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/*
* Copyright © 2008 Kristian Høgsberg
*
* Permission to use, copy, modify, distribute, and sell this software and its
* documentation for any purpose is hereby granted without fee, provided that
* the above copyright notice appear in all copies and that both that copyright
* notice and this permission notice appear in supporting documentation, and
* that the name of the copyright holders not be used in advertising or
* publicity pertaining to distribution of the software without specific,
* written prior permission. The copyright holders make no representations
* about the suitability of this software for any purpose. It is provided "as
* is" without express or implied warranty.
*
* THE COPYRIGHT HOLDERS DISCLAIM ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO
* EVENT SHALL THE COPYRIGHT HOLDERS BE LIABLE FOR ANY SPECIAL, INDIRECT OR
* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE,
* DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
* TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE
* OF THIS SOFTWARE.
*
* Authors:
* Kristian Høgsberg <krh@bitplanet.net>
* Benjamin Franzke <benjaminfranzke@googlemail.com>
*
*/
#define _GNU_SOURCE
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/mman.h>
#include <unistd.h>
#include <assert.h>
#include <signal.h>
#include <pthread.h>
#include "wayland-private.h"
#include "wayland-server.h"
/* This once_t is used to synchronize installing the SIGBUS handler
* and creating the TLS key. This will be done in the first call
* wl_shm_buffer_begin_access which can happen from any thread */
static pthread_once_t wl_shm_sigbus_once = PTHREAD_ONCE_INIT;
static pthread_key_t wl_shm_sigbus_data_key;
static struct sigaction wl_shm_old_sigbus_action;
struct wl_shm_pool {
struct wl_resource *resource;
int refcount;
char *data;
int32_t size;
};
struct wl_shm_buffer {
struct wl_resource *resource;
int32_t width, height;
int32_t stride;
uint32_t format;
int offset;
struct wl_shm_pool *pool;
};
struct wl_shm_sigbus_data {
struct wl_shm_pool *current_pool;
int access_count;
int fallback_mapping_used;
};
static void
shm_pool_unref(struct wl_shm_pool *pool)
{
pool->refcount--;
if (pool->refcount)
return;
munmap(pool->data, pool->size);
free(pool);
}
static void
destroy_buffer(struct wl_resource *resource)
{
struct wl_shm_buffer *buffer = wl_resource_get_user_data(resource);
if (buffer->pool)
shm_pool_unref(buffer->pool);
free(buffer);
}
static void
shm_buffer_destroy(struct wl_client *client, struct wl_resource *resource)
{
wl_resource_destroy(resource);
}
static const struct wl_buffer_interface shm_buffer_interface = {
shm_buffer_destroy
};
static int
format_is_supported(struct wl_client *client, uint32_t format)
{
struct wl_display *display = wl_client_get_display(client);
struct wl_array *formats;
uint32_t *p;
switch (format) {
case WL_SHM_FORMAT_ARGB8888:
case WL_SHM_FORMAT_XRGB8888:
return 1;
default:
formats = wl_display_get_additional_shm_formats(display);
wl_array_for_each(p, formats)
if(*p == format)
return 1;
}
return 0;
}
static void
shm_pool_create_buffer(struct wl_client *client, struct wl_resource *resource,
uint32_t id, int32_t offset,
int32_t width, int32_t height,
int32_t stride, uint32_t format)
{
struct wl_shm_pool *pool = wl_resource_get_user_data(resource);
struct wl_shm_buffer *buffer;
if (!format_is_supported(client, format)) {
wl_resource_post_error(resource,
WL_SHM_ERROR_INVALID_FORMAT,
"invalid format 0x%x", format);
return;
}
if (offset < 0 || width <= 0 || height <= 0 || stride < width ||
INT32_MAX / stride <= height ||
offset > pool->size - stride * height) {
wl_resource_post_error(resource,
WL_SHM_ERROR_INVALID_STRIDE,
"invalid width, height or stride (%dx%d, %u)",
width, height, stride);
return;
}
buffer = malloc(sizeof *buffer);
if (buffer == NULL) {
wl_client_post_no_memory(client);
return;
}
buffer->width = width;
buffer->height = height;
buffer->format = format;
buffer->stride = stride;
buffer->offset = offset;
buffer->pool = pool;
pool->refcount++;
buffer->resource =
wl_resource_create(client, &wl_buffer_interface, 1, id);
if (buffer->resource == NULL) {
wl_client_post_no_memory(client);
shm_pool_unref(pool);
free(buffer);
return;
}
wl_resource_set_implementation(buffer->resource,
&shm_buffer_interface,
buffer, destroy_buffer);
}
static void
destroy_pool(struct wl_resource *resource)
{
struct wl_shm_pool *pool = wl_resource_get_user_data(resource);
shm_pool_unref(pool);
}
static void
shm_pool_destroy(struct wl_client *client, struct wl_resource *resource)
{
wl_resource_destroy(resource);
}
static void
shm_pool_resize(struct wl_client *client, struct wl_resource *resource,
int32_t size)
{
struct wl_shm_pool *pool = wl_resource_get_user_data(resource);
void *data;
if (size < pool->size) {
wl_resource_post_error(resource,
WL_SHM_ERROR_INVALID_FD,
"shrinking pool invalid");
return;
}
data = mremap(pool->data, pool->size, size, MREMAP_MAYMOVE);
if (data == MAP_FAILED) {
wl_resource_post_error(resource,
WL_SHM_ERROR_INVALID_FD,
"failed mremap");
return;
}
pool->data = data;
pool->size = size;
}
struct wl_shm_pool_interface shm_pool_interface = {
shm_pool_create_buffer,
shm_pool_destroy,
shm_pool_resize
};
static void
shm_create_pool(struct wl_client *client, struct wl_resource *resource,
uint32_t id, int fd, int32_t size)
{
struct wl_shm_pool *pool;
pool = malloc(sizeof *pool);
if (pool == NULL) {
wl_client_post_no_memory(client);
goto err_close;
}
if (size <= 0) {
wl_resource_post_error(resource,
WL_SHM_ERROR_INVALID_STRIDE,
"invalid size (%d)", size);
goto err_free;
}
pool->refcount = 1;
pool->size = size;
pool->data = mmap(NULL, size,
PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
if (pool->data == MAP_FAILED) {
wl_resource_post_error(resource,
WL_SHM_ERROR_INVALID_FD,
"failed mmap fd %d", fd);
goto err_close;
}
close(fd);
pool->resource =
wl_resource_create(client, &wl_shm_pool_interface, 1, id);
if (!pool->resource) {
wl_client_post_no_memory(client);
munmap(pool->data, pool->size);
free(pool);
return;
}
wl_resource_set_implementation(pool->resource,
&shm_pool_interface,
pool, destroy_pool);
return;
err_close:
close(fd);
err_free:
free(pool);
}
static const struct wl_shm_interface shm_interface = {
shm_create_pool
};
static void
bind_shm(struct wl_client *client,
void *data, uint32_t version, uint32_t id)
{
struct wl_resource *resource;
struct wl_display *display = wl_client_get_display(client);
struct wl_array *additional_formats;
uint32_t *p;
resource = wl_resource_create(client, &wl_shm_interface, 1, id);
if (!resource) {
wl_client_post_no_memory(client);
return;
}
wl_resource_set_implementation(resource, &shm_interface, data, NULL);
wl_shm_send_format(resource, WL_SHM_FORMAT_ARGB8888);
wl_shm_send_format(resource, WL_SHM_FORMAT_XRGB8888);
additional_formats = wl_display_get_additional_shm_formats(display);
wl_array_for_each(p, additional_formats)
wl_shm_send_format(resource, *p);
}
WL_EXPORT int
wl_display_init_shm(struct wl_display *display)
{
if (!wl_global_create(display, &wl_shm_interface, 1, NULL, bind_shm))
return -1;
return 0;
}
WL_EXPORT struct wl_shm_buffer *
wl_shm_buffer_create(struct wl_client *client,
uint32_t id, int32_t width, int32_t height,
int32_t stride, uint32_t format)
{
struct wl_shm_buffer *buffer;
if (!format_is_supported(client, format))
return NULL;
buffer = malloc(sizeof *buffer + stride * height);
if (buffer == NULL)
return NULL;
buffer->width = width;
buffer->height = height;
buffer->format = format;
buffer->stride = stride;
buffer->offset = 0;
buffer->pool = NULL;
buffer->resource =
wl_resource_create(client, &wl_buffer_interface, 1, id);
if (buffer->resource == NULL) {
free(buffer);
return NULL;
}
wl_resource_set_implementation(buffer->resource,
&shm_buffer_interface,
buffer, destroy_buffer);
return buffer;
}
WL_EXPORT struct wl_shm_buffer *
wl_shm_buffer_get(struct wl_resource *resource)
{
if (resource == NULL)
return NULL;
if (wl_resource_instance_of(resource, &wl_buffer_interface,
&shm_buffer_interface))
return wl_resource_get_user_data(resource);
else
return NULL;
}
WL_EXPORT int32_t
wl_shm_buffer_get_stride(struct wl_shm_buffer *buffer)
{
return buffer->stride;
}
/** Get a pointer to the memory for the SHM buffer
*
* \param buffer The buffer object
*
* Returns a pointer which can be used to read the data contained in
* the given SHM buffer.
*
* As this buffer is memory-mapped, reading it from may generate
* SIGBUS signals. This can happen if the client claims that the
* buffer is larger than it is or if something truncates the
* underlying file. To prevent this signal from causing the compositor
* to crash you should call wl_shm_buffer_begin_access and
* wl_shm_buffer_end_access around code that reads from the memory.
*
* \memberof wl_shm_buffer
*/
WL_EXPORT void *
wl_shm_buffer_get_data(struct wl_shm_buffer *buffer)
{
if (buffer->pool)
return buffer->pool->data + buffer->offset;
else
return buffer + 1;
}
WL_EXPORT uint32_t
wl_shm_buffer_get_format(struct wl_shm_buffer *buffer)
{
return buffer->format;
}
WL_EXPORT int32_t
wl_shm_buffer_get_width(struct wl_shm_buffer *buffer)
{
return buffer->width;
}
WL_EXPORT int32_t
wl_shm_buffer_get_height(struct wl_shm_buffer *buffer)
{
return buffer->height;
}
static void
reraise_sigbus(void)
{
/* If SIGBUS is raised for some other reason than accessing
* the pool then we'll uninstall the signal handler so we can
* reraise it. This would presumably kill the process */
sigaction(SIGBUS, &wl_shm_old_sigbus_action, NULL);
raise(SIGBUS);
}
static void
sigbus_handler(int signum, siginfo_t *info, void *context)
{
struct wl_shm_sigbus_data *sigbus_data =
pthread_getspecific(wl_shm_sigbus_data_key);
struct wl_shm_pool *pool;
if (sigbus_data == NULL) {
reraise_sigbus();
return;
}
pool = sigbus_data->current_pool;
/* If the offending address is outside the mapped space for
* the pool then the error is a real problem so we'll reraise
* the signal */
if (pool == NULL ||
(char *) info->si_addr < pool->data ||
(char *) info->si_addr >= pool->data + pool->size) {
reraise_sigbus();
return;
}
sigbus_data->fallback_mapping_used = 1;
/* This should replace the previous mapping */
if (mmap(pool->data, pool->size,
PROT_READ | PROT_WRITE,
MAP_PRIVATE | MAP_FIXED | MAP_ANONYMOUS,
0, 0) == (void *) -1) {
reraise_sigbus();
return;
}
}
static void
destroy_sigbus_data(void *data)
{
struct wl_shm_sigbus_data *sigbus_data = data;
free(sigbus_data);
}
static void
init_sigbus_data_key(void)
{
struct sigaction new_action = {
.sa_sigaction = sigbus_handler,
.sa_flags = SA_SIGINFO | SA_NODEFER
};
sigemptyset(&new_action.sa_mask);
sigaction(SIGBUS, &new_action, &wl_shm_old_sigbus_action);
pthread_key_create(&wl_shm_sigbus_data_key, destroy_sigbus_data);
}
/** Mark that the given SHM buffer is about to be accessed
*
* \param buffer The SHM buffer
*
* An SHM buffer is a memory-mapped file given by the client.
* According to POSIX, reading from a memory-mapped region that
* extends off the end of the file will cause a SIGBUS signal to be
* generated. Normally this would cause the compositor to terminate.
* In order to make the compositor robust against clients that change
* the size of the underlying file or lie about its size, you should
* protect access to the buffer by calling this function before
* reading from the memory and call wl_shm_buffer_end_access
* afterwards. This will install a signal handler for SIGBUS which
* will prevent the compositor from crashing.
*
* After calling this function the signal handler will remain
* installed for the lifetime of the compositor process. Note that
* this function will not work properly if the compositor is also
* installing its own handler for SIGBUS.
*
* If a SIGBUS signal is received for an address within the range of
* the SHM pool of the given buffer then the client will be sent an
* error event when wl_shm_buffer_end_access is called. If the signal
* is for an address outside that range then the signal handler will
* reraise the signal which would will likely cause the compositor to
* terminate.
*
* It is safe to nest calls to these functions as long as the nested
* calls are all accessing the same buffer. The number of calls to
* wl_shm_buffer_end_access must match the number of calls to
* wl_shm_buffer_begin_access. These functions are thread-safe and it
* is allowed to simultaneously access different buffers or the same
* buffer from multiple threads.
*
* \memberof wl_shm_buffer
*/
WL_EXPORT void
wl_shm_buffer_begin_access(struct wl_shm_buffer *buffer)
{
struct wl_shm_pool *pool = buffer->pool;
struct wl_shm_sigbus_data *sigbus_data;
pthread_once(&wl_shm_sigbus_once, init_sigbus_data_key);
sigbus_data = pthread_getspecific(wl_shm_sigbus_data_key);
if (sigbus_data == NULL) {
sigbus_data = malloc(sizeof *sigbus_data);
if (sigbus_data == NULL)
return;
memset(sigbus_data, 0, sizeof *sigbus_data);
pthread_setspecific(wl_shm_sigbus_data_key, sigbus_data);
}
assert(sigbus_data->current_pool == NULL ||
sigbus_data->current_pool == pool);
sigbus_data->current_pool = pool;
sigbus_data->access_count++;
}
/** Ends the access to a buffer started by wl_shm_buffer_begin_access
*
* \param buffer The SHM buffer
*
* This should be called after wl_shm_buffer_begin_access once the
* buffer is no longer being accessed. If a SIGBUS signal was
* generated in-between these two calls then the resource for the
* given buffer will be sent an error.
*
* \memberof wl_shm_buffer
*/
WL_EXPORT void
wl_shm_buffer_end_access(struct wl_shm_buffer *buffer)
{
struct wl_shm_sigbus_data *sigbus_data =
pthread_getspecific(wl_shm_sigbus_data_key);
assert(sigbus_data && sigbus_data->access_count >= 1);
if (--sigbus_data->access_count == 0) {
if (sigbus_data->fallback_mapping_used) {
wl_resource_post_error(buffer->resource,
WL_SHM_ERROR_INVALID_FD,
"error accessing SHM buffer");
sigbus_data->fallback_mapping_used = 0;
}
sigbus_data->current_pool = NULL;
}
}
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