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/*
* 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/api.h"
#include "hf/dlog.h"
#include "hf/spci_internal.h"
#include "hf/std.h"
/**
* Check if the message length and the number of memory region constituents
* match, if the check is correct call the memory sharing routine.
*/
static spci_return_t spci_validate_call_share_memory(
struct vm_locked to_locked, struct vm_locked from_locked,
struct spci_memory_region *memory_region, uint32_t memory_share_size,
uint32_t memory_to_attributes, enum spci_memory_share share)
{
uint32_t max_count = memory_region->count;
/*
* Ensure the number of constituents are within the memory
* bounds.
*/
if (memory_share_size !=
sizeof(struct spci_memory_region) +
(sizeof(struct spci_memory_region_constituent) *
max_count)) {
return SPCI_INVALID_PARAMETERS;
}
return api_spci_share_memory(to_locked, from_locked, memory_region,
memory_to_attributes, share);
}
/**
* Performs initial architected message information parsing. Calls the
* corresponding api functions implementing the functionality requested
* in the architected message.
*/
spci_return_t spci_msg_handle_architected_message(
struct vm_locked to_locked, struct vm_locked from_locked,
const struct spci_architected_message_header
*architected_message_replica,
struct spci_message *from_msg_replica, struct spci_message *to_msg)
{
int64_t ret;
struct spci_memory_region *memory_region;
uint32_t to_mode;
uint32_t message_type;
uint32_t memory_share_size;
message_type = architected_message_replica->type;
switch (message_type) {
case SPCI_MEMORY_DONATE:
memory_region = (struct spci_memory_region *)
architected_message_replica->payload;
memory_share_size =
from_msg_replica->length -
sizeof(struct spci_architected_message_header);
/* TODO: Add memory attributes. */
to_mode = MM_MODE_R | MM_MODE_W | MM_MODE_X;
ret = spci_validate_call_share_memory(
to_locked, from_locked, memory_region,
memory_share_size, to_mode, message_type);
break;
default:
dlog("Invalid memory sharing message.\n");
return SPCI_INVALID_PARAMETERS;
}
/* Copy data to the destination Rx. */
/*
* TODO: Translate the <from> IPA addresses to <to> IPA addresses.
* Currently we assume identity mapping of the stage 2 translation.
* Removing this assumption relies on a mechanism to handle scenarios
* where the memory region fits in the source Tx buffer but cannot fit
* in the destination Rx buffer. This mechanism will be defined at the
* spec level.
*/
if (ret == SPCI_SUCCESS) {
memcpy_s(to_msg->payload, SPCI_MSG_PAYLOAD_MAX,
architected_message_replica, from_msg_replica->length);
}
*to_msg = *from_msg_replica;
return ret;
}
/**
* Obtain the next mode to apply to the two VMs.
*
* Returns:
* The error code -1 indicates that a state transition was not found.
* Success is indicated by 0.
*/
static bool spci_msg_get_next_state(
const struct spci_mem_transitions *transitions,
uint32_t transition_count, uint32_t memory_to_attributes,
int orig_from_mode, int orig_to_mode, int *from_mode, int *to_mode)
{
const uint32_t state_mask =
MM_MODE_INVALID | MM_MODE_UNOWNED | MM_MODE_SHARED;
const uint32_t orig_from_state = orig_from_mode & state_mask;
for (uint32_t index = 0; index < transition_count; index++) {
uint32_t table_orig_from_mode =
transitions[index].orig_from_mode;
uint32_t table_orig_to_mode = transitions[index].orig_to_mode;
if (((orig_from_state) == table_orig_from_mode) &&
((orig_to_mode & state_mask) == table_orig_to_mode)) {
*to_mode = transitions[index].to_mode |
memory_to_attributes;
/*
* TODO: Change access permission assignment to cater
* for the lend case.
*/
*from_mode = transitions[index].from_mode;
return true;
}
}
return false;
}
/**
* Verify that all pages have the same mode, that the starting mode
* constitutes a valid state and obtain the next mode to apply
* to the two VMs.
*
* Returns:
* The error code false indicates that:
* 1) a state transition was not found;
* 2) the pages being shared do not have the same mode within the <to>
* or <form> VMs;
* 3) The beginning and end IPAs are not page aligned;
* 4) The requested share type was not handled.
* Success is indicated by true.
*
*/
bool spci_msg_check_transition(struct vm *to, struct vm *from,
enum spci_memory_share share,
int *orig_from_mode, ipaddr_t begin,
ipaddr_t end, uint32_t memory_to_attributes,
int *from_mode, int *to_mode)
{
int orig_to_mode;
const struct spci_mem_transitions *mem_transition_table;
uint32_t transition_table_size;
/*
* TODO: Transition table does not currently consider the multiple
* shared case.
*/
static const struct spci_mem_transitions donate_transitions[] = {
{
/* 1) {O-EA, !O-NA} -> {!O-NA, O-EA} */
.orig_from_mode = 0,
.orig_to_mode = MM_MODE_INVALID | MM_MODE_UNOWNED,
.from_mode = MM_MODE_INVALID | MM_MODE_UNOWNED,
.to_mode = 0,
},
{
/* 2) {O-NA, !O-EA} -> {!O-NA, O-EA} */
.orig_from_mode = MM_MODE_INVALID,
.orig_to_mode = MM_MODE_UNOWNED,
.from_mode = MM_MODE_INVALID | MM_MODE_UNOWNED,
.to_mode = 0,
},
{
/* 3) {O-SA, !O-SA} -> {!O-NA, O-EA} */
.orig_from_mode = MM_MODE_SHARED,
.orig_to_mode = MM_MODE_UNOWNED | MM_MODE_SHARED,
.from_mode = MM_MODE_INVALID | MM_MODE_UNOWNED,
.to_mode = 0,
},
{
/*
* Duplicate of 1) in order to cater for an alternative
* representation of !O-NA:
* (INVALID | UNOWNED | SHARED) and (INVALID | UNOWNED)
* are both alternate representations of !O-NA.
*/
/* 4) {O-EA, !O-NA} -> {!O-NA, O-EA} */
.orig_from_mode = 0,
.orig_to_mode = MM_MODE_INVALID | MM_MODE_UNOWNED |
MM_MODE_SHARED,
.from_mode = MM_MODE_INVALID | MM_MODE_UNOWNED |
MM_MODE_SHARED,
.to_mode = 0,
},
};
static const uint32_t size_donate_transitions =
ARRAY_SIZE(donate_transitions);
/* Fail if addresses are not page-aligned. */
if (!is_aligned(ipa_addr(begin), PAGE_SIZE) ||
!is_aligned(ipa_addr(end), PAGE_SIZE)) {
return false;
}
/*
* Ensure that the memory range is mapped with the same
* mode.
*/
if (!mm_vm_get_mode(&from->ptable, begin, end, orig_from_mode) ||
!mm_vm_get_mode(&to->ptable, begin, end, &orig_to_mode)) {
return false;
}
switch (share) {
case SPCI_MEMORY_DONATE:
mem_transition_table = donate_transitions;
transition_table_size = size_donate_transitions;
break;
default:
return false;
}
return spci_msg_get_next_state(mem_transition_table,
transition_table_size,
memory_to_attributes, *orig_from_mode,
orig_to_mode, from_mode, to_mode);
}