sys_pipe.c revision 1.40.2.10
1 1.40.2.10 skrll /* $NetBSD: sys_pipe.c,v 1.40.2.10 2005/11/10 14:09:45 skrll Exp $ */ 2 1.35 pk 3 1.35 pk /*- 4 1.35 pk * Copyright (c) 2003 The NetBSD Foundation, Inc. 5 1.35 pk * All rights reserved. 6 1.35 pk * 7 1.35 pk * This code is derived from software contributed to The NetBSD Foundation 8 1.35 pk * by Paul Kranenburg. 9 1.35 pk * 10 1.35 pk * Redistribution and use in source and binary forms, with or without 11 1.35 pk * modification, are permitted provided that the following conditions 12 1.35 pk * are met: 13 1.35 pk * 1. Redistributions of source code must retain the above copyright 14 1.35 pk * notice, this list of conditions and the following disclaimer. 15 1.35 pk * 2. Redistributions in binary form must reproduce the above copyright 16 1.35 pk * notice, this list of conditions and the following disclaimer in the 17 1.35 pk * documentation and/or other materials provided with the distribution. 18 1.35 pk * 3. All advertising materials mentioning features or use of this software 19 1.35 pk * must display the following acknowledgement: 20 1.35 pk * This product includes software developed by the NetBSD 21 1.35 pk * Foundation, Inc. and its contributors. 22 1.35 pk * 4. Neither the name of The NetBSD Foundation nor the names of its 23 1.35 pk * contributors may be used to endorse or promote products derived 24 1.35 pk * from this software without specific prior written permission. 25 1.35 pk * 26 1.35 pk * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 27 1.35 pk * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 28 1.35 pk * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 29 1.35 pk * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 30 1.35 pk * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 31 1.35 pk * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 32 1.35 pk * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 33 1.35 pk * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 34 1.35 pk * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 35 1.35 pk * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 36 1.35 pk * POSSIBILITY OF SUCH DAMAGE. 37 1.35 pk */ 38 1.2 jdolecek 39 1.1 jdolecek /* 40 1.1 jdolecek * Copyright (c) 1996 John S. Dyson 41 1.1 jdolecek * All rights reserved. 42 1.1 jdolecek * 43 1.1 jdolecek * Redistribution and use in source and binary forms, with or without 44 1.1 jdolecek * modification, are permitted provided that the following conditions 45 1.1 jdolecek * are met: 46 1.1 jdolecek * 1. Redistributions of source code must retain the above copyright 47 1.1 jdolecek * notice immediately at the beginning of the file, without modification, 48 1.1 jdolecek * this list of conditions, and the following disclaimer. 49 1.1 jdolecek * 2. Redistributions in binary form must reproduce the above copyright 50 1.1 jdolecek * notice, this list of conditions and the following disclaimer in the 51 1.1 jdolecek * documentation and/or other materials provided with the distribution. 52 1.1 jdolecek * 3. Absolutely no warranty of function or purpose is made by the author 53 1.1 jdolecek * John S. Dyson. 54 1.1 jdolecek * 4. Modifications may be freely made to this file if the above conditions 55 1.1 jdolecek * are met. 56 1.1 jdolecek * 57 1.24 jdolecek * $FreeBSD: src/sys/kern/sys_pipe.c,v 1.95 2002/03/09 22:06:31 alfred Exp $ 58 1.1 jdolecek */ 59 1.1 jdolecek 60 1.1 jdolecek /* 61 1.1 jdolecek * This file contains a high-performance replacement for the socket-based 62 1.1 jdolecek * pipes scheme originally used in FreeBSD/4.4Lite. It does not support 63 1.1 jdolecek * all features of sockets, but does do everything that pipes normally 64 1.1 jdolecek * do. 65 1.2 jdolecek * 66 1.2 jdolecek * Adaption for NetBSD UVM, including uvm_loan() based direct write, was 67 1.2 jdolecek * written by Jaromir Dolecek. 68 1.1 jdolecek */ 69 1.1 jdolecek 70 1.1 jdolecek /* 71 1.1 jdolecek * This code has two modes of operation, a small write mode and a large 72 1.1 jdolecek * write mode. The small write mode acts like conventional pipes with 73 1.1 jdolecek * a kernel buffer. If the buffer is less than PIPE_MINDIRECT, then the 74 1.1 jdolecek * "normal" pipe buffering is done. If the buffer is between PIPE_MINDIRECT 75 1.35 pk * and PIPE_SIZE in size it is mapped read-only into the kernel address space 76 1.35 pk * using the UVM page loan facility from where the receiving process can copy 77 1.35 pk * the data directly from the pages in the sending process. 78 1.1 jdolecek * 79 1.1 jdolecek * The constant PIPE_MINDIRECT is chosen to make sure that buffering will 80 1.1 jdolecek * happen for small transfers so that the system will not spend all of 81 1.1 jdolecek * its time context switching. PIPE_SIZE is constrained by the 82 1.1 jdolecek * amount of kernel virtual memory. 83 1.1 jdolecek */ 84 1.19 lukem 85 1.19 lukem #include <sys/cdefs.h> 86 1.40.2.10 skrll __KERNEL_RCSID(0, "$NetBSD: sys_pipe.c,v 1.40.2.10 2005/11/10 14:09:45 skrll Exp $"); 87 1.2 jdolecek 88 1.1 jdolecek #include <sys/param.h> 89 1.1 jdolecek #include <sys/systm.h> 90 1.2 jdolecek #include <sys/proc.h> 91 1.1 jdolecek #include <sys/fcntl.h> 92 1.1 jdolecek #include <sys/file.h> 93 1.1 jdolecek #include <sys/filedesc.h> 94 1.1 jdolecek #include <sys/filio.h> 95 1.24 jdolecek #include <sys/kernel.h> 96 1.24 jdolecek #include <sys/lock.h> 97 1.1 jdolecek #include <sys/ttycom.h> 98 1.1 jdolecek #include <sys/stat.h> 99 1.24 jdolecek #include <sys/malloc.h> 100 1.1 jdolecek #include <sys/poll.h> 101 1.2 jdolecek #include <sys/signalvar.h> 102 1.2 jdolecek #include <sys/vnode.h> 103 1.2 jdolecek #include <sys/uio.h> 104 1.2 jdolecek #include <sys/lock.h> 105 1.2 jdolecek #include <sys/select.h> 106 1.2 jdolecek #include <sys/mount.h> 107 1.33 thorpej #include <sys/sa.h> 108 1.2 jdolecek #include <sys/syscallargs.h> 109 1.2 jdolecek #include <uvm/uvm.h> 110 1.2 jdolecek #include <sys/sysctl.h> 111 1.17 jdolecek #include <sys/kernel.h> 112 1.2 jdolecek 113 1.1 jdolecek #include <sys/pipe.h> 114 1.1 jdolecek 115 1.17 jdolecek /* 116 1.17 jdolecek * Avoid microtime(9), it's slow. We don't guard the read from time(9) 117 1.17 jdolecek * with splclock(9) since we don't actually need to be THAT sure the access 118 1.17 jdolecek * is atomic. 119 1.17 jdolecek */ 120 1.35 pk #define PIPE_TIMESTAMP(tvp) (*(tvp) = time) 121 1.27 jdolecek 122 1.1 jdolecek 123 1.1 jdolecek /* 124 1.1 jdolecek * Use this define if you want to disable *fancy* VM things. Expect an 125 1.35 pk * approx 30% decrease in transfer rate. 126 1.1 jdolecek */ 127 1.1 jdolecek /* #define PIPE_NODIRECT */ 128 1.1 jdolecek 129 1.1 jdolecek /* 130 1.1 jdolecek * interfaces to the outside world 131 1.1 jdolecek */ 132 1.40.2.8 skrll static int pipe_read(struct file *fp, off_t *offset, struct uio *uio, 133 1.24 jdolecek struct ucred *cred, int flags); 134 1.40.2.8 skrll static int pipe_write(struct file *fp, off_t *offset, struct uio *uio, 135 1.24 jdolecek struct ucred *cred, int flags); 136 1.40.2.4 skrll static int pipe_close(struct file *fp, struct lwp *l); 137 1.40.2.4 skrll static int pipe_poll(struct file *fp, int events, struct lwp *l); 138 1.27 jdolecek static int pipe_kqfilter(struct file *fp, struct knote *kn); 139 1.40.2.4 skrll static int pipe_stat(struct file *fp, struct stat *sb, struct lwp *l); 140 1.38 dsl static int pipe_ioctl(struct file *fp, u_long cmd, void *data, 141 1.40.2.4 skrll struct lwp *l); 142 1.1 jdolecek 143 1.40.2.7 skrll static const struct fileops pipeops = { 144 1.40.2.7 skrll pipe_read, pipe_write, pipe_ioctl, fnullop_fcntl, pipe_poll, 145 1.35 pk pipe_stat, pipe_close, pipe_kqfilter 146 1.35 pk }; 147 1.1 jdolecek 148 1.1 jdolecek /* 149 1.1 jdolecek * Default pipe buffer size(s), this can be kind-of large now because pipe 150 1.1 jdolecek * space is pageable. The pipe code will try to maintain locality of 151 1.1 jdolecek * reference for performance reasons, so small amounts of outstanding I/O 152 1.1 jdolecek * will not wipe the cache. 153 1.1 jdolecek */ 154 1.1 jdolecek #define MINPIPESIZE (PIPE_SIZE/3) 155 1.1 jdolecek #define MAXPIPESIZE (2*PIPE_SIZE/3) 156 1.1 jdolecek 157 1.1 jdolecek /* 158 1.1 jdolecek * Maximum amount of kva for pipes -- this is kind-of a soft limit, but 159 1.1 jdolecek * is there so that on large systems, we don't exhaust it. 160 1.1 jdolecek */ 161 1.1 jdolecek #define MAXPIPEKVA (8*1024*1024) 162 1.2 jdolecek static int maxpipekva = MAXPIPEKVA; 163 1.1 jdolecek 164 1.1 jdolecek /* 165 1.1 jdolecek * Limit for direct transfers, we cannot, of course limit 166 1.1 jdolecek * the amount of kva for pipes in general though. 167 1.1 jdolecek */ 168 1.1 jdolecek #define LIMITPIPEKVA (16*1024*1024) 169 1.2 jdolecek static int limitpipekva = LIMITPIPEKVA; 170 1.1 jdolecek 171 1.1 jdolecek /* 172 1.1 jdolecek * Limit the number of "big" pipes 173 1.1 jdolecek */ 174 1.2 jdolecek #define LIMITBIGPIPES 32 175 1.2 jdolecek static int maxbigpipes = LIMITBIGPIPES; 176 1.2 jdolecek static int nbigpipe = 0; 177 1.1 jdolecek 178 1.2 jdolecek /* 179 1.2 jdolecek * Amount of KVA consumed by pipe buffers. 180 1.2 jdolecek */ 181 1.2 jdolecek static int amountpipekva = 0; 182 1.34 thorpej 183 1.34 thorpej MALLOC_DEFINE(M_PIPE, "pipe", "Pipe structures"); 184 1.1 jdolecek 185 1.40.2.2 skrll static void pipeclose(struct file *fp, struct pipe *pipe); 186 1.35 pk static void pipe_free_kmem(struct pipe *pipe); 187 1.35 pk static int pipe_create(struct pipe **pipep, int allockva); 188 1.35 pk static int pipelock(struct pipe *pipe, int catch); 189 1.35 pk static __inline void pipeunlock(struct pipe *pipe); 190 1.40.2.10 skrll static void pipeselwakeup(struct pipe *pipe, struct pipe *sigp, int code); 191 1.1 jdolecek #ifndef PIPE_NODIRECT 192 1.40.2.2 skrll static int pipe_direct_write(struct file *fp, struct pipe *wpipe, 193 1.40.2.2 skrll struct uio *uio); 194 1.1 jdolecek #endif 195 1.35 pk static int pipespace(struct pipe *pipe, int size); 196 1.2 jdolecek 197 1.2 jdolecek #ifndef PIPE_NODIRECT 198 1.24 jdolecek static int pipe_loan_alloc(struct pipe *, int); 199 1.24 jdolecek static void pipe_loan_free(struct pipe *); 200 1.2 jdolecek #endif /* PIPE_NODIRECT */ 201 1.2 jdolecek 202 1.40.2.2 skrll static POOL_INIT(pipe_pool, sizeof(struct pipe), 0, 0, 0, "pipepl", 203 1.40.2.2 skrll &pool_allocator_nointr); 204 1.24 jdolecek 205 1.1 jdolecek /* 206 1.1 jdolecek * The pipe system call for the DTYPE_PIPE type of pipes 207 1.1 jdolecek */ 208 1.1 jdolecek 209 1.1 jdolecek /* ARGSUSED */ 210 1.2 jdolecek int 211 1.33 thorpej sys_pipe(l, v, retval) 212 1.33 thorpej struct lwp *l; 213 1.2 jdolecek void *v; 214 1.2 jdolecek register_t *retval; 215 1.1 jdolecek { 216 1.1 jdolecek struct file *rf, *wf; 217 1.1 jdolecek struct pipe *rpipe, *wpipe; 218 1.1 jdolecek int fd, error; 219 1.33 thorpej struct proc *p; 220 1.2 jdolecek 221 1.33 thorpej p = l->l_proc; 222 1.6 jdolecek rpipe = wpipe = NULL; 223 1.6 jdolecek if (pipe_create(&rpipe, 1) || pipe_create(&wpipe, 0)) { 224 1.40.2.2 skrll pipeclose(NULL, rpipe); 225 1.40.2.2 skrll pipeclose(NULL, wpipe); 226 1.6 jdolecek return (ENFILE); 227 1.6 jdolecek } 228 1.6 jdolecek 229 1.2 jdolecek /* 230 1.2 jdolecek * Note: the file structure returned from falloc() is marked 231 1.2 jdolecek * as 'larval' initially. Unless we mark it as 'mature' by 232 1.2 jdolecek * FILE_SET_MATURE(), any attempt to do anything with it would 233 1.2 jdolecek * return EBADF, including e.g. dup(2) or close(2). This avoids 234 1.2 jdolecek * file descriptor races if we block in the second falloc(). 235 1.2 jdolecek */ 236 1.2 jdolecek 237 1.2 jdolecek error = falloc(p, &rf, &fd); 238 1.2 jdolecek if (error) 239 1.2 jdolecek goto free2; 240 1.2 jdolecek retval[0] = fd; 241 1.2 jdolecek rf->f_flag = FREAD; 242 1.2 jdolecek rf->f_type = DTYPE_PIPE; 243 1.2 jdolecek rf->f_data = (caddr_t)rpipe; 244 1.2 jdolecek rf->f_ops = &pipeops; 245 1.2 jdolecek 246 1.2 jdolecek error = falloc(p, &wf, &fd); 247 1.2 jdolecek if (error) 248 1.2 jdolecek goto free3; 249 1.2 jdolecek retval[1] = fd; 250 1.2 jdolecek wf->f_flag = FWRITE; 251 1.2 jdolecek wf->f_type = DTYPE_PIPE; 252 1.2 jdolecek wf->f_data = (caddr_t)wpipe; 253 1.2 jdolecek wf->f_ops = &pipeops; 254 1.2 jdolecek 255 1.2 jdolecek rpipe->pipe_peer = wpipe; 256 1.2 jdolecek wpipe->pipe_peer = rpipe; 257 1.1 jdolecek 258 1.2 jdolecek FILE_SET_MATURE(rf); 259 1.2 jdolecek FILE_SET_MATURE(wf); 260 1.40.2.4 skrll FILE_UNUSE(rf, l); 261 1.40.2.4 skrll FILE_UNUSE(wf, l); 262 1.1 jdolecek return (0); 263 1.2 jdolecek free3: 264 1.40.2.4 skrll FILE_UNUSE(rf, l); 265 1.2 jdolecek ffree(rf); 266 1.11 jdolecek fdremove(p->p_fd, retval[0]); 267 1.2 jdolecek free2: 268 1.40.2.2 skrll pipeclose(NULL, wpipe); 269 1.40.2.2 skrll pipeclose(NULL, rpipe); 270 1.2 jdolecek 271 1.2 jdolecek return (error); 272 1.1 jdolecek } 273 1.1 jdolecek 274 1.1 jdolecek /* 275 1.1 jdolecek * Allocate kva for pipe circular buffer, the space is pageable 276 1.1 jdolecek * This routine will 'realloc' the size of a pipe safely, if it fails 277 1.1 jdolecek * it will retain the old buffer. 278 1.1 jdolecek * If it fails it will return ENOMEM. 279 1.1 jdolecek */ 280 1.1 jdolecek static int 281 1.35 pk pipespace(pipe, size) 282 1.35 pk struct pipe *pipe; 283 1.1 jdolecek int size; 284 1.1 jdolecek { 285 1.2 jdolecek caddr_t buffer; 286 1.2 jdolecek /* 287 1.35 pk * Allocate pageable virtual address space. Physical memory is 288 1.35 pk * allocated on demand. 289 1.2 jdolecek */ 290 1.40.2.9 skrll buffer = (caddr_t) uvm_km_alloc(kernel_map, round_page(size), 0, 291 1.40.2.9 skrll UVM_KMF_PAGEABLE); 292 1.2 jdolecek if (buffer == NULL) 293 1.2 jdolecek return (ENOMEM); 294 1.1 jdolecek 295 1.1 jdolecek /* free old resources if we're resizing */ 296 1.35 pk pipe_free_kmem(pipe); 297 1.35 pk pipe->pipe_buffer.buffer = buffer; 298 1.35 pk pipe->pipe_buffer.size = size; 299 1.35 pk pipe->pipe_buffer.in = 0; 300 1.35 pk pipe->pipe_buffer.out = 0; 301 1.35 pk pipe->pipe_buffer.cnt = 0; 302 1.35 pk amountpipekva += pipe->pipe_buffer.size; 303 1.1 jdolecek return (0); 304 1.1 jdolecek } 305 1.1 jdolecek 306 1.1 jdolecek /* 307 1.35 pk * Initialize and allocate VM and memory for pipe. 308 1.1 jdolecek */ 309 1.1 jdolecek static int 310 1.35 pk pipe_create(pipep, allockva) 311 1.35 pk struct pipe **pipep; 312 1.6 jdolecek int allockva; 313 1.1 jdolecek { 314 1.35 pk struct pipe *pipe; 315 1.1 jdolecek int error; 316 1.1 jdolecek 317 1.40.2.2 skrll pipe = *pipep = pool_get(&pipe_pool, PR_WAITOK); 318 1.1 jdolecek 319 1.40.2.8 skrll /* Initialize */ 320 1.35 pk memset(pipe, 0, sizeof(struct pipe)); 321 1.35 pk pipe->pipe_state = PIPE_SIGNALR; 322 1.1 jdolecek 323 1.35 pk PIPE_TIMESTAMP(&pipe->pipe_ctime); 324 1.35 pk pipe->pipe_atime = pipe->pipe_ctime; 325 1.35 pk pipe->pipe_mtime = pipe->pipe_ctime; 326 1.35 pk simple_lock_init(&pipe->pipe_slock); 327 1.40.2.2 skrll 328 1.40.2.2 skrll if (allockva && (error = pipespace(pipe, PIPE_SIZE))) 329 1.40.2.2 skrll return (error); 330 1.1 jdolecek 331 1.1 jdolecek return (0); 332 1.1 jdolecek } 333 1.1 jdolecek 334 1.1 jdolecek 335 1.1 jdolecek /* 336 1.35 pk * Lock a pipe for I/O, blocking other access 337 1.35 pk * Called with pipe spin lock held. 338 1.35 pk * Return with pipe spin lock released on success. 339 1.1 jdolecek */ 340 1.35 pk static int 341 1.35 pk pipelock(pipe, catch) 342 1.35 pk struct pipe *pipe; 343 1.1 jdolecek int catch; 344 1.1 jdolecek { 345 1.1 jdolecek 346 1.35 pk LOCK_ASSERT(simple_lock_held(&pipe->pipe_slock)); 347 1.35 pk 348 1.40.2.10 skrll while (pipe->pipe_state & PIPE_LOCKFL) { 349 1.40.2.10 skrll int error; 350 1.40.2.10 skrll const int pcatch = catch ? PCATCH : 0; 351 1.35 pk 352 1.40.2.10 skrll pipe->pipe_state |= PIPE_LWANT; 353 1.40.2.10 skrll error = ltsleep(pipe, PSOCK | pcatch, "pipelk", 0, 354 1.40.2.2 skrll &pipe->pipe_slock); 355 1.40.2.10 skrll if (error != 0) 356 1.40.2.10 skrll return error; 357 1.1 jdolecek } 358 1.40.2.10 skrll 359 1.40.2.10 skrll pipe->pipe_state |= PIPE_LOCKFL; 360 1.40.2.10 skrll simple_unlock(&pipe->pipe_slock); 361 1.40.2.10 skrll 362 1.40.2.10 skrll return 0; 363 1.1 jdolecek } 364 1.1 jdolecek 365 1.1 jdolecek /* 366 1.1 jdolecek * unlock a pipe I/O lock 367 1.1 jdolecek */ 368 1.1 jdolecek static __inline void 369 1.35 pk pipeunlock(pipe) 370 1.35 pk struct pipe *pipe; 371 1.1 jdolecek { 372 1.24 jdolecek 373 1.40.2.10 skrll KASSERT(pipe->pipe_state & PIPE_LOCKFL); 374 1.40.2.10 skrll 375 1.40.2.10 skrll pipe->pipe_state &= ~PIPE_LOCKFL; 376 1.40.2.10 skrll if (pipe->pipe_state & PIPE_LWANT) { 377 1.40.2.10 skrll pipe->pipe_state &= ~PIPE_LWANT; 378 1.40.2.10 skrll wakeup(pipe); 379 1.40.2.10 skrll } 380 1.1 jdolecek } 381 1.1 jdolecek 382 1.2 jdolecek /* 383 1.2 jdolecek * Select/poll wakup. This also sends SIGIO to peer connected to 384 1.2 jdolecek * 'sigpipe' side of pipe. 385 1.2 jdolecek */ 386 1.35 pk static void 387 1.40.2.10 skrll pipeselwakeup(selp, sigp, code) 388 1.3 jdolecek struct pipe *selp, *sigp; 389 1.40.2.2 skrll int code; 390 1.1 jdolecek { 391 1.40.2.2 skrll int band; 392 1.40.2.2 skrll 393 1.40.2.2 skrll selnotify(&selp->pipe_sel, NOTE_SUBMIT); 394 1.27 jdolecek 395 1.35 pk if (sigp == NULL || (sigp->pipe_state & PIPE_ASYNC) == 0) 396 1.35 pk return; 397 1.35 pk 398 1.40.2.2 skrll switch (code) { 399 1.40.2.2 skrll case POLL_IN: 400 1.40.2.2 skrll band = POLLIN|POLLRDNORM; 401 1.40.2.2 skrll break; 402 1.40.2.2 skrll case POLL_OUT: 403 1.40.2.2 skrll band = POLLOUT|POLLWRNORM; 404 1.40.2.2 skrll break; 405 1.40.2.2 skrll case POLL_HUP: 406 1.40.2.2 skrll band = POLLHUP; 407 1.40.2.2 skrll break; 408 1.40.2.2 skrll #if POLL_HUP != POLL_ERR 409 1.40.2.2 skrll case POLL_ERR: 410 1.40.2.2 skrll band = POLLERR; 411 1.40.2.2 skrll break; 412 1.40.2.2 skrll #endif 413 1.40.2.2 skrll default: 414 1.40.2.2 skrll band = 0; 415 1.40.2.2 skrll #ifdef DIAGNOSTIC 416 1.40.2.2 skrll printf("bad siginfo code %d in pipe notification.\n", code); 417 1.40.2.2 skrll #endif 418 1.40.2.2 skrll break; 419 1.40.2.2 skrll } 420 1.2 jdolecek 421 1.40.2.2 skrll fownsignal(sigp->pipe_pgid, SIGIO, code, band, selp); 422 1.1 jdolecek } 423 1.1 jdolecek 424 1.1 jdolecek /* ARGSUSED */ 425 1.2 jdolecek static int 426 1.2 jdolecek pipe_read(fp, offset, uio, cred, flags) 427 1.2 jdolecek struct file *fp; 428 1.2 jdolecek off_t *offset; 429 1.2 jdolecek struct uio *uio; 430 1.2 jdolecek struct ucred *cred; 431 1.1 jdolecek int flags; 432 1.1 jdolecek { 433 1.1 jdolecek struct pipe *rpipe = (struct pipe *) fp->f_data; 434 1.35 pk struct pipebuf *bp = &rpipe->pipe_buffer; 435 1.1 jdolecek int error; 436 1.2 jdolecek size_t nread = 0; 437 1.2 jdolecek size_t size; 438 1.2 jdolecek size_t ocnt; 439 1.1 jdolecek 440 1.24 jdolecek PIPE_LOCK(rpipe); 441 1.1 jdolecek ++rpipe->pipe_busy; 442 1.35 pk ocnt = bp->cnt; 443 1.28 jdolecek 444 1.35 pk again: 445 1.1 jdolecek error = pipelock(rpipe, 1); 446 1.1 jdolecek if (error) 447 1.1 jdolecek goto unlocked_error; 448 1.2 jdolecek 449 1.1 jdolecek while (uio->uio_resid) { 450 1.1 jdolecek /* 451 1.1 jdolecek * normal pipe buffer receive 452 1.1 jdolecek */ 453 1.35 pk if (bp->cnt > 0) { 454 1.35 pk size = bp->size - bp->out; 455 1.35 pk if (size > bp->cnt) 456 1.35 pk size = bp->cnt; 457 1.2 jdolecek if (size > uio->uio_resid) 458 1.2 jdolecek size = uio->uio_resid; 459 1.1 jdolecek 460 1.35 pk error = uiomove(&bp->buffer[bp->out], size, uio); 461 1.1 jdolecek if (error) 462 1.1 jdolecek break; 463 1.1 jdolecek 464 1.35 pk bp->out += size; 465 1.35 pk if (bp->out >= bp->size) 466 1.35 pk bp->out = 0; 467 1.1 jdolecek 468 1.35 pk bp->cnt -= size; 469 1.1 jdolecek 470 1.1 jdolecek /* 471 1.1 jdolecek * If there is no more to read in the pipe, reset 472 1.1 jdolecek * its pointers to the beginning. This improves 473 1.1 jdolecek * cache hit stats. 474 1.1 jdolecek */ 475 1.35 pk if (bp->cnt == 0) { 476 1.35 pk bp->in = 0; 477 1.35 pk bp->out = 0; 478 1.1 jdolecek } 479 1.1 jdolecek nread += size; 480 1.1 jdolecek #ifndef PIPE_NODIRECT 481 1.35 pk } else if ((rpipe->pipe_state & PIPE_DIRECTR) != 0) { 482 1.35 pk /* 483 1.35 pk * Direct copy, bypassing a kernel buffer. 484 1.35 pk */ 485 1.1 jdolecek caddr_t va; 486 1.35 pk 487 1.35 pk KASSERT(rpipe->pipe_state & PIPE_DIRECTW); 488 1.35 pk 489 1.35 pk size = rpipe->pipe_map.cnt; 490 1.2 jdolecek if (size > uio->uio_resid) 491 1.2 jdolecek size = uio->uio_resid; 492 1.1 jdolecek 493 1.1 jdolecek va = (caddr_t) rpipe->pipe_map.kva + 494 1.1 jdolecek rpipe->pipe_map.pos; 495 1.1 jdolecek error = uiomove(va, size, uio); 496 1.1 jdolecek if (error) 497 1.1 jdolecek break; 498 1.1 jdolecek nread += size; 499 1.1 jdolecek rpipe->pipe_map.pos += size; 500 1.1 jdolecek rpipe->pipe_map.cnt -= size; 501 1.1 jdolecek if (rpipe->pipe_map.cnt == 0) { 502 1.35 pk PIPE_LOCK(rpipe); 503 1.35 pk rpipe->pipe_state &= ~PIPE_DIRECTR; 504 1.1 jdolecek wakeup(rpipe); 505 1.35 pk PIPE_UNLOCK(rpipe); 506 1.1 jdolecek } 507 1.1 jdolecek #endif 508 1.1 jdolecek } else { 509 1.1 jdolecek /* 510 1.35 pk * Break if some data was read. 511 1.1 jdolecek */ 512 1.35 pk if (nread > 0) 513 1.1 jdolecek break; 514 1.1 jdolecek 515 1.36 pk PIPE_LOCK(rpipe); 516 1.36 pk 517 1.1 jdolecek /* 518 1.36 pk * detect EOF condition 519 1.36 pk * read returns 0 on EOF, no need to set error 520 1.1 jdolecek */ 521 1.36 pk if (rpipe->pipe_state & PIPE_EOF) { 522 1.36 pk PIPE_UNLOCK(rpipe); 523 1.35 pk break; 524 1.1 jdolecek } 525 1.1 jdolecek 526 1.1 jdolecek /* 527 1.36 pk * don't block on non-blocking I/O 528 1.2 jdolecek */ 529 1.36 pk if (fp->f_flag & FNONBLOCK) { 530 1.35 pk PIPE_UNLOCK(rpipe); 531 1.36 pk error = EAGAIN; 532 1.2 jdolecek break; 533 1.2 jdolecek } 534 1.2 jdolecek 535 1.2 jdolecek /* 536 1.2 jdolecek * Unlock the pipe buffer for our remaining processing. 537 1.2 jdolecek * We will either break out with an error or we will 538 1.2 jdolecek * sleep and relock to loop. 539 1.1 jdolecek */ 540 1.1 jdolecek pipeunlock(rpipe); 541 1.1 jdolecek 542 1.1 jdolecek /* 543 1.35 pk * The PIPE_DIRECTR flag is not under the control 544 1.35 pk * of the long-term lock (see pipe_direct_write()), 545 1.35 pk * so re-check now while holding the spin lock. 546 1.35 pk */ 547 1.35 pk if ((rpipe->pipe_state & PIPE_DIRECTR) != 0) 548 1.35 pk goto again; 549 1.35 pk 550 1.35 pk /* 551 1.2 jdolecek * We want to read more, wake up select/poll. 552 1.1 jdolecek */ 553 1.40.2.10 skrll pipeselwakeup(rpipe, rpipe->pipe_peer, POLL_IN); 554 1.2 jdolecek 555 1.35 pk /* 556 1.35 pk * If the "write-side" is blocked, wake it up now. 557 1.35 pk */ 558 1.35 pk if (rpipe->pipe_state & PIPE_WANTW) { 559 1.35 pk rpipe->pipe_state &= ~PIPE_WANTW; 560 1.35 pk wakeup(rpipe); 561 1.35 pk } 562 1.35 pk 563 1.35 pk /* Now wait until the pipe is filled */ 564 1.2 jdolecek rpipe->pipe_state |= PIPE_WANTR; 565 1.40.2.2 skrll error = ltsleep(rpipe, PSOCK | PCATCH, 566 1.35 pk "piperd", 0, &rpipe->pipe_slock); 567 1.35 pk if (error != 0) 568 1.1 jdolecek goto unlocked_error; 569 1.35 pk goto again; 570 1.1 jdolecek } 571 1.1 jdolecek } 572 1.35 pk 573 1.35 pk if (error == 0) 574 1.35 pk PIPE_TIMESTAMP(&rpipe->pipe_atime); 575 1.35 pk 576 1.35 pk PIPE_LOCK(rpipe); 577 1.1 jdolecek pipeunlock(rpipe); 578 1.1 jdolecek 579 1.1 jdolecek unlocked_error: 580 1.1 jdolecek --rpipe->pipe_busy; 581 1.1 jdolecek 582 1.1 jdolecek /* 583 1.2 jdolecek * PIPE_WANTCLOSE processing only makes sense if pipe_busy is 0. 584 1.1 jdolecek */ 585 1.2 jdolecek if ((rpipe->pipe_busy == 0) && (rpipe->pipe_state & PIPE_WANTCLOSE)) { 586 1.2 jdolecek rpipe->pipe_state &= ~(PIPE_WANTCLOSE|PIPE_WANTW); 587 1.1 jdolecek wakeup(rpipe); 588 1.35 pk } else if (bp->cnt < MINPIPESIZE) { 589 1.1 jdolecek /* 590 1.1 jdolecek * Handle write blocking hysteresis. 591 1.1 jdolecek */ 592 1.1 jdolecek if (rpipe->pipe_state & PIPE_WANTW) { 593 1.1 jdolecek rpipe->pipe_state &= ~PIPE_WANTW; 594 1.1 jdolecek wakeup(rpipe); 595 1.1 jdolecek } 596 1.1 jdolecek } 597 1.1 jdolecek 598 1.2 jdolecek /* 599 1.2 jdolecek * If anything was read off the buffer, signal to the writer it's 600 1.2 jdolecek * possible to write more data. Also send signal if we are here for the 601 1.2 jdolecek * first time after last write. 602 1.2 jdolecek */ 603 1.35 pk if ((bp->size - bp->cnt) >= PIPE_BUF 604 1.35 pk && (ocnt != bp->cnt || (rpipe->pipe_state & PIPE_SIGNALR))) { 605 1.40.2.10 skrll pipeselwakeup(rpipe, rpipe->pipe_peer, POLL_OUT); 606 1.2 jdolecek rpipe->pipe_state &= ~PIPE_SIGNALR; 607 1.2 jdolecek } 608 1.1 jdolecek 609 1.24 jdolecek PIPE_UNLOCK(rpipe); 610 1.1 jdolecek return (error); 611 1.1 jdolecek } 612 1.1 jdolecek 613 1.2 jdolecek #ifndef PIPE_NODIRECT 614 1.2 jdolecek /* 615 1.2 jdolecek * Allocate structure for loan transfer. 616 1.2 jdolecek */ 617 1.18 chs static int 618 1.18 chs pipe_loan_alloc(wpipe, npages) 619 1.2 jdolecek struct pipe *wpipe; 620 1.2 jdolecek int npages; 621 1.2 jdolecek { 622 1.18 chs vsize_t len; 623 1.18 chs 624 1.18 chs len = (vsize_t)npages << PAGE_SHIFT; 625 1.40.2.9 skrll wpipe->pipe_map.kva = uvm_km_alloc(kernel_map, len, 0, 626 1.40.2.9 skrll UVM_KMF_VAONLY | UVM_KMF_WAITVA); 627 1.22 thorpej if (wpipe->pipe_map.kva == 0) 628 1.2 jdolecek return (ENOMEM); 629 1.2 jdolecek 630 1.18 chs amountpipekva += len; 631 1.2 jdolecek wpipe->pipe_map.npages = npages; 632 1.18 chs wpipe->pipe_map.pgs = malloc(npages * sizeof(struct vm_page *), M_PIPE, 633 1.18 chs M_WAITOK); 634 1.2 jdolecek return (0); 635 1.2 jdolecek } 636 1.2 jdolecek 637 1.2 jdolecek /* 638 1.2 jdolecek * Free resources allocated for loan transfer. 639 1.2 jdolecek */ 640 1.2 jdolecek static void 641 1.2 jdolecek pipe_loan_free(wpipe) 642 1.2 jdolecek struct pipe *wpipe; 643 1.2 jdolecek { 644 1.18 chs vsize_t len; 645 1.18 chs 646 1.18 chs len = (vsize_t)wpipe->pipe_map.npages << PAGE_SHIFT; 647 1.40.2.9 skrll uvm_km_free(kernel_map, wpipe->pipe_map.kva, len, UVM_KMF_VAONLY); 648 1.22 thorpej wpipe->pipe_map.kva = 0; 649 1.18 chs amountpipekva -= len; 650 1.18 chs free(wpipe->pipe_map.pgs, M_PIPE); 651 1.18 chs wpipe->pipe_map.pgs = NULL; 652 1.2 jdolecek } 653 1.2 jdolecek 654 1.2 jdolecek /* 655 1.2 jdolecek * NetBSD direct write, using uvm_loan() mechanism. 656 1.2 jdolecek * This implements the pipe buffer write mechanism. Note that only 657 1.2 jdolecek * a direct write OR a normal pipe write can be pending at any given time. 658 1.2 jdolecek * If there are any characters in the pipe buffer, the direct write will 659 1.2 jdolecek * be deferred until the receiving process grabs all of the bytes from 660 1.2 jdolecek * the pipe buffer. Then the direct mapping write is set-up. 661 1.35 pk * 662 1.35 pk * Called with the long-term pipe lock held. 663 1.2 jdolecek */ 664 1.18 chs static int 665 1.40.2.2 skrll pipe_direct_write(fp, wpipe, uio) 666 1.40.2.2 skrll struct file *fp; 667 1.2 jdolecek struct pipe *wpipe; 668 1.2 jdolecek struct uio *uio; 669 1.2 jdolecek { 670 1.5 jdolecek int error, npages, j; 671 1.18 chs struct vm_page **pgs; 672 1.2 jdolecek vaddr_t bbase, kva, base, bend; 673 1.2 jdolecek vsize_t blen, bcnt; 674 1.5 jdolecek voff_t bpos; 675 1.5 jdolecek 676 1.35 pk KASSERT(wpipe->pipe_map.cnt == 0); 677 1.2 jdolecek 678 1.2 jdolecek /* 679 1.14 jdolecek * Handle first PIPE_CHUNK_SIZE bytes of buffer. Deal with buffers 680 1.14 jdolecek * not aligned to PAGE_SIZE. 681 1.5 jdolecek */ 682 1.14 jdolecek bbase = (vaddr_t)uio->uio_iov->iov_base; 683 1.5 jdolecek base = trunc_page(bbase); 684 1.14 jdolecek bend = round_page(bbase + uio->uio_iov->iov_len); 685 1.5 jdolecek blen = bend - base; 686 1.5 jdolecek bpos = bbase - base; 687 1.5 jdolecek 688 1.5 jdolecek if (blen > PIPE_DIRECT_CHUNK) { 689 1.5 jdolecek blen = PIPE_DIRECT_CHUNK; 690 1.5 jdolecek bend = base + blen; 691 1.5 jdolecek bcnt = PIPE_DIRECT_CHUNK - bpos; 692 1.18 chs } else { 693 1.14 jdolecek bcnt = uio->uio_iov->iov_len; 694 1.18 chs } 695 1.18 chs npages = blen >> PAGE_SHIFT; 696 1.5 jdolecek 697 1.5 jdolecek /* 698 1.5 jdolecek * Free the old kva if we need more pages than we have 699 1.5 jdolecek * allocated. 700 1.2 jdolecek */ 701 1.35 pk if (wpipe->pipe_map.kva != 0 && npages > wpipe->pipe_map.npages) 702 1.5 jdolecek pipe_loan_free(wpipe); 703 1.2 jdolecek 704 1.5 jdolecek /* Allocate new kva. */ 705 1.22 thorpej if (wpipe->pipe_map.kva == 0) { 706 1.18 chs error = pipe_loan_alloc(wpipe, npages); 707 1.35 pk if (error) 708 1.35 pk return (error); 709 1.18 chs } 710 1.18 chs 711 1.5 jdolecek /* Loan the write buffer memory from writer process */ 712 1.18 chs pgs = wpipe->pipe_map.pgs; 713 1.40.2.4 skrll error = uvm_loan(&uio->uio_lwp->l_proc->p_vmspace->vm_map, base, blen, 714 1.35 pk pgs, UVM_LOAN_TOPAGE); 715 1.18 chs if (error) { 716 1.35 pk pipe_loan_free(wpipe); 717 1.40.2.6 skrll return (ENOMEM); /* so that caller fallback to ordinary write */ 718 1.18 chs } 719 1.18 chs 720 1.5 jdolecek /* Enter the loaned pages to kva */ 721 1.5 jdolecek kva = wpipe->pipe_map.kva; 722 1.18 chs for (j = 0; j < npages; j++, kva += PAGE_SIZE) { 723 1.18 chs pmap_kenter_pa(kva, VM_PAGE_TO_PHYS(pgs[j]), VM_PROT_READ); 724 1.18 chs } 725 1.12 jdolecek pmap_update(pmap_kernel()); 726 1.2 jdolecek 727 1.35 pk /* Now we can put the pipe in direct write mode */ 728 1.35 pk wpipe->pipe_map.pos = bpos; 729 1.35 pk wpipe->pipe_map.cnt = bcnt; 730 1.5 jdolecek wpipe->pipe_state |= PIPE_DIRECTW; 731 1.35 pk 732 1.35 pk /* 733 1.35 pk * But before we can let someone do a direct read, 734 1.35 pk * we have to wait until the pipe is drained. 735 1.35 pk */ 736 1.35 pk 737 1.35 pk /* Relase the pipe lock while we wait */ 738 1.35 pk PIPE_LOCK(wpipe); 739 1.35 pk pipeunlock(wpipe); 740 1.35 pk 741 1.35 pk while (error == 0 && wpipe->pipe_buffer.cnt > 0) { 742 1.35 pk if (wpipe->pipe_state & PIPE_WANTR) { 743 1.35 pk wpipe->pipe_state &= ~PIPE_WANTR; 744 1.35 pk wakeup(wpipe); 745 1.35 pk } 746 1.35 pk 747 1.35 pk wpipe->pipe_state |= PIPE_WANTW; 748 1.40.2.2 skrll error = ltsleep(wpipe, PSOCK | PCATCH, "pipdwc", 0, 749 1.35 pk &wpipe->pipe_slock); 750 1.35 pk if (error == 0 && wpipe->pipe_state & PIPE_EOF) 751 1.5 jdolecek error = EPIPE; 752 1.35 pk } 753 1.35 pk 754 1.35 pk /* Pipe is drained; next read will off the direct buffer */ 755 1.35 pk wpipe->pipe_state |= PIPE_DIRECTR; 756 1.35 pk 757 1.35 pk /* Wait until the reader is done */ 758 1.35 pk while (error == 0 && (wpipe->pipe_state & PIPE_DIRECTR)) { 759 1.5 jdolecek if (wpipe->pipe_state & PIPE_WANTR) { 760 1.5 jdolecek wpipe->pipe_state &= ~PIPE_WANTR; 761 1.5 jdolecek wakeup(wpipe); 762 1.2 jdolecek } 763 1.40.2.10 skrll pipeselwakeup(wpipe, wpipe, POLL_IN); 764 1.40.2.2 skrll error = ltsleep(wpipe, PSOCK | PCATCH, "pipdwt", 0, 765 1.35 pk &wpipe->pipe_slock); 766 1.35 pk if (error == 0 && wpipe->pipe_state & PIPE_EOF) 767 1.35 pk error = EPIPE; 768 1.5 jdolecek } 769 1.5 jdolecek 770 1.35 pk /* Take pipe out of direct write mode */ 771 1.35 pk wpipe->pipe_state &= ~(PIPE_DIRECTW | PIPE_DIRECTR); 772 1.2 jdolecek 773 1.35 pk /* Acquire the pipe lock and cleanup */ 774 1.35 pk (void)pipelock(wpipe, 0); 775 1.21 chs if (pgs != NULL) { 776 1.21 chs pmap_kremove(wpipe->pipe_map.kva, blen); 777 1.18 chs uvm_unloan(pgs, npages, UVM_LOAN_TOPAGE); 778 1.21 chs } 779 1.5 jdolecek if (error || amountpipekva > maxpipekva) 780 1.5 jdolecek pipe_loan_free(wpipe); 781 1.5 jdolecek 782 1.15 jdolecek if (error) { 783 1.40.2.10 skrll pipeselwakeup(wpipe, wpipe, POLL_ERR); 784 1.2 jdolecek 785 1.5 jdolecek /* 786 1.15 jdolecek * If nothing was read from what we offered, return error 787 1.18 chs * straight on. Otherwise update uio resid first. Caller 788 1.15 jdolecek * will deal with the error condition, returning short 789 1.15 jdolecek * write, error, or restarting the write(2) as appropriate. 790 1.5 jdolecek */ 791 1.15 jdolecek if (wpipe->pipe_map.cnt == bcnt) { 792 1.35 pk wpipe->pipe_map.cnt = 0; 793 1.15 jdolecek wakeup(wpipe); 794 1.15 jdolecek return (error); 795 1.2 jdolecek } 796 1.2 jdolecek 797 1.15 jdolecek bcnt -= wpipe->pipe_map.cnt; 798 1.5 jdolecek } 799 1.2 jdolecek 800 1.18 chs uio->uio_resid -= bcnt; 801 1.8 jdolecek /* uio_offset not updated, not set/used for write(2) */ 802 1.18 chs uio->uio_iov->iov_base = (char *)uio->uio_iov->iov_base + bcnt; 803 1.14 jdolecek uio->uio_iov->iov_len -= bcnt; 804 1.14 jdolecek if (uio->uio_iov->iov_len == 0) { 805 1.14 jdolecek uio->uio_iov++; 806 1.14 jdolecek uio->uio_iovcnt--; 807 1.14 jdolecek } 808 1.2 jdolecek 809 1.35 pk wpipe->pipe_map.cnt = 0; 810 1.15 jdolecek return (error); 811 1.2 jdolecek } 812 1.2 jdolecek #endif /* !PIPE_NODIRECT */ 813 1.2 jdolecek 814 1.2 jdolecek static int 815 1.2 jdolecek pipe_write(fp, offset, uio, cred, flags) 816 1.2 jdolecek struct file *fp; 817 1.2 jdolecek off_t *offset; 818 1.2 jdolecek struct uio *uio; 819 1.2 jdolecek struct ucred *cred; 820 1.1 jdolecek int flags; 821 1.1 jdolecek { 822 1.1 jdolecek struct pipe *wpipe, *rpipe; 823 1.35 pk struct pipebuf *bp; 824 1.35 pk int error; 825 1.1 jdolecek 826 1.35 pk /* We want to write to our peer */ 827 1.1 jdolecek rpipe = (struct pipe *) fp->f_data; 828 1.35 pk 829 1.35 pk retry: 830 1.35 pk error = 0; 831 1.35 pk PIPE_LOCK(rpipe); 832 1.1 jdolecek wpipe = rpipe->pipe_peer; 833 1.1 jdolecek 834 1.1 jdolecek /* 835 1.35 pk * Detect loss of pipe read side, issue SIGPIPE if lost. 836 1.1 jdolecek */ 837 1.35 pk if (wpipe == NULL) 838 1.35 pk error = EPIPE; 839 1.35 pk else if (simple_lock_try(&wpipe->pipe_slock) == 0) { 840 1.35 pk /* Deal with race for peer */ 841 1.24 jdolecek PIPE_UNLOCK(rpipe); 842 1.35 pk goto retry; 843 1.35 pk } else if ((wpipe->pipe_state & PIPE_EOF) != 0) { 844 1.35 pk PIPE_UNLOCK(wpipe); 845 1.35 pk error = EPIPE; 846 1.24 jdolecek } 847 1.2 jdolecek 848 1.35 pk PIPE_UNLOCK(rpipe); 849 1.35 pk if (error != 0) 850 1.35 pk return (error); 851 1.35 pk 852 1.1 jdolecek ++wpipe->pipe_busy; 853 1.1 jdolecek 854 1.35 pk /* Aquire the long-term pipe lock */ 855 1.35 pk if ((error = pipelock(wpipe,1)) != 0) { 856 1.35 pk --wpipe->pipe_busy; 857 1.35 pk if (wpipe->pipe_busy == 0 858 1.35 pk && (wpipe->pipe_state & PIPE_WANTCLOSE)) { 859 1.35 pk wpipe->pipe_state &= ~(PIPE_WANTCLOSE | PIPE_WANTR); 860 1.35 pk wakeup(wpipe); 861 1.35 pk } 862 1.35 pk PIPE_UNLOCK(wpipe); 863 1.35 pk return (error); 864 1.35 pk } 865 1.35 pk 866 1.35 pk bp = &wpipe->pipe_buffer; 867 1.35 pk 868 1.1 jdolecek /* 869 1.35 pk * If it is advantageous to resize the pipe buffer, do so. 870 1.1 jdolecek */ 871 1.1 jdolecek if ((uio->uio_resid > PIPE_SIZE) && 872 1.35 pk (nbigpipe < maxbigpipes) && 873 1.2 jdolecek #ifndef PIPE_NODIRECT 874 1.35 pk (wpipe->pipe_state & PIPE_DIRECTW) == 0 && 875 1.2 jdolecek #endif 876 1.35 pk (bp->size <= PIPE_SIZE) && (bp->cnt == 0)) { 877 1.1 jdolecek 878 1.35 pk if (pipespace(wpipe, BIG_PIPE_SIZE) == 0) 879 1.35 pk nbigpipe++; 880 1.24 jdolecek } 881 1.1 jdolecek 882 1.1 jdolecek while (uio->uio_resid) { 883 1.26 thorpej size_t space; 884 1.1 jdolecek 885 1.1 jdolecek #ifndef PIPE_NODIRECT 886 1.1 jdolecek /* 887 1.35 pk * Pipe buffered writes cannot be coincidental with 888 1.35 pk * direct writes. Also, only one direct write can be 889 1.35 pk * in progress at any one time. We wait until the currently 890 1.35 pk * executing direct write is completed before continuing. 891 1.35 pk * 892 1.35 pk * We break out if a signal occurs or the reader goes away. 893 1.35 pk */ 894 1.35 pk while (error == 0 && wpipe->pipe_state & PIPE_DIRECTW) { 895 1.35 pk PIPE_LOCK(wpipe); 896 1.35 pk if (wpipe->pipe_state & PIPE_WANTR) { 897 1.35 pk wpipe->pipe_state &= ~PIPE_WANTR; 898 1.35 pk wakeup(wpipe); 899 1.35 pk } 900 1.35 pk pipeunlock(wpipe); 901 1.40.2.2 skrll error = ltsleep(wpipe, PSOCK | PCATCH, 902 1.35 pk "pipbww", 0, &wpipe->pipe_slock); 903 1.35 pk 904 1.35 pk (void)pipelock(wpipe, 0); 905 1.35 pk if (wpipe->pipe_state & PIPE_EOF) 906 1.35 pk error = EPIPE; 907 1.35 pk } 908 1.35 pk if (error) 909 1.35 pk break; 910 1.35 pk 911 1.35 pk /* 912 1.1 jdolecek * If the transfer is large, we can gain performance if 913 1.1 jdolecek * we do process-to-process copies directly. 914 1.1 jdolecek * If the write is non-blocking, we don't use the 915 1.1 jdolecek * direct write mechanism. 916 1.1 jdolecek * 917 1.1 jdolecek * The direct write mechanism will detect the reader going 918 1.1 jdolecek * away on us. 919 1.1 jdolecek */ 920 1.14 jdolecek if ((uio->uio_iov->iov_len >= PIPE_MINDIRECT) && 921 1.1 jdolecek (fp->f_flag & FNONBLOCK) == 0 && 922 1.2 jdolecek (wpipe->pipe_map.kva || (amountpipekva < limitpipekva))) { 923 1.40.2.2 skrll error = pipe_direct_write(fp, wpipe, uio); 924 1.5 jdolecek 925 1.5 jdolecek /* 926 1.40.2.2 skrll * Break out if error occurred, unless it's ENOMEM. 927 1.14 jdolecek * ENOMEM means we failed to allocate some resources 928 1.14 jdolecek * for direct write, so we just fallback to ordinary 929 1.14 jdolecek * write. If the direct write was successful, 930 1.14 jdolecek * process rest of data via ordinary write. 931 1.5 jdolecek */ 932 1.35 pk if (error == 0) 933 1.14 jdolecek continue; 934 1.14 jdolecek 935 1.5 jdolecek if (error != ENOMEM) 936 1.1 jdolecek break; 937 1.1 jdolecek } 938 1.2 jdolecek #endif /* PIPE_NODIRECT */ 939 1.1 jdolecek 940 1.35 pk space = bp->size - bp->cnt; 941 1.1 jdolecek 942 1.1 jdolecek /* Writes of size <= PIPE_BUF must be atomic. */ 943 1.14 jdolecek if ((space < uio->uio_resid) && (uio->uio_resid <= PIPE_BUF)) 944 1.1 jdolecek space = 0; 945 1.1 jdolecek 946 1.16 mycroft if (space > 0) { 947 1.2 jdolecek int size; /* Transfer size */ 948 1.2 jdolecek int segsize; /* first segment to transfer */ 949 1.2 jdolecek 950 1.2 jdolecek /* 951 1.2 jdolecek * Transfer size is minimum of uio transfer 952 1.2 jdolecek * and free space in pipe buffer. 953 1.2 jdolecek */ 954 1.2 jdolecek if (space > uio->uio_resid) 955 1.2 jdolecek size = uio->uio_resid; 956 1.2 jdolecek else 957 1.2 jdolecek size = space; 958 1.2 jdolecek /* 959 1.40.2.8 skrll * First segment to transfer is minimum of 960 1.2 jdolecek * transfer size and contiguous space in 961 1.2 jdolecek * pipe buffer. If first segment to transfer 962 1.2 jdolecek * is less than the transfer size, we've got 963 1.2 jdolecek * a wraparound in the buffer. 964 1.2 jdolecek */ 965 1.35 pk segsize = bp->size - bp->in; 966 1.2 jdolecek if (segsize > size) 967 1.2 jdolecek segsize = size; 968 1.18 chs 969 1.2 jdolecek /* Transfer first segment */ 970 1.35 pk error = uiomove(&bp->buffer[bp->in], segsize, uio); 971 1.18 chs 972 1.2 jdolecek if (error == 0 && segsize < size) { 973 1.40.2.8 skrll /* 974 1.2 jdolecek * Transfer remaining part now, to 975 1.2 jdolecek * support atomic writes. Wraparound 976 1.2 jdolecek * happened. 977 1.2 jdolecek */ 978 1.2 jdolecek #ifdef DEBUG 979 1.35 pk if (bp->in + segsize != bp->size) 980 1.2 jdolecek panic("Expected pipe buffer wraparound disappeared"); 981 1.2 jdolecek #endif 982 1.18 chs 983 1.35 pk error = uiomove(&bp->buffer[0], 984 1.2 jdolecek size - segsize, uio); 985 1.2 jdolecek } 986 1.35 pk if (error) 987 1.35 pk break; 988 1.35 pk 989 1.35 pk bp->in += size; 990 1.35 pk if (bp->in >= bp->size) { 991 1.2 jdolecek #ifdef DEBUG 992 1.35 pk if (bp->in != size - segsize + bp->size) 993 1.35 pk panic("Expected wraparound bad"); 994 1.2 jdolecek #endif 995 1.35 pk bp->in = size - segsize; 996 1.35 pk } 997 1.18 chs 998 1.35 pk bp->cnt += size; 999 1.2 jdolecek #ifdef DEBUG 1000 1.35 pk if (bp->cnt > bp->size) 1001 1.35 pk panic("Pipe buffer overflow"); 1002 1.2 jdolecek #endif 1003 1.1 jdolecek } else { 1004 1.1 jdolecek /* 1005 1.1 jdolecek * If the "read-side" has been blocked, wake it up now. 1006 1.1 jdolecek */ 1007 1.35 pk PIPE_LOCK(wpipe); 1008 1.1 jdolecek if (wpipe->pipe_state & PIPE_WANTR) { 1009 1.1 jdolecek wpipe->pipe_state &= ~PIPE_WANTR; 1010 1.1 jdolecek wakeup(wpipe); 1011 1.1 jdolecek } 1012 1.35 pk PIPE_UNLOCK(wpipe); 1013 1.1 jdolecek 1014 1.1 jdolecek /* 1015 1.1 jdolecek * don't block on non-blocking I/O 1016 1.1 jdolecek */ 1017 1.1 jdolecek if (fp->f_flag & FNONBLOCK) { 1018 1.1 jdolecek error = EAGAIN; 1019 1.1 jdolecek break; 1020 1.1 jdolecek } 1021 1.1 jdolecek 1022 1.1 jdolecek /* 1023 1.1 jdolecek * We have no more space and have something to offer, 1024 1.1 jdolecek * wake up select/poll. 1025 1.1 jdolecek */ 1026 1.35 pk if (bp->cnt) 1027 1.40.2.10 skrll pipeselwakeup(wpipe, wpipe, POLL_OUT); 1028 1.1 jdolecek 1029 1.35 pk PIPE_LOCK(wpipe); 1030 1.35 pk pipeunlock(wpipe); 1031 1.1 jdolecek wpipe->pipe_state |= PIPE_WANTW; 1032 1.40.2.2 skrll error = ltsleep(wpipe, PSOCK | PCATCH, "pipewr", 0, 1033 1.35 pk &wpipe->pipe_slock); 1034 1.35 pk (void)pipelock(wpipe, 0); 1035 1.1 jdolecek if (error != 0) 1036 1.1 jdolecek break; 1037 1.1 jdolecek /* 1038 1.1 jdolecek * If read side wants to go away, we just issue a signal 1039 1.1 jdolecek * to ourselves. 1040 1.1 jdolecek */ 1041 1.1 jdolecek if (wpipe->pipe_state & PIPE_EOF) { 1042 1.1 jdolecek error = EPIPE; 1043 1.1 jdolecek break; 1044 1.18 chs } 1045 1.1 jdolecek } 1046 1.1 jdolecek } 1047 1.1 jdolecek 1048 1.35 pk PIPE_LOCK(wpipe); 1049 1.1 jdolecek --wpipe->pipe_busy; 1050 1.2 jdolecek if ((wpipe->pipe_busy == 0) && (wpipe->pipe_state & PIPE_WANTCLOSE)) { 1051 1.2 jdolecek wpipe->pipe_state &= ~(PIPE_WANTCLOSE | PIPE_WANTR); 1052 1.1 jdolecek wakeup(wpipe); 1053 1.35 pk } else if (bp->cnt > 0) { 1054 1.1 jdolecek /* 1055 1.1 jdolecek * If we have put any characters in the buffer, we wake up 1056 1.1 jdolecek * the reader. 1057 1.1 jdolecek */ 1058 1.1 jdolecek if (wpipe->pipe_state & PIPE_WANTR) { 1059 1.1 jdolecek wpipe->pipe_state &= ~PIPE_WANTR; 1060 1.1 jdolecek wakeup(wpipe); 1061 1.1 jdolecek } 1062 1.1 jdolecek } 1063 1.1 jdolecek 1064 1.1 jdolecek /* 1065 1.1 jdolecek * Don't return EPIPE if I/O was successful 1066 1.1 jdolecek */ 1067 1.35 pk if (error == EPIPE && bp->cnt == 0 && uio->uio_resid == 0) 1068 1.1 jdolecek error = 0; 1069 1.1 jdolecek 1070 1.1 jdolecek if (error == 0) 1071 1.35 pk PIPE_TIMESTAMP(&wpipe->pipe_mtime); 1072 1.1 jdolecek 1073 1.1 jdolecek /* 1074 1.2 jdolecek * We have something to offer, wake up select/poll. 1075 1.2 jdolecek * wpipe->pipe_map.cnt is always 0 in this point (direct write 1076 1.14 jdolecek * is only done synchronously), so check only wpipe->pipe_buffer.cnt 1077 1.1 jdolecek */ 1078 1.35 pk if (bp->cnt) 1079 1.40.2.10 skrll pipeselwakeup(wpipe, wpipe, POLL_OUT); 1080 1.1 jdolecek 1081 1.2 jdolecek /* 1082 1.2 jdolecek * Arrange for next read(2) to do a signal. 1083 1.2 jdolecek */ 1084 1.2 jdolecek wpipe->pipe_state |= PIPE_SIGNALR; 1085 1.2 jdolecek 1086 1.35 pk pipeunlock(wpipe); 1087 1.35 pk PIPE_UNLOCK(wpipe); 1088 1.1 jdolecek return (error); 1089 1.1 jdolecek } 1090 1.1 jdolecek 1091 1.1 jdolecek /* 1092 1.1 jdolecek * we implement a very minimal set of ioctls for compatibility with sockets. 1093 1.1 jdolecek */ 1094 1.1 jdolecek int 1095 1.40.2.4 skrll pipe_ioctl(fp, cmd, data, l) 1096 1.1 jdolecek struct file *fp; 1097 1.1 jdolecek u_long cmd; 1098 1.38 dsl void *data; 1099 1.40.2.4 skrll struct lwp *l; 1100 1.1 jdolecek { 1101 1.35 pk struct pipe *pipe = (struct pipe *)fp->f_data; 1102 1.40.2.4 skrll struct proc *p = l->l_proc; 1103 1.1 jdolecek 1104 1.1 jdolecek switch (cmd) { 1105 1.1 jdolecek 1106 1.1 jdolecek case FIONBIO: 1107 1.1 jdolecek return (0); 1108 1.1 jdolecek 1109 1.1 jdolecek case FIOASYNC: 1110 1.35 pk PIPE_LOCK(pipe); 1111 1.1 jdolecek if (*(int *)data) { 1112 1.35 pk pipe->pipe_state |= PIPE_ASYNC; 1113 1.1 jdolecek } else { 1114 1.35 pk pipe->pipe_state &= ~PIPE_ASYNC; 1115 1.1 jdolecek } 1116 1.35 pk PIPE_UNLOCK(pipe); 1117 1.1 jdolecek return (0); 1118 1.1 jdolecek 1119 1.1 jdolecek case FIONREAD: 1120 1.35 pk PIPE_LOCK(pipe); 1121 1.2 jdolecek #ifndef PIPE_NODIRECT 1122 1.35 pk if (pipe->pipe_state & PIPE_DIRECTW) 1123 1.35 pk *(int *)data = pipe->pipe_map.cnt; 1124 1.1 jdolecek else 1125 1.2 jdolecek #endif 1126 1.35 pk *(int *)data = pipe->pipe_buffer.cnt; 1127 1.35 pk PIPE_UNLOCK(pipe); 1128 1.1 jdolecek return (0); 1129 1.1 jdolecek 1130 1.40.2.5 skrll case FIONWRITE: 1131 1.40.2.5 skrll /* Look at other side */ 1132 1.40.2.5 skrll pipe = pipe->pipe_peer; 1133 1.40.2.5 skrll PIPE_LOCK(pipe); 1134 1.40.2.5 skrll #ifndef PIPE_NODIRECT 1135 1.40.2.5 skrll if (pipe->pipe_state & PIPE_DIRECTW) 1136 1.40.2.5 skrll *(int *)data = pipe->pipe_map.cnt; 1137 1.40.2.5 skrll else 1138 1.40.2.5 skrll #endif 1139 1.40.2.5 skrll *(int *)data = pipe->pipe_buffer.cnt; 1140 1.40.2.5 skrll PIPE_UNLOCK(pipe); 1141 1.40.2.5 skrll return (0); 1142 1.40.2.5 skrll 1143 1.40.2.5 skrll case FIONSPACE: 1144 1.40.2.5 skrll /* Look at other side */ 1145 1.40.2.5 skrll pipe = pipe->pipe_peer; 1146 1.40.2.5 skrll PIPE_LOCK(pipe); 1147 1.40.2.5 skrll #ifndef PIPE_NODIRECT 1148 1.40.2.5 skrll /* 1149 1.40.2.5 skrll * If we're in direct-mode, we don't really have a 1150 1.40.2.5 skrll * send queue, and any other write will block. Thus 1151 1.40.2.5 skrll * zero seems like the best answer. 1152 1.40.2.5 skrll */ 1153 1.40.2.5 skrll if (pipe->pipe_state & PIPE_DIRECTW) 1154 1.40.2.5 skrll *(int *)data = 0; 1155 1.40.2.5 skrll else 1156 1.40.2.5 skrll #endif 1157 1.40.2.5 skrll *(int *)data = pipe->pipe_buffer.size - 1158 1.40.2.5 skrll pipe->pipe_buffer.cnt; 1159 1.40.2.5 skrll PIPE_UNLOCK(pipe); 1160 1.40.2.5 skrll return (0); 1161 1.40.2.5 skrll 1162 1.2 jdolecek case TIOCSPGRP: 1163 1.40.2.2 skrll case FIOSETOWN: 1164 1.40.2.2 skrll return fsetown(p, &pipe->pipe_pgid, cmd, data); 1165 1.2 jdolecek 1166 1.2 jdolecek case TIOCGPGRP: 1167 1.40.2.2 skrll case FIOGETOWN: 1168 1.40.2.2 skrll return fgetown(p, pipe->pipe_pgid, cmd, data); 1169 1.1 jdolecek 1170 1.1 jdolecek } 1171 1.25 atatat return (EPASSTHROUGH); 1172 1.1 jdolecek } 1173 1.1 jdolecek 1174 1.1 jdolecek int 1175 1.40.2.4 skrll pipe_poll(fp, events, l) 1176 1.1 jdolecek struct file *fp; 1177 1.1 jdolecek int events; 1178 1.40.2.4 skrll struct lwp *l; 1179 1.1 jdolecek { 1180 1.1 jdolecek struct pipe *rpipe = (struct pipe *)fp->f_data; 1181 1.1 jdolecek struct pipe *wpipe; 1182 1.35 pk int eof = 0; 1183 1.1 jdolecek int revents = 0; 1184 1.1 jdolecek 1185 1.35 pk retry: 1186 1.35 pk PIPE_LOCK(rpipe); 1187 1.1 jdolecek wpipe = rpipe->pipe_peer; 1188 1.35 pk if (wpipe != NULL && simple_lock_try(&wpipe->pipe_slock) == 0) { 1189 1.35 pk /* Deal with race for peer */ 1190 1.35 pk PIPE_UNLOCK(rpipe); 1191 1.35 pk goto retry; 1192 1.35 pk } 1193 1.35 pk 1194 1.1 jdolecek if (events & (POLLIN | POLLRDNORM)) 1195 1.2 jdolecek if ((rpipe->pipe_buffer.cnt > 0) || 1196 1.2 jdolecek #ifndef PIPE_NODIRECT 1197 1.35 pk (rpipe->pipe_state & PIPE_DIRECTR) || 1198 1.2 jdolecek #endif 1199 1.1 jdolecek (rpipe->pipe_state & PIPE_EOF)) 1200 1.1 jdolecek revents |= events & (POLLIN | POLLRDNORM); 1201 1.1 jdolecek 1202 1.35 pk eof |= (rpipe->pipe_state & PIPE_EOF); 1203 1.35 pk PIPE_UNLOCK(rpipe); 1204 1.35 pk 1205 1.35 pk if (wpipe == NULL) 1206 1.35 pk revents |= events & (POLLOUT | POLLWRNORM); 1207 1.35 pk else { 1208 1.35 pk if (events & (POLLOUT | POLLWRNORM)) 1209 1.35 pk if ((wpipe->pipe_state & PIPE_EOF) || ( 1210 1.2 jdolecek #ifndef PIPE_NODIRECT 1211 1.35 pk (wpipe->pipe_state & PIPE_DIRECTW) == 0 && 1212 1.2 jdolecek #endif 1213 1.35 pk (wpipe->pipe_buffer.size - wpipe->pipe_buffer.cnt) >= PIPE_BUF)) 1214 1.35 pk revents |= events & (POLLOUT | POLLWRNORM); 1215 1.1 jdolecek 1216 1.35 pk eof |= (wpipe->pipe_state & PIPE_EOF); 1217 1.35 pk PIPE_UNLOCK(wpipe); 1218 1.35 pk } 1219 1.35 pk 1220 1.35 pk if (wpipe == NULL || eof) 1221 1.1 jdolecek revents |= POLLHUP; 1222 1.1 jdolecek 1223 1.1 jdolecek if (revents == 0) { 1224 1.35 pk if (events & (POLLIN | POLLRDNORM)) 1225 1.40.2.4 skrll selrecord(l, &rpipe->pipe_sel); 1226 1.1 jdolecek 1227 1.35 pk if (events & (POLLOUT | POLLWRNORM)) 1228 1.40.2.4 skrll selrecord(l, &wpipe->pipe_sel); 1229 1.1 jdolecek } 1230 1.1 jdolecek 1231 1.1 jdolecek return (revents); 1232 1.1 jdolecek } 1233 1.1 jdolecek 1234 1.1 jdolecek static int 1235 1.40.2.4 skrll pipe_stat(fp, ub, l) 1236 1.24 jdolecek struct file *fp; 1237 1.24 jdolecek struct stat *ub; 1238 1.40.2.4 skrll struct lwp *l; 1239 1.1 jdolecek { 1240 1.1 jdolecek struct pipe *pipe = (struct pipe *)fp->f_data; 1241 1.1 jdolecek 1242 1.9 thorpej memset((caddr_t)ub, 0, sizeof(*ub)); 1243 1.32 jdolecek ub->st_mode = S_IFIFO | S_IRUSR | S_IWUSR; 1244 1.1 jdolecek ub->st_blksize = pipe->pipe_buffer.size; 1245 1.40.2.9 skrll if (ub->st_blksize == 0 && pipe->pipe_peer) 1246 1.40.2.9 skrll ub->st_blksize = pipe->pipe_peer->pipe_buffer.size; 1247 1.1 jdolecek ub->st_size = pipe->pipe_buffer.cnt; 1248 1.2 jdolecek ub->st_blocks = (ub->st_size) ? 1 : 0; 1249 1.40.2.6 skrll TIMEVAL_TO_TIMESPEC(&pipe->pipe_atime, &ub->st_atimespec); 1250 1.2 jdolecek TIMEVAL_TO_TIMESPEC(&pipe->pipe_mtime, &ub->st_mtimespec); 1251 1.2 jdolecek TIMEVAL_TO_TIMESPEC(&pipe->pipe_ctime, &ub->st_ctimespec); 1252 1.1 jdolecek ub->st_uid = fp->f_cred->cr_uid; 1253 1.1 jdolecek ub->st_gid = fp->f_cred->cr_gid; 1254 1.1 jdolecek /* 1255 1.1 jdolecek * Left as 0: st_dev, st_ino, st_nlink, st_rdev, st_flags, st_gen. 1256 1.1 jdolecek * XXX (st_dev, st_ino) should be unique. 1257 1.1 jdolecek */ 1258 1.1 jdolecek return (0); 1259 1.1 jdolecek } 1260 1.1 jdolecek 1261 1.1 jdolecek /* ARGSUSED */ 1262 1.1 jdolecek static int 1263 1.40.2.4 skrll pipe_close(fp, l) 1264 1.24 jdolecek struct file *fp; 1265 1.40.2.4 skrll struct lwp *l; 1266 1.1 jdolecek { 1267 1.35 pk struct pipe *pipe = (struct pipe *)fp->f_data; 1268 1.1 jdolecek 1269 1.1 jdolecek fp->f_data = NULL; 1270 1.40.2.2 skrll pipeclose(fp, pipe); 1271 1.1 jdolecek return (0); 1272 1.1 jdolecek } 1273 1.1 jdolecek 1274 1.1 jdolecek static void 1275 1.35 pk pipe_free_kmem(pipe) 1276 1.35 pk struct pipe *pipe; 1277 1.1 jdolecek { 1278 1.1 jdolecek 1279 1.35 pk if (pipe->pipe_buffer.buffer != NULL) { 1280 1.35 pk if (pipe->pipe_buffer.size > PIPE_SIZE) 1281 1.1 jdolecek --nbigpipe; 1282 1.35 pk amountpipekva -= pipe->pipe_buffer.size; 1283 1.2 jdolecek uvm_km_free(kernel_map, 1284 1.35 pk (vaddr_t)pipe->pipe_buffer.buffer, 1285 1.40.2.9 skrll pipe->pipe_buffer.size, UVM_KMF_PAGEABLE); 1286 1.35 pk pipe->pipe_buffer.buffer = NULL; 1287 1.1 jdolecek } 1288 1.1 jdolecek #ifndef PIPE_NODIRECT 1289 1.35 pk if (pipe->pipe_map.kva != 0) { 1290 1.35 pk pipe_loan_free(pipe); 1291 1.35 pk pipe->pipe_map.cnt = 0; 1292 1.35 pk pipe->pipe_map.kva = 0; 1293 1.35 pk pipe->pipe_map.pos = 0; 1294 1.35 pk pipe->pipe_map.npages = 0; 1295 1.1 jdolecek } 1296 1.2 jdolecek #endif /* !PIPE_NODIRECT */ 1297 1.1 jdolecek } 1298 1.1 jdolecek 1299 1.1 jdolecek /* 1300 1.1 jdolecek * shutdown the pipe 1301 1.1 jdolecek */ 1302 1.1 jdolecek static void 1303 1.40.2.2 skrll pipeclose(fp, pipe) 1304 1.40.2.2 skrll struct file *fp; 1305 1.35 pk struct pipe *pipe; 1306 1.1 jdolecek { 1307 1.1 jdolecek struct pipe *ppipe; 1308 1.1 jdolecek 1309 1.35 pk if (pipe == NULL) 1310 1.2 jdolecek return; 1311 1.2 jdolecek 1312 1.35 pk retry: 1313 1.35 pk PIPE_LOCK(pipe); 1314 1.35 pk 1315 1.40.2.10 skrll pipeselwakeup(pipe, pipe, POLL_HUP); 1316 1.1 jdolecek 1317 1.2 jdolecek /* 1318 1.2 jdolecek * If the other side is blocked, wake it up saying that 1319 1.2 jdolecek * we want to close it down. 1320 1.2 jdolecek */ 1321 1.40.2.10 skrll pipe->pipe_state |= PIPE_EOF; 1322 1.35 pk while (pipe->pipe_busy) { 1323 1.35 pk wakeup(pipe); 1324 1.40.2.10 skrll pipe->pipe_state |= PIPE_WANTCLOSE; 1325 1.40.2.2 skrll ltsleep(pipe, PSOCK, "pipecl", 0, &pipe->pipe_slock); 1326 1.2 jdolecek } 1327 1.1 jdolecek 1328 1.2 jdolecek /* 1329 1.2 jdolecek * Disconnect from peer 1330 1.2 jdolecek */ 1331 1.35 pk if ((ppipe = pipe->pipe_peer) != NULL) { 1332 1.35 pk /* Deal with race for peer */ 1333 1.35 pk if (simple_lock_try(&ppipe->pipe_slock) == 0) { 1334 1.35 pk PIPE_UNLOCK(pipe); 1335 1.35 pk goto retry; 1336 1.35 pk } 1337 1.40.2.10 skrll pipeselwakeup(ppipe, ppipe, POLL_HUP); 1338 1.1 jdolecek 1339 1.2 jdolecek ppipe->pipe_state |= PIPE_EOF; 1340 1.2 jdolecek wakeup(ppipe); 1341 1.2 jdolecek ppipe->pipe_peer = NULL; 1342 1.35 pk PIPE_UNLOCK(ppipe); 1343 1.1 jdolecek } 1344 1.35 pk 1345 1.40.2.10 skrll KASSERT((pipe->pipe_state & PIPE_LOCKFL) == 0); 1346 1.40.2.10 skrll 1347 1.40.2.10 skrll PIPE_UNLOCK(pipe); 1348 1.35 pk 1349 1.2 jdolecek /* 1350 1.2 jdolecek * free resources 1351 1.2 jdolecek */ 1352 1.35 pk pipe_free_kmem(pipe); 1353 1.35 pk pool_put(&pipe_pool, pipe); 1354 1.1 jdolecek } 1355 1.1 jdolecek 1356 1.27 jdolecek static void 1357 1.27 jdolecek filt_pipedetach(struct knote *kn) 1358 1.1 jdolecek { 1359 1.35 pk struct pipe *pipe = (struct pipe *)kn->kn_fp->f_data; 1360 1.1 jdolecek 1361 1.27 jdolecek switch(kn->kn_filter) { 1362 1.1 jdolecek case EVFILT_WRITE: 1363 1.27 jdolecek /* need the peer structure, not our own */ 1364 1.35 pk pipe = pipe->pipe_peer; 1365 1.35 pk /* XXXSMP: race for peer */ 1366 1.27 jdolecek 1367 1.27 jdolecek /* if reader end already closed, just return */ 1368 1.35 pk if (pipe == NULL) 1369 1.27 jdolecek return; 1370 1.27 jdolecek 1371 1.1 jdolecek break; 1372 1.1 jdolecek default: 1373 1.27 jdolecek /* nothing to do */ 1374 1.29 kristerw break; 1375 1.1 jdolecek } 1376 1.24 jdolecek 1377 1.27 jdolecek #ifdef DIAGNOSTIC 1378 1.35 pk if (kn->kn_hook != pipe) 1379 1.27 jdolecek panic("filt_pipedetach: inconsistent knote"); 1380 1.27 jdolecek #endif 1381 1.1 jdolecek 1382 1.35 pk PIPE_LOCK(pipe); 1383 1.35 pk SLIST_REMOVE(&pipe->pipe_sel.sel_klist, kn, knote, kn_selnext); 1384 1.35 pk PIPE_UNLOCK(pipe); 1385 1.1 jdolecek } 1386 1.1 jdolecek 1387 1.1 jdolecek /*ARGSUSED*/ 1388 1.1 jdolecek static int 1389 1.1 jdolecek filt_piperead(struct knote *kn, long hint) 1390 1.1 jdolecek { 1391 1.1 jdolecek struct pipe *rpipe = (struct pipe *)kn->kn_fp->f_data; 1392 1.1 jdolecek struct pipe *wpipe = rpipe->pipe_peer; 1393 1.1 jdolecek 1394 1.40.2.2 skrll if ((hint & NOTE_SUBMIT) == 0) 1395 1.40.2.2 skrll PIPE_LOCK(rpipe); 1396 1.1 jdolecek kn->kn_data = rpipe->pipe_buffer.cnt; 1397 1.1 jdolecek if ((kn->kn_data == 0) && (rpipe->pipe_state & PIPE_DIRECTW)) 1398 1.1 jdolecek kn->kn_data = rpipe->pipe_map.cnt; 1399 1.1 jdolecek 1400 1.35 pk /* XXXSMP: race for peer */ 1401 1.1 jdolecek if ((rpipe->pipe_state & PIPE_EOF) || 1402 1.1 jdolecek (wpipe == NULL) || (wpipe->pipe_state & PIPE_EOF)) { 1403 1.24 jdolecek kn->kn_flags |= EV_EOF; 1404 1.40.2.2 skrll if ((hint & NOTE_SUBMIT) == 0) 1405 1.40.2.2 skrll PIPE_UNLOCK(rpipe); 1406 1.1 jdolecek return (1); 1407 1.1 jdolecek } 1408 1.40.2.2 skrll if ((hint & NOTE_SUBMIT) == 0) 1409 1.40.2.2 skrll PIPE_UNLOCK(rpipe); 1410 1.1 jdolecek return (kn->kn_data > 0); 1411 1.1 jdolecek } 1412 1.1 jdolecek 1413 1.1 jdolecek /*ARGSUSED*/ 1414 1.1 jdolecek static int 1415 1.1 jdolecek filt_pipewrite(struct knote *kn, long hint) 1416 1.1 jdolecek { 1417 1.1 jdolecek struct pipe *rpipe = (struct pipe *)kn->kn_fp->f_data; 1418 1.1 jdolecek struct pipe *wpipe = rpipe->pipe_peer; 1419 1.1 jdolecek 1420 1.40.2.2 skrll if ((hint & NOTE_SUBMIT) == 0) 1421 1.40.2.2 skrll PIPE_LOCK(rpipe); 1422 1.35 pk /* XXXSMP: race for peer */ 1423 1.1 jdolecek if ((wpipe == NULL) || (wpipe->pipe_state & PIPE_EOF)) { 1424 1.1 jdolecek kn->kn_data = 0; 1425 1.40.2.8 skrll kn->kn_flags |= EV_EOF; 1426 1.40.2.2 skrll if ((hint & NOTE_SUBMIT) == 0) 1427 1.40.2.2 skrll PIPE_UNLOCK(rpipe); 1428 1.1 jdolecek return (1); 1429 1.1 jdolecek } 1430 1.1 jdolecek kn->kn_data = wpipe->pipe_buffer.size - wpipe->pipe_buffer.cnt; 1431 1.1 jdolecek if (wpipe->pipe_state & PIPE_DIRECTW) 1432 1.1 jdolecek kn->kn_data = 0; 1433 1.1 jdolecek 1434 1.40.2.2 skrll if ((hint & NOTE_SUBMIT) == 0) 1435 1.40.2.2 skrll PIPE_UNLOCK(rpipe); 1436 1.1 jdolecek return (kn->kn_data >= PIPE_BUF); 1437 1.1 jdolecek } 1438 1.27 jdolecek 1439 1.27 jdolecek static const struct filterops pipe_rfiltops = 1440 1.27 jdolecek { 1, NULL, filt_pipedetach, filt_piperead }; 1441 1.27 jdolecek static const struct filterops pipe_wfiltops = 1442 1.27 jdolecek { 1, NULL, filt_pipedetach, filt_pipewrite }; 1443 1.27 jdolecek 1444 1.27 jdolecek /*ARGSUSED*/ 1445 1.27 jdolecek static int 1446 1.27 jdolecek pipe_kqfilter(struct file *fp, struct knote *kn) 1447 1.27 jdolecek { 1448 1.35 pk struct pipe *pipe; 1449 1.27 jdolecek 1450 1.35 pk pipe = (struct pipe *)kn->kn_fp->f_data; 1451 1.27 jdolecek switch (kn->kn_filter) { 1452 1.27 jdolecek case EVFILT_READ: 1453 1.27 jdolecek kn->kn_fop = &pipe_rfiltops; 1454 1.27 jdolecek break; 1455 1.27 jdolecek case EVFILT_WRITE: 1456 1.27 jdolecek kn->kn_fop = &pipe_wfiltops; 1457 1.35 pk /* XXXSMP: race for peer */ 1458 1.35 pk pipe = pipe->pipe_peer; 1459 1.35 pk if (pipe == NULL) { 1460 1.27 jdolecek /* other end of pipe has been closed */ 1461 1.27 jdolecek return (EBADF); 1462 1.27 jdolecek } 1463 1.27 jdolecek break; 1464 1.27 jdolecek default: 1465 1.27 jdolecek return (1); 1466 1.27 jdolecek } 1467 1.35 pk kn->kn_hook = pipe; 1468 1.27 jdolecek 1469 1.35 pk PIPE_LOCK(pipe); 1470 1.35 pk SLIST_INSERT_HEAD(&pipe->pipe_sel.sel_klist, kn, kn_selnext); 1471 1.35 pk PIPE_UNLOCK(pipe); 1472 1.27 jdolecek return (0); 1473 1.27 jdolecek } 1474 1.2 jdolecek 1475 1.2 jdolecek /* 1476 1.2 jdolecek * Handle pipe sysctls. 1477 1.2 jdolecek */ 1478 1.40.2.2 skrll SYSCTL_SETUP(sysctl_kern_pipe_setup, "sysctl kern.pipe subtree setup") 1479 1.2 jdolecek { 1480 1.40.2.2 skrll 1481 1.40.2.2 skrll sysctl_createv(clog, 0, NULL, NULL, 1482 1.40.2.2 skrll CTLFLAG_PERMANENT, 1483 1.40.2.2 skrll CTLTYPE_NODE, "kern", NULL, 1484 1.40.2.2 skrll NULL, 0, NULL, 0, 1485 1.40.2.2 skrll CTL_KERN, CTL_EOL); 1486 1.40.2.2 skrll sysctl_createv(clog, 0, NULL, NULL, 1487 1.40.2.2 skrll CTLFLAG_PERMANENT, 1488 1.40.2.2 skrll CTLTYPE_NODE, "pipe", 1489 1.40.2.2 skrll SYSCTL_DESCR("Pipe settings"), 1490 1.40.2.2 skrll NULL, 0, NULL, 0, 1491 1.40.2.2 skrll CTL_KERN, KERN_PIPE, CTL_EOL); 1492 1.40.2.2 skrll 1493 1.40.2.2 skrll sysctl_createv(clog, 0, NULL, NULL, 1494 1.40.2.2 skrll CTLFLAG_PERMANENT|CTLFLAG_READWRITE, 1495 1.40.2.2 skrll CTLTYPE_INT, "maxkvasz", 1496 1.40.2.2 skrll SYSCTL_DESCR("Maximum amount of kernel memory to be " 1497 1.40.2.2 skrll "used for pipes"), 1498 1.40.2.2 skrll NULL, 0, &maxpipekva, 0, 1499 1.40.2.2 skrll CTL_KERN, KERN_PIPE, KERN_PIPE_MAXKVASZ, CTL_EOL); 1500 1.40.2.2 skrll sysctl_createv(clog, 0, NULL, NULL, 1501 1.40.2.2 skrll CTLFLAG_PERMANENT|CTLFLAG_READWRITE, 1502 1.40.2.2 skrll CTLTYPE_INT, "maxloankvasz", 1503 1.40.2.2 skrll SYSCTL_DESCR("Limit for direct transfers via page loan"), 1504 1.40.2.2 skrll NULL, 0, &limitpipekva, 0, 1505 1.40.2.2 skrll CTL_KERN, KERN_PIPE, KERN_PIPE_LIMITKVA, CTL_EOL); 1506 1.40.2.2 skrll sysctl_createv(clog, 0, NULL, NULL, 1507 1.40.2.2 skrll CTLFLAG_PERMANENT|CTLFLAG_READWRITE, 1508 1.40.2.2 skrll CTLTYPE_INT, "maxbigpipes", 1509 1.40.2.2 skrll SYSCTL_DESCR("Maximum number of \"big\" pipes"), 1510 1.40.2.2 skrll NULL, 0, &maxbigpipes, 0, 1511 1.40.2.2 skrll CTL_KERN, KERN_PIPE, KERN_PIPE_MAXBIGPIPES, CTL_EOL); 1512 1.40.2.2 skrll sysctl_createv(clog, 0, NULL, NULL, 1513 1.40.2.2 skrll CTLFLAG_PERMANENT, 1514 1.40.2.2 skrll CTLTYPE_INT, "nbigpipes", 1515 1.40.2.2 skrll SYSCTL_DESCR("Number of \"big\" pipes"), 1516 1.40.2.2 skrll NULL, 0, &nbigpipe, 0, 1517 1.40.2.2 skrll CTL_KERN, KERN_PIPE, KERN_PIPE_NBIGPIPES, CTL_EOL); 1518 1.40.2.2 skrll sysctl_createv(clog, 0, NULL, NULL, 1519 1.40.2.2 skrll CTLFLAG_PERMANENT, 1520 1.40.2.2 skrll CTLTYPE_INT, "kvasize", 1521 1.40.2.2 skrll SYSCTL_DESCR("Amount of kernel memory consumed by pipe " 1522 1.40.2.2 skrll "buffers"), 1523 1.40.2.2 skrll NULL, 0, &amountpipekva, 0, 1524 1.40.2.2 skrll CTL_KERN, KERN_PIPE, KERN_PIPE_KVASIZE, CTL_EOL); 1525 1.2 jdolecek } 1526
Indexes created Tue Sep 30 10:09:55 GMT 2025