acrn-hypervisor/efi-stub/efilinux.h

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/*
* Copyright (c) 2011, Intel Corporation
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer
* in the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Intel Corporation nor the names of its
* contributors may be used to endorse or promote products
* derived from this software without specific prior written
* permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
* OF THE POSSIBILITY OF SUCH DAMAGE.
*
* This file contains some wrappers around the gnu-efi functions. As
* we're not going through uefi_call_wrapper() directly, this allows
* us to get some type-safety for function call arguments and for the
* compiler to check that the number of function call arguments is
* correct.
*
* It's also a good place to document the EFI interface.
*/
#ifndef __EFILINUX_H__
#define __EFILINUX_H__
#define EFILINUX_VERSION_MAJOR 1
#define EFILINUX_VERSION_MINOR 0
#define MEM_ADDR_1MB (1U << 20U)
#define MEM_ADDR_4GB (0xFFFFFFFFU)
extern EFI_SYSTEM_TABLE *sys_table;
extern EFI_BOOT_SERVICES *boot;
extern EFI_STATUS
emalloc_reserved_aligned(EFI_PHYSICAL_ADDRESS *addr, UINTN size, UINTN align, EFI_PHYSICAL_ADDRESS maxaddr);
/**
* allocate_pages - Allocate memory pages from the system
* @atype: type of allocation to perform
* @mtype: type of memory to allocate
* @num_pages: number of contiguous 4KB pages to allocate
* @memory: used to return the address of allocated pages
*
* Allocate @num_pages physically contiguous pages from the system
* memory and return a pointer to the base of the allocation in
* @memory if the allocation succeeds. On success, the firmware memory
* map is updated accordingly.
*
* If @atype is AllocateAddress then, on input, @memory specifies the
* address at which to attempt to allocate the memory pages.
*/
static inline EFI_STATUS
allocate_pages(EFI_ALLOCATE_TYPE atype, EFI_MEMORY_TYPE mtype,
UINTN num_pages, EFI_PHYSICAL_ADDRESS *memory)
{
return uefi_call_wrapper(boot->AllocatePages, 4, atype,
mtype, num_pages, memory);
}
/**
* free_pages - Return memory allocated by allocate_pages() to the firmware
* @memory: physical base address of the page range to be freed
* @num_pages: number of contiguous 4KB pages to free
*
* On success, the firmware memory map is updated accordingly.
*/
static inline EFI_STATUS
free_pages(EFI_PHYSICAL_ADDRESS memory, UINTN num_pages)
{
return uefi_call_wrapper(boot->FreePages, 2, memory, num_pages);
}
/**
* allocate_pool - Allocate pool memory
* @type: the type of pool to allocate
* @size: number of bytes to allocate from pool of @type
* @buffer: used to return the address of allocated memory
*
* Allocate memory from pool of @type. If the pool needs more memory
* pages are allocated from EfiConventionalMemory in order to grow the
* pool.
*
* All allocations are eight-byte aligned.
*/
static inline EFI_STATUS
allocate_pool(EFI_MEMORY_TYPE type, UINTN size, void **buffer)
{
return uefi_call_wrapper(boot->AllocatePool, 3, type, size, buffer);
}
/**
* free_pool - Return pool memory to the system
* @buffer: the buffer to free
*
* Return @buffer to the system. The returned memory is marked as
* EfiConventionalMemory.
*/
static inline EFI_STATUS free_pool(void *buffer)
{
return uefi_call_wrapper(boot->FreePool, 1, buffer);
}
/**
* get_memory_map - Return the current memory map
* @size: the size in bytes of @map
* @map: buffer to hold the current memory map
* @key: used to return the key for the current memory map
* @descr_size: used to return the size in bytes of EFI_MEMORY_DESCRIPTOR
* @descr_version: used to return the version of EFI_MEMORY_DESCRIPTOR
*
* Get a copy of the current memory map. The memory map is an array of
* EFI_MEMORY_DESCRIPTORs. An EFI_MEMORY_DESCRIPTOR describes a
* contiguous block of memory.
*
* On success, @key is updated to contain an identifer for the current
* memory map. The firmware's key is changed every time something in
* the memory map changes. @size is updated to indicate the size of
* the memory map pointed to by @map.
*
* @descr_size and @descr_version are used to ensure backwards
* compatibility with future changes made to the EFI_MEMORY_DESCRIPTOR
* structure. @descr_size MUST be used when the size of an
* EFI_MEMORY_DESCRIPTOR is used in a calculation, e.g when iterating
* over an array of EFI_MEMORY_DESCRIPTORs.
*
* On failure, and if the buffer pointed to by @map is too small to
* hold the memory map, EFI_BUFFER_TOO_SMALL is returned and @size is
* updated to reflect the size of a buffer required to hold the memory
* map.
*/
static inline EFI_STATUS
get_memory_map(UINTN *size, EFI_MEMORY_DESCRIPTOR *map, UINTN *key,
UINTN *descr_size, UINT32 *descr_version)
{
return uefi_call_wrapper(boot->GetMemoryMap, 5, size, map,
key, descr_size, descr_version);
}
/**
* exit_boot_serivces - Terminate all boot services
* @image: firmware-allocated handle that identifies the image
* @key: key to the latest memory map
*
* This function is called when efilinux wants to take complete
* control of the system. efilinux should not make calls to boot time
* services after this function is called.
*/
static inline EFI_STATUS
exit_boot_services(EFI_HANDLE image, UINTN key)
{
return uefi_call_wrapper(boot->ExitBootServices, 2, image, key);
}
/**
* handle_protocol - Query @handle to see if it supports @protocol
* @handle: the handle being queried
* @protocol: the GUID of the protocol
* @interface: used to return the protocol interface
*
* Query @handle to see if @protocol is supported. If it is supported,
* @interface contains the protocol interface.
*/
static inline EFI_STATUS
handle_protocol(EFI_HANDLE handle, EFI_GUID *protocol, void **interface)
{
return uefi_call_wrapper(boot->HandleProtocol, 3,
handle, protocol, interface);
}
/*
* emalloc_reserved_mem - it is called to allocate memory hypervisor itself
* and trampoline code, and mark the allocate memory as EfiReserved memory
* type so that SOS won't touch it during boot.
* @addr: a pointer to the allocated address on success
* @size: size in bytes of the requested allocation
* @max_addr: the allocated memory must be no more than this threshold
*/
static inline EFI_STATUS emalloc_reserved_mem(EFI_PHYSICAL_ADDRESS *addr,
UINTN size, EFI_PHYSICAL_ADDRESS max_addr)
{
*addr = max_addr;
return allocate_pages(AllocateMaxAddress, EfiReservedMemoryType,
EFI_SIZE_TO_PAGES(size), addr);
}
/*
* emalloc_fixed_addr - it is called to allocate memory hypervisor itself
* when CONFIG_RELOC config is NOT enable.And mark the allocated memory as
* EfiReserved memory type so that SOS won't touch it during boot.
* @addr: a pointer to the allocated address on success
* @size: size in bytes of the requested allocation
*/
static inline EFI_STATUS emalloc_fixed_addr(EFI_PHYSICAL_ADDRESS *addr,
UINTN size, EFI_PHYSICAL_ADDRESS fixed_addr)
{
*addr = fixed_addr;
return allocate_pages(AllocateAddress, EfiReservedMemoryType,
EFI_SIZE_TO_PAGES(size), addr);
}
/**
* exit - Terminate a loaded EFI image
* @image: firmware-allocated handle that identifies the image
* @status: the image's exit code
* @size: size in bytes of @reason. Ignored if @status is EFI_SUCCESS
* @reason: a NUL-terminated status string, optionally followed by binary data
*
* This function terminates @image and returns control to the boot
* services. This function MUST NOT be called until all loaded child
* images have exited. All memory allocated by the image must be freed
* before calling this function, apart from the buffer @reason, which
* will be freed by the firmware.
*/
static inline EFI_STATUS
exit(EFI_HANDLE image, EFI_STATUS status, UINTN size, CHAR16 *reason)
{
return uefi_call_wrapper(boot->Exit, 4, image, status, size, reason);
}
#define PAGE_SIZE 4096
static const CHAR16 *memory_types[] = {
L"EfiReservedMemoryType",
L"EfiLoaderCode",
L"EfiLoaderData",
L"EfiBootServicesCode",
L"EfiBootServicesData",
L"EfiRuntimeServicesCode",
L"EfiRuntimeServicesData",
L"EfiConventionalMemory",
L"EfiUnusableMemory",
L"EfiACPIReclaimMemory",
L"EfiACPIMemoryNVS",
L"EfiMemoryMappedIO",
L"EfiMemoryMappedIOPortSpace",
L"EfiPalCode",
};
static inline const CHAR16 *memory_type_to_str(UINT32 type)
{
if (type > sizeof(memory_types)/sizeof(CHAR16 *))
return L"Unknown";
return memory_types[type];
}
extern EFI_STATUS memory_map(EFI_MEMORY_DESCRIPTOR **map_buf,
UINTN *map_size, UINTN *map_key,
UINTN *desc_size, UINT32 *desc_version);
#endif /* __EFILINUX_H__ */