCGIFCONF * Michael Chastain : Fix signed/unsigned for SIOCGIFCONF * Cyrus Durgin : Cleaned for KMOD * Adam Sulmicki : Bug Fix : Network Device Unload * A network device unload needs to purge * the backlog queue. * Paul Rusty Russell : SIOCSIFNAME * Pekka Riikonen : Netdev boot-time settings code * Andrew Morton : Make unregister_netdevice wait * indefinitely on dev->refcnt * J Hadi Salim : - Backlog queue sampling * - netif_rx() feedback */ #include <linux/uaccess.h> #include <linux/bitops.h> #include <linux/capability.h> #include <linux/cpu.h> #include <linux/types.h> #include <linux/kernel.h> #include <linux/hash.h> #include <linux/slab.h> #include <linux/sched.h> #include <linux/sched/mm.h> #include <linux/mutex.h> #include <linux/rwsem.h> #include <linux/string.h> #include <linux/mm.h> #include <linux/socket.h> #include <linux/sockios.h> #include <linux/errno.h> #include <linux/interrupt.h> #include <linux/if_ether.h> #include <linux/netdevice.h> #include <linux/etherdevice.h> #include <linux/ethtool.h> #include <linux/skbuff.h> #include <linux/bpf.h> #include <linux/bpf_trace.h> #include <net/net_namespace.h> #include <net/sock.h> #include <net/busy_poll.h> #include <linux/rtnetlink.h> #include <linux/stat.h> #include <net/dsa.h> #include <net/dst.h> #include <net/dst_metadata.h> #include <net/pkt_sched.h> #include <net/pkt_cls.h> #include <net/checksum.h> #include <net/xfrm.h> #include <linux/highmem.h> #include <linux/init.h> #include <linux/module.h> #include <linux/netpoll.h> #include <linux/rcupdate.h> #include <linux/delay.h> #include <net/iw_handler.h> #include <asm/current.h> #include <linux/audit.h> #include <linux/dmaengine.h> #include <linux/err.h> #include <linux/ctype.h> #include <linux/if_arp.h> #include <linux/if_vlan.h> #include <linux/ip.h> #include <net/ip.h> #include <net/mpls.h> #include <linux/ipv6.h> #include <linux/in.h> #include <linux/jhash.h> #include <linux/random.h> #include <trace/events/napi.h> #include <trace/events/net.h> #include <trace/events/skb.h> #include <linux/inetdevice.h> #include <linux/cpu_rmap.h> #include <linux/static_key.h> #include <linux/hashtable.h> #include <linux/vmalloc.h> #include <linux/if_macvlan.h> #include <linux/errqueue.h> #include <linux/hrtimer.h> #include <linux/netfilter_ingress.h> #include <linux/crash_dump.h> #include <linux/sctp.h> #include <net/udp_tunnel.h> #include <linux/net_namespace.h> #include <linux/indirect_call_wrapper.h> #include <net/devlink.h> #include <linux/pm_runtime.h> #include <linux/prandom.h> #include "net-sysfs.h" #define MAX_GRO_SKBS 8 /* This should be increased if a protocol with a bigger head is added. */ #define GRO_MAX_HEAD (MAX_HEADER + 128) static DEFINE_SPINLOCK(ptype_lock); static DEFINE_SPINLOCK(offload_lock); struct list_head ptype_base[PTYPE_HASH_SIZE] __read_mostly; struct list_head ptype_all __read_mostly; /* Taps */ static struct list_head offload_base __read_mostly; static int netif_rx_internal(struct sk_buff *skb); static int call_netdevice_notifiers_info(unsigned long val, struct netdev_notifier_info *info); static int call_netdevice_notifiers_extack(unsigned long val, struct net_device *dev, struct netlink_ext_ack *extack); static struct napi_struct *napi_by_id(unsigned int napi_id); /* * The @dev_base_head list is protected by @dev_base_lock and the rtnl * semaphore. * * Pure readers hold dev_base_lock for reading, or rcu_read_lock() * * Writers must hold the rtnl semaphore while they loop through the * dev_base_head list, and hold dev_base_lock for writing when they do the * actual updates. This allows pure readers to access the list even * while a writer is preparing to update it. * * To put it another way, dev_base_lock is held for writing only to * protect against pure readers; the rtnl semaphore provides the * protection against other writers. * * See, for example usages, register_netdevice() and * unregister_netdevice(), which must be called with the rtnl * semaphore held. */ DEFINE_RWLOCK(dev_base_lock); EXPORT_SYMBOL(dev_base_lock); static DEFINE_MUTEX(ifalias_mutex); /* protects napi_hash addition/deletion and napi_gen_id */ static DEFINE_SPINLOCK(napi_hash_lock); static unsigned int napi_gen_id = NR_CPUS; static DEFINE_READ_MOSTLY_HASHTABLE(napi_hash, 8); static DECLARE_RWSEM(devnet_rename_sem); static inline void dev_base_seq_inc(struct net *net) { while (++net->dev_base_seq == 0) ; } static inline struct hlist_head *dev_name_hash(struct net *net, const char *name) { unsigned int hash = full_name_hash(net, name, strnlen(name, IFNAMSIZ)); return &net->dev_name_head[hash_32(hash, NETDEV_HASHBITS)]; } static inline struct hlist_head *dev_index_hash(struct net *net, int ifindex) { return &net->dev_index_head[ifindex & (NETDEV_HASHENTRIES - 1)]; } static inline void rps_lock(struct softnet_data *sd) { #ifdef CONFIG_RPS spin_lock(&sd->input_pkt_queue.lock); #endif } static inline void rps_unlock(struct softnet_data *sd) { #ifdef CONFIG_RPS spin_unlock(&sd->input_pkt_queue.lock); #endif } static struct netdev_name_node *netdev_name_node_alloc(struct net_device *dev, const char *name) { struct netdev_name_node *name_node; name_node = kmalloc(sizeof(*name_node), GFP_KERNEL); if (!name_node) return NULL; INIT_HLIST_NODE(&name_node->hlist); name_node->dev = dev; name_node->name = name; return name_node; } static struct netdev_name_node * netdev_name_node_head_alloc(struct net_device *dev) { struct netdev_name_node *name_node; name_node = netdev_name_node_alloc(dev, dev->name); if (!name_node) return NULL; INIT_LIST_HEAD(&name_node->list); return name_node; } static void netdev_name_node_free(struct netdev_name_node *name_node) { kfree(name_node); } static void netdev_name_node_add(struct net *net, struct netdev_name_node *name_node) { hlist_add_head_rcu(&name_node->hlist, dev_name_hash(net, name_node->name)); } static void netdev_name_node_del(struct netdev_name_node *name_node) { hlist_del_rcu(&name_node->hlist); } static struct netdev_name_node *netdev_name_node_lookup(struct net *net, const char *name) { struct hlist_head *head = dev_name_hash(net, name); struct netdev_name_node *name_node; hlist_for_each_entry(name_node, head, hlist) if (!strcmp(name_node->name, name)) return name_node; return NULL; } static struct netdev_name_node *netdev_name_node_lookup_rcu(struct net *net, const char *name) { struct hlist_head *head = dev_name_hash(net, name); struct netdev_name_node *name_node; hlist_for_each_entry_rcu(name_node, head, hlist) if (!strcmp(name_node->name, name)) return name_node; return NULL; } int netdev_name_node_alt_create(struct net_device *dev, const char *name) { struct netdev_name_node *name_node; struct net *net = dev_net(dev); name_node = netdev_name_node_lookup(net, name); if (name_node) return -EEXIST; name_node = netdev_name_node_alloc(dev, name); if (!name_node) return -ENOMEM; netdev_name_node_add(net, name_node); /* The node that holds dev->name acts as a head of per-device list. */ list_add_tail(&name_node->list, &dev->name_node->list); return 0; } EXPORT_SYMBOL(netdev_name_node_alt_create); static void __netdev_name_node_alt_destroy(struct netdev_name_node *name_node) { list_del(&name_node->list); netdev_name_node_del(name_node); kfree(name_node->name); netdev_name_node_free(name_node); } int netdev_name_node_alt_destroy(struct net_device *dev, const char *name) { struct netdev_name_node *name_node; struct net *net = dev_net(dev); name_node = netdev_name_node_lookup(net, name); if (!name_node) return -ENOENT; /* lookup might have found our primary name or a name belonging * to another device. */ if (name_node == dev->name_node || name_node->dev != dev) return -EINVAL; __netdev_name_node_alt_destroy(name_node); return 0; } EXPORT_SYMBOL(netdev_name_node_alt_destroy); static void netdev_name_node_alt_flush(struct net_device *dev) { struct netdev_name_node *name_node, *tmp; list_for_each_entry_safe(name_node, tmp, &dev->name_node->list, list) __netdev_name_node_alt_destroy(name_node); } /* Device list insertion */ static void list_netdevice(struct net_device *dev) { struct net *net = dev_net(dev); ASSERT_RTNL(); write_lock_bh(&dev_base_lock); list_add_tail_rcu(&dev->dev_list, &net->dev_base_head); netdev_name_node_add(net, dev->name_node); hlist_add_head_rcu(&dev->index_hlist, dev_index_hash(net, dev->ifindex)); write_unlock_bh(&dev_base_lock); dev_base_seq_inc(net); } /* Device list removal * caller must respect a RCU grace period before freeing/reusing dev */ static void unlist_netdevice(struct net_device *dev) { ASSERT_RTNL(); /* Unlink dev from the device chain */ write_lock_bh(&dev_base_lock); list_del_rcu(&dev->dev_list); netdev_name_node_del(dev->name_node); hlist_del_rcu(&dev->index_hlist); write_unlock_bh(&dev_base_lock); dev_base_seq_inc(dev_net(dev)); } /* * Our notifier list */ static RAW_NOTIFIER_HEAD(netdev_chain); /* * Device drivers call our routines to queue packets here. We empty the * queue in the local softnet handler. */ DEFINE_PER_CPU_ALIGNED(struct softnet_data, softnet_data); EXPORT_PER_CPU_SYMBOL(softnet_data); #ifdef CONFIG_LOCKDEP /* * register_netdevice() inits txq->_xmit_lock and sets lockdep class * according to dev->type */ static const unsigned short netdev_lock_type[] = { ARPHRD_NETROM, ARPHRD_ETHER, ARPHRD_EETHER, ARPHRD_AX25, ARPHRD_PRONET, ARPHRD_CHAOS, ARPHRD_IEEE802, ARPHRD_ARCNET, ARPHRD_APPLETLK, ARPHRD_DLCI, ARPHRD_ATM, ARPHRD_METRICOM, ARPHRD_IEEE1394, ARPHRD_EUI64, ARPHRD_INFINIBAND, ARPHRD_SLIP, ARPHRD_CSLIP, ARPHRD_SLIP6, ARPHRD_CSLIP6, ARPHRD_RSRVD, ARPHRD_ADAPT, ARPHRD_ROSE, ARPHRD_X25, ARPHRD_HWX25, ARPHRD_PPP, ARPHRD_CISCO, ARPHRD_LAPB, ARPHRD_DDCMP, ARPHRD_RAWHDLC, ARPHRD_TUNNEL, ARPHRD_TUNNEL6, ARPHRD_FRAD, ARPHRD_SKIP, ARPHRD_LOOPBACK, ARPHRD_LOCALTLK, ARPHRD_FDDI, ARPHRD_BIF, ARPHRD_SIT, ARPHRD_IPDDP, ARPHRD_IPGRE, ARPHRD_PIMREG, ARPHRD_HIPPI, ARPHRD_ASH, ARPHRD_ECONET, ARPHRD_IRDA, ARPHRD_FCPP, ARPHRD_FCAL, ARPHRD_FCPL, ARPHRD_FCFABRIC, ARPHRD_IEEE80211, ARPHRD_IEEE80211_PRISM, ARPHRD_IEEE80211_RADIOTAP, ARPHRD_PHONET, ARPHRD_PHONET_PIPE, ARPHRD_IEEE802154, ARPHRD_VOID, ARPHRD_NONE}; static const char *const netdev_lock_name[] = { "_xmit_NETROM", "_xmit_ETHER", "_xmit_EETHER", "_xmit_AX25", "_xmit_PRONET", "_xmit_CHAOS", "_xmit_IEEE802", "_xmit_ARCNET", "_xmit_APPLETLK", "_xmit_DLCI", "_xmit_ATM", "_xmit_METRICOM", "_xmit_IEEE1394", "_xmit_EUI64", "_xmit_INFINIBAND", "_xmit_SLIP", "_xmit_CSLIP", "_xmit_SLIP6", "_xmit_CSLIP6", "_xmit_RSRVD", "_xmit_ADAPT", "_xmit_ROSE", "_xmit_X25", "_xmit_HWX25", "_xmit_PPP", "_xmit_CISCO", "_xmit_LAPB", "_xmit_DDCMP", "_xmit_RAWHDLC", "_xmit_TUNNEL", "_xmit_TUNNEL6", "_xmit_FRAD", "_xmit_SKIP", "_xmit_LOOPBACK", "_xmit_LOCALTLK", "_xmit_FDDI", "_xmit_BIF", "_xmit_SIT", "_xmit_IPDDP", "_xmit_IPGRE", "_xmit_PIMREG", "_xmit_HIPPI", "_xmit_ASH", "_xmit_ECONET", "_xmit_IRDA", "_xmit_FCPP", "_xmit_FCAL", "_xmit_FCPL", "_xmit_FCFABRIC", "_xmit_IEEE80211", "_xmit_IEEE80211_PRISM", "_xmit_IEEE80211_RADIOTAP", "_xmit_PHONET", "_xmit_PHONET_PIPE", "_xmit_IEEE802154", "_xmit_VOID", "_xmit_NONE"}; static struct lock_class_key netdev_xmit_lock_key[ARRAY_SIZE(netdev_lock_type)]; static struct lock_class_key netdev_addr_lock_key[ARRAY_SIZE(netdev_lock_type)]; static inline unsigned short netdev_lock_pos(unsigned short dev_type) { int i; for (i = 0; i < ARRAY_SIZE(netdev_lock_type); i++) if (netdev_lock_type[i] == dev_type) return i; /* the last key is used by default */ return ARRAY_SIZE(netdev_lock_type) - 1; } static inline void netdev_set_xmit_lockdep_class(spinlock_t *lock, unsigned short dev_type) { int i; i = netdev_lock_pos(dev_type); lockdep_set_class_and_name(lock, &netdev_xmit_lock_key[i], netdev_lock_name[i]); } static inline void netdev_set_addr_lockdep_class(struct net_device *dev) { int i; i = netdev_lock_pos(dev->type); lockdep_set_class_and_name(&dev->addr_list_lock, &netdev_addr_lock_key[i], netdev_lock_name[i]); } #else static inline void netdev_set_xmit_lockdep_class(spinlock_t *lock, unsigned short dev_type) { } static inline void netdev_set_addr_lockdep_class(struct net_device *dev) { } #endif /******************************************************************************* * * Protocol management and registration routines * *******************************************************************************/ /* * Add a protocol ID to the list. Now that the input handler is * smarter we can dispense with all the messy stuff that used to be * here. * * BEWARE!!! Protocol handlers, mangling input packets, * MUST BE last in hash buckets and checking protocol handlers * MUST start from promiscuous ptype_all chain in net_bh. * It is true now, do not change it. * Explanation follows: if protocol handler, mangling packet, will * be the first on list, it is not able to sense, that packet * is cloned and should be copied-on-write, so that it will * change it and subsequent readers will get broken packet. * --ANK (980803) */ static inline struct list_head *ptype_head(const struct packet_type *pt) { if (pt->type == htons(ETH_P_ALL)) return pt->dev ? &pt->dev->ptype_all : &ptype_all; else return pt->dev ? &pt->dev->ptype_specific : &ptype_base[ntohs(pt->type) & PTYPE_HASH_MASK]; } /** * dev_add_pack - add packet handler * @pt: packet type declaration * * Add a protocol handler to the networking stack. The passed &packet_type * is linked into kernel lists and may not be freed until it has been * removed from the kernel lists. * * This call does not sleep therefore it can not * guarantee all CPU's that are in middle of receiving packets * will see the new packet type (until the next received packet). */ void dev_add_pack(struct packet_type *pt) { struct list_head *head = ptype_head(pt); spin_lock(&ptype_lock); list_add_rcu(&pt->list, head); spin_unlock(&ptype_lock); } EXPORT_SYMBOL(dev_add_pack); /** * __dev_remove_pack - remove packet handler * @pt: packet type declaration * * Remove a protocol handler that was previously added to the kernel * protocol handlers by dev_add_pack(). The passed &packet_type is removed * from the kernel lists and can be freed or reused once this function * returns. * * The packet type might still be in use by receivers * and must not be freed until after all the CPU's have gone * through a quiescent state. */ void __dev_remove_pack(struct packet_type *pt) { struct list_head *head = ptype_head(pt); struct packet_type *pt1; spin_lock(&ptype_lock); list_for_each_entry(pt1, head, list) { if (pt == pt1) { list_del_rcu(&pt->list); goto out; } } pr_warn("dev_remove_pack: %p not found\n", pt); out: spin_unlock(&ptype_lock); } EXPORT_SYMBOL(__dev_remove_pack); /** * dev_remove_pack - remove packet handler * @pt: packet type declaration * * Remove a protocol handler that was previously added to the kernel * protocol handlers by dev_add_pack(). The passed &packet_type is removed * from the kernel lists and can be freed or reused once this function * returns. * * This call sleeps to guarantee that no CPU is looking at the packet * type after return. */ void dev_remove_pack(struct packet_type *pt) { __dev_remove_pack(pt); synchronize_net(); } EXPORT_SYMBOL(dev_remove_pack); /** * dev_add_offload - register offload handlers * @po: protocol offload declaration * * Add protocol offload handlers to the networking stack. The passed * &proto_offload is linked into kernel lists and may not be freed until * it has been removed from the kernel lists. * * This call does not sleep therefore it can not * guarantee all CPU's that are in middle of receiving packets * will see the new offload handlers (until the next received packet). */ void dev_add_offload(struct packet_offload *po) { struct packet_offload *elem; spin_lock(&offload_lock); list_for_each_entry(elem, &offload_base, list) { if (po->priority < elem->priority) break; } list_add_rcu(&po->list, elem->list.prev); spin_unlock(&offload_lock); } EXPORT_SYMBOL(dev_add_offload); /** * __dev_remove_offload - remove offload handler * @po: packet offload declaration * * Remove a protocol offload handler that was previously added to the * kernel offload handlers by dev_add_offload(). The passed &offload_type * is removed from the kernel lists and can be freed or reused once this * function returns. * * The packet type might still be in use by receivers * and must not be freed until after all the CPU's have gone * through a quiescent state. */ static void __dev_remove_offload(struct packet_offload *po) { struct list_head *head = &offload_base; struct packet_offload *po1; spin_lock(&offload_lock); list_for_each_entry(po1, head, list) { if (po == po1) { list_del_rcu(&po->list); goto out; } } pr_warn("dev_remove_offload: %p not found\n", po); out: spin_unlock(&offload_lock); } /** * dev_remove_offload - remove packet offload handler * @po: packet offload declaration * * Remove a packet offload handler that was previously added to the kernel * offload handlers by dev_add_offload(). The passed &offload_type is * removed from the kernel lists and can be freed or reused once this * function returns. * * This call sleeps to guarantee that no CPU is looking at the packet * type after return. */ void dev_remove_offload(struct packet_offload *po) { __dev_remove_offload(po); synchronize_net(); } EXPORT_SYMBOL(dev_remove_offload); /****************************************************************************** * * Device Boot-time Settings Routines * ******************************************************************************/ /* Boot time configuration table */ static struct netdev_boot_setup dev_boot_setup[NETDEV_BOOT_SETUP_MAX]; /** * netdev_boot_setup_add - add new setup entry * @name: name of the device * @map: configured settings for the device * * Adds new setup entry to the dev_boot_setup list. The function * returns 0 on error and 1 on success. This is a generic routine to * all netdevices. */ static int netdev_boot_setup_add(char *name, struct ifmap *map) { struct netdev_boot_setup *s; int i; s = dev_boot_setup; for (i = 0; i < NETDEV_BOOT_SETUP_MAX; i++) { if (s[i].name[0] == '\0' || s[i].name[0] == ' ') { memset(s[i].name, 0, sizeof(s[i].name)); strlcpy(s[i].name, name, IFNAMSIZ); memcpy(&s[i].map, map, sizeof(s[i].map)); break; } } return i >= NETDEV_BOOT_SETUP_MAX ? 0 : 1; } /** * netdev_boot_setup_check - check boot time settings * @dev: the netdevice * * Check boot time settings for the device. * The found settings are set for the device to be used * later in the device probing. * Returns 0 if no settings found, 1 if they are. */ int netdev_boot_setup_check(struct net_device *dev) { struct netdev_boot_setup *s = dev_boot_setup; int i; for (i = 0; i < NETDEV_BOOT_SETUP_MAX; i++) { if (s[i].name[0] != '\0' && s[i].name[0] != ' ' && !strcmp(dev->name, s[i].name)) { dev->irq = s[i].map.irq; dev->base_addr = s[i].map.base_addr; dev->mem_start = s[i].map.mem_start; dev->mem_end = s[i].map.mem_end; return 1; } } return 0; } EXPORT_SYMBOL(netdev_boot_setup_check); /** * netdev_boot_base - get address from boot time settings * @prefix: prefix for network device * @unit: id for network device * * Check boot time settings for the base address of device. * The found settings are set for the device to be used * later in the device probing. * Returns 0 if no settings found. */ unsigned long netdev_boot_base(const char *prefix, int unit) { const struct netdev_boot_setup *s = dev_boot_setup; char name[IFNAMSIZ]; int i; sprintf(name, "%s%d", prefix, unit); /* * If device already registered then return base of 1 * to indicate not to probe for this interface */ if (__dev_get_by_name(&init_net, name)) return 1; for (i = 0; i < NETDEV_BOOT_SETUP_MAX; i++) if (!strcmp(name, s[i].name)) return s[i].map.base_addr; return 0; } /* * Saves at boot time configured settings for any netdevice. */ int __init netdev_boot_setup(char *str) { int ints[5]; struct ifmap map; str = get_options(str, ARRAY_SIZE(ints), ints); if (!str || !*str) return 0; /* Save settings */ memset(&map, 0, sizeof(map)); if (ints[0] > 0) map.irq = ints[1]; if (ints[0] > 1) map.base_addr = ints[2]; if (ints[0] > 2) map.mem_start = ints[3]; if (ints[0] > 3) map.mem_end = ints[4]; /* Add new entry to the list */ return netdev_boot_setup_add(str, &map); } __setup("netdev=", netdev_boot_setup); /******************************************************************************* * * Device Interface Subroutines * *******************************************************************************/ /** * dev_get_iflink - get 'iflink' value of a interface * @dev: targeted interface * * Indicates the ifindex the interface is linked to. * Physical interfaces have the same 'ifindex' and 'iflink' values. */ int dev_get_iflink(const struct net_device *dev) { if (dev->netdev_ops && dev->netdev_ops->ndo_get_iflink) return dev->netdev_ops->ndo_get_iflink(dev); return dev->ifindex; } EXPORT_SYMBOL(d