forked from cory/tildefriends
Cory McWilliams
ee9cb63327
git-svn-id: https://www.unprompted.com/svn/projects/tildefriends/trunk@4615 ed5197a5-7fde-0310-b194-c3ffbd925b24
436 lines
10 KiB
C
436 lines
10 KiB
C
/* Copyright Joyent, Inc. and other Node contributors. All rights reserved.
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to
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* deal in the Software without restriction, including without limitation the
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* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
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* sell copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
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* IN THE SOFTWARE.
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*/
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#include "uv.h"
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#include "task.h"
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#include <stdio.h>
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#include <string.h>
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/* See test-ipc.c */
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void spawn_helper(uv_pipe_t* channel,
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uv_process_t* process,
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const char* helper);
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void ipc_send_recv_helper_threadproc(void* arg);
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union handles {
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uv_handle_t handle;
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uv_stream_t stream;
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uv_pipe_t pipe;
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uv_tcp_t tcp;
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uv_tty_t tty;
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};
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struct test_ctx {
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uv_pipe_t channel;
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uv_connect_t connect_req;
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uv_write_t write_req;
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uv_write_t write_req2;
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uv_handle_type expected_type;
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union handles send;
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union handles send2;
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union handles recv;
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union handles recv2;
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};
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struct echo_ctx {
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uv_pipe_t listen;
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uv_pipe_t channel;
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uv_write_t write_req;
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uv_write_t write_req2;
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uv_handle_type expected_type;
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union handles recv;
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union handles recv2;
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};
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static struct test_ctx ctx;
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static struct echo_ctx ctx2;
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/* Used in write2_cb to decide if we need to cleanup or not */
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static int is_child_process;
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static int is_in_process;
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static int read_cb_count;
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static int recv_cb_count;
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static int write2_cb_called;
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static void alloc_cb(uv_handle_t* handle,
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size_t suggested_size,
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uv_buf_t* buf) {
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/* We're not actually reading anything so a small buffer is okay
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* but it needs to be heap-allocated to appease TSan.
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*/
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buf->len = 8;
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buf->base = malloc(buf->len);
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ASSERT_NOT_NULL(buf->base);
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}
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static void recv_cb(uv_stream_t* handle,
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ssize_t nread,
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const uv_buf_t* buf) {
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uv_handle_type pending;
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uv_pipe_t* pipe;
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int r;
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union handles* recv;
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free(buf->base);
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pipe = (uv_pipe_t*) handle;
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ASSERT_PTR_EQ(pipe, &ctx.channel);
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do {
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if (++recv_cb_count == 1) {
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recv = &ctx.recv;
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} else {
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recv = &ctx.recv2;
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}
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/* Depending on the OS, the final recv_cb can be called after
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* the child process has terminated which can result in nread
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* being UV_EOF instead of the number of bytes read. Since
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* the other end of the pipe has closed this UV_EOF is an
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* acceptable value. */
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if (nread == UV_EOF) {
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/* UV_EOF is only acceptable for the final recv_cb call */
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ASSERT_EQ(2, recv_cb_count);
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} else {
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ASSERT_GE(nread, 0);
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ASSERT_GT(uv_pipe_pending_count(pipe), 0);
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pending = uv_pipe_pending_type(pipe);
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ASSERT_EQ(pending, ctx.expected_type);
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if (pending == UV_NAMED_PIPE)
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r = uv_pipe_init(ctx.channel.loop, &recv->pipe, 0);
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else if (pending == UV_TCP)
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r = uv_tcp_init(ctx.channel.loop, &recv->tcp);
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else
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abort();
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ASSERT_OK(r);
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r = uv_accept(handle, &recv->stream);
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ASSERT_OK(r);
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}
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} while (uv_pipe_pending_count(pipe) > 0);
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/* Close after two writes received */
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if (recv_cb_count == 2) {
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uv_close((uv_handle_t*)&ctx.channel, NULL);
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}
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}
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static void connect_cb(uv_connect_t* req, int status) {
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int r;
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uv_buf_t buf;
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ASSERT_PTR_EQ(req, &ctx.connect_req);
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ASSERT_OK(status);
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buf = uv_buf_init(".", 1);
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r = uv_write2(&ctx.write_req,
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(uv_stream_t*)&ctx.channel,
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&buf, 1,
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&ctx.send.stream,
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NULL);
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ASSERT_OK(r);
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/* Perform two writes to the same pipe to make sure that on Windows we are
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* not running into issue 505:
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* https://github.com/libuv/libuv/issues/505 */
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buf = uv_buf_init(".", 1);
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r = uv_write2(&ctx.write_req2,
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(uv_stream_t*)&ctx.channel,
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&buf, 1,
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&ctx.send2.stream,
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NULL);
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ASSERT_OK(r);
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r = uv_read_start((uv_stream_t*)&ctx.channel, alloc_cb, recv_cb);
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ASSERT_OK(r);
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}
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static int run_test(int inprocess) {
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uv_process_t process;
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uv_thread_t tid;
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int r;
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if (inprocess) {
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r = uv_thread_create(&tid, ipc_send_recv_helper_threadproc, (void *) 42);
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ASSERT_OK(r);
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uv_sleep(1000);
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r = uv_pipe_init(uv_default_loop(), &ctx.channel, 1);
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ASSERT_OK(r);
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uv_pipe_connect(&ctx.connect_req, &ctx.channel, TEST_PIPENAME_3, connect_cb);
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} else {
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spawn_helper(&ctx.channel, &process, "ipc_send_recv_helper");
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connect_cb(&ctx.connect_req, 0);
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}
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r = uv_run(uv_default_loop(), UV_RUN_DEFAULT);
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ASSERT_OK(r);
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ASSERT_EQ(2, recv_cb_count);
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if (inprocess) {
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r = uv_thread_join(&tid);
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ASSERT_OK(r);
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}
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return 0;
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}
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static int run_ipc_send_recv_pipe(int inprocess) {
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int r;
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ctx.expected_type = UV_NAMED_PIPE;
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r = uv_pipe_init(uv_default_loop(), &ctx.send.pipe, 1);
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ASSERT_OK(r);
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r = uv_pipe_bind(&ctx.send.pipe, TEST_PIPENAME);
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ASSERT_OK(r);
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r = uv_pipe_init(uv_default_loop(), &ctx.send2.pipe, 1);
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ASSERT_OK(r);
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r = uv_pipe_bind(&ctx.send2.pipe, TEST_PIPENAME_2);
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ASSERT_OK(r);
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r = run_test(inprocess);
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ASSERT_OK(r);
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MAKE_VALGRIND_HAPPY(uv_default_loop());
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return 0;
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}
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TEST_IMPL(ipc_send_recv_pipe) {
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#if defined(NO_SEND_HANDLE_ON_PIPE)
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RETURN_SKIP(NO_SEND_HANDLE_ON_PIPE);
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#endif
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return run_ipc_send_recv_pipe(0);
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}
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TEST_IMPL(ipc_send_recv_pipe_inprocess) {
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#if defined(NO_SEND_HANDLE_ON_PIPE)
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RETURN_SKIP(NO_SEND_HANDLE_ON_PIPE);
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#endif
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return run_ipc_send_recv_pipe(1);
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}
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static int run_ipc_send_recv_tcp(int inprocess) {
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struct sockaddr_in addr;
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int r;
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ASSERT_OK(uv_ip4_addr("127.0.0.1", TEST_PORT, &addr));
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ctx.expected_type = UV_TCP;
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r = uv_tcp_init(uv_default_loop(), &ctx.send.tcp);
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ASSERT_OK(r);
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r = uv_tcp_init(uv_default_loop(), &ctx.send2.tcp);
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ASSERT_OK(r);
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r = uv_tcp_bind(&ctx.send.tcp, (const struct sockaddr*) &addr, 0);
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ASSERT_OK(r);
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r = uv_tcp_bind(&ctx.send2.tcp, (const struct sockaddr*) &addr, 0);
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ASSERT_OK(r);
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r = run_test(inprocess);
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ASSERT_OK(r);
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MAKE_VALGRIND_HAPPY(uv_default_loop());
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return 0;
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}
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TEST_IMPL(ipc_send_recv_tcp) {
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#if defined(NO_SEND_HANDLE_ON_PIPE)
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RETURN_SKIP(NO_SEND_HANDLE_ON_PIPE);
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#endif
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return run_ipc_send_recv_tcp(0);
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}
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TEST_IMPL(ipc_send_recv_tcp_inprocess) {
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#if defined(NO_SEND_HANDLE_ON_PIPE)
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RETURN_SKIP(NO_SEND_HANDLE_ON_PIPE);
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#endif
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return run_ipc_send_recv_tcp(1);
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}
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/* Everything here runs in a child process or second thread. */
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static void write2_cb(uv_write_t* req, int status) {
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ASSERT_OK(status);
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/* After two successful writes in the child process, allow the child
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* process to be closed. */
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if (++write2_cb_called == 2 && (is_child_process || is_in_process)) {
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uv_close(&ctx2.recv.handle, NULL);
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uv_close(&ctx2.recv2.handle, NULL);
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uv_close((uv_handle_t*)&ctx2.channel, NULL);
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uv_close((uv_handle_t*)&ctx2.listen, NULL);
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}
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}
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static void read_cb(uv_stream_t* handle,
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ssize_t nread,
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const uv_buf_t* rdbuf) {
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uv_buf_t wrbuf;
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uv_pipe_t* pipe;
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uv_handle_type pending;
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int r;
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union handles* recv;
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uv_write_t* write_req;
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free(rdbuf->base);
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if (nread == UV_EOF || nread == UV_ECONNABORTED) {
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return;
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}
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ASSERT_GE(nread, 0);
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pipe = (uv_pipe_t*) handle;
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ASSERT_PTR_EQ(pipe, &ctx2.channel);
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while (uv_pipe_pending_count(pipe) > 0) {
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if (++read_cb_count == 2) {
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recv = &ctx2.recv;
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write_req = &ctx2.write_req;
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} else {
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recv = &ctx2.recv2;
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write_req = &ctx2.write_req2;
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}
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pending = uv_pipe_pending_type(pipe);
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ASSERT(pending == UV_NAMED_PIPE || pending == UV_TCP);
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if (pending == UV_NAMED_PIPE)
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r = uv_pipe_init(ctx2.channel.loop, &recv->pipe, 0);
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else if (pending == UV_TCP)
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r = uv_tcp_init(ctx2.channel.loop, &recv->tcp);
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else
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abort();
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ASSERT_OK(r);
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r = uv_accept(handle, &recv->stream);
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ASSERT_OK(r);
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wrbuf = uv_buf_init(".", 1);
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r = uv_write2(write_req,
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(uv_stream_t*)&ctx2.channel,
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&wrbuf,
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1,
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&recv->stream,
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write2_cb);
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ASSERT_OK(r);
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}
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}
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static void send_recv_start(void) {
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int r;
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ASSERT_EQ(1, uv_is_readable((uv_stream_t*)&ctx2.channel));
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ASSERT_EQ(1, uv_is_writable((uv_stream_t*)&ctx2.channel));
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ASSERT_OK(uv_is_closing((uv_handle_t*)&ctx2.channel));
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r = uv_read_start((uv_stream_t*)&ctx2.channel, alloc_cb, read_cb);
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ASSERT_OK(r);
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}
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static void listen_cb(uv_stream_t* handle, int status) {
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int r;
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ASSERT_PTR_EQ(handle, (uv_stream_t*)&ctx2.listen);
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ASSERT_OK(status);
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r = uv_accept((uv_stream_t*)&ctx2.listen, (uv_stream_t*)&ctx2.channel);
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ASSERT_OK(r);
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send_recv_start();
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}
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int run_ipc_send_recv_helper(uv_loop_t* loop, int inprocess) {
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int r;
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is_in_process = inprocess;
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memset(&ctx2, 0, sizeof(ctx2));
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r = uv_pipe_init(loop, &ctx2.listen, 0);
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ASSERT_OK(r);
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r = uv_pipe_init(loop, &ctx2.channel, 1);
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ASSERT_OK(r);
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if (inprocess) {
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r = uv_pipe_bind(&ctx2.listen, TEST_PIPENAME_3);
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ASSERT_OK(r);
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r = uv_listen((uv_stream_t*)&ctx2.listen, SOMAXCONN, listen_cb);
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ASSERT_OK(r);
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} else {
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r = uv_pipe_open(&ctx2.channel, 0);
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ASSERT_OK(r);
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send_recv_start();
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}
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notify_parent_process();
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r = uv_run(loop, UV_RUN_DEFAULT);
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ASSERT_OK(r);
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return 0;
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}
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/* stdin is a duplex channel over which a handle is sent.
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* We receive it and send it back where it came from.
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*/
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int ipc_send_recv_helper(void) {
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int r;
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r = run_ipc_send_recv_helper(uv_default_loop(), 0);
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ASSERT_OK(r);
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MAKE_VALGRIND_HAPPY(uv_default_loop());
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return 0;
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}
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void ipc_send_recv_helper_threadproc(void* arg) {
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int r;
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uv_loop_t loop;
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r = uv_loop_init(&loop);
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ASSERT_OK(r);
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r = run_ipc_send_recv_helper(&loop, 1);
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ASSERT_OK(r);
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r = uv_loop_close(&loop);
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ASSERT_OK(r);
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}
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