xen-vtx-unstable

annotate tools/xenstore/xs.c @ 6774:4d899a738d59

merge?
author cl349@firebug.cl.cam.ac.uk
date Tue Sep 13 15:05:49 2005 +0000 (2005-09-13)
parents d8637529daff d4d69c509371
children e7c7196fa329 8ca0f98ba8e2
rev   line source
cl349@5357 1 /*
cl349@5357 2 Xen Store Daemon interface providing simple tree-like database.
cl349@5357 3 Copyright (C) 2005 Rusty Russell IBM Corporation
cl349@5357 4
kaf24@6008 5 This library is free software; you can redistribute it and/or
kaf24@6008 6 modify it under the terms of the GNU Lesser General Public
kaf24@6008 7 License as published by the Free Software Foundation; either
kaf24@6008 8 version 2.1 of the License, or (at your option) any later version.
cl349@5357 9
kaf24@6008 10 This library is distributed in the hope that it will be useful,
cl349@5357 11 but WITHOUT ANY WARRANTY; without even the implied warranty of
kaf24@6008 12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
kaf24@6008 13 Lesser General Public License for more details.
cl349@5357 14
kaf24@6008 15 You should have received a copy of the GNU Lesser General Public
kaf24@6008 16 License along with this library; if not, write to the Free Software
kaf24@6008 17 Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
cl349@5357 18 */
cl349@5357 19
cl349@5357 20 #include <sys/types.h>
cl349@5357 21 #include <sys/stat.h>
cl349@5357 22 #include <fcntl.h>
cl349@5357 23 #include <sys/socket.h>
cl349@5357 24 #include <sys/un.h>
cl349@5357 25 #include <string.h>
cl349@5357 26 #include <unistd.h>
cl349@5357 27 #include <stdbool.h>
cl349@5357 28 #include <stdlib.h>
cl349@5357 29 #include <assert.h>
cl349@5357 30 #include <stdio.h>
cl349@5357 31 #include <signal.h>
cl349@5357 32 #include <stdint.h>
cl349@5357 33 #include <errno.h>
cl349@6601 34 #include <sys/ioctl.h>
cl349@5357 35 #include "xs.h"
cl349@5357 36 #include "xenstored.h"
cl349@5357 37 #include "xs_lib.h"
cl349@5357 38 #include "utils.h"
cl349@5357 39
cl349@5357 40 struct xs_handle
cl349@5357 41 {
cl349@5357 42 int fd;
cl349@5357 43 };
cl349@5357 44
cl349@5357 45 /* Get the socket from the store daemon handle.
cl349@5357 46 */
cl349@5357 47 int xs_fileno(struct xs_handle *h)
cl349@5357 48 {
cl349@5357 49 return h->fd;
cl349@5357 50 }
cl349@5357 51
cl349@5357 52 static struct xs_handle *get_socket(const char *connect_to)
cl349@5357 53 {
cl349@5357 54 struct sockaddr_un addr;
cl349@5357 55 int sock, saved_errno;
cl349@5357 56 struct xs_handle *h = NULL;
cl349@5357 57
cl349@5357 58 sock = socket(PF_UNIX, SOCK_STREAM, 0);
cl349@5357 59 if (sock < 0)
cl349@5357 60 return NULL;
cl349@5357 61
cl349@5357 62 addr.sun_family = AF_UNIX;
cl349@5357 63 strcpy(addr.sun_path, connect_to);
cl349@5357 64
cl349@5357 65 if (connect(sock, (struct sockaddr *)&addr, sizeof(addr)) == 0) {
cl349@5357 66 h = malloc(sizeof(*h));
cl349@5357 67 if (h) {
cl349@5357 68 h->fd = sock;
cl349@5357 69 return h;
cl349@5357 70 }
cl349@5357 71 }
cl349@5357 72
cl349@5357 73 saved_errno = errno;
cl349@5357 74 close(sock);
cl349@6601 75 errno = saved_errno;
cl349@6601 76 return NULL;
cl349@6601 77 }
cl349@6601 78
cl349@6601 79 static struct xs_handle *get_dev(const char *connect_to)
cl349@6601 80 {
cl349@6601 81 int fd, saved_errno;
cl349@6749 82 struct xs_handle *h;
cl349@6601 83
cl349@6749 84 fd = open(connect_to, O_RDWR);
cl349@6601 85 if (fd < 0)
cl349@6601 86 return NULL;
cl349@6601 87
cl349@6601 88 h = malloc(sizeof(*h));
cl349@6601 89 if (h) {
cl349@6601 90 h->fd = fd;
cl349@6601 91 return h;
cl349@6601 92 }
cl349@6601 93
cl349@6601 94 saved_errno = errno;
cl349@6601 95 close(fd);
cl349@5357 96 errno = saved_errno;
cl349@5357 97 return NULL;
cl349@5357 98 }
cl349@5357 99
cl349@6750 100 static struct xs_handle *get_handle(const char *connect_to)
cl349@6750 101 {
cl349@6750 102 struct stat buf;
cl349@6750 103
cl349@6750 104 if (stat(connect_to, &buf) != 0)
cl349@6750 105 return NULL;
cl349@6750 106
cl349@6750 107 if (S_ISSOCK(buf.st_mode))
cl349@6750 108 return get_socket(connect_to);
cl349@6750 109 else
cl349@6750 110 return get_dev(connect_to);
cl349@6750 111 }
cl349@6750 112
cl349@5357 113 struct xs_handle *xs_daemon_open(void)
cl349@5357 114 {
cl349@6750 115 return get_handle(xs_daemon_socket());
cl349@5357 116 }
cl349@5357 117
cl349@5357 118 struct xs_handle *xs_daemon_open_readonly(void)
cl349@5357 119 {
cl349@6750 120 return get_handle(xs_daemon_socket_ro());
cl349@5357 121 }
cl349@5357 122
cl349@6601 123 struct xs_handle *xs_domain_open(void)
cl349@6601 124 {
cl349@6750 125 return get_handle(xs_domain_dev());
cl349@6601 126 }
cl349@6601 127
cl349@5357 128 void xs_daemon_close(struct xs_handle *h)
cl349@5357 129 {
cl349@5357 130 if (h->fd >= 0)
cl349@5357 131 close(h->fd);
cl349@5357 132 free(h);
cl349@5357 133 }
cl349@5357 134
cl349@5357 135 static bool read_all(int fd, void *data, unsigned int len)
cl349@5357 136 {
cl349@5357 137 while (len) {
cl349@5357 138 int done;
cl349@5357 139
cl349@5357 140 done = read(fd, data, len);
cl349@5357 141 if (done < 0) {
cl349@5357 142 if (errno == EINTR)
cl349@5357 143 continue;
cl349@5357 144 return false;
cl349@5357 145 }
cl349@5357 146 if (done == 0) {
cl349@5357 147 /* It closed fd on us? EBADF is appropriate. */
cl349@5357 148 errno = EBADF;
cl349@5357 149 return false;
cl349@5357 150 }
cl349@5357 151 data += done;
cl349@5357 152 len -= done;
cl349@5357 153 }
cl349@5357 154
cl349@5357 155 return true;
cl349@5357 156 }
cl349@5357 157
cl349@5357 158 #ifdef XSTEST
cl349@5357 159 #define read_all read_all_choice
kaf24@5423 160 #define xs_write_all write_all_choice
cl349@5357 161 #endif
cl349@5357 162
cl349@5357 163 static int get_error(const char *errorstring)
cl349@5357 164 {
cl349@5357 165 unsigned int i;
cl349@5357 166
cl349@5357 167 for (i = 0; !streq(errorstring, xsd_errors[i].errstring); i++)
cl349@5357 168 if (i == ARRAY_SIZE(xsd_errors) - 1)
cl349@5357 169 return EINVAL;
cl349@5357 170 return xsd_errors[i].errnum;
cl349@5357 171 }
cl349@5357 172
cl349@5522 173 /* Adds extra nul terminator, because we generally (always?) hold strings. */
cl349@5357 174 static void *read_reply(int fd, enum xsd_sockmsg_type *type, unsigned int *len)
cl349@5357 175 {
cl349@5357 176 struct xsd_sockmsg msg;
cl349@5357 177 void *ret;
cl349@5357 178 int saved_errno;
cl349@5357 179
cl349@5357 180 if (!read_all(fd, &msg, sizeof(msg)))
cl349@5357 181 return NULL;
cl349@5357 182
cl349@5522 183 ret = malloc(msg.len + 1);
cl349@5357 184 if (!ret)
cl349@5357 185 return NULL;
cl349@5357 186
cl349@5357 187 if (!read_all(fd, ret, msg.len)) {
cl349@5357 188 saved_errno = errno;
cl349@5357 189 free(ret);
cl349@5357 190 errno = saved_errno;
cl349@5357 191 return NULL;
cl349@5357 192 }
cl349@5357 193
cl349@5357 194 *type = msg.type;
cl349@5357 195 if (len)
cl349@5357 196 *len = msg.len;
cl349@5522 197 ((char *)ret)[msg.len] = '\0';
cl349@5357 198 return ret;
cl349@5357 199 }
cl349@5357 200
cl349@5357 201 /* Send message to xs, get malloc'ed reply. NULL and set errno on error. */
cl349@6749 202 static void *xs_talkv(struct xs_handle *h, enum xsd_sockmsg_type type,
cl349@6749 203 const struct iovec *iovec, unsigned int num_vecs,
cl349@6749 204 unsigned int *len)
cl349@5357 205 {
cl349@5357 206 struct xsd_sockmsg msg;
cl349@5357 207 void *ret = NULL;
cl349@5357 208 int saved_errno;
cl349@5357 209 unsigned int i;
cl349@5357 210 struct sigaction ignorepipe, oldact;
cl349@5357 211
cl349@5357 212 msg.type = type;
cl349@5357 213 msg.len = 0;
cl349@5357 214 for (i = 0; i < num_vecs; i++)
cl349@5357 215 msg.len += iovec[i].iov_len;
cl349@5357 216
cl349@5357 217 ignorepipe.sa_handler = SIG_IGN;
cl349@5357 218 sigemptyset(&ignorepipe.sa_mask);
cl349@5357 219 ignorepipe.sa_flags = 0;
cl349@5357 220 sigaction(SIGPIPE, &ignorepipe, &oldact);
cl349@5357 221
kaf24@5423 222 if (!xs_write_all(h->fd, &msg, sizeof(msg)))
cl349@5357 223 goto fail;
cl349@5357 224
cl349@5357 225 for (i = 0; i < num_vecs; i++)
kaf24@5423 226 if (!xs_write_all(h->fd, iovec[i].iov_base, iovec[i].iov_len))
cl349@5357 227 goto fail;
cl349@5357 228
cl349@5357 229 /* Watches can have fired before reply comes: daemon detects
cl349@5357 230 * and re-transmits, so we can ignore this. */
cl349@5357 231 do {
cl349@5357 232 free(ret);
cl349@5357 233 ret = read_reply(h->fd, &msg.type, len);
cl349@5357 234 if (!ret)
cl349@5357 235 goto fail;
cl349@5357 236 } while (msg.type == XS_WATCH_EVENT);
cl349@5357 237
cl349@5357 238 sigaction(SIGPIPE, &oldact, NULL);
cl349@5357 239 if (msg.type == XS_ERROR) {
cl349@5357 240 saved_errno = get_error(ret);
cl349@5357 241 free(ret);
cl349@5357 242 errno = saved_errno;
cl349@5357 243 return NULL;
cl349@5357 244 }
cl349@5357 245
kaf24@6043 246 if (msg.type != type) {
kaf24@6043 247 free(ret);
kaf24@6043 248 saved_errno = EBADF;
kaf24@6043 249 goto close_fd;
kaf24@6043 250
kaf24@6043 251 }
cl349@5357 252 return ret;
cl349@5357 253
cl349@5357 254 fail:
cl349@5357 255 /* We're in a bad state, so close fd. */
cl349@5357 256 saved_errno = errno;
cl349@5357 257 sigaction(SIGPIPE, &oldact, NULL);
kaf24@6043 258 close_fd:
cl349@5357 259 close(h->fd);
cl349@5357 260 h->fd = -1;
cl349@5357 261 errno = saved_errno;
cl349@5357 262 return NULL;
cl349@5357 263 }
cl349@5357 264
cl349@5357 265 /* free(), but don't change errno. */
cl349@5357 266 static void free_no_errno(void *p)
cl349@5357 267 {
cl349@5357 268 int saved_errno = errno;
cl349@5357 269 free(p);
cl349@5357 270 errno = saved_errno;
cl349@5357 271 }
cl349@5357 272
cl349@5357 273 /* Simplified version of xs_talkv: single message. */
cl349@5357 274 static void *xs_single(struct xs_handle *h, enum xsd_sockmsg_type type,
cl349@5357 275 const char *string, unsigned int *len)
cl349@5357 276 {
cl349@5357 277 struct iovec iovec;
cl349@5357 278
cl349@5357 279 iovec.iov_base = (void *)string;
cl349@5357 280 iovec.iov_len = strlen(string) + 1;
cl349@5357 281 return xs_talkv(h, type, &iovec, 1, len);
cl349@5357 282 }
cl349@5357 283
cl349@5357 284 static bool xs_bool(char *reply)
cl349@5357 285 {
cl349@5357 286 if (!reply)
cl349@5357 287 return false;
cl349@5357 288 free(reply);
cl349@5357 289 return true;
cl349@5357 290 }
cl349@5357 291
cl349@5357 292 char **xs_directory(struct xs_handle *h, const char *path, unsigned int *num)
cl349@5357 293 {
cl349@5357 294 char *strings, *p, **ret;
cl349@5357 295 unsigned int len;
cl349@5357 296
cl349@5357 297 strings = xs_single(h, XS_DIRECTORY, path, &len);
cl349@5357 298 if (!strings)
cl349@5357 299 return NULL;
cl349@5357 300
cl349@5357 301 /* Count the strings. */
kaf24@5423 302 *num = xs_count_strings(strings, len);
cl349@5357 303
cl349@5357 304 /* Transfer to one big alloc for easy freeing. */
cl349@5357 305 ret = malloc(*num * sizeof(char *) + len);
cl349@5357 306 if (!ret) {
cl349@5357 307 free_no_errno(strings);
cl349@5357 308 return NULL;
cl349@5357 309 }
cl349@5357 310 memcpy(&ret[*num], strings, len);
cl349@5357 311 free_no_errno(strings);
cl349@5357 312
cl349@5357 313 strings = (char *)&ret[*num];
cl349@5357 314 for (p = strings, *num = 0; p < strings + len; p += strlen(p) + 1)
cl349@5357 315 ret[(*num)++] = p;
cl349@5357 316 return ret;
cl349@5357 317 }
cl349@5357 318
cl349@5522 319 /* Get the value of a single file, nul terminated.
cl349@5357 320 * Returns a malloced value: call free() on it after use.
cl349@5522 321 * len indicates length in bytes, not including the nul.
cl349@5357 322 */
cl349@5357 323 void *xs_read(struct xs_handle *h, const char *path, unsigned int *len)
cl349@5357 324 {
cl349@5357 325 return xs_single(h, XS_READ, path, len);
cl349@5357 326 }
cl349@5357 327
cl349@5357 328 /* Write the value of a single file.
cl349@5357 329 * Returns false on failure. createflags can be 0, O_CREAT, or O_CREAT|O_EXCL.
cl349@5357 330 */
cl349@5357 331 bool xs_write(struct xs_handle *h, const char *path,
cl349@5357 332 const void *data, unsigned int len, int createflags)
cl349@5357 333 {
cl349@5357 334 const char *flags;
cl349@5357 335 struct iovec iovec[3];
cl349@5357 336
cl349@5357 337 /* Format: Flags (as string), path, data. */
cl349@5357 338 if (createflags == 0)
cl349@5357 339 flags = XS_WRITE_NONE;
cl349@5357 340 else if (createflags == O_CREAT)
cl349@5357 341 flags = XS_WRITE_CREATE;
cl349@5357 342 else if (createflags == (O_CREAT|O_EXCL))
cl349@5357 343 flags = XS_WRITE_CREATE_EXCL;
cl349@5357 344 else {
cl349@5357 345 errno = EINVAL;
cl349@5357 346 return false;
cl349@5357 347 }
cl349@5357 348
cl349@5357 349 iovec[0].iov_base = (void *)path;
cl349@5357 350 iovec[0].iov_len = strlen(path) + 1;
cl349@5357 351 iovec[1].iov_base = (void *)flags;
cl349@5357 352 iovec[1].iov_len = strlen(flags) + 1;
cl349@5357 353 iovec[2].iov_base = (void *)data;
cl349@5357 354 iovec[2].iov_len = len;
cl349@5357 355
cl349@5357 356 return xs_bool(xs_talkv(h, XS_WRITE, iovec, ARRAY_SIZE(iovec), NULL));
cl349@5357 357 }
cl349@5357 358
cl349@5357 359 /* Create a new directory.
cl349@5357 360 * Returns false on failure.
cl349@5357 361 */
cl349@5357 362 bool xs_mkdir(struct xs_handle *h, const char *path)
cl349@5357 363 {
cl349@5357 364 return xs_bool(xs_single(h, XS_MKDIR, path, NULL));
cl349@5357 365 }
cl349@5357 366
cl349@5357 367 /* Destroy a file or directory (directories must be empty).
cl349@5357 368 * Returns false on failure.
cl349@5357 369 */
cl349@5357 370 bool xs_rm(struct xs_handle *h, const char *path)
cl349@5357 371 {
cl349@5357 372 return xs_bool(xs_single(h, XS_RM, path, NULL));
cl349@5357 373 }
cl349@5357 374
cl349@5357 375 /* Get permissions of node (first element is owner).
cl349@5357 376 * Returns malloced array, or NULL: call free() after use.
cl349@5357 377 */
cl349@5357 378 struct xs_permissions *xs_get_permissions(struct xs_handle *h,
cl349@5478 379 const char *path, unsigned int *num)
cl349@5357 380 {
cl349@5357 381 char *strings;
cl349@5357 382 unsigned int len;
cl349@5357 383 struct xs_permissions *ret;
cl349@5357 384
cl349@5357 385 strings = xs_single(h, XS_GET_PERMS, path, &len);
cl349@5357 386 if (!strings)
cl349@5357 387 return NULL;
cl349@5357 388
cl349@5357 389 /* Count the strings: each one perms then domid. */
kaf24@5423 390 *num = xs_count_strings(strings, len);
cl349@5357 391
cl349@5357 392 /* Transfer to one big alloc for easy freeing. */
cl349@5357 393 ret = malloc(*num * sizeof(struct xs_permissions));
cl349@5357 394 if (!ret) {
cl349@5357 395 free_no_errno(strings);
cl349@5357 396 return NULL;
cl349@5357 397 }
cl349@5357 398
kaf24@5423 399 if (!xs_strings_to_perms(ret, *num, strings)) {
cl349@5357 400 free_no_errno(ret);
cl349@5357 401 ret = NULL;
cl349@5357 402 }
cl349@5357 403
cl349@5357 404 free(strings);
cl349@5357 405 return ret;
cl349@5357 406 }
cl349@5357 407
cl349@5357 408 /* Set permissions of node (must be owner).
cl349@5357 409 * Returns false on failure.
cl349@5357 410 */
cl349@5357 411 bool xs_set_permissions(struct xs_handle *h, const char *path,
cl349@5357 412 struct xs_permissions *perms,
cl349@5357 413 unsigned int num_perms)
cl349@5357 414 {
cl349@5357 415 unsigned int i;
cl349@5357 416 struct iovec iov[1+num_perms];
cl349@5357 417
cl349@5357 418 iov[0].iov_base = (void *)path;
cl349@5357 419 iov[0].iov_len = strlen(path) + 1;
cl349@5357 420
cl349@5357 421 for (i = 0; i < num_perms; i++) {
cl349@5357 422 char buffer[MAX_STRLEN(domid_t)+1];
cl349@5357 423
kaf24@5423 424 if (!xs_perm_to_string(&perms[i], buffer))
cl349@5357 425 goto unwind;
cl349@5357 426
cl349@5357 427 iov[i+1].iov_base = strdup(buffer);
cl349@5357 428 iov[i+1].iov_len = strlen(buffer) + 1;
cl349@5357 429 if (!iov[i+1].iov_base)
cl349@5357 430 goto unwind;
cl349@5357 431 }
cl349@5357 432
cl349@5357 433 if (!xs_bool(xs_talkv(h, XS_SET_PERMS, iov, 1+num_perms, NULL)))
cl349@5357 434 goto unwind;
cl349@5357 435 for (i = 0; i < num_perms; i++)
cl349@5357 436 free(iov[i+1].iov_base);
cl349@5357 437 return true;
cl349@5357 438
cl349@5357 439 unwind:
cl349@5357 440 num_perms = i;
cl349@5357 441 for (i = 0; i < num_perms; i++)
cl349@5357 442 free_no_errno(iov[i+1].iov_base);
cl349@5357 443 return false;
cl349@5357 444 }
cl349@5357 445
cl349@5357 446 /* Watch a node for changes (poll on fd to detect, or call read_watch()).
cl349@5357 447 * When the node (or any child) changes, fd will become readable.
cl349@5478 448 * Token is returned when watch is read, to allow matching.
cl349@5357 449 * Returns false on failure.
cl349@5357 450 */
cl349@5856 451 bool xs_watch(struct xs_handle *h, const char *path, const char *token)
cl349@5357 452 {
cl349@5856 453 struct iovec iov[2];
cl349@5357 454
cl349@5357 455 iov[0].iov_base = (void *)path;
cl349@5357 456 iov[0].iov_len = strlen(path) + 1;
cl349@5478 457 iov[1].iov_base = (void *)token;
cl349@5478 458 iov[1].iov_len = strlen(token) + 1;
cl349@5357 459
cl349@5357 460 return xs_bool(xs_talkv(h, XS_WATCH, iov, ARRAY_SIZE(iov), NULL));
cl349@5357 461 }
cl349@5357 462
cl349@5357 463 /* Find out what node change was on (will block if nothing pending).
cl349@5478 464 * Returns array of two pointers: path and token, or NULL.
cl349@5478 465 * Call free() after use.
cl349@5357 466 */
cl349@5478 467 char **xs_read_watch(struct xs_handle *h)
cl349@5357 468 {
cl349@5357 469 struct xsd_sockmsg msg;
cl349@5478 470 char **ret;
cl349@5357 471
cl349@5357 472 if (!read_all(h->fd, &msg, sizeof(msg)))
cl349@5357 473 return NULL;
cl349@5357 474
cl349@5357 475 assert(msg.type == XS_WATCH_EVENT);
cl349@5478 476 ret = malloc(sizeof(char *)*2 + msg.len);
cl349@5478 477 if (!ret)
cl349@5357 478 return NULL;
cl349@5357 479
cl349@5478 480 ret[0] = (char *)(ret + 2);
cl349@5478 481 if (!read_all(h->fd, ret[0], msg.len)) {
cl349@5478 482 free_no_errno(ret);
cl349@5357 483 return NULL;
cl349@5357 484 }
cl349@5478 485 ret[1] = ret[0] + strlen(ret[0]) + 1;
cl349@5478 486 return ret;
cl349@5357 487 }
cl349@5357 488
cl349@5357 489 /* Acknowledge watch on node. Watches must be acknowledged before
cl349@5357 490 * any other watches can be read.
cl349@5357 491 * Returns false on failure.
cl349@5357 492 */
cl349@5478 493 bool xs_acknowledge_watch(struct xs_handle *h, const char *token)
cl349@5357 494 {
cl349@5478 495 return xs_bool(xs_single(h, XS_WATCH_ACK, token, NULL));
cl349@5357 496 }
cl349@5357 497
cl349@5357 498 /* Remove a watch on a node.
cl349@5357 499 * Returns false on failure (no watch on that node).
cl349@5357 500 */
cl349@5478 501 bool xs_unwatch(struct xs_handle *h, const char *path, const char *token)
cl349@5357 502 {
cl349@5478 503 struct iovec iov[2];
cl349@5478 504
cl349@5478 505 iov[0].iov_base = (char *)path;
cl349@5478 506 iov[0].iov_len = strlen(path) + 1;
cl349@5478 507 iov[1].iov_base = (char *)token;
cl349@5478 508 iov[1].iov_len = strlen(token) + 1;
cl349@5478 509
cl349@5478 510 return xs_bool(xs_talkv(h, XS_UNWATCH, iov, ARRAY_SIZE(iov), NULL));
cl349@5357 511 }
cl349@5357 512
cl349@5357 513 /* Start a transaction: changes by others will not be seen during this
cl349@5357 514 * transaction, and changes will not be visible to others until end.
cl349@5357 515 * Transaction only applies to the given subtree.
cl349@5357 516 * You can only have one transaction at any time.
cl349@5357 517 * Returns false on failure.
cl349@5357 518 */
cl349@5357 519 bool xs_transaction_start(struct xs_handle *h, const char *subtree)
cl349@5357 520 {
cl349@5357 521 return xs_bool(xs_single(h, XS_TRANSACTION_START, subtree, NULL));
cl349@5357 522 }
cl349@5357 523
cl349@5357 524 /* End a transaction.
cl349@5357 525 * If abandon is true, transaction is discarded instead of committed.
cl349@5357 526 * Returns false on failure, which indicates an error: transactions will
cl349@5357 527 * not fail spuriously.
cl349@5357 528 */
cl349@5357 529 bool xs_transaction_end(struct xs_handle *h, bool abort)
cl349@5357 530 {
cl349@5357 531 char abortstr[2];
cl349@5357 532
cl349@5357 533 if (abort)
cl349@5357 534 strcpy(abortstr, "F");
cl349@5357 535 else
cl349@5357 536 strcpy(abortstr, "T");
cl349@5357 537 return xs_bool(xs_single(h, XS_TRANSACTION_END, abortstr, NULL));
cl349@5357 538 }
cl349@5357 539
cl349@5357 540 /* Introduce a new domain.
cl349@5357 541 * This tells the store daemon about a shared memory page and event channel
cl349@5357 542 * associated with a domain: the domain uses these to communicate.
cl349@5357 543 */
cl349@5478 544 bool xs_introduce_domain(struct xs_handle *h, domid_t domid, unsigned long mfn,
cl349@5478 545 unsigned int eventchn, const char *path)
cl349@5357 546 {
cl349@5357 547 char domid_str[MAX_STRLEN(domid)];
cl349@5357 548 char mfn_str[MAX_STRLEN(mfn)];
cl349@5357 549 char eventchn_str[MAX_STRLEN(eventchn)];
cl349@5357 550 struct iovec iov[4];
cl349@5357 551
cl349@5357 552 sprintf(domid_str, "%u", domid);
cl349@5357 553 sprintf(mfn_str, "%lu", mfn);
cl349@5357 554 sprintf(eventchn_str, "%u", eventchn);
cl349@5357 555
cl349@5357 556 iov[0].iov_base = domid_str;
cl349@5357 557 iov[0].iov_len = strlen(domid_str) + 1;
cl349@5357 558 iov[1].iov_base = mfn_str;
cl349@5357 559 iov[1].iov_len = strlen(mfn_str) + 1;
cl349@5357 560 iov[2].iov_base = eventchn_str;
cl349@5357 561 iov[2].iov_len = strlen(eventchn_str) + 1;
cl349@5357 562 iov[3].iov_base = (char *)path;
cl349@5357 563 iov[3].iov_len = strlen(path) + 1;
cl349@5357 564
cl349@5357 565 return xs_bool(xs_talkv(h, XS_INTRODUCE, iov, ARRAY_SIZE(iov), NULL));
cl349@5357 566 }
cl349@5357 567
cl349@5478 568 bool xs_release_domain(struct xs_handle *h, domid_t domid)
cl349@5357 569 {
cl349@5357 570 char domid_str[MAX_STRLEN(domid)];
cl349@5357 571
cl349@5357 572 sprintf(domid_str, "%u", domid);
cl349@5357 573
cl349@5357 574 return xs_bool(xs_single(h, XS_RELEASE, domid_str, NULL));
cl349@5357 575 }
cl349@5357 576
cl349@6625 577 char *xs_get_domain_path(struct xs_handle *h, domid_t domid)
cl349@6625 578 {
cl349@6625 579 char domid_str[MAX_STRLEN(domid)];
cl349@6625 580
cl349@6625 581 sprintf(domid_str, "%u", domid);
cl349@6625 582
cl349@6625 583 return xs_single(h, XS_GET_DOMAIN_PATH, domid_str, NULL);
cl349@6625 584 }
cl349@6625 585
cl349@5357 586 bool xs_shutdown(struct xs_handle *h)
cl349@5357 587 {
cl349@5357 588 bool ret = xs_bool(xs_single(h, XS_SHUTDOWN, "", NULL));
cl349@5357 589 if (ret) {
cl349@5357 590 char c;
cl349@5357 591 /* Wait for it to actually shutdown. */
kaf24@6636 592 while ((read(h->fd, &c, 1) < 0) && (errno == EINTR))
kaf24@6636 593 continue;
cl349@5357 594 }
cl349@5357 595 return ret;
cl349@5357 596 }
cl349@5357 597
cl349@5357 598 /* Only useful for DEBUG versions */
cl349@5357 599 char *xs_debug_command(struct xs_handle *h, const char *cmd,
cl349@5357 600 void *data, unsigned int len)
cl349@5357 601 {
cl349@5357 602 struct iovec iov[2];
cl349@5357 603
cl349@5357 604 iov[0].iov_base = (void *)cmd;
cl349@5357 605 iov[0].iov_len = strlen(cmd) + 1;
cl349@5357 606 iov[1].iov_base = data;
cl349@5357 607 iov[1].iov_len = len;
cl349@5357 608
cl349@5357 609 return xs_talkv(h, XS_DEBUG, iov, ARRAY_SIZE(iov), NULL);
cl349@5357 610 }