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hafnium / hafnium / e1fa70b55d73272d3523f370c20eca69764960b8 / . / vmlib / ffa.c
blob: c32b2b6d86e04f83e5cd73d999af296f62e78c61 [file] [log] [blame]
/*
* Copyright 2019 The Hafnium Authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* https://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "hf/ffa.h"
#include <stddef.h>
#include "hf/types.h"
#if defined(__linux__) && defined(__KERNEL__)
#include <linux/kernel.h>
#include <linux/string.h>
#else
#include "hf/std.h"
#endif
/**
* Initialises the given `ffa_memory_region` and copies the constituent
* information to it. Returns the length in bytes occupied by the data copied to
* `memory_region` (attributes, constituents and memory region header size).
*/
static uint32_t ffa_memory_region_init_internal(
struct ffa_memory_region *memory_region, ffa_vm_id_t sender,
ffa_memory_attributes_t attributes, ffa_memory_region_flags_t flags,
ffa_memory_handle_t handle, uint32_t tag, ffa_vm_id_t receiver,
ffa_memory_access_permissions_t permissions,
const struct ffa_memory_region_constituent constituents[],
uint32_t constituent_count)
{
struct ffa_composite_memory_region *composite_memory_region;
uint32_t index;
uint32_t constituents_length =
constituent_count *
sizeof(struct ffa_memory_region_constituent);
memory_region->sender = sender;
memory_region->attributes = attributes;
memory_region->reserved_0 = 0;
memory_region->flags = flags;
memory_region->handle = handle;
memory_region->tag = tag;
memory_region->reserved_1 = 0;
memory_region->receiver_count = 1;
memory_region->receivers[0].receiver_permissions.receiver = receiver;
memory_region->receivers[0].receiver_permissions.permissions =
permissions;
memory_region->receivers[0].receiver_permissions.flags = 0;
/*
* Note that `sizeof(struct_ffa_memory_region)` and `sizeof(struct
* ffa_memory_access)` must both be multiples of 16 (as verified by the
* asserts in `ffa_memory.c`, so it is guaranteed that the offset we
* calculate here is aligned to a 64-bit boundary and so 64-bit values
* can be copied without alignment faults.
*/
memory_region->receivers[0].composite_memory_region_offset =
sizeof(struct ffa_memory_region) +
memory_region->receiver_count *
sizeof(struct ffa_memory_access);
memory_region->receivers[0].reserved_0 = 0;
composite_memory_region =
ffa_memory_region_get_composite(memory_region, 0);
composite_memory_region->page_count = 0;
composite_memory_region->constituent_count = constituent_count;
composite_memory_region->reserved_0 = 0;
for (index = 0; index < constituent_count; index++) {
composite_memory_region->constituents[index] =
constituents[index];
composite_memory_region->page_count +=
constituents[index].page_count;
}
/*
* TODO: Add assert ensuring that the specified message
* length is not greater than FFA_MSG_PAYLOAD_MAX.
*/
return memory_region->receivers[0].composite_memory_region_offset +
sizeof(struct ffa_composite_memory_region) + constituents_length;
}
/**
* Initialises the given `ffa_memory_region` and copies the constituent
* information to it. Returns the length in bytes occupied by the data copied to
* `memory_region` (attributes, constituents and memory region header size).
*/
uint32_t ffa_memory_region_init(
struct ffa_memory_region *memory_region, ffa_vm_id_t sender,
ffa_vm_id_t receiver,
const struct ffa_memory_region_constituent constituents[],
uint32_t constituent_count, uint32_t tag,
ffa_memory_region_flags_t flags, enum ffa_data_access data_access,
enum ffa_instruction_access instruction_access,
enum ffa_memory_type type, enum ffa_memory_cacheability cacheability,
enum ffa_memory_shareability shareability)
{
ffa_memory_access_permissions_t permissions = 0;
ffa_memory_attributes_t attributes = 0;
/* Set memory region's permissions. */
ffa_set_data_access_attr(&permissions, data_access);
ffa_set_instruction_access_attr(&permissions, instruction_access);
/* Set memory region's page attributes. */
ffa_set_memory_type_attr(&attributes, type);
ffa_set_memory_cacheability_attr(&attributes, cacheability);
ffa_set_memory_shareability_attr(&attributes, shareability);
return ffa_memory_region_init_internal(
memory_region, sender, attributes, flags, 0, tag, receiver,
permissions, constituents, constituent_count);
}
uint32_t ffa_memory_retrieve_request_init(
struct ffa_memory_region *memory_region, ffa_memory_handle_t handle,
ffa_vm_id_t sender, ffa_vm_id_t receiver, uint32_t tag,
ffa_memory_region_flags_t flags, enum ffa_data_access data_access,
enum ffa_instruction_access instruction_access,
enum ffa_memory_type type, enum ffa_memory_cacheability cacheability,
enum ffa_memory_shareability shareability)
{
ffa_memory_access_permissions_t permissions = 0;
ffa_memory_attributes_t attributes = 0;
/* Set memory region's permissions. */
ffa_set_data_access_attr(&permissions, data_access);
ffa_set_instruction_access_attr(&permissions, instruction_access);
/* Set memory region's page attributes. */
ffa_set_memory_type_attr(&attributes, type);
ffa_set_memory_cacheability_attr(&attributes, cacheability);
ffa_set_memory_shareability_attr(&attributes, shareability);
memory_region->sender = sender;
memory_region->attributes = attributes;
memory_region->reserved_0 = 0;
memory_region->flags = flags;
memory_region->reserved_1 = 0;
memory_region->handle = handle;
memory_region->tag = tag;
memory_region->receiver_count = 1;
memory_region->receivers[0].receiver_permissions.receiver = receiver;
memory_region->receivers[0].receiver_permissions.permissions =
permissions;
memory_region->receivers[0].receiver_permissions.flags = 0;
/*
* Offset 0 in this case means that the hypervisor should allocate the
* address ranges. This is the only configuration supported by Hafnium,
* as it enforces 1:1 mappings in the stage 2 page tables.
*/
memory_region->receivers[0].composite_memory_region_offset = 0;
memory_region->receivers[0].reserved_0 = 0;
return sizeof(struct ffa_memory_region) +
memory_region->receiver_count * sizeof(struct ffa_memory_access);
}
uint32_t ffa_memory_lender_retrieve_request_init(
struct ffa_memory_region *memory_region, ffa_memory_handle_t handle,
ffa_vm_id_t sender)
{
memory_region->sender = sender;
memory_region->attributes = 0;
memory_region->reserved_0 = 0;
memory_region->flags = 0;
memory_region->reserved_1 = 0;
memory_region->handle = handle;
memory_region->tag = 0;
memory_region->receiver_count = 0;
return sizeof(struct ffa_memory_region);
}
uint32_t ffa_retrieved_memory_region_init(
struct ffa_memory_region *response, size_t response_max_size,
ffa_vm_id_t sender, ffa_memory_attributes_t attributes,
ffa_memory_region_flags_t flags, ffa_memory_handle_t handle,
ffa_vm_id_t receiver, ffa_memory_access_permissions_t permissions,
const struct ffa_memory_region_constituent constituents[],
uint32_t constituent_count)
{
/* TODO: Check against response_max_size first. */
return ffa_memory_region_init_internal(
response, sender, attributes, flags, handle, 0, receiver,
permissions, constituents, constituent_count);
}