nvdimm acpi: introduce fit buffer
The buffer is used to save the FIT info for all the presented nvdimm devices which is updated after the nvdimm device is plugged or unplugged. In the later patch, it will be used to construct NVDIMM ACPI _FIT method which reflects the presented nvdimm devices after nvdimm hotplug As FIT buffer can not completely mapped into guest address space, OSPM will exit to QEMU multiple times, however, there is the race condition - FIT may be changed during these multiple exits, so that some rules are introduced: 1) the user should hold the @lock to access the buffer and 2) mark @dirty whenever the buffer is updated. @dirty is cleared for the first time OSPM gets fit buffer, if dirty is detected in the later access, OSPM will restart the access As fit should be updated after nvdimm device is successfully realized so that a new hotplug callback, post_hotplug, is introduced Signed-off-by: Xiao Guangrong <guangrong.xiao@linux.intel.com> Reviewed-by: Michael S. Tsirkin <mst@redhat.com> Signed-off-by: Michael S. Tsirkin <mst@redhat.com>
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75b0713e18
@ -348,8 +348,9 @@ static void nvdimm_build_structure_dcr(GArray *structures, DeviceState *dev)
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(DSM) in DSM Spec Rev1.*/);
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}
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static GArray *nvdimm_build_device_structure(GSList *device_list)
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static GArray *nvdimm_build_device_structure(void)
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{
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GSList *device_list = nvdimm_get_plugged_device_list();
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GArray *structures = g_array_new(false, true /* clear */, 1);
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for (; device_list; device_list = device_list->next) {
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@ -367,28 +368,58 @@ static GArray *nvdimm_build_device_structure(GSList *device_list)
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/* build NVDIMM Control Region Structure. */
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nvdimm_build_structure_dcr(structures, dev);
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}
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g_slist_free(device_list);
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return structures;
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}
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static void nvdimm_build_nfit(GSList *device_list, GArray *table_offsets,
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static void nvdimm_init_fit_buffer(NvdimmFitBuffer *fit_buf)
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{
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qemu_mutex_init(&fit_buf->lock);
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fit_buf->fit = g_array_new(false, true /* clear */, 1);
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}
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static void nvdimm_build_fit_buffer(NvdimmFitBuffer *fit_buf)
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{
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qemu_mutex_lock(&fit_buf->lock);
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g_array_free(fit_buf->fit, true);
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fit_buf->fit = nvdimm_build_device_structure();
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fit_buf->dirty = true;
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qemu_mutex_unlock(&fit_buf->lock);
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}
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void nvdimm_acpi_hotplug(AcpiNVDIMMState *state)
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{
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nvdimm_build_fit_buffer(&state->fit_buf);
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}
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static void nvdimm_build_nfit(AcpiNVDIMMState *state, GArray *table_offsets,
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GArray *table_data, BIOSLinker *linker)
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{
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GArray *structures = nvdimm_build_device_structure(device_list);
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NvdimmFitBuffer *fit_buf = &state->fit_buf;
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unsigned int header;
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qemu_mutex_lock(&fit_buf->lock);
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/* NVDIMM device is not plugged? */
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if (!fit_buf->fit->len) {
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goto exit;
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}
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acpi_add_table(table_offsets, table_data);
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/* NFIT header. */
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header = table_data->len;
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acpi_data_push(table_data, sizeof(NvdimmNfitHeader));
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/* NVDIMM device structures. */
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g_array_append_vals(table_data, structures->data, structures->len);
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g_array_append_vals(table_data, fit_buf->fit->data, fit_buf->fit->len);
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build_header(linker, table_data,
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(void *)(table_data->data + header), "NFIT",
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sizeof(NvdimmNfitHeader) + structures->len, 1, NULL, NULL);
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g_array_free(structures, true);
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sizeof(NvdimmNfitHeader) + fit_buf->fit->len, 1, NULL, NULL);
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exit:
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qemu_mutex_unlock(&fit_buf->lock);
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}
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struct NvdimmDsmIn {
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@ -771,6 +802,8 @@ void nvdimm_init_acpi_state(AcpiNVDIMMState *state, MemoryRegion *io,
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acpi_data_push(state->dsm_mem, sizeof(NvdimmDsmIn));
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fw_cfg_add_file(fw_cfg, NVDIMM_DSM_MEM_FILE, state->dsm_mem->data,
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state->dsm_mem->len);
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nvdimm_init_fit_buffer(&state->fit_buf);
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}
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#define NVDIMM_COMMON_DSM "NCAL"
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@ -1045,25 +1078,17 @@ static void nvdimm_build_ssdt(GArray *table_offsets, GArray *table_data,
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}
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void nvdimm_build_acpi(GArray *table_offsets, GArray *table_data,
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BIOSLinker *linker, GArray *dsm_dma_arrea,
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BIOSLinker *linker, AcpiNVDIMMState *state,
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uint32_t ram_slots)
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{
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GSList *device_list;
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device_list = nvdimm_get_plugged_device_list();
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/* NVDIMM device is plugged. */
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if (device_list) {
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nvdimm_build_nfit(device_list, table_offsets, table_data, linker);
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g_slist_free(device_list);
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}
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nvdimm_build_nfit(state, table_offsets, table_data, linker);
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/*
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* NVDIMM device is allowed to be plugged only if there is available
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* slot.
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*/
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if (ram_slots) {
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nvdimm_build_ssdt(table_offsets, table_data, linker, dsm_dma_arrea,
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nvdimm_build_ssdt(table_offsets, table_data, linker, state->dsm_mem,
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ram_slots);
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}
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}
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@ -35,6 +35,17 @@ void hotplug_handler_plug(HotplugHandler *plug_handler,
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}
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}
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void hotplug_handler_post_plug(HotplugHandler *plug_handler,
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DeviceState *plugged_dev,
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Error **errp)
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{
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HotplugHandlerClass *hdc = HOTPLUG_HANDLER_GET_CLASS(plug_handler);
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if (hdc->post_plug) {
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hdc->post_plug(plug_handler, plugged_dev, errp);
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}
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}
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void hotplug_handler_unplug_request(HotplugHandler *plug_handler,
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DeviceState *plugged_dev,
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Error **errp)
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@ -945,10 +945,21 @@ static void device_set_realized(Object *obj, bool value, Error **errp)
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goto child_realize_fail;
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}
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}
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if (dev->hotplugged) {
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device_reset(dev);
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}
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dev->pending_deleted_event = false;
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dev->realized = value;
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if (hotplug_ctrl) {
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hotplug_handler_post_plug(hotplug_ctrl, dev, &local_err);
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}
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if (local_err != NULL) {
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dev->realized = value;
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goto post_realize_fail;
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}
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} else if (!value && dev->realized) {
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Error **local_errp = NULL;
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QLIST_FOREACH(bus, &dev->child_bus, sibling) {
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@ -965,13 +976,14 @@ static void device_set_realized(Object *obj, bool value, Error **errp)
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}
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dev->pending_deleted_event = true;
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DEVICE_LISTENER_CALL(unrealize, Reverse, dev);
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}
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if (local_err != NULL) {
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goto fail;
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}
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dev->realized = value;
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}
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return;
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child_realize_fail:
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@ -2811,7 +2811,7 @@ void acpi_build(AcpiBuildTables *tables, MachineState *machine)
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}
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if (pcms->acpi_nvdimm_state.is_enabled) {
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nvdimm_build_acpi(table_offsets, tables_blob, tables->linker,
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pcms->acpi_nvdimm_state.dsm_mem, machine->ram_slots);
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&pcms->acpi_nvdimm_state, machine->ram_slots);
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}
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/* Add tables supplied by user (if any) */
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19
hw/i386/pc.c
19
hw/i386/pc.c
@ -1721,6 +1721,16 @@ out:
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error_propagate(errp, local_err);
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}
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static void pc_dimm_post_plug(HotplugHandler *hotplug_dev,
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DeviceState *dev, Error **errp)
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{
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PCMachineState *pcms = PC_MACHINE(hotplug_dev);
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if (object_dynamic_cast(OBJECT(dev), TYPE_NVDIMM)) {
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nvdimm_acpi_hotplug(&pcms->acpi_nvdimm_state);
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}
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}
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static void pc_dimm_unplug_request(HotplugHandler *hotplug_dev,
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DeviceState *dev, Error **errp)
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{
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@ -1986,6 +1996,14 @@ static void pc_machine_device_plug_cb(HotplugHandler *hotplug_dev,
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}
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}
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static void pc_machine_device_post_plug_cb(HotplugHandler *hotplug_dev,
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DeviceState *dev, Error **errp)
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{
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if (object_dynamic_cast(OBJECT(dev), TYPE_PC_DIMM)) {
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pc_dimm_post_plug(hotplug_dev, dev, errp);
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}
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}
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static void pc_machine_device_unplug_request_cb(HotplugHandler *hotplug_dev,
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DeviceState *dev, Error **errp)
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{
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@ -2290,6 +2308,7 @@ static void pc_machine_class_init(ObjectClass *oc, void *data)
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mc->reset = pc_machine_reset;
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hc->pre_plug = pc_machine_device_pre_plug_cb;
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hc->plug = pc_machine_device_plug_cb;
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hc->post_plug = pc_machine_device_post_plug_cb;
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hc->unplug_request = pc_machine_device_unplug_request_cb;
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hc->unplug = pc_machine_device_unplug_cb;
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nc->nmi_monitor_handler = x86_nmi;
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* @parent: Opaque parent interface.
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* @pre_plug: pre plug callback called at start of device.realize(true)
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* @plug: plug callback called at end of device.realize(true).
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* @post_pug: post plug callback called after device is successfully plugged.
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* @unplug_request: unplug request callback.
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* Used as a means to initiate device unplug for devices that
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* require asynchronous unplug handling.
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@ -61,6 +62,7 @@ typedef struct HotplugHandlerClass {
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/* <public> */
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hotplug_fn pre_plug;
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hotplug_fn plug;
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hotplug_fn post_plug;
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hotplug_fn unplug_request;
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hotplug_fn unplug;
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} HotplugHandlerClass;
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@ -83,6 +85,14 @@ void hotplug_handler_pre_plug(HotplugHandler *plug_handler,
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DeviceState *plugged_dev,
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Error **errp);
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/**
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* hotplug_handler_post_plug:
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*
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* Call #HotplugHandlerClass.post_plug callback of @plug_handler.
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*/
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void hotplug_handler_post_plug(HotplugHandler *plug_handler,
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DeviceState *plugged_dev,
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Error **errp);
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/**
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* hotplug_handler_unplug_request:
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@ -98,12 +98,35 @@ typedef struct NVDIMMClass NVDIMMClass;
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#define NVDIMM_ACPI_IO_BASE 0x0a18
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#define NVDIMM_ACPI_IO_LEN 4
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/*
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* The buffer, @fit, saves the FIT info for all the presented NVDIMM
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* devices which is updated after the NVDIMM device is plugged or
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* unplugged.
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*
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* Rules to use the buffer:
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* 1) the user should hold the @lock to access the buffer.
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* 2) mark @dirty whenever the buffer is updated.
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*
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* These rules preserve NVDIMM ACPI _FIT method to read incomplete
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* or obsolete fit info if fit update happens during multiple RFIT
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* calls.
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*/
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struct NvdimmFitBuffer {
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QemuMutex lock;
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GArray *fit;
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bool dirty;
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};
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typedef struct NvdimmFitBuffer NvdimmFitBuffer;
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struct AcpiNVDIMMState {
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/* detect if NVDIMM support is enabled. */
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bool is_enabled;
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/* the data of the fw_cfg file NVDIMM_DSM_MEM_FILE. */
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GArray *dsm_mem;
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NvdimmFitBuffer fit_buf;
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/* the IO region used by OSPM to transfer control to QEMU. */
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MemoryRegion io_mr;
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};
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@ -112,6 +135,7 @@ typedef struct AcpiNVDIMMState AcpiNVDIMMState;
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void nvdimm_init_acpi_state(AcpiNVDIMMState *state, MemoryRegion *io,
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FWCfgState *fw_cfg, Object *owner);
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void nvdimm_build_acpi(GArray *table_offsets, GArray *table_data,
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BIOSLinker *linker, GArray *dsm_dma_arrea,
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BIOSLinker *linker, AcpiNVDIMMState *state,
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uint32_t ram_slots);
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void nvdimm_acpi_hotplug(AcpiNVDIMMState *state);
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#endif
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