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      1 /* Copyright (C) 2001-2004 Bart Massey and Jamey Sharp.
      2  *
      3  * Permission is hereby granted, free of charge, to any person obtaining a
      4  * copy of this software and associated documentation files (the "Software"),
      5  * to deal in the Software without restriction, including without limitation
      6  * the rights to use, copy, modify, merge, publish, distribute, sublicense,
      7  * and/or sell copies of the Software, and to permit persons to whom the
      8  * Software is furnished to do so, subject to the following conditions:
      9  *
     10  * The above copyright notice and this permission notice shall be included in
     11  * all copies or substantial portions of the Software.
     12  *
     13  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
     14  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
     15  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
     16  * AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
     17  * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
     18  * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
     19  *
     20  * Except as contained in this notice, the names of the authors or their
     21  * institutions shall not be used in advertising or otherwise to promote the
     22  * sale, use or other dealings in this Software without prior written
     23  * authorization from the authors.
     24  */
     25 
     26 /* Connection management: the core of XCB. */
     27 
     28 #ifdef HAVE_CONFIG_H
     29 #include "config.h"
     30 #endif
     31 
     32 #include <assert.h>
     33 #include <string.h>
     34 #include <stdio.h>
     35 #include <stdlib.h>
     36 #include <fcntl.h>
     37 #include <errno.h>
     38 #include <limits.h>
     39 
     40 #include "xcb.h"
     41 #include "xcbint.h"
     42 #if USE_POLL
     43 #include <poll.h>
     44 #elif !defined _WIN32
     45 #include <sys/select.h>
     46 #endif
     47 
     48 #ifdef _WIN32
     49 #include "xcb_windefs.h"
     50 #include <io.h>
     51 #else
     52 #include <unistd.h>
     53 #include <sys/socket.h>
     54 #include <netinet/in.h>
     55 #endif /* _WIN32 */
     56 
     57 /* SHUT_RDWR is fairly recent and is not available on all platforms */
     58 #if !defined(SHUT_RDWR)
     59 #define SHUT_RDWR 2
     60 #endif
     61 
     62 typedef struct {
     63     uint8_t  status;
     64     uint8_t  pad0[5];
     65     uint16_t length;
     66 } xcb_setup_generic_t;
     67 
     68 static const xcb_setup_t xcb_error_setup = {
     69     0,     /* status: failed (but we wouldn't have a xcb_setup_t in this case) */
     70     0,     /* pad0 */
     71     0, 0,  /* protocol version, should be 11.0, but isn't */
     72     0,     /* length, invalid value */
     73     0,     /* release_number */
     74     0, 0,  /* resource_id_{base,mask} */
     75     0,     /* motion_buffer_size */
     76     0,     /* vendor_len */
     77     0,     /* maximum_request_length */
     78     0,     /* roots_len */
     79     0,     /* pixmap_formats_len */
     80     0,     /* image_byte_order */
     81     0,     /* bitmap_format_bit_order */
     82     0,     /* bitmap_format_scanline_unit */
     83     0,     /* bitmap_format_scanline_pad */
     84     0, 0,  /* {min,max}_keycode */
     85     { 0, 0, 0, 0 } /* pad1 */
     86 };
     87 
     88 /* Keep this list in sync with is_static_error_conn()! */
     89 static const int xcb_con_error = XCB_CONN_ERROR;
     90 static const int xcb_con_closed_mem_er = XCB_CONN_CLOSED_MEM_INSUFFICIENT;
     91 static const int xcb_con_closed_parse_er = XCB_CONN_CLOSED_PARSE_ERR;
     92 static const int xcb_con_closed_screen_er = XCB_CONN_CLOSED_INVALID_SCREEN;
     93 
     94 static int is_static_error_conn(xcb_connection_t *c)
     95 {
     96     return c == (xcb_connection_t *) &xcb_con_error ||
     97            c == (xcb_connection_t *) &xcb_con_closed_mem_er ||
     98            c == (xcb_connection_t *) &xcb_con_closed_parse_er ||
     99            c == (xcb_connection_t *) &xcb_con_closed_screen_er;
    100 }
    101 
    102 static int set_fd_flags(const int fd)
    103 {
    104 /* Win32 doesn't have file descriptors and the fcntl function. This block sets the socket in non-blocking mode */
    105 
    106 #ifdef _WIN32
    107    u_long iMode = 1; /* non-zero puts it in non-blocking mode, 0 in blocking mode */
    108    int ret = 0;
    109 
    110    ret = ioctlsocket(fd, FIONBIO, &iMode);
    111    if(ret != 0)
    112        return 0;
    113    return 1;
    114 #else
    115     int flags = fcntl(fd, F_GETFL, 0);
    116     if(flags == -1)
    117         return 0;
    118     flags |= O_NONBLOCK;
    119     if(fcntl(fd, F_SETFL, flags) == -1)
    120         return 0;
    121     if(fcntl(fd, F_SETFD, FD_CLOEXEC) == -1)
    122         return 0;
    123     return 1;
    124 #endif /* _WIN32 */
    125 }
    126 
    127 static int write_setup(xcb_connection_t *c, xcb_auth_info_t *auth_info)
    128 {
    129     static const char pad[3];
    130     xcb_setup_request_t out;
    131     struct iovec parts[6];
    132     int count = 0;
    133     static const uint32_t endian = 0x01020304;
    134     int ret;
    135 
    136     memset(&out, 0, sizeof(out));
    137 
    138     /* B = 0x42 = MSB first, l = 0x6c = LSB first */
    139     if(htonl(endian) == endian)
    140         out.byte_order = 0x42;
    141     else
    142         out.byte_order = 0x6c;
    143     out.protocol_major_version = X_PROTOCOL;
    144     out.protocol_minor_version = X_PROTOCOL_REVISION;
    145     out.authorization_protocol_name_len = 0;
    146     out.authorization_protocol_data_len = 0;
    147     parts[count].iov_len = sizeof(xcb_setup_request_t);
    148     parts[count++].iov_base = &out;
    149     parts[count].iov_len = XCB_PAD(sizeof(xcb_setup_request_t));
    150     parts[count++].iov_base = (char *) pad;
    151 
    152     if(auth_info)
    153     {
    154         parts[count].iov_len = out.authorization_protocol_name_len = auth_info->namelen;
    155         parts[count++].iov_base = auth_info->name;
    156         parts[count].iov_len = XCB_PAD(out.authorization_protocol_name_len);
    157         parts[count++].iov_base = (char *) pad;
    158         parts[count].iov_len = out.authorization_protocol_data_len = auth_info->datalen;
    159         parts[count++].iov_base = auth_info->data;
    160         parts[count].iov_len = XCB_PAD(out.authorization_protocol_data_len);
    161         parts[count++].iov_base = (char *) pad;
    162     }
    163     assert(count <= (int) (sizeof(parts) / sizeof(*parts)));
    164 
    165     pthread_mutex_lock(&c->iolock);
    166     ret = _xcb_out_send(c, parts, count);
    167     pthread_mutex_unlock(&c->iolock);
    168     return ret;
    169 }
    170 
    171 static int read_setup(xcb_connection_t *c)
    172 {
    173     const char newline = '\n';
    174 
    175     /* Read the server response */
    176     c->setup = malloc(sizeof(xcb_setup_generic_t));
    177     if(!c->setup)
    178         return 0;
    179 
    180     if(_xcb_in_read_block(c, c->setup, sizeof(xcb_setup_generic_t)) != sizeof(xcb_setup_generic_t))
    181         return 0;
    182 
    183     {
    184         void *tmp = realloc(c->setup, c->setup->length * 4 + sizeof(xcb_setup_generic_t));
    185         if(!tmp)
    186             return 0;
    187         c->setup = tmp;
    188     }
    189 
    190     if(_xcb_in_read_block(c, (char *) c->setup + sizeof(xcb_setup_generic_t), c->setup->length * 4) <= 0)
    191         return 0;
    192 
    193     /* 0 = failed, 2 = authenticate, 1 = success */
    194     switch(c->setup->status)
    195     {
    196     case 0: /* failed */
    197         {
    198             xcb_setup_failed_t *setup = (xcb_setup_failed_t *) c->setup;
    199             write(STDERR_FILENO, xcb_setup_failed_reason(setup), xcb_setup_failed_reason_length(setup));
    200             write(STDERR_FILENO, &newline, 1);
    201             return 0;
    202         }
    203 
    204     case 2: /* authenticate */
    205         {
    206             xcb_setup_authenticate_t *setup = (xcb_setup_authenticate_t *) c->setup;
    207             write(STDERR_FILENO, xcb_setup_authenticate_reason(setup), xcb_setup_authenticate_reason_length(setup));
    208             write(STDERR_FILENO, &newline, 1);
    209             return 0;
    210         }
    211     }
    212 
    213     return 1;
    214 }
    215 
    216 /* precondition: there must be something for us to write. */
    217 static int write_vec(xcb_connection_t *c, struct iovec **vector, int *count)
    218 {
    219 #ifndef _WIN32
    220     int n;
    221 #endif
    222 
    223     assert(!c->out.queue_len);
    224 
    225 #ifdef _WIN32
    226     /* Could use the WSASend win32 function for scatter/gather i/o but setting up the WSABUF struct from
    227        an iovec would require more work and I'm not sure of the benefit....works for now */
    228     while (*count)
    229     {
    230         struct iovec *vec = *vector;
    231         if (vec->iov_len)
    232         {
    233             int ret = send(c->fd, vec->iov_base, vec->iov_len, 0);
    234             if (ret == SOCKET_ERROR)
    235             {
    236                 int err = WSAGetLastError();
    237                 if (err == WSAEWOULDBLOCK)
    238                 {
    239                     return 1;
    240                 }
    241             }
    242             if (ret <= 0)
    243             {
    244                 _xcb_conn_shutdown(c, XCB_CONN_ERROR);
    245                 return 0;
    246             }
    247             c->out.total_written += ret;
    248             vec->iov_len -= ret;
    249             vec->iov_base = (char *)vec->iov_base + ret;
    250         }
    251         if (vec->iov_len == 0) {
    252             (*vector)++;
    253             (*count)--;
    254         }
    255     }
    256 
    257     if (!*count)
    258         *vector = 0;
    259 
    260 #else
    261     n = *count;
    262     if (n > IOV_MAX)
    263         n = IOV_MAX;
    264 
    265 #if HAVE_SENDMSG
    266     if (c->out.out_fd.nfd) {
    267         union {
    268             struct cmsghdr cmsghdr;
    269             char buf[CMSG_SPACE(XCB_MAX_PASS_FD * sizeof(int))];
    270         } cmsgbuf;
    271         struct msghdr msg = {
    272             .msg_name = NULL,
    273             .msg_namelen = 0,
    274             .msg_iov = *vector,
    275             .msg_iovlen = n,
    276             .msg_control = cmsgbuf.buf,
    277             .msg_controllen = CMSG_LEN(c->out.out_fd.nfd * sizeof (int)),
    278         };
    279         int i;
    280         struct cmsghdr *hdr = CMSG_FIRSTHDR(&msg);
    281 
    282         hdr->cmsg_len = msg.msg_controllen;
    283         hdr->cmsg_level = SOL_SOCKET;
    284         hdr->cmsg_type = SCM_RIGHTS;
    285         memcpy(CMSG_DATA(hdr), c->out.out_fd.fd, c->out.out_fd.nfd * sizeof (int));
    286 
    287         n = sendmsg(c->fd, &msg, 0);
    288         if(n < 0 && errno == EAGAIN)
    289             return 1;
    290         for (i = 0; i < c->out.out_fd.nfd; i++)
    291             close(c->out.out_fd.fd[i]);
    292         c->out.out_fd.nfd = 0;
    293     } else
    294 #endif
    295     {
    296         n = writev(c->fd, *vector, n);
    297         if(n < 0 && errno == EAGAIN)
    298             return 1;
    299     }
    300 
    301     if(n <= 0)
    302     {
    303         _xcb_conn_shutdown(c, XCB_CONN_ERROR);
    304         return 0;
    305     }
    306 
    307     c->out.total_written += n;
    308     for(; *count; --*count, ++*vector)
    309     {
    310         int cur = (*vector)->iov_len;
    311         if(cur > n)
    312             cur = n;
    313         if(cur) {
    314             (*vector)->iov_len -= cur;
    315             (*vector)->iov_base = (char *) (*vector)->iov_base + cur;
    316             n -= cur;
    317         }
    318         if((*vector)->iov_len)
    319             break;
    320     }
    321     if(!*count)
    322         *vector = 0;
    323     assert(n == 0);
    324 
    325 #endif /* _WIN32 */
    326 
    327     return 1;
    328 }
    329 
    330 /* Public interface */
    331 
    332 const xcb_setup_t *xcb_get_setup(xcb_connection_t *c)
    333 {
    334     if(is_static_error_conn(c))
    335         return &xcb_error_setup;
    336     /* doesn't need locking because it's never written to. */
    337     return c->setup;
    338 }
    339 
    340 int xcb_get_file_descriptor(xcb_connection_t *c)
    341 {
    342     if(is_static_error_conn(c))
    343         return -1;
    344     /* doesn't need locking because it's never written to. */
    345     return c->fd;
    346 }
    347 
    348 int xcb_connection_has_error(xcb_connection_t *c)
    349 {
    350     /* doesn't need locking because it's read and written atomically. */
    351     return c->has_error;
    352 }
    353 
    354 xcb_connection_t *xcb_connect_to_fd(int fd, xcb_auth_info_t *auth_info)
    355 {
    356     xcb_connection_t* c;
    357 
    358 #ifndef _WIN32
    359 #ifndef USE_POLL
    360     if(fd >= FD_SETSIZE) /* would overflow in FD_SET */
    361     {
    362         close(fd);
    363         return _xcb_conn_ret_error(XCB_CONN_ERROR);
    364     }
    365 #endif
    366 #endif /* !_WIN32*/
    367 
    368     c = calloc(1, sizeof(xcb_connection_t));
    369     if(!c) {
    370 #ifdef _WIN32
    371         closesocket(fd);
    372 #else
    373         close(fd);
    374 #endif
    375         return _xcb_conn_ret_error(XCB_CONN_CLOSED_MEM_INSUFFICIENT) ;
    376     }
    377 
    378     c->fd = fd;
    379 
    380     if(!(
    381         set_fd_flags(fd) &&
    382         pthread_mutex_init(&c->iolock, 0) == 0 &&
    383         _xcb_in_init(&c->in) &&
    384         _xcb_out_init(&c->out) &&
    385         write_setup(c, auth_info) &&
    386         read_setup(c) &&
    387         _xcb_ext_init(c) &&
    388         _xcb_xid_init(c)
    389         ))
    390     {
    391         xcb_disconnect(c);
    392         return _xcb_conn_ret_error(XCB_CONN_ERROR);
    393     }
    394 
    395     return c;
    396 }
    397 
    398 void xcb_disconnect(xcb_connection_t *c)
    399 {
    400     if(c == NULL || is_static_error_conn(c))
    401         return;
    402 
    403     free(c->setup);
    404 
    405     /* disallow further sends and receives */
    406     shutdown(c->fd, SHUT_RDWR);
    407 #ifdef _WIN32
    408     closesocket(c->fd);
    409 #else
    410     close(c->fd);
    411 #endif
    412 
    413     pthread_mutex_destroy(&c->iolock);
    414     _xcb_in_destroy(&c->in);
    415     _xcb_out_destroy(&c->out);
    416 
    417     _xcb_ext_destroy(c);
    418     _xcb_xid_destroy(c);
    419 
    420     free(c);
    421 
    422 #ifdef _WIN32
    423     WSACleanup();
    424 #endif
    425 }
    426 
    427 /* Private interface */
    428 
    429 void _xcb_conn_shutdown(xcb_connection_t *c, int err)
    430 {
    431     c->has_error = err;
    432 }
    433 
    434 /* Return connection error state.
    435  * To make thread-safe, I need a seperate static
    436  * variable for every possible error.
    437  * has_error is the first field in xcb_connection_t, so just
    438  * return a casted int here; checking has_error (and only
    439  * has_error) will be safe.
    440  */
    441 xcb_connection_t *_xcb_conn_ret_error(int err)
    442 {
    443 
    444     switch(err)
    445     {
    446         case XCB_CONN_CLOSED_MEM_INSUFFICIENT:
    447         {
    448             return (xcb_connection_t *) &xcb_con_closed_mem_er;
    449         }
    450         case XCB_CONN_CLOSED_PARSE_ERR:
    451         {
    452             return (xcb_connection_t *) &xcb_con_closed_parse_er;
    453         }
    454         case XCB_CONN_CLOSED_INVALID_SCREEN:
    455         {
    456             return (xcb_connection_t *) &xcb_con_closed_screen_er;
    457         }
    458         case XCB_CONN_ERROR:
    459         default:
    460         {
    461             return (xcb_connection_t *) &xcb_con_error;
    462         }
    463     }
    464 }
    465 
    466 int _xcb_conn_wait(xcb_connection_t *c, pthread_cond_t *cond, struct iovec **vector, int *count)
    467 {
    468     int ret;
    469 #if USE_POLL
    470     struct pollfd fd;
    471 #else
    472     fd_set rfds, wfds;
    473 #endif
    474 
    475     /* If the thing I should be doing is already being done, wait for it. */
    476     if(count ? c->out.writing : c->in.reading)
    477     {
    478         pthread_cond_wait(cond, &c->iolock);
    479         return 1;
    480     }
    481 
    482 #if USE_POLL
    483     memset(&fd, 0, sizeof(fd));
    484     fd.fd = c->fd;
    485     fd.events = POLLIN;
    486 #else
    487     FD_ZERO(&rfds);
    488     FD_SET(c->fd, &rfds);
    489 #endif
    490     ++c->in.reading;
    491 
    492 #if USE_POLL
    493     if(count)
    494     {
    495         fd.events |= POLLOUT;
    496         ++c->out.writing;
    497     }
    498 #else
    499     FD_ZERO(&wfds);
    500     if(count)
    501     {
    502         FD_SET(c->fd, &wfds);
    503         ++c->out.writing;
    504     }
    505 #endif
    506 
    507     pthread_mutex_unlock(&c->iolock);
    508     do {
    509 #if USE_POLL
    510         ret = poll(&fd, 1, -1);
    511         /* If poll() returns an event we didn't expect, such as POLLNVAL, treat
    512          * it as if it failed. */
    513         if(ret >= 0 && (fd.revents & ~fd.events))
    514         {
    515             ret = -1;
    516             break;
    517         }
    518 #else
    519         ret = select(c->fd + 1, &rfds, &wfds, 0, 0);
    520 #endif
    521     } while (ret == -1 && errno == EINTR);
    522     if(ret < 0)
    523     {
    524         _xcb_conn_shutdown(c, XCB_CONN_ERROR);
    525         ret = 0;
    526     }
    527     pthread_mutex_lock(&c->iolock);
    528 
    529     if(ret)
    530     {
    531         /* The code allows two threads to call select()/poll() at the same time.
    532          * First thread just wants to read, a second thread wants to write, too.
    533          * We have to make sure that we don't steal the reading thread's reply
    534          * and let it get stuck in select()/poll().
    535          * So a thread may read if either:
    536          * - There is no other thread that wants to read (the above situation
    537          *   did not occur).
    538          * - It is the reading thread (above situation occurred).
    539          */
    540         int may_read = c->in.reading == 1 || !count;
    541 #if USE_POLL
    542         if(may_read && (fd.revents & POLLIN) != 0)
    543 #else
    544         if(may_read && FD_ISSET(c->fd, &rfds))
    545 #endif
    546             ret = ret && _xcb_in_read(c);
    547 
    548 #if USE_POLL
    549         if((fd.revents & POLLOUT) != 0)
    550 #else
    551         if(FD_ISSET(c->fd, &wfds))
    552 #endif
    553             ret = ret && write_vec(c, vector, count);
    554     }
    555 
    556     if(count)
    557         --c->out.writing;
    558     --c->in.reading;
    559 
    560     return ret;
    561 }
    562 
    563 uint64_t xcb_total_read(xcb_connection_t *c)
    564 {
    565     uint64_t n;
    566 
    567     if (xcb_connection_has_error(c))
    568         return 0;
    569 
    570     pthread_mutex_lock(&c->iolock);
    571     n = c->in.total_read;
    572     pthread_mutex_unlock(&c->iolock);
    573     return n;
    574 }
    575 
    576 uint64_t xcb_total_written(xcb_connection_t *c)
    577 {
    578     uint64_t n;
    579 
    580     if (xcb_connection_has_error(c))
    581         return 0;
    582 
    583     pthread_mutex_lock(&c->iolock);
    584     n = c->out.total_written;
    585     pthread_mutex_unlock(&c->iolock);
    586 
    587     return n;
    588 }
    589