| 1 | /* |
| 2 | * SPDX-License-Identifier: LGPL-2.1-only |
| 3 | * |
| 4 | * Copyright (C) 2005-2012 Mathieu Desnoyers <mathieu.desnoyers@efficios.com> |
| 5 | * |
| 6 | * See ring_buffer_frontend.c for more information on wait-free |
| 7 | * algorithms. |
| 8 | * See frontend.h for channel allocation and read-side API. |
| 9 | */ |
| 10 | |
| 11 | #ifndef _LTTNG_RING_BUFFER_FRONTEND_API_H |
| 12 | #define _LTTNG_RING_BUFFER_FRONTEND_API_H |
| 13 | |
| 14 | #include <stddef.h> |
| 15 | |
| 16 | #include <urcu/compiler.h> |
| 17 | |
| 18 | #include "common/getcpu.h" |
| 19 | #include "frontend.h" |
| 20 | |
| 21 | /** |
| 22 | * lib_ring_buffer_nesting_inc - Ring buffer recursive use protection. |
| 23 | * |
| 24 | * The rint buffer buffer nesting count is a safety net to ensure tracer |
| 25 | * client code will never trigger an endless recursion. |
| 26 | * Returns a nesting level >= 0 on success, -EPERM on failure (nesting |
| 27 | * count too high). |
| 28 | * |
| 29 | * __asm__ __volatile__ and "memory" clobber prevent the compiler from moving |
| 30 | * instructions out of the ring buffer nesting count. This is required to ensure |
| 31 | * that probe side-effects which can cause recursion (e.g. unforeseen traps, |
| 32 | * divisions by 0, ...) are triggered within the incremented nesting count |
| 33 | * section. |
| 34 | */ |
| 35 | static inline |
| 36 | int lib_ring_buffer_nesting_inc( |
| 37 | const struct lttng_ust_ring_buffer_config *config __attribute__((unused))) |
| 38 | { |
| 39 | int nesting; |
| 40 | |
| 41 | nesting = ++URCU_TLS(lib_ring_buffer_nesting); |
| 42 | cmm_barrier(); |
| 43 | if (caa_unlikely(nesting >= LIB_RING_BUFFER_MAX_NESTING)) { |
| 44 | WARN_ON_ONCE(1); |
| 45 | URCU_TLS(lib_ring_buffer_nesting)--; |
| 46 | return -EPERM; |
| 47 | } |
| 48 | return nesting - 1; |
| 49 | } |
| 50 | |
| 51 | static inline |
| 52 | int lib_ring_buffer_nesting_count( |
| 53 | const struct lttng_ust_ring_buffer_config *config __attribute__((unused))) |
| 54 | { |
| 55 | return URCU_TLS(lib_ring_buffer_nesting); |
| 56 | } |
| 57 | |
| 58 | static inline |
| 59 | void lib_ring_buffer_nesting_dec( |
| 60 | const struct lttng_ust_ring_buffer_config *config __attribute__((unused))) |
| 61 | { |
| 62 | cmm_barrier(); |
| 63 | URCU_TLS(lib_ring_buffer_nesting)--; /* TLS */ |
| 64 | } |
| 65 | |
| 66 | /* |
| 67 | * lib_ring_buffer_try_reserve is called by lib_ring_buffer_reserve(). It is not |
| 68 | * part of the API per se. |
| 69 | * |
| 70 | * returns 0 if reserve ok, or 1 if the slow path must be taken. |
| 71 | */ |
| 72 | static inline |
| 73 | int lib_ring_buffer_try_reserve(const struct lttng_ust_ring_buffer_config *config, |
| 74 | struct lttng_ust_ring_buffer_ctx *ctx, |
| 75 | void *client_ctx, |
| 76 | unsigned long *o_begin, unsigned long *o_end, |
| 77 | unsigned long *o_old, size_t *before_hdr_pad) |
| 78 | { |
| 79 | struct lttng_ust_ring_buffer_ctx_private *ctx_private = ctx->priv; |
| 80 | struct lttng_ust_ring_buffer_channel *chan = ctx_private->chan; |
| 81 | struct lttng_ust_ring_buffer *buf = ctx_private->buf; |
| 82 | *o_begin = v_read(config, &buf->offset); |
| 83 | *o_old = *o_begin; |
| 84 | |
| 85 | ctx_private->timestamp = lib_ring_buffer_clock_read(chan); |
| 86 | if ((int64_t) ctx_private->timestamp == -EIO) |
| 87 | return 1; |
| 88 | |
| 89 | /* |
| 90 | * Prefetch cacheline for read because we have to read the previous |
| 91 | * commit counter to increment it and commit seq value to compare it to |
| 92 | * the commit counter. |
| 93 | */ |
| 94 | //prefetch(&buf->commit_hot[subbuf_index(*o_begin, chan)]); |
| 95 | |
| 96 | if (last_timestamp_overflow(config, buf, ctx_private->timestamp)) |
| 97 | ctx_private->rflags |= RING_BUFFER_RFLAG_FULL_TIMESTAMP; |
| 98 | |
| 99 | if (caa_unlikely(subbuf_offset(*o_begin, chan) == 0)) |
| 100 | return 1; |
| 101 | |
| 102 | ctx_private->slot_size = record_header_size(config, chan, *o_begin, |
| 103 | before_hdr_pad, ctx, client_ctx); |
| 104 | ctx_private->slot_size += |
| 105 | lttng_ust_ring_buffer_align(*o_begin + ctx_private->slot_size, |
| 106 | ctx->largest_align) + ctx->data_size; |
| 107 | if (caa_unlikely((subbuf_offset(*o_begin, chan) + ctx_private->slot_size) |
| 108 | > chan->backend.subbuf_size)) |
| 109 | return 1; |
| 110 | |
| 111 | /* |
| 112 | * Record fits in the current buffer and we are not on a switch |
| 113 | * boundary. It's safe to write. |
| 114 | */ |
| 115 | *o_end = *o_begin + ctx_private->slot_size; |
| 116 | |
| 117 | if (caa_unlikely((subbuf_offset(*o_end, chan)) == 0)) |
| 118 | /* |
| 119 | * The offset_end will fall at the very beginning of the next |
| 120 | * subbuffer. |
| 121 | */ |
| 122 | return 1; |
| 123 | |
| 124 | return 0; |
| 125 | } |
| 126 | |
| 127 | /** |
| 128 | * lib_ring_buffer_reserve - Reserve space in a ring buffer. |
| 129 | * @config: ring buffer instance configuration. |
| 130 | * @ctx: ring buffer context. (input and output) Must be already initialized. |
| 131 | * |
| 132 | * Atomic wait-free slot reservation. The reserved space starts at the context |
| 133 | * "pre_offset". Its length is "slot_size". The associated time-stamp is |
| 134 | * "timestamp". |
| 135 | * |
| 136 | * Return : |
| 137 | * 0 on success. |
| 138 | * -EAGAIN if channel is disabled. |
| 139 | * -ENOSPC if event size is too large for packet. |
| 140 | * -ENOBUFS if there is currently not enough space in buffer for the event. |
| 141 | * -EIO if data cannot be written into the buffer for any other reason. |
| 142 | */ |
| 143 | |
| 144 | static inline |
| 145 | int lib_ring_buffer_reserve(const struct lttng_ust_ring_buffer_config *config, |
| 146 | struct lttng_ust_ring_buffer_ctx *ctx, |
| 147 | void *client_ctx) |
| 148 | { |
| 149 | struct lttng_ust_ring_buffer_ctx_private *ctx_private = ctx->priv; |
| 150 | struct lttng_ust_ring_buffer_channel *chan = ctx_private->chan; |
| 151 | struct lttng_ust_shm_handle *handle = chan->handle; |
| 152 | struct lttng_ust_ring_buffer *buf; |
| 153 | unsigned long o_begin, o_end, o_old; |
| 154 | size_t before_hdr_pad = 0; |
| 155 | |
| 156 | if (caa_unlikely(uatomic_read(&chan->record_disabled))) |
| 157 | return -EAGAIN; |
| 158 | |
| 159 | if (config->alloc == RING_BUFFER_ALLOC_PER_CPU) { |
| 160 | ctx_private->reserve_cpu = lttng_ust_get_cpu(); |
| 161 | buf = shmp(handle, chan->backend.buf[ctx_private->reserve_cpu].shmp); |
| 162 | } else { |
| 163 | buf = shmp(handle, chan->backend.buf[0].shmp); |
| 164 | } |
| 165 | if (caa_unlikely(!buf)) |
| 166 | return -EIO; |
| 167 | if (caa_unlikely(uatomic_read(&buf->record_disabled))) |
| 168 | return -EAGAIN; |
| 169 | ctx_private->buf = buf; |
| 170 | |
| 171 | /* |
| 172 | * Perform retryable operations. |
| 173 | */ |
| 174 | if (caa_unlikely(lib_ring_buffer_try_reserve(config, ctx, client_ctx, &o_begin, |
| 175 | &o_end, &o_old, &before_hdr_pad))) |
| 176 | goto slow_path; |
| 177 | |
| 178 | if (caa_unlikely(v_cmpxchg(config, &buf->offset, o_old, o_end) |
| 179 | != o_old)) |
| 180 | goto slow_path; |
| 181 | |
| 182 | /* |
| 183 | * Atomically update last_timestamp. This update races against concurrent |
| 184 | * atomic updates, but the race will always cause supplementary full |
| 185 | * timestamp record headers, never the opposite (missing a full |
| 186 | * timestamp record header when it would be needed). |
| 187 | */ |
| 188 | save_last_timestamp(config, buf, ctx_private->timestamp); |
| 189 | |
| 190 | /* |
| 191 | * Push the reader if necessary |
| 192 | */ |
| 193 | lib_ring_buffer_reserve_push_reader(buf, chan, o_end - 1); |
| 194 | |
| 195 | /* |
| 196 | * Clear noref flag for this subbuffer. |
| 197 | */ |
| 198 | lib_ring_buffer_clear_noref(config, &buf->backend, |
| 199 | subbuf_index(o_end - 1, chan), handle); |
| 200 | |
| 201 | ctx_private->pre_offset = o_begin; |
| 202 | ctx_private->buf_offset = o_begin + before_hdr_pad; |
| 203 | return 0; |
| 204 | slow_path: |
| 205 | return lib_ring_buffer_reserve_slow(ctx, client_ctx); |
| 206 | } |
| 207 | |
| 208 | /** |
| 209 | * lib_ring_buffer_switch - Perform a sub-buffer switch for a per-cpu buffer. |
| 210 | * @config: ring buffer instance configuration. |
| 211 | * @buf: buffer |
| 212 | * @mode: buffer switch mode (SWITCH_ACTIVE or SWITCH_FLUSH) |
| 213 | * |
| 214 | * This operation is completely reentrant : can be called while tracing is |
| 215 | * active with absolutely no lock held. |
| 216 | * |
| 217 | * Note, however, that as a v_cmpxchg is used for some atomic operations and |
| 218 | * requires to be executed locally for per-CPU buffers, this function must be |
| 219 | * called from the CPU which owns the buffer for a ACTIVE flush, with preemption |
| 220 | * disabled, for RING_BUFFER_SYNC_PER_CPU configuration. |
| 221 | */ |
| 222 | static inline |
| 223 | void lib_ring_buffer_switch( |
| 224 | const struct lttng_ust_ring_buffer_config *config __attribute__((unused)), |
| 225 | struct lttng_ust_ring_buffer *buf, enum switch_mode mode, |
| 226 | struct lttng_ust_shm_handle *handle) |
| 227 | { |
| 228 | lib_ring_buffer_switch_slow(buf, mode, handle); |
| 229 | } |
| 230 | |
| 231 | /* See ring_buffer_frontend_api.h for lib_ring_buffer_reserve(). */ |
| 232 | |
| 233 | /** |
| 234 | * lib_ring_buffer_commit - Commit an record. |
| 235 | * @config: ring buffer instance configuration. |
| 236 | * @ctx: ring buffer context. (input arguments only) |
| 237 | * |
| 238 | * Atomic unordered slot commit. Increments the commit count in the |
| 239 | * specified sub-buffer, and delivers it if necessary. |
| 240 | */ |
| 241 | static inline |
| 242 | void lib_ring_buffer_commit(const struct lttng_ust_ring_buffer_config *config, |
| 243 | const struct lttng_ust_ring_buffer_ctx *ctx) |
| 244 | { |
| 245 | struct lttng_ust_ring_buffer_ctx_private *ctx_private = ctx->priv; |
| 246 | struct lttng_ust_ring_buffer_channel *chan = ctx_private->chan; |
| 247 | struct lttng_ust_shm_handle *handle = chan->handle; |
| 248 | struct lttng_ust_ring_buffer *buf = ctx_private->buf; |
| 249 | unsigned long offset_end = ctx_private->buf_offset; |
| 250 | unsigned long endidx = subbuf_index(offset_end - 1, chan); |
| 251 | unsigned long commit_count; |
| 252 | struct commit_counters_hot *cc_hot = shmp_index(handle, |
| 253 | buf->commit_hot, endidx); |
| 254 | |
| 255 | if (caa_unlikely(!cc_hot)) |
| 256 | return; |
| 257 | |
| 258 | /* |
| 259 | * Must count record before incrementing the commit count. |
| 260 | */ |
| 261 | subbuffer_count_record(config, ctx); |
| 262 | |
| 263 | /* |
| 264 | * Order all writes to buffer before the commit count update that will |
| 265 | * determine that the subbuffer is full. |
| 266 | */ |
| 267 | cmm_smp_wmb(); |
| 268 | |
| 269 | v_add(config, ctx_private->slot_size, &cc_hot->cc); |
| 270 | |
| 271 | /* |
| 272 | * commit count read can race with concurrent OOO commit count updates. |
| 273 | * This is only needed for lib_ring_buffer_check_deliver (for |
| 274 | * non-polling delivery only) and for |
| 275 | * lib_ring_buffer_write_commit_counter. The race can only cause the |
| 276 | * counter to be read with the same value more than once, which could |
| 277 | * cause : |
| 278 | * - Multiple delivery for the same sub-buffer (which is handled |
| 279 | * gracefully by the reader code) if the value is for a full |
| 280 | * sub-buffer. It's important that we can never miss a sub-buffer |
| 281 | * delivery. Re-reading the value after the v_add ensures this. |
| 282 | * - Reading a commit_count with a higher value that what was actually |
| 283 | * added to it for the lib_ring_buffer_write_commit_counter call |
| 284 | * (again caused by a concurrent committer). It does not matter, |
| 285 | * because this function is interested in the fact that the commit |
| 286 | * count reaches back the reserve offset for a specific sub-buffer, |
| 287 | * which is completely independent of the order. |
| 288 | */ |
| 289 | commit_count = v_read(config, &cc_hot->cc); |
| 290 | |
| 291 | lib_ring_buffer_check_deliver(config, buf, chan, offset_end - 1, |
| 292 | commit_count, endidx, handle, ctx); |
| 293 | /* |
| 294 | * Update used size at each commit. It's needed only for extracting |
| 295 | * ring_buffer buffers from vmcore, after crash. |
| 296 | */ |
| 297 | lib_ring_buffer_write_commit_counter(config, buf, chan, |
| 298 | offset_end, commit_count, handle, cc_hot); |
| 299 | } |
| 300 | |
| 301 | /** |
| 302 | * lib_ring_buffer_try_discard_reserve - Try discarding a record. |
| 303 | * @config: ring buffer instance configuration. |
| 304 | * @ctx: ring buffer context. (input arguments only) |
| 305 | * |
| 306 | * Only succeeds if no other record has been written after the record to |
| 307 | * discard. If discard fails, the record must be committed to the buffer. |
| 308 | * |
| 309 | * Returns 0 upon success, -EPERM if the record cannot be discarded. |
| 310 | */ |
| 311 | static inline |
| 312 | int lib_ring_buffer_try_discard_reserve(const struct lttng_ust_ring_buffer_config *config, |
| 313 | const struct lttng_ust_ring_buffer_ctx *ctx) |
| 314 | { |
| 315 | struct lttng_ust_ring_buffer_ctx_private *ctx_private = ctx->priv; |
| 316 | struct lttng_ust_ring_buffer *buf = ctx_private->buf; |
| 317 | unsigned long end_offset = ctx_private->pre_offset + ctx_private->slot_size; |
| 318 | |
| 319 | /* |
| 320 | * We need to ensure that if the cmpxchg succeeds and discards the |
| 321 | * record, the next record will record a full timestamp, because it cannot |
| 322 | * rely on the last_timestamp associated with the discarded record to detect |
| 323 | * overflows. The only way to ensure this is to set the last_timestamp to 0 |
| 324 | * (assuming no 64-bit timestamp overflow), which forces to write a 64-bit |
| 325 | * timestamp in the next record. |
| 326 | * |
| 327 | * Note: if discard fails, we must leave the timestamp in the record header. |
| 328 | * It is needed to keep track of timestamp overflows for the following |
| 329 | * records. |
| 330 | */ |
| 331 | save_last_timestamp(config, buf, 0ULL); |
| 332 | |
| 333 | if (caa_likely(v_cmpxchg(config, &buf->offset, end_offset, ctx_private->pre_offset) |
| 334 | != end_offset)) |
| 335 | return -EPERM; |
| 336 | else |
| 337 | return 0; |
| 338 | } |
| 339 | |
| 340 | static inline |
| 341 | void channel_record_disable( |
| 342 | const struct lttng_ust_ring_buffer_config *config __attribute__((unused)), |
| 343 | struct lttng_ust_ring_buffer_channel *chan) |
| 344 | { |
| 345 | uatomic_inc(&chan->record_disabled); |
| 346 | } |
| 347 | |
| 348 | static inline |
| 349 | void channel_record_enable( |
| 350 | const struct lttng_ust_ring_buffer_config *config __attribute__((unused)), |
| 351 | struct lttng_ust_ring_buffer_channel *chan) |
| 352 | { |
| 353 | uatomic_dec(&chan->record_disabled); |
| 354 | } |
| 355 | |
| 356 | static inline |
| 357 | void lib_ring_buffer_record_disable( |
| 358 | const struct lttng_ust_ring_buffer_config *config __attribute__((unused)), |
| 359 | struct lttng_ust_ring_buffer *buf) |
| 360 | { |
| 361 | uatomic_inc(&buf->record_disabled); |
| 362 | } |
| 363 | |
| 364 | static inline |
| 365 | void lib_ring_buffer_record_enable( |
| 366 | const struct lttng_ust_ring_buffer_config *config __attribute__((unused)), |
| 367 | struct lttng_ust_ring_buffer *buf) |
| 368 | { |
| 369 | uatomic_dec(&buf->record_disabled); |
| 370 | } |
| 371 | |
| 372 | #endif /* _LTTNG_RING_BUFFER_FRONTEND_API_H */ |