/* * Copyright 2023 Collabora, Ltd. * * 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 (including the * next paragraph) 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 OR COPYRIGHT HOLDERS * 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. */ #include "config.h" #include "color.h" #include "color-management.h" #include "shared/string-helpers.h" #include "shared/weston-assert.h" #include "shared/xalloc.h" #include #include "color-management-v1-server-protocol.h" enum supports_get_info { NO_GET_INFO = false, YES_GET_INFO = true, }; /** * This is the object that backs the image description abstraction from the * protocol. We may have multiple images descriptions for the same color * profile. */ struct cm_image_desc { struct wl_resource *owner; struct weston_color_manager *cm; /* Reference to the color profile that it is backing up. */ struct weston_color_profile *cprof; /* Depending how the image description is created, the protocol states * that get_information() request should be invalid. */ bool supports_get_info; }; /** * Object created when get_info() is called for an image description object. It * gets destroyed when all the info is sent, i.e. with the done() event. */ struct cm_image_desc_info { struct wl_resource *owner; struct weston_compositor *compositor; }; /** * When clients want to create image description based on ICC color profiles, we * use this struct to help. */ struct cm_creator_icc { struct wl_resource *owner; struct weston_compositor *compositor; /* ICC profile data given by the client. */ int32_t icc_profile_fd; size_t icc_data_length; size_t icc_data_offset; }; /** * For an ICC-based image description, sends the ICC information to the * client. * * If callers fail to create the fd for the ICC, they can call this function * with fd == -1 and it should return the proper error to clients. * * This is a helper function that should be used by the color plugin * that owns the color profile and has information about it. * * \param cm_image_desc_info The image description info object * \param fd The ICC profile file descriptor, or -1 in case of a failure * \param len The ICC profile size, in bytes */ WL_EXPORT void weston_cm_send_icc_file(struct cm_image_desc_info *cm_image_desc_info, int32_t fd, uint32_t len) { /* Caller failed to create fd. At this point we already know that the * ICC is valid, so let's disconnect the client with OOM. */ if (fd < 0) { wl_resource_post_no_memory(cm_image_desc_info->owner); return; } xx_image_description_info_v2_send_icc_file(cm_image_desc_info->owner, fd, len); } /** * For a parametric image description, sends its * enum xx_color_manager_v2_primaries code to the client. * * This is a helper function that should be used by the color plugin * that owns the color profile and has information about it. * * \param cm_image_desc_info The image description info object * \param primaries_info The primaries_info object */ WL_EXPORT void weston_cm_send_primaries_named(struct cm_image_desc_info *cm_image_desc_info, const struct weston_color_primaries_info *primaries_info) { xx_image_description_info_v2_send_primaries_named(cm_image_desc_info->owner, primaries_info->protocol_primaries); } /** * For a parametric image description, sends the primary color volume primaries * and white point using CIE 1931 xy chromaticity coordinates to the client. * * This is a helper function that should be used by the color plugin * that owns the color profile and has information about it. * * \param cm_image_desc_info The image description info object * \param color_gamut The CIE 1931 xy chromaticity coordinates */ WL_EXPORT void weston_cm_send_primaries(struct cm_image_desc_info *cm_image_desc_info, const struct weston_color_gamut *color_gamut) { xx_image_description_info_v2_send_primaries(cm_image_desc_info->owner, /* red */ round(color_gamut->primary[0].x * 10000), round(color_gamut->primary[0].y * 10000), /* green */ round(color_gamut->primary[1].x * 10000), round(color_gamut->primary[1].y * 10000), /* blue */ round(color_gamut->primary[2].x * 10000), round(color_gamut->primary[2].y * 10000), /* white point */ round(color_gamut->white_point.x * 10000), round(color_gamut->white_point.y * 10000)); } /** * For a parametric image description, sends its * enum xx_color_manager_v2_transfer_function code to the client. * * This is a helper function that should be used by the color plugin * that owns the color profile and has information about it. * * \param cm_image_desc_info The image description info object * \param tf_info The tf_info object */ WL_EXPORT void weston_cm_send_tf_named(struct cm_image_desc_info *cm_image_desc_info, const struct weston_color_tf_info *tf_info) { xx_image_description_info_v2_send_tf_named(cm_image_desc_info->owner, tf_info->protocol_tf); } /** * Destroy an image description info object. */ static void cm_image_desc_info_destroy(struct cm_image_desc_info *cm_image_desc_info) { free(cm_image_desc_info); } /** * Resource destruction function for the image description info. Destroys the * image description info backing object. */ static void image_description_info_resource_destroy(struct wl_resource *cm_image_desc_info_res) { struct cm_image_desc_info *cm_image_desc_info = wl_resource_get_user_data(cm_image_desc_info_res); cm_image_desc_info_destroy(cm_image_desc_info); } /** * Creates object to send information of a certain image description. */ static struct cm_image_desc_info * image_description_info_create(struct wl_client *client, uint32_t version, struct weston_compositor *compositor, uint32_t cm_image_desc_info_id) { struct cm_image_desc_info *cm_image_desc_info; cm_image_desc_info = xzalloc(sizeof(*cm_image_desc_info)); cm_image_desc_info->compositor = compositor; cm_image_desc_info->owner = wl_resource_create(client, &xx_image_description_info_v2_interface, version, cm_image_desc_info_id); if (!cm_image_desc_info->owner) { free(cm_image_desc_info); return NULL; } wl_resource_set_implementation(cm_image_desc_info->owner, NULL, cm_image_desc_info, image_description_info_resource_destroy); return cm_image_desc_info; } /** * Client wants the image description information. */ static void image_description_get_information(struct wl_client *client, struct wl_resource *cm_image_desc_res, uint32_t cm_image_desc_info_id) { struct cm_image_desc *cm_image_desc = wl_resource_get_user_data(cm_image_desc_res); uint32_t version = wl_resource_get_version(cm_image_desc_res); struct cm_image_desc_info *cm_image_desc_info; bool success; /* If the client tries to get the output image description but we * destroy the output before that, we create the image description but * without a backing struct cm_image_desc object. In such case, the only * request the client can make is the one to destroy the object. */ if (!cm_image_desc) { wl_resource_post_error(cm_image_desc_res, XX_IMAGE_DESCRIPTION_V2_ERROR_NOT_READY, "we didn't send ready so client is not allowed " "to get_information for this object"); return; } /* Depending how the image description is created, the protocol states * that get_information() request should be invalid. */ if (!cm_image_desc->supports_get_info) { wl_resource_post_error(cm_image_desc_res, XX_IMAGE_DESCRIPTION_V2_ERROR_NO_INFORMATION, "get_information is not allowed for this " "image description"); return; } /* Create object responsible for sending the image description info. */ cm_image_desc_info = image_description_info_create(client, version, cm_image_desc->cm->compositor, cm_image_desc_info_id); if (!cm_image_desc_info) { wl_resource_post_no_memory(cm_image_desc_res); return; } /* The color plugin is the one that has information about the color * profile, so we go through it to send the info to clients. It uses * our helpers (weston_cm_send_primaries(), etc) to do that. */ success = cm_image_desc->cm->send_image_desc_info(cm_image_desc_info, cm_image_desc->cprof); if (success) xx_image_description_info_v2_send_done(cm_image_desc_info->owner); /* All info sent, so destroy the object. */ wl_resource_destroy(cm_image_desc_info->owner); } /** * Client will not use the image description anymore, so we destroy its * resource. */ static void image_description_destroy(struct wl_client *client, struct wl_resource *cm_image_desc_res) { wl_resource_destroy(cm_image_desc_res); } static void cm_image_desc_destroy(struct cm_image_desc *cm_image_desc); /** * Resource destruction function for the image description. Destroys the image * description backing object. */ static void image_description_resource_destroy(struct wl_resource *cm_image_desc_res) { struct cm_image_desc *cm_image_desc = wl_resource_get_user_data(cm_image_desc_res); /* If the client tries to get an output image description but we destroy * the output before that, we create the image description but without a * backing struct cm_image_desc object. */ if (!cm_image_desc) return; cm_image_desc_destroy(cm_image_desc); } static const struct xx_image_description_v2_interface image_description_implementation = { .destroy = image_description_destroy, .get_information = image_description_get_information, }; /** * Creates an image description object for a certain color profile. */ static struct cm_image_desc * cm_image_desc_create(struct weston_color_manager *cm, struct weston_color_profile *cprof, struct wl_client *client, uint32_t version, uint32_t image_description_id, enum supports_get_info supports_get_info) { struct cm_image_desc *cm_image_desc; cm_image_desc = xzalloc(sizeof(*cm_image_desc)); cm_image_desc->owner = wl_resource_create(client, &xx_image_description_v2_interface, version, image_description_id); if (!cm_image_desc->owner) { free(cm_image_desc); return NULL; } wl_resource_set_implementation(cm_image_desc->owner, &image_description_implementation, cm_image_desc, image_description_resource_destroy); cm_image_desc->cm = cm; cm_image_desc->cprof = weston_color_profile_ref(cprof); cm_image_desc->supports_get_info = supports_get_info; return cm_image_desc; } /** * Destroy an image description object. */ static void cm_image_desc_destroy(struct cm_image_desc *cm_image_desc) { weston_color_profile_unref(cm_image_desc->cprof); free(cm_image_desc); } /** * Called by clients when they want to get the output's image description. */ static void cm_output_get_image_description(struct wl_client *client, struct wl_resource *cm_output_res, uint32_t image_description_id) { struct weston_head *head = wl_resource_get_user_data(cm_output_res); struct weston_compositor *compositor; struct weston_output *output; uint32_t version = wl_resource_get_version(cm_output_res); struct cm_image_desc *cm_image_desc; struct wl_resource *cm_image_desc_res; /* The protocol states that if the wl_output global (which is backed by * the weston_head object) no longer exists, we should immediately send * a "failed" event for the image desc. After receiving that, clients * are not allowed to make requests other than "destroy" for the image * description. So let's avoid creating a cm_image_desc object, let's * create only the resource and send the failed event. */ if (!head) { cm_image_desc_res = wl_resource_create(client, &xx_image_description_v2_interface, version, image_description_id); if (!cm_image_desc_res) { wl_resource_post_no_memory(cm_output_res); return; } wl_resource_set_implementation(cm_image_desc_res, &image_description_implementation, NULL, image_description_resource_destroy); xx_image_description_v2_send_failed(cm_image_desc_res, XX_IMAGE_DESCRIPTION_V2_CAUSE_NO_OUTPUT, "the wl_output global no longer exists"); return; } compositor = head->compositor; output = head->output; /* If the head becomes inactive (head->output == NULL), the respective * wl_output global gets destroyed. In such case we make the cm_output * object inert. We do that in weston_head_remove_global(), and the * cm_output_res user data (which was the head itself) is set to NULL. * So if we reached here, head is active and head->output != NULL. */ weston_assert_ptr(compositor, output); cm_image_desc = cm_image_desc_create(compositor->color_manager, output->color_profile, client, version, image_description_id, YES_GET_INFO); if (!cm_image_desc) { wl_resource_post_no_memory(cm_output_res); return; } xx_image_description_v2_send_ready(cm_image_desc->owner, cm_image_desc->cprof->id); } /** * Client will not use the cm_output anymore, so we destroy its resource. */ static void cm_output_destroy(struct wl_client *client, struct wl_resource *cm_output_res) { wl_resource_destroy(cm_output_res); } /** * Resource destruction function for the cm_output. */ static void cm_output_resource_destroy(struct wl_resource *cm_output_res) { struct weston_head *head = wl_resource_get_user_data(cm_output_res); /* For inert cm_output, we don't have to do anything. * * If the cm_get_output() was called after we made the head inactive, we * created the cm_output with no resource user data and didn't add the * resource link to weston_head::cm_output_resource_list. * * If the cm_output was created with an active head but it became * inactive later, we have already done what is necessary when cm_output * became inert, in weston_head_remove_global(). */ if (!head) return; /* We are destroying the cm_output_res, so simply remove it from * weston_head::cm_output_resource_list. */ wl_list_remove(wl_resource_get_link(cm_output_res)); } static const struct xx_color_management_output_v2_interface cm_output_implementation = { .destroy = cm_output_destroy, .get_image_description = cm_output_get_image_description, }; /** * This function is called by libweston when the struct weston_output color * profile is updated. * * For each weston_head attached to the weston_output, we need to tell clients * that the cm_output image description has changed. Also, for each surface * whose primary output is the given, we need to send the preferred image * description changed event. * * If this is called during output initialization, this function is no-op. There * will be no client resources in weston_head::cm_output_resource_list and * neither surfaces whose primary output is the one we are dealing with. * * \param output The weston_output that changed the color profile. */ void weston_output_send_image_description_changed(struct weston_output *output) { struct weston_head *head; struct wl_resource *res; int ver; /* For each head attached to this weston_output, send the events that * notifies that the output image description changed. */ wl_list_for_each(head, &output->head_list, output_link) { wl_resource_for_each(res, &head->cm_output_resource_list) xx_color_management_output_v2_send_image_description_changed(res); /* wl_output.done should be sent after collecting all the * changes related to the output. But in Weston we are lacking * an atomic output configuration API, so we have no facilities * to do that. * * TODO: enhance this behavior after we add the atomic output * configuration API. */ wl_resource_for_each(res, &head->resource_list) { ver = wl_resource_get_version(res); if (ver >= WL_OUTPUT_DONE_SINCE_VERSION) wl_output_send_done(res); } } } /** * Client called get_output(). We already have the backing object, so just * create a resource for the client. */ static void cm_get_output(struct wl_client *client, struct wl_resource *cm_res, uint32_t cm_output_id, struct wl_resource *output_res) { struct weston_head *head = weston_head_from_resource(output_res); uint32_t version = wl_resource_get_version(cm_res); struct wl_resource *res; res = wl_resource_create(client, &xx_color_management_output_v2_interface, version, cm_output_id); if (!res) { wl_resource_post_no_memory(cm_res); return; } /* Client wants the cm_output but we've already made the head inactive, * so let's set the implementation data as NULL. */ if (!head) { wl_resource_set_implementation(res, &cm_output_implementation, NULL, cm_output_resource_destroy); return; } wl_resource_set_implementation(res, &cm_output_implementation, head, cm_output_resource_destroy); wl_list_insert(&head->cm_output_resource_list, wl_resource_get_link(res)); } /** * Called by clients to update the image description of a surface. * * If the surface state is commited, libweston will update the struct * weston_surface color profile and render intent. */ static void cm_surface_set_image_description(struct wl_client *client, struct wl_resource *cm_surface_res, struct wl_resource *cm_image_desc_res, uint32_t protocol_render_intent) { struct weston_surface *surface = wl_resource_get_user_data(cm_surface_res); struct cm_image_desc *cm_image_desc = wl_resource_get_user_data(cm_image_desc_res); struct weston_color_manager *cm = cm_image_desc->cm; const struct weston_render_intent_info *render_intent; /* The surface might have been already gone, in such case cm_surface is * inert. */ if (!surface) { wl_resource_post_error(cm_surface_res, XX_COLOR_MANAGEMENT_SURFACE_V2_ERROR_INERT, "the wl_surface has already been destroyed"); return; } render_intent = weston_render_intent_info_from_protocol(surface->compositor, protocol_render_intent); if (!render_intent) { wl_resource_post_error(cm_surface_res, XX_COLOR_MANAGEMENT_SURFACE_V2_ERROR_RENDER_INTENT, "unknown render intent"); return; } if (!((cm->supported_rendering_intents >> render_intent->intent) & 1)) { wl_resource_post_error(cm_surface_res, XX_COLOR_MANAGEMENT_SURFACE_V2_ERROR_RENDER_INTENT, "unsupported render intent"); return; } weston_color_profile_unref(surface->pending.color_profile); surface->pending.color_profile = weston_color_profile_ref(cm_image_desc->cprof); surface->pending.render_intent = render_intent; } /** * Called by clients to unset the image description. * * If the surface state is commited, libweston will update the struct * weston_surface color profile and render intent. */ static void cm_surface_unset_image_description(struct wl_client *client, struct wl_resource *cm_surface_res) { struct weston_surface *surface = wl_resource_get_user_data(cm_surface_res); /* The surface might have been already gone, in such case cm_surface is * inert. */ if (!surface) { wl_resource_post_error(cm_surface_res, XX_COLOR_MANAGEMENT_SURFACE_V2_ERROR_INERT, "the wl_surface has already been destroyed"); return; } weston_color_profile_unref(surface->pending.color_profile); surface->pending.color_profile = NULL; surface->pending.render_intent = NULL; } /** * Called by clients when they want to know the preferred image description of * the surface. */ static void cm_surface_get_preferred(struct wl_client *client, struct wl_resource *cm_surface_res, uint32_t image_description_id) { struct weston_surface *surface = wl_resource_get_user_data(cm_surface_res); uint32_t version = wl_resource_get_version(cm_surface_res); struct weston_color_manager *cm; struct cm_image_desc *cm_image_desc; /* The surface might have been already gone, in such case cm_surface is * inert. */ if (!surface) { wl_resource_post_error(cm_surface_res, XX_COLOR_MANAGEMENT_SURFACE_V2_ERROR_INERT, "the wl_surface has already been destroyed"); return; } cm = surface->compositor->color_manager; cm_image_desc = cm_image_desc_create(cm, surface->preferred_color_profile, client, version, image_description_id, YES_GET_INFO); if (!cm_image_desc) { wl_resource_post_no_memory(cm_surface_res); return; } xx_image_description_v2_send_ready(cm_image_desc->owner, cm_image_desc->cprof->id); } /** * Client will not use the cm_surface anymore, so we destroy its resource. */ static void cm_surface_destroy(struct wl_client *client, struct wl_resource *cm_surface_res) { wl_resource_destroy(cm_surface_res); } /** * Resource destruction function for the cm_surface. */ static void cm_surface_resource_destroy(struct wl_resource *cm_surface_res) { struct weston_surface *surface = wl_resource_get_user_data(cm_surface_res); /* For inert cm_surface, we don't have to do anything. * * We already did what was necessary when cm_surface became inert, in * the surface destruction process (in weston_surface_unref(), which * is the surface destruction function). */ if (!surface) return; /* We are destroying the cm_surface_res, so simply remove it from * weston_surface::cm_surface_resource_list. */ wl_list_remove(wl_resource_get_link(cm_surface_res)); /* TODO: if wl_list_empty(&surface->cm_surface_resource_list), we need * to unset_image_description for the surface. The protocol states that * we need to do that after the last cm_surface object for a wl_surface * is destroyed. */ } static const struct xx_color_management_surface_v2_interface cm_surface_implementation = { .destroy = cm_surface_destroy, .set_image_description = cm_surface_set_image_description, .unset_image_description = cm_surface_unset_image_description, .get_preferred = cm_surface_get_preferred, }; /** * Notifies clients that their surface preferred image description changed. * * \param surface The surface that changed its preferred image description. */ void weston_surface_send_preferred_image_description_changed(struct weston_surface *surface) { struct wl_resource *res; /* For each resource, send the event that notifies that the surface * preferred image description changed. */ wl_resource_for_each(res, &surface->cm_surface_resource_list) xx_color_management_surface_v2_send_preferred_changed(res); } /** * Client called get_surface(). We already have the backing object, so just * create a resource for the client. */ static void cm_get_surface(struct wl_client *client, struct wl_resource *cm_res, uint32_t cm_surface_id, struct wl_resource *surface_res) { struct weston_surface *surface = wl_resource_get_user_data(surface_res); uint32_t version = wl_resource_get_version(cm_res); struct wl_resource *res; res = wl_resource_create(client, &xx_color_management_surface_v2_interface, version, cm_surface_id); if (!res) { wl_resource_post_no_memory(cm_res); return; } wl_resource_set_implementation(res, &cm_surface_implementation, surface, cm_surface_resource_destroy); wl_list_insert(&surface->cm_surface_resource_list, wl_resource_get_link(res)); } /** * Sets the ICC file for the ICC-based image description creator object. */ static void cm_creator_icc_set_icc_file(struct wl_client *client, struct wl_resource *resource, int32_t icc_profile_fd, uint32_t offset, uint32_t length) { struct cm_creator_icc *cm_creator_icc = wl_resource_get_user_data(resource); int flags; uint32_t err_code; const char *err_msg; if (cm_creator_icc->icc_data_length > 0) { err_code = XX_IMAGE_DESCRIPTION_CREATOR_ICC_V2_ERROR_ALREADY_SET; err_msg = "ICC file was already set"; goto err; } /* Length should be in the (0, 4MB] interval */ if (length == 0 || length > (4 * 1024 * 1024)) { err_code = XX_IMAGE_DESCRIPTION_CREATOR_ICC_V2_ERROR_BAD_SIZE; err_msg = "invalid ICC file size"; goto err; } /* Fd should be readable. */ flags = fcntl(icc_profile_fd, F_GETFL); if ((flags & O_ACCMODE) == O_WRONLY) { err_code = XX_IMAGE_DESCRIPTION_CREATOR_ICC_V2_ERROR_BAD_FD; err_msg = "ICC fd is not readable"; goto err; } /* Fd should be seekable. */ if (lseek(icc_profile_fd, 0, SEEK_CUR) < 0) { err_code = XX_IMAGE_DESCRIPTION_CREATOR_ICC_V2_ERROR_BAD_FD; err_msg = "ICC fd is not seekable"; goto err; } cm_creator_icc->icc_profile_fd = icc_profile_fd; /* We save length and offset in size_t variables. This ensures that they * fit. We received them as uint32_t from the protocol. */ static_assert(UINT32_MAX <= SIZE_MAX, "won't be able to save uint32_t var into size_t"); cm_creator_icc->icc_data_length = length; cm_creator_icc->icc_data_offset = offset; return; err: close(icc_profile_fd); wl_resource_post_error(resource, err_code, "%s", err_msg); } static bool do_length_and_offset_fit(struct cm_creator_icc *cm_creator_icc) { size_t end; off_t end_off; /* Ensure that length + offset doesn't overflow in size_t. If that isn't * true, we won't be able to make it fit into off_t. And we may need * that to read the ICC file. */ if (cm_creator_icc->icc_data_length > SIZE_MAX - cm_creator_icc->icc_data_offset) return false; /* Ensure that length + offset doesn't overflow in off_t. */ end = cm_creator_icc->icc_data_offset + cm_creator_icc->icc_data_length; end_off = end; if (end_off < 0 || end != (size_t)end_off) return false; return true; } static void create_image_description_color_profile_from_icc_creator(struct cm_image_desc *cm_image_desc, struct cm_creator_icc *cm_creator_icc) { struct weston_compositor *compositor = cm_creator_icc->compositor; struct weston_color_manager *cm = compositor->color_manager; struct weston_color_profile *cprof; char *err_msg; void *icc_prof_data; size_t bytes_read = 0; ssize_t pread_ret; bool ret; if (!do_length_and_offset_fit(cm_creator_icc)) { xx_image_description_v2_send_failed(cm_image_desc->owner, XX_IMAGE_DESCRIPTION_V2_CAUSE_OPERATING_SYSTEM, "length + offset does not fit off_t"); return; } /* Create buffer to read ICC profile. As they may have up to 4Mb, we * send OOM if something fails (instead of using xalloc). */ icc_prof_data = zalloc(cm_creator_icc->icc_data_length); if (!icc_prof_data) { wl_resource_post_no_memory(cm_creator_icc->owner); return; } /* Read ICC file. * * TODO: it is not that simple. Clients can abuse that to DoS the * compositor. See the discussion in the link below. * * https://gitlab.freedesktop.org/wayland/weston/-/merge_requests/1356#note_2125102 */ while (bytes_read < cm_creator_icc->icc_data_length) { pread_ret = pread(cm_creator_icc->icc_profile_fd, icc_prof_data + bytes_read, cm_creator_icc->icc_data_length - bytes_read, (off_t)cm_creator_icc->icc_data_offset + bytes_read); if (pread_ret < 0) { /* Failed to read but not an error (just interruption), * so continue trying to read. */ if (errno == EINTR) continue; /* Reading the ICC failed */ free(icc_prof_data); str_printf(&err_msg, "failed to read ICC file: %s", strerror(errno)); xx_image_description_v2_send_failed(cm_image_desc->owner, XX_IMAGE_DESCRIPTION_V2_CAUSE_OPERATING_SYSTEM, err_msg); free(err_msg); return; } else if (pread_ret == 0) { /* We were expecting to read more than 0 bytes, but we * didn't. That means that we've tried to read beyond * EOF. This is client's fault, it must make sure that * the given ICC file don't simply change. */ free(icc_prof_data); wl_resource_post_error(cm_creator_icc->owner, XX_IMAGE_DESCRIPTION_CREATOR_ICC_V2_ERROR_OUT_OF_FILE, "tried to read ICC beyond EOF"); return; } bytes_read += (size_t)pread_ret; } weston_assert_true(compositor, bytes_read == cm_creator_icc->icc_data_length); /* We've read the ICC file so let's create the color profile. */ ret = cm->get_color_profile_from_icc(cm, icc_prof_data, cm_creator_icc->icc_data_length, "icc-from-client", &cprof, &err_msg); free(icc_prof_data); if (!ret) { /* We can't tell if it is client's fault that the ICC profile is * invalid, so let's gracefully fail without returning a * protocol error. * * TODO: we need to return proper error codes from the * color-manager plugins and decide if we should gracefully fail * or return a protocol error. */ xx_image_description_v2_send_failed(cm_image_desc->owner, XX_IMAGE_DESCRIPTION_V2_CAUSE_UNSUPPORTED, err_msg); free(err_msg); return; } cm_image_desc->cprof = cprof; xx_image_description_v2_send_ready(cm_image_desc->owner, cm_image_desc->cprof->id); } /** * Creates image description using the ICC-based image description creator * object. This is a destructor type request, so the cm_creator_icc resource * gets destroyed after this. */ static void cm_creator_icc_create(struct wl_client *client, struct wl_resource *resource, uint32_t image_description_id) { struct cm_creator_icc *cm_creator_icc = wl_resource_get_user_data(resource); struct weston_compositor *compositor = cm_creator_icc->compositor; struct weston_color_manager *cm = compositor->color_manager; uint32_t version = wl_resource_get_version(cm_creator_icc->owner); struct cm_image_desc *cm_image_desc; if (cm_creator_icc->icc_data_length == 0) { wl_resource_post_error(resource, XX_IMAGE_DESCRIPTION_CREATOR_ICC_V2_ERROR_INCOMPLETE_SET, "trying to create image description before " \ "setting the ICC file"); return; } /* Create the image description with cprof == NULL. */ cm_image_desc = cm_image_desc_create(cm, NULL, client, version, image_description_id, NO_GET_INFO); if (!cm_image_desc) { wl_resource_post_no_memory(resource); return; } /* Create the cprof for the image description. */ create_image_description_color_profile_from_icc_creator(cm_image_desc, cm_creator_icc); /* Destroy the cm_creator_icc resource. This is a destructor request. */ wl_resource_destroy(cm_creator_icc->owner); } /** * Resource destruction function for the cm_creator_icc. * It should only destroy itself, but not the image description it creates. */ static void cm_creator_icc_destructor(struct wl_resource *resource) { struct cm_creator_icc *cm_creator_icc = wl_resource_get_user_data(resource); if (cm_creator_icc->icc_profile_fd >= 0) close(cm_creator_icc->icc_profile_fd); free(cm_creator_icc); } static const struct xx_image_description_creator_icc_v2_interface cm_creator_icc_implementation = { .create = cm_creator_icc_create, .set_icc_file = cm_creator_icc_set_icc_file, }; /** * Creates an ICC-based image description creator for the client. */ static void cm_new_image_description_creator_icc(struct wl_client *client, struct wl_resource *cm_res, uint32_t cm_creator_icc_id) { struct cm_creator_icc *cm_creator_icc; struct weston_compositor *compositor = wl_resource_get_user_data(cm_res); struct weston_color_manager *cm = compositor->color_manager; uint32_t version = wl_resource_get_version(cm_res); if (!((cm->supported_color_features >> WESTON_COLOR_FEATURE_ICC) & 1)) { wl_resource_post_error(cm_res, XX_COLOR_MANAGER_V2_ERROR_UNSUPPORTED_FEATURE, "creating ICC image description creator is " \ "still unsupported"); return; } cm_creator_icc = xzalloc(sizeof(*cm_creator_icc)); cm_creator_icc->compositor = compositor; cm_creator_icc->icc_profile_fd = -1; cm_creator_icc->owner = wl_resource_create(client, &xx_image_description_creator_icc_v2_interface, version, cm_creator_icc_id); if (!cm_creator_icc->owner) goto err; wl_resource_set_implementation(cm_creator_icc->owner, &cm_creator_icc_implementation, cm_creator_icc, cm_creator_icc_destructor); return; err: free(cm_creator_icc); wl_resource_post_no_memory(cm_res); } /** * Creates a parametric image description creator for the client. */ static void cm_new_image_description_creator_params(struct wl_client *client, struct wl_resource *cm_res, uint32_t cm_creator_params_id) { /* Still unsupported. */ wl_resource_post_error(cm_res, XX_COLOR_MANAGER_V2_ERROR_UNSUPPORTED_FEATURE, "creating parametric image description creator is " \ "still unsupported"); } /** * Client will not use the color management object anymore, so we destroy its * resource. That should not affect the other objects in any way. */ static void cm_destroy(struct wl_client *client, struct wl_resource *cm_res) { wl_resource_destroy(cm_res); } static const struct xx_color_manager_v2_interface color_manager_implementation = { .destroy = cm_destroy, .get_output = cm_get_output, .get_surface = cm_get_surface, .new_icc_creator = cm_new_image_description_creator_icc, .new_parametric_creator = cm_new_image_description_creator_params, }; /** * Called when clients bind to the color-management protocol. */ static void bind_color_management(struct wl_client *client, void *data, uint32_t version, uint32_t id) { struct wl_resource *resource; struct weston_compositor *compositor = data; struct weston_color_manager *cm = compositor->color_manager; const struct weston_color_feature_info *feature_info; const struct weston_render_intent_info *render_intent; unsigned int i; resource = wl_resource_create(client, &xx_color_manager_v2_interface, version, id); if (!resource) { wl_client_post_no_memory(client); return; } wl_resource_set_implementation(resource, &color_manager_implementation, compositor, NULL); /* Expose the supported color features to the client. */ for (i = 0; i < 32; i++) { if (!((cm->supported_color_features >> i) & 1)) continue; feature_info = weston_color_feature_info_from(compositor, i); xx_color_manager_v2_send_supported_feature(resource, feature_info->protocol_feature); } /* Expose the supported rendering intents to the client. */ for (i = 0; i < 32; i++) { if (!((cm->supported_rendering_intents >> i) & 1)) continue; render_intent = weston_render_intent_info_from(compositor, i); xx_color_manager_v2_send_supported_intent(resource, render_intent->protocol_intent); } } /** Advertise color-management support * * Calling this initializes the color-management protocol support, so that * xx_color_manager_v2_interface will be advertised to clients. Essentially it * creates a global. Do not call this function multiple times in the * compositor's lifetime. There is no way to deinit explicitly, globals will be * reaped when the wl_display gets destroyed. * * \param compositor The compositor to init for. * \return Zero on success, -1 on failure. */ int weston_compositor_enable_color_management_protocol(struct weston_compositor *compositor) { uint32_t version = 1; weston_assert_bit_is_set(compositor, compositor->color_manager->supported_rendering_intents, WESTON_RENDER_INTENT_PERCEPTUAL); if (!wl_global_create(compositor->wl_display, &xx_color_manager_v2_interface, version, compositor, bind_color_management)) return -1; return 0; }