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182da6f2b8
The ACPI PRM address space handler calls efi_call_virt_pointer() to
execute PRM firmware code, but doing so is only permitted when the EFI
runtime environment is available. Otherwise, such calls are guaranteed
to result in a crash, and must therefore be avoided.
Given that the EFI runtime services may become unavailable after a crash
occurring in the firmware, we need to check this each time the PRM
address space handler is invoked. If the EFI runtime services were not
available at registration time to being with, don't install the address
space handler at all.
Fixes: cefc7ca462
("ACPI: PRM: implement OperationRegion handler for the PlatformRtMechanism subtype")
Signed-off-by: Ard Biesheuvel <ardb@kernel.org>
Cc: All applicable <stable@vger.kernel.org>
Signed-off-by: Rafael J. Wysocki <rafael.j.wysocki@intel.com>
345 lines
8.7 KiB
C
345 lines
8.7 KiB
C
// SPDX-License-Identifier: GPL-2.0-only
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/*
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* Author: Erik Kaneda <erik.kaneda@intel.com>
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* Copyright 2020 Intel Corporation
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*
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* prmt.c
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*
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* Each PRM service is an executable that is run in a restricted environment
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* that is invoked by writing to the PlatformRtMechanism OperationRegion from
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* AML bytecode.
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*
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* init_prmt initializes the Platform Runtime Mechanism (PRM) services by
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* processing data in the PRMT as well as registering an ACPI OperationRegion
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* handler for the PlatformRtMechanism subtype.
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*
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*/
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#include <linux/kernel.h>
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#include <linux/efi.h>
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#include <linux/acpi.h>
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#include <linux/prmt.h>
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#include <asm/efi.h>
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#pragma pack(1)
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struct prm_mmio_addr_range {
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u64 phys_addr;
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u64 virt_addr;
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u32 length;
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};
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struct prm_mmio_info {
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u64 mmio_count;
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struct prm_mmio_addr_range addr_ranges[];
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};
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struct prm_buffer {
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u8 prm_status;
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u64 efi_status;
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u8 prm_cmd;
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guid_t handler_guid;
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};
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struct prm_context_buffer {
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char signature[ACPI_NAMESEG_SIZE];
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u16 revision;
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u16 reserved;
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guid_t identifier;
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u64 static_data_buffer;
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struct prm_mmio_info *mmio_ranges;
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};
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#pragma pack()
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static LIST_HEAD(prm_module_list);
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struct prm_handler_info {
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guid_t guid;
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void *handler_addr;
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u64 static_data_buffer_addr;
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u64 acpi_param_buffer_addr;
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struct list_head handler_list;
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};
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struct prm_module_info {
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guid_t guid;
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u16 major_rev;
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u16 minor_rev;
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u16 handler_count;
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struct prm_mmio_info *mmio_info;
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bool updatable;
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struct list_head module_list;
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struct prm_handler_info handlers[];
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};
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static u64 efi_pa_va_lookup(u64 pa)
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{
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efi_memory_desc_t *md;
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u64 pa_offset = pa & ~PAGE_MASK;
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u64 page = pa & PAGE_MASK;
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for_each_efi_memory_desc(md) {
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if (md->phys_addr < pa && pa < md->phys_addr + PAGE_SIZE * md->num_pages)
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return pa_offset + md->virt_addr + page - md->phys_addr;
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}
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return 0;
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}
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#define get_first_handler(a) ((struct acpi_prmt_handler_info *) ((char *) (a) + a->handler_info_offset))
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#define get_next_handler(a) ((struct acpi_prmt_handler_info *) (sizeof(struct acpi_prmt_handler_info) + (char *) a))
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static int __init
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acpi_parse_prmt(union acpi_subtable_headers *header, const unsigned long end)
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{
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struct acpi_prmt_module_info *module_info;
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struct acpi_prmt_handler_info *handler_info;
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struct prm_handler_info *th;
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struct prm_module_info *tm;
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u64 *mmio_count;
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u64 cur_handler = 0;
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u32 module_info_size = 0;
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u64 mmio_range_size = 0;
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void *temp_mmio;
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module_info = (struct acpi_prmt_module_info *) header;
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module_info_size = struct_size(tm, handlers, module_info->handler_info_count);
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tm = kmalloc(module_info_size, GFP_KERNEL);
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if (!tm)
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goto parse_prmt_out1;
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guid_copy(&tm->guid, (guid_t *) module_info->module_guid);
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tm->major_rev = module_info->major_rev;
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tm->minor_rev = module_info->minor_rev;
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tm->handler_count = module_info->handler_info_count;
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tm->updatable = true;
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if (module_info->mmio_list_pointer) {
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/*
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* Each module is associated with a list of addr
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* ranges that it can use during the service
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*/
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mmio_count = (u64 *) memremap(module_info->mmio_list_pointer, 8, MEMREMAP_WB);
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if (!mmio_count)
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goto parse_prmt_out2;
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mmio_range_size = struct_size(tm->mmio_info, addr_ranges, *mmio_count);
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tm->mmio_info = kmalloc(mmio_range_size, GFP_KERNEL);
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if (!tm->mmio_info)
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goto parse_prmt_out3;
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temp_mmio = memremap(module_info->mmio_list_pointer, mmio_range_size, MEMREMAP_WB);
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if (!temp_mmio)
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goto parse_prmt_out4;
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memmove(tm->mmio_info, temp_mmio, mmio_range_size);
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} else {
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tm->mmio_info = kmalloc(sizeof(*tm->mmio_info), GFP_KERNEL);
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if (!tm->mmio_info)
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goto parse_prmt_out2;
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tm->mmio_info->mmio_count = 0;
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}
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INIT_LIST_HEAD(&tm->module_list);
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list_add(&tm->module_list, &prm_module_list);
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handler_info = get_first_handler(module_info);
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do {
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th = &tm->handlers[cur_handler];
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guid_copy(&th->guid, (guid_t *)handler_info->handler_guid);
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th->handler_addr = (void *)efi_pa_va_lookup(handler_info->handler_address);
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th->static_data_buffer_addr = efi_pa_va_lookup(handler_info->static_data_buffer_address);
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th->acpi_param_buffer_addr = efi_pa_va_lookup(handler_info->acpi_param_buffer_address);
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} while (++cur_handler < tm->handler_count && (handler_info = get_next_handler(handler_info)));
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return 0;
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parse_prmt_out4:
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kfree(tm->mmio_info);
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parse_prmt_out3:
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memunmap(mmio_count);
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parse_prmt_out2:
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kfree(tm);
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parse_prmt_out1:
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return -ENOMEM;
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}
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#define GET_MODULE 0
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#define GET_HANDLER 1
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static void *find_guid_info(const guid_t *guid, u8 mode)
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{
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struct prm_handler_info *cur_handler;
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struct prm_module_info *cur_module;
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int i = 0;
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list_for_each_entry(cur_module, &prm_module_list, module_list) {
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for (i = 0; i < cur_module->handler_count; ++i) {
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cur_handler = &cur_module->handlers[i];
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if (guid_equal(guid, &cur_handler->guid)) {
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if (mode == GET_MODULE)
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return (void *)cur_module;
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else
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return (void *)cur_handler;
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}
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}
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}
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return NULL;
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}
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static struct prm_module_info *find_prm_module(const guid_t *guid)
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{
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return (struct prm_module_info *)find_guid_info(guid, GET_MODULE);
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}
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static struct prm_handler_info *find_prm_handler(const guid_t *guid)
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{
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return (struct prm_handler_info *) find_guid_info(guid, GET_HANDLER);
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}
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/* In-coming PRM commands */
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#define PRM_CMD_RUN_SERVICE 0
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#define PRM_CMD_START_TRANSACTION 1
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#define PRM_CMD_END_TRANSACTION 2
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/* statuses that can be passed back to ASL */
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#define PRM_HANDLER_SUCCESS 0
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#define PRM_HANDLER_ERROR 1
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#define INVALID_PRM_COMMAND 2
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#define PRM_HANDLER_GUID_NOT_FOUND 3
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#define UPDATE_LOCK_ALREADY_HELD 4
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#define UPDATE_UNLOCK_WITHOUT_LOCK 5
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/*
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* This is the PlatformRtMechanism opregion space handler.
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* @function: indicates the read/write. In fact as the PlatformRtMechanism
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* message is driven by command, only write is meaningful.
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*
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* @addr : not used
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* @bits : not used.
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* @value : it is an in/out parameter. It points to the PRM message buffer.
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* @handler_context: not used
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*/
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static acpi_status acpi_platformrt_space_handler(u32 function,
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acpi_physical_address addr,
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u32 bits, acpi_integer *value,
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void *handler_context,
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void *region_context)
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{
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struct prm_buffer *buffer = ACPI_CAST_PTR(struct prm_buffer, value);
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struct prm_handler_info *handler;
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struct prm_module_info *module;
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efi_status_t status;
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struct prm_context_buffer context;
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if (!efi_enabled(EFI_RUNTIME_SERVICES)) {
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pr_err_ratelimited("PRM: EFI runtime services no longer available\n");
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return AE_NO_HANDLER;
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}
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/*
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* The returned acpi_status will always be AE_OK. Error values will be
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* saved in the first byte of the PRM message buffer to be used by ASL.
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*/
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switch (buffer->prm_cmd) {
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case PRM_CMD_RUN_SERVICE:
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handler = find_prm_handler(&buffer->handler_guid);
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module = find_prm_module(&buffer->handler_guid);
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if (!handler || !module)
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goto invalid_guid;
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ACPI_COPY_NAMESEG(context.signature, "PRMC");
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context.revision = 0x0;
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context.reserved = 0x0;
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context.identifier = handler->guid;
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context.static_data_buffer = handler->static_data_buffer_addr;
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context.mmio_ranges = module->mmio_info;
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status = efi_call_virt_pointer(handler, handler_addr,
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handler->acpi_param_buffer_addr,
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&context);
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if (status == EFI_SUCCESS) {
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buffer->prm_status = PRM_HANDLER_SUCCESS;
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} else {
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buffer->prm_status = PRM_HANDLER_ERROR;
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buffer->efi_status = status;
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}
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break;
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case PRM_CMD_START_TRANSACTION:
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module = find_prm_module(&buffer->handler_guid);
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if (!module)
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goto invalid_guid;
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if (module->updatable)
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module->updatable = false;
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else
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buffer->prm_status = UPDATE_LOCK_ALREADY_HELD;
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break;
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case PRM_CMD_END_TRANSACTION:
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module = find_prm_module(&buffer->handler_guid);
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if (!module)
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goto invalid_guid;
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if (module->updatable)
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buffer->prm_status = UPDATE_UNLOCK_WITHOUT_LOCK;
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else
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module->updatable = true;
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break;
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default:
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buffer->prm_status = INVALID_PRM_COMMAND;
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break;
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}
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return AE_OK;
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invalid_guid:
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buffer->prm_status = PRM_HANDLER_GUID_NOT_FOUND;
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return AE_OK;
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}
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void __init init_prmt(void)
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{
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struct acpi_table_header *tbl;
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acpi_status status;
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int mc;
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status = acpi_get_table(ACPI_SIG_PRMT, 0, &tbl);
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if (ACPI_FAILURE(status))
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return;
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mc = acpi_table_parse_entries(ACPI_SIG_PRMT, sizeof(struct acpi_table_prmt) +
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sizeof (struct acpi_table_prmt_header),
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0, acpi_parse_prmt, 0);
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acpi_put_table(tbl);
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/*
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* Return immediately if PRMT table is not present or no PRM module found.
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*/
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if (mc <= 0)
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return;
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pr_info("PRM: found %u modules\n", mc);
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if (!efi_enabled(EFI_RUNTIME_SERVICES)) {
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pr_err("PRM: EFI runtime services unavailable\n");
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return;
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}
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status = acpi_install_address_space_handler(ACPI_ROOT_OBJECT,
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ACPI_ADR_SPACE_PLATFORM_RT,
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&acpi_platformrt_space_handler,
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NULL, NULL);
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if (ACPI_FAILURE(status))
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pr_alert("PRM: OperationRegion handler could not be installed\n");
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}
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