/* Copyright (C) 2001-2004 Bart Massey and Jamey Sharp. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * Except as contained in this notice, the names of the authors or their * institutions shall not be used in advertising or otherwise to promote the * sale, use or other dealings in this Software without prior written * authorization from the authors. */ /* Stuff that sends stuff to the server. */ #include #include #include #include #include "xcb.h" #include "xcbext.h" #include "xcbint.h" #include "bigreq.h" static int write_block(xcb_connection_t *c, struct iovec *vector, int count) { while(count && c->out.queue_len + vector[0].iov_len <= sizeof(c->out.queue)) { memcpy(c->out.queue + c->out.queue_len, vector[0].iov_base, vector[0].iov_len); c->out.queue_len += vector[0].iov_len; vector[0].iov_base = (char *) vector[0].iov_base + vector[0].iov_len; vector[0].iov_len = 0; ++vector, --count; } if(!count) return 1; --vector, ++count; vector[0].iov_base = c->out.queue; vector[0].iov_len = c->out.queue_len; c->out.queue_len = 0; return _xcb_out_send(c, &vector, &count); } /* Public interface */ void xcb_prefetch_maximum_request_length(xcb_connection_t *c) { if(c->has_error) return; pthread_mutex_lock(&c->out.reqlenlock); if(c->out.maximum_request_length_tag == LAZY_NONE) { const xcb_query_extension_reply_t *ext; ext = xcb_get_extension_data(c, &xcb_big_requests_id); if(ext && ext->present) { c->out.maximum_request_length_tag = LAZY_COOKIE; c->out.maximum_request_length.cookie = xcb_big_requests_enable(c); } else { c->out.maximum_request_length_tag = LAZY_FORCED; c->out.maximum_request_length.value = c->setup->maximum_request_length; } } pthread_mutex_unlock(&c->out.reqlenlock); } uint32_t xcb_get_maximum_request_length(xcb_connection_t *c) { if(c->has_error) return 0; xcb_prefetch_maximum_request_length(c); pthread_mutex_lock(&c->out.reqlenlock); if(c->out.maximum_request_length_tag == LAZY_COOKIE) { xcb_big_requests_enable_reply_t *r = xcb_big_requests_enable_reply(c, c->out.maximum_request_length.cookie, 0); c->out.maximum_request_length_tag = LAZY_FORCED; if(r) { c->out.maximum_request_length.value = r->maximum_request_length; free(r); } else c->out.maximum_request_length.value = c->setup->maximum_request_length; } pthread_mutex_unlock(&c->out.reqlenlock); return c->out.maximum_request_length.value; } unsigned int xcb_send_request(xcb_connection_t *c, int flags, struct iovec *vector, const xcb_protocol_request_t *req) { static const union { struct { uint8_t major; uint8_t pad; uint16_t len; } fields; uint32_t packet; } sync_req = { { /* GetInputFocus */ 43, 0, 1 } }; unsigned int request; uint32_t prefix[3] = { 0 }; int veclen = req->count; enum workarounds workaround = WORKAROUND_NONE; if(c->has_error) return 0; assert(c != 0); assert(vector != 0); assert(req->count > 0); if(!(flags & XCB_REQUEST_RAW)) { static const char pad[3]; unsigned int i; uint16_t shortlen = 0; size_t longlen = 0; assert(vector[0].iov_len >= 4); /* set the major opcode, and the minor opcode for extensions */ if(req->ext) { const xcb_query_extension_reply_t *extension = xcb_get_extension_data(c, req->ext); if(!(extension && extension->present)) { _xcb_conn_shutdown(c); return 0; } ((uint8_t *) vector[0].iov_base)[0] = extension->major_opcode; ((uint8_t *) vector[0].iov_base)[1] = req->opcode; } else ((uint8_t *) vector[0].iov_base)[0] = req->opcode; /* put together the length field, possibly using BIGREQUESTS */ for(i = 0; i < req->count; ++i) { longlen += vector[i].iov_len; if(!vector[i].iov_base) { vector[i].iov_base = (char *) pad; assert(vector[i].iov_len <= sizeof(pad)); } } assert((longlen & 3) == 0); longlen >>= 2; if(longlen <= c->setup->maximum_request_length) { /* we don't need BIGREQUESTS. */ shortlen = longlen; longlen = 0; } else if(longlen > xcb_get_maximum_request_length(c)) { _xcb_conn_shutdown(c); return 0; /* server can't take this; maybe need BIGREQUESTS? */ } /* set the length field. */ ((uint16_t *) vector[0].iov_base)[1] = shortlen; if(!shortlen) prefix[2] = ++longlen; } flags &= ~XCB_REQUEST_RAW; /* do we need to work around the X server bug described in glx.xml? */ /* XXX: GetFBConfigs won't use BIG-REQUESTS in any sane * configuration, but that should be handled here anyway. */ if(req->ext && !req->isvoid && !strcmp(req->ext->name, "GLX") && ((req->opcode == 17 && ((uint32_t *) vector[0].iov_base)[1] == 0x10004) || req->opcode == 21)) workaround = WORKAROUND_GLX_GET_FB_CONFIGS_BUG; /* get a sequence number and arrange for delivery. */ _xcb_lock_io(c); /* wait for other writing threads to get out of my way. */ while(c->out.writing) _xcb_wait_io(c, &c->out.cond); request = ++c->out.request; /* send GetInputFocus (sync_req) when 64k-2 requests have been sent without * a reply. * Also send sync_req (could use NoOp) at 32-bit wrap to avoid having * applications see sequence 0 as that is used to indicate * an error in sending the request */ while((req->isvoid && c->out.request == c->in.request_expected + (1 << 16) - 1) || request == 0) { prefix[0] = sync_req.packet; _xcb_in_expect_reply(c, request, WORKAROUND_NONE, XCB_REQUEST_DISCARD_REPLY); c->in.request_expected = c->out.request; request = ++c->out.request; } if(workaround != WORKAROUND_NONE || flags != 0) _xcb_in_expect_reply(c, request, workaround, flags); if(!req->isvoid) c->in.request_expected = c->out.request; if(prefix[0] || prefix[2]) { --vector, ++veclen; if(prefix[2]) { prefix[1] = ((uint32_t *) vector[1].iov_base)[0]; vector[1].iov_base = (uint32_t *) vector[1].iov_base + 1; vector[1].iov_len -= sizeof(uint32_t); } vector[0].iov_len = sizeof(uint32_t) * (prefix[0] ? 1 : 0 | prefix[2] ? 2 : 0); vector[0].iov_base = prefix + !prefix[0]; } if(!write_block(c, vector, veclen)) { _xcb_conn_shutdown(c); request = 0; } _xcb_unlock_io(c); return request; } int xcb_flush(xcb_connection_t *c) { int ret; if(c->has_error) return 0; _xcb_lock_io(c); ret = _xcb_out_flush_to(c, c->out.request); _xcb_unlock_io(c); return ret; } /* Private interface */ int _xcb_out_init(_xcb_out *out) { if(pthread_cond_init(&out->cond, 0)) return 0; out->writing = 0; out->queue_len = 0; out->request = 0; out->request_written = 0; if(pthread_mutex_init(&out->reqlenlock, 0)) return 0; out->maximum_request_length_tag = LAZY_NONE; return 1; } void _xcb_out_destroy(_xcb_out *out) { pthread_cond_destroy(&out->cond); pthread_mutex_destroy(&out->reqlenlock); } int _xcb_out_send(xcb_connection_t *c, struct iovec **vector, int *count) { int ret = 1; while(ret && *count) ret = _xcb_conn_wait(c, &c->out.cond, vector, count); c->out.request_written = c->out.request; pthread_cond_broadcast(&c->out.cond); return ret; } int _xcb_out_flush_to(xcb_connection_t *c, unsigned int request) { assert(XCB_SEQUENCE_COMPARE(request, <=, c->out.request)); if(XCB_SEQUENCE_COMPARE(c->out.request_written, >=, request)) return 1; if(c->out.queue_len) { struct iovec vec, *vec_ptr = &vec; int count = 1; vec.iov_base = c->out.queue; vec.iov_len = c->out.queue_len; c->out.queue_len = 0; return _xcb_out_send(c, &vec_ptr, &count); } while(c->out.writing) _xcb_wait_io(c, &c->out.cond); assert(XCB_SEQUENCE_COMPARE(c->out.request_written, >=, request)); return 1; }