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/**
* Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
* SPDX-License-Identifier: Apache-2.0.
*/
#include <aws/io/pipe.h>
#include <aws/io/event_loop.h>
#ifdef __GLIBC__
# define __USE_GNU
#endif
/* TODO: move this detection to CMAKE and a config header */
#if !defined(COMPAT_MODE) && defined(__GLIBC__) && __GLIBC__ >= 2 && __GLIBC_MINOR__ >= 9
# define HAVE_PIPE2 1
#else
# define HAVE_PIPE2 0
#endif
#include <errno.h>
#include <fcntl.h>
#include <unistd.h>
/* This isn't defined on ancient linux distros (breaking the builds).
* However, if this is a prebuild, we purposely build on an ancient system, but
* we want the kernel calls to still be the same as a modern build since that's likely the target of the application
* calling this code. Just define this if it isn't there already. GlibC and the kernel don't really care how the flag
* gets passed as long as it does.
*/
#ifndef O_CLOEXEC
# define O_CLOEXEC 02000000
#endif
struct read_end_impl {
struct aws_allocator *alloc;
struct aws_io_handle handle;
struct aws_event_loop *event_loop;
aws_pipe_on_readable_fn *on_readable_user_callback;
void *on_readable_user_data;
/* Used in handshake for detecting whether user callback resulted in read-end being cleaned up.
* If clean_up() sees that the pointer is set, the bool it points to will get set true. */
bool *did_user_callback_clean_up_read_end;
bool is_subscribed;
};
struct write_request {
struct aws_byte_cursor original_cursor;
struct aws_byte_cursor cursor; /* tracks progress of write */
size_t num_bytes_written;
aws_pipe_on_write_completed_fn *user_callback;
void *user_data;
struct aws_linked_list_node list_node;
/* True if the write-end is cleaned up while the user callback is being invoked */
bool did_user_callback_clean_up_write_end;
};
struct write_end_impl {
struct aws_allocator *alloc;
struct aws_io_handle handle;
struct aws_event_loop *event_loop;
struct aws_linked_list write_list;
/* Valid while invoking user callback on a completed write request. */
struct write_request *currently_invoking_write_callback;
bool is_writable;
/* Future optimization idea: avoid an allocation on each write by keeping 1 pre-allocated write_request around
* and re-using it whenever possible */
};
static void s_write_end_on_event(
struct aws_event_loop *event_loop,
struct aws_io_handle *handle,
int events,
void *user_data);
static int s_translate_posix_error(int err) {
AWS_ASSERT(err);
switch (err) {
case EPIPE:
return AWS_IO_BROKEN_PIPE;
default:
return AWS_ERROR_SYS_CALL_FAILURE;
}
}
static int s_raise_posix_error(int err) {
return aws_raise_error(s_translate_posix_error(err));
}
AWS_IO_API int aws_open_nonblocking_posix_pipe(int pipe_fds[2]) {
int err;
#if HAVE_PIPE2
err = pipe2(pipe_fds, O_NONBLOCK | O_CLOEXEC);
if (err) {
return s_raise_posix_error(err);
}
return AWS_OP_SUCCESS;
#else
err = pipe(pipe_fds);
if (err) {
return s_raise_posix_error(err);
}
for (int i = 0; i < 2; ++i) {
int flags = fcntl(pipe_fds[i], F_GETFL);
if (flags == -1) {
s_raise_posix_error(err);
goto error;
}
flags |= O_NONBLOCK | O_CLOEXEC;
if (fcntl(pipe_fds[i], F_SETFL, flags) == -1) {
s_raise_posix_error(err);
goto error;
}
}
return AWS_OP_SUCCESS;
error:
close(pipe_fds[0]);
close(pipe_fds[1]);
return AWS_OP_ERR;
#endif
}
int aws_pipe_init(
struct aws_pipe_read_end *read_end,
struct aws_event_loop *read_end_event_loop,
struct aws_pipe_write_end *write_end,
struct aws_event_loop *write_end_event_loop,
struct aws_allocator *allocator) {
AWS_ASSERT(read_end);
AWS_ASSERT(read_end_event_loop);
AWS_ASSERT(write_end);
AWS_ASSERT(write_end_event_loop);
AWS_ASSERT(allocator);
AWS_ZERO_STRUCT(*read_end);
AWS_ZERO_STRUCT(*write_end);
struct read_end_impl *read_impl = NULL;
struct write_end_impl *write_impl = NULL;
int err;
/* Open pipe */
int pipe_fds[2];
err = aws_open_nonblocking_posix_pipe(pipe_fds);
if (err) {
return AWS_OP_ERR;
}
/* Init read-end */
read_impl = aws_mem_calloc(allocator, 1, sizeof(struct read_end_impl));
if (!read_impl) {
goto error;
}
read_impl->alloc = allocator;
read_impl->handle.data.fd = pipe_fds[0];
read_impl->event_loop = read_end_event_loop;
/* Init write-end */
write_impl = aws_mem_calloc(allocator, 1, sizeof(struct write_end_impl));
if (!write_impl) {
goto error;
}
write_impl->alloc = allocator;
write_impl->handle.data.fd = pipe_fds[1];
write_impl->event_loop = write_end_event_loop;
write_impl->is_writable = true; /* Assume pipe is writable to start. Even if it's not, things shouldn't break */
aws_linked_list_init(&write_impl->write_list);
read_end->impl_data = read_impl;
write_end->impl_data = write_impl;
err = aws_event_loop_subscribe_to_io_events(
write_end_event_loop, &write_impl->handle, AWS_IO_EVENT_TYPE_WRITABLE, s_write_end_on_event, write_end);
if (err) {
goto error;
}
return AWS_OP_SUCCESS;
error:
close(pipe_fds[0]);
close(pipe_fds[1]);
if (read_impl) {
aws_mem_release(allocator, read_impl);
}
if (write_impl) {
aws_mem_release(allocator, write_impl);
}
read_end->impl_data = NULL;
write_end->impl_data = NULL;
return AWS_OP_ERR;
}
int aws_pipe_clean_up_read_end(struct aws_pipe_read_end *read_end) {
struct read_end_impl *read_impl = read_end->impl_data;
if (!read_impl) {
return aws_raise_error(AWS_IO_BROKEN_PIPE);
}
if (!aws_event_loop_thread_is_callers_thread(read_impl->event_loop)) {
return aws_raise_error(AWS_ERROR_IO_EVENT_LOOP_THREAD_ONLY);
}
if (read_impl->is_subscribed) {
int err = aws_pipe_unsubscribe_from_readable_events(read_end);
if (err) {
return AWS_OP_ERR;
}
}
/* If the event-handler is invoking a user callback, let it know that the read-end was cleaned up */
if (read_impl->did_user_callback_clean_up_read_end) {
*read_impl->did_user_callback_clean_up_read_end = true;
}
close(read_impl->handle.data.fd);
aws_mem_release(read_impl->alloc, read_impl);
AWS_ZERO_STRUCT(*read_end);
return AWS_OP_SUCCESS;
}
struct aws_event_loop *aws_pipe_get_read_end_event_loop(const struct aws_pipe_read_end *read_end) {
const struct read_end_impl *read_impl = read_end->impl_data;
if (!read_impl) {
aws_raise_error(AWS_IO_BROKEN_PIPE);
return NULL;
}
return read_impl->event_loop;
}
struct aws_event_loop *aws_pipe_get_write_end_event_loop(const struct aws_pipe_write_end *write_end) {
const struct write_end_impl *write_impl = write_end->impl_data;
if (!write_impl) {
aws_raise_error(AWS_IO_BROKEN_PIPE);
return NULL;
}
return write_impl->event_loop;
}
int aws_pipe_read(struct aws_pipe_read_end *read_end, struct aws_byte_buf *dst_buffer, size_t *num_bytes_read) {
AWS_ASSERT(dst_buffer && dst_buffer->buffer);
struct read_end_impl *read_impl = read_end->impl_data;
if (!read_impl) {
return aws_raise_error(AWS_IO_BROKEN_PIPE);
}
if (num_bytes_read) {
*num_bytes_read = 0;
}
size_t num_bytes_to_read = dst_buffer->capacity - dst_buffer->len;
ssize_t read_val = read(read_impl->handle.data.fd, dst_buffer->buffer + dst_buffer->len, num_bytes_to_read);
if (read_val < 0) {
if (errno == EAGAIN || errno == EWOULDBLOCK) {
return aws_raise_error(AWS_IO_READ_WOULD_BLOCK);
}
return s_raise_posix_error(errno);
}
/* Success */
dst_buffer->len += read_val;
if (num_bytes_read) {
*num_bytes_read = read_val;
}
return AWS_OP_SUCCESS;
}
static void s_read_end_on_event(
struct aws_event_loop *event_loop,
struct aws_io_handle *handle,
int events,
void *user_data) {
(void)event_loop;
(void)handle;
/* Note that it should be impossible for this to run after read-end has been unsubscribed or cleaned up */
struct aws_pipe_read_end *read_end = user_data;
struct read_end_impl *read_impl = read_end->impl_data;
AWS_ASSERT(read_impl);
AWS_ASSERT(read_impl->event_loop == event_loop);
AWS_ASSERT(&read_impl->handle == handle);
AWS_ASSERT(read_impl->is_subscribed);
AWS_ASSERT(events != 0);
AWS_ASSERT(read_impl->did_user_callback_clean_up_read_end == NULL);
/* Set up handshake, so we can be informed if the read-end is cleaned up while invoking a user callback */
bool did_user_callback_clean_up_read_end = false;
read_impl->did_user_callback_clean_up_read_end = &did_user_callback_clean_up_read_end;
/* If readable event received, tell user to try and read, even if "error" events have also occurred. */
if (events & AWS_IO_EVENT_TYPE_READABLE) {
read_impl->on_readable_user_callback(read_end, AWS_ERROR_SUCCESS, read_impl->on_readable_user_data);
if (did_user_callback_clean_up_read_end) {
return;
}
events &= ~AWS_IO_EVENT_TYPE_READABLE;
}
if (events) {
/* Check that user didn't unsubscribe in the previous callback */
if (read_impl->is_subscribed) {
read_impl->on_readable_user_callback(read_end, AWS_IO_BROKEN_PIPE, read_impl->on_readable_user_data);
if (did_user_callback_clean_up_read_end) {
return;
}
}
}
read_impl->did_user_callback_clean_up_read_end = NULL;
}
int aws_pipe_subscribe_to_readable_events(
struct aws_pipe_read_end *read_end,
aws_pipe_on_readable_fn *on_readable,
void *user_data) {
AWS_ASSERT(on_readable);
struct read_end_impl *read_impl = read_end->impl_data;
if (!read_impl) {
return aws_raise_error(AWS_IO_BROKEN_PIPE);
}
if (!aws_event_loop_thread_is_callers_thread(read_impl->event_loop)) {
return aws_raise_error(AWS_ERROR_IO_EVENT_LOOP_THREAD_ONLY);
}
if (read_impl->is_subscribed) {
return aws_raise_error(AWS_ERROR_IO_ALREADY_SUBSCRIBED);
}
read_impl->is_subscribed = true;
read_impl->on_readable_user_callback = on_readable;
read_impl->on_readable_user_data = user_data;
int err = aws_event_loop_subscribe_to_io_events(
read_impl->event_loop, &read_impl->handle, AWS_IO_EVENT_TYPE_READABLE, s_read_end_on_event, read_end);
if (err) {
read_impl->is_subscribed = false;
read_impl->on_readable_user_callback = NULL;
read_impl->on_readable_user_data = NULL;
return AWS_OP_ERR;
}
return AWS_OP_SUCCESS;
}
int aws_pipe_unsubscribe_from_readable_events(struct aws_pipe_read_end *read_end) {
struct read_end_impl *read_impl = read_end->impl_data;
if (!read_impl) {
return aws_raise_error(AWS_IO_BROKEN_PIPE);
}
if (!aws_event_loop_thread_is_callers_thread(read_impl->event_loop)) {
return aws_raise_error(AWS_ERROR_IO_EVENT_LOOP_THREAD_ONLY);
}
if (!read_impl->is_subscribed) {
return aws_raise_error(AWS_ERROR_IO_NOT_SUBSCRIBED);
}
int err = aws_event_loop_unsubscribe_from_io_events(read_impl->event_loop, &read_impl->handle);
if (err) {
return AWS_OP_ERR;
}
read_impl->is_subscribed = false;
read_impl->on_readable_user_callback = NULL;
read_impl->on_readable_user_data = NULL;
return AWS_OP_SUCCESS;
}
/* Pop front write request, invoke its callback, and delete it.
* Returns whether the callback resulted in the write-end getting cleaned up */
static bool s_write_end_complete_front_write_request(struct aws_pipe_write_end *write_end, int error_code) {
struct write_end_impl *write_impl = write_end->impl_data;
AWS_ASSERT(!aws_linked_list_empty(&write_impl->write_list));
struct aws_linked_list_node *node = aws_linked_list_pop_front(&write_impl->write_list);
struct write_request *request = AWS_CONTAINER_OF(node, struct write_request, list_node);
struct aws_allocator *alloc = write_impl->alloc;
/* Let the write-end know that a callback is in process, so the write-end can inform the callback
* whether it resulted in clean_up() being called. */
bool write_end_cleaned_up_during_callback = false;
struct write_request *prev_invoking_request = write_impl->currently_invoking_write_callback;
write_impl->currently_invoking_write_callback = request;
if (request->user_callback) {
request->user_callback(write_end, error_code, request->original_cursor, request->user_data);
write_end_cleaned_up_during_callback = request->did_user_callback_clean_up_write_end;
}
if (!write_end_cleaned_up_during_callback) {
write_impl->currently_invoking_write_callback = prev_invoking_request;
}
aws_mem_release(alloc, request);
return write_end_cleaned_up_during_callback;
}
/* Process write requests as long as the pipe remains writable */
static void s_write_end_process_requests(struct aws_pipe_write_end *write_end) {
struct write_end_impl *write_impl = write_end->impl_data;
AWS_ASSERT(write_impl);
while (!aws_linked_list_empty(&write_impl->write_list)) {
struct aws_linked_list_node *node = aws_linked_list_front(&write_impl->write_list);
struct write_request *request = AWS_CONTAINER_OF(node, struct write_request, list_node);
int completed_error_code = AWS_ERROR_SUCCESS;
if (request->cursor.len > 0) {
ssize_t write_val = write(write_impl->handle.data.fd, request->cursor.ptr, request->cursor.len);
if (write_val < 0) {
if (errno == EAGAIN || errno == EWOULDBLOCK) {
/* The pipe is no longer writable. Bail out */
write_impl->is_writable = false;
return;
}
/* A non-recoverable error occurred during this write */
completed_error_code = s_translate_posix_error(errno);
} else {
aws_byte_cursor_advance(&request->cursor, write_val);
if (request->cursor.len > 0) {
/* There was a partial write, loop again to try and write the rest. */
continue;
}
}
}
/* If we got this far in the loop, then the write request is complete.
* Note that the callback may result in the pipe being cleaned up. */
bool write_end_cleaned_up = s_write_end_complete_front_write_request(write_end, completed_error_code);
if (write_end_cleaned_up) {
/* Bail out! Any remaining requests were canceled during clean_up() */
return;
}
}
}
/* Handle events on the write-end's file handle */
static void s_write_end_on_event(
struct aws_event_loop *event_loop,
struct aws_io_handle *handle,
int events,
void *user_data) {
(void)event_loop;
(void)handle;
/* Note that it should be impossible for this to run after write-end has been unsubscribed or cleaned up */
struct aws_pipe_write_end *write_end = user_data;
struct write_end_impl *write_impl = write_end->impl_data;
AWS_ASSERT(write_impl);
AWS_ASSERT(write_impl->event_loop == event_loop);
AWS_ASSERT(&write_impl->handle == handle);
/* Only care about the writable event. */
if ((events & AWS_IO_EVENT_TYPE_WRITABLE) == 0) {
return;
}
write_impl->is_writable = true;
s_write_end_process_requests(write_end);
}
int aws_pipe_write(
struct aws_pipe_write_end *write_end,
struct aws_byte_cursor src_buffer,
aws_pipe_on_write_completed_fn *on_completed,
void *user_data) {
AWS_ASSERT(src_buffer.ptr);
struct write_end_impl *write_impl = write_end->impl_data;
if (!write_impl) {
return aws_raise_error(AWS_IO_BROKEN_PIPE);
}
if (!aws_event_loop_thread_is_callers_thread(write_impl->event_loop)) {
return aws_raise_error(AWS_ERROR_IO_EVENT_LOOP_THREAD_ONLY);
}
struct write_request *request = aws_mem_calloc(write_impl->alloc, 1, sizeof(struct write_request));
if (!request) {
return AWS_OP_ERR;
}
request->original_cursor = src_buffer;
request->cursor = src_buffer;
request->user_callback = on_completed;
request->user_data = user_data;
aws_linked_list_push_back(&write_impl->write_list, &request->list_node);
/* If the pipe is writable, process the request (unless pipe is already in the middle of processing, which could
* happen if a this aws_pipe_write() call was made by another write's completion callback */
if (write_impl->is_writable && !write_impl->currently_invoking_write_callback) {
s_write_end_process_requests(write_end);
}
return AWS_OP_SUCCESS;
}
int aws_pipe_clean_up_write_end(struct aws_pipe_write_end *write_end) {
struct write_end_impl *write_impl = write_end->impl_data;
if (!write_impl) {
return aws_raise_error(AWS_IO_BROKEN_PIPE);
}
if (!aws_event_loop_thread_is_callers_thread(write_impl->event_loop)) {
return aws_raise_error(AWS_ERROR_IO_EVENT_LOOP_THREAD_ONLY);
}
int err = aws_event_loop_unsubscribe_from_io_events(write_impl->event_loop, &write_impl->handle);
if (err) {
return AWS_OP_ERR;
}
close(write_impl->handle.data.fd);
/* Zero out write-end before invoking user callbacks so that it won't work anymore with public functions. */
AWS_ZERO_STRUCT(*write_end);
/* If a request callback is currently being invoked, let it know that the write-end was cleaned up */
if (write_impl->currently_invoking_write_callback) {
write_impl->currently_invoking_write_callback->did_user_callback_clean_up_write_end = true;
}
/* Force any outstanding write requests to complete with an error status. */
while (!aws_linked_list_empty(&write_impl->write_list)) {
struct aws_linked_list_node *node = aws_linked_list_pop_front(&write_impl->write_list);
struct write_request *request = AWS_CONTAINER_OF(node, struct write_request, list_node);
if (request->user_callback) {
request->user_callback(NULL, AWS_IO_BROKEN_PIPE, request->original_cursor, request->user_data);
}
aws_mem_release(write_impl->alloc, request);
}
aws_mem_release(write_impl->alloc, write_impl);
return AWS_OP_SUCCESS;
}
|