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/*
* Copyright (c) 2023, Linaro Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch.h>
#include <assert.h>
#include <inttypes.h>
#include <string.h>
#include <common/debug.h>
#include <lib/transfer_list.h>
#include <lib/utils_def.h>
void transfer_list_dump(struct transfer_list_header *tl)
{
struct transfer_list_entry *te = NULL;
int i = 0;
if (!tl) {
return;
}
INFO("Dump transfer list:\n");
INFO("signature 0x%x\n", tl->signature);
INFO("checksum 0x%x\n", tl->checksum);
INFO("version 0x%x\n", tl->version);
INFO("hdr_size 0x%x\n", tl->hdr_size);
INFO("alignment 0x%x\n", tl->alignment);
INFO("size 0x%x\n", tl->size);
INFO("max_size 0x%x\n", tl->max_size);
INFO("flags 0x%x\n", tl->flags);
while (true) {
te = transfer_list_next(tl, te);
if (!te) {
break;
}
INFO("Entry %d:\n", i++);
INFO("tag_id 0x%x\n", te->tag_id);
INFO("hdr_size 0x%x\n", te->hdr_size);
INFO("data_size 0x%x\n", te->data_size);
INFO("data_addr 0x%lx\n",
(unsigned long)transfer_list_entry_data(te));
}
}
/*******************************************************************************
* Set the handoff arguments according to the transfer list payload
* Return pointer to the entry point info if arguments are set properly
* or NULL if not
******************************************************************************/
entry_point_info_t *
transfer_list_set_handoff_args(struct transfer_list_header *tl,
entry_point_info_t *ep_info)
{
struct transfer_list_entry *te = NULL;
void *dt = NULL;
if (!ep_info || !tl || transfer_list_check_header(tl) == TL_OPS_NON) {
return NULL;
}
te = transfer_list_find(tl, TL_TAG_FDT);
dt = transfer_list_entry_data(te);
ep_info->args.arg1 = TRANSFER_LIST_SIGNATURE |
REGISTER_CONVENTION_VERSION_MASK;
ep_info->args.arg3 = (uintptr_t)tl;
if (GET_RW(ep_info->spsr) == MODE_RW_32) {
/* aarch32 */
ep_info->args.arg0 = 0;
ep_info->args.arg2 = (uintptr_t)dt;
} else {
/* aarch64 */
ep_info->args.arg0 = (uintptr_t)dt;
ep_info->args.arg2 = 0;
}
return ep_info;
}
/*******************************************************************************
* Creating a transfer list in a reserved memory region specified
* Compliant to 2.4.5 of Firmware handoff specification (v0.9)
* Return pointer to the created transfer list or NULL on error
******************************************************************************/
struct transfer_list_header *transfer_list_init(void *addr, size_t max_size)
{
struct transfer_list_header *tl = addr;
if (!addr || max_size == 0) {
return NULL;
}
if (!is_aligned((uintptr_t)addr, 1 << TRANSFER_LIST_INIT_MAX_ALIGN) ||
!is_aligned(max_size, 1 << TRANSFER_LIST_INIT_MAX_ALIGN) ||
max_size < sizeof(*tl)) {
return NULL;
}
memset(tl, 0, max_size);
tl->signature = TRANSFER_LIST_SIGNATURE;
tl->version = TRANSFER_LIST_VERSION;
tl->hdr_size = sizeof(*tl);
tl->alignment = TRANSFER_LIST_INIT_MAX_ALIGN; /* initial max align */
tl->size = sizeof(*tl); /* initial size is the size of header */
tl->max_size = max_size;
tl->flags = TL_FLAGS_HAS_CHECKSUM;
transfer_list_update_checksum(tl);
return tl;
}
/*******************************************************************************
* Relocating a transfer list to a reserved memory region specified
* Compliant to 2.4.6 of Firmware handoff specification (v0.9)
* Return pointer to the relocated transfer list or NULL on error
******************************************************************************/
struct transfer_list_header *
transfer_list_relocate(struct transfer_list_header *tl, void *addr,
size_t max_size)
{
uintptr_t new_addr, align_mask, align_off;
struct transfer_list_header *new_tl;
uint32_t new_max_size;
if (!tl || !addr || max_size == 0) {
return NULL;
}
align_mask = (1 << tl->alignment) - 1;
align_off = (uintptr_t)tl & align_mask;
new_addr = ((uintptr_t)addr & ~align_mask) + align_off;
if (new_addr < (uintptr_t)addr) {
new_addr += (1 << tl->alignment);
}
new_max_size = max_size - (new_addr - (uintptr_t)addr);
/* the new space is not sufficient for the tl */
if (tl->size > new_max_size) {
return NULL;
}
new_tl = (struct transfer_list_header *)new_addr;
memmove(new_tl, tl, tl->size);
new_tl->max_size = new_max_size;
transfer_list_update_checksum(new_tl);
return new_tl;
}
/*******************************************************************************
* Verifying the header of a transfer list
* Compliant to 2.4.1 of Firmware handoff specification (v0.9)
* Return transfer list operation status code
******************************************************************************/
enum transfer_list_ops
transfer_list_check_header(const struct transfer_list_header *tl)
{
if (!tl) {
return TL_OPS_NON;
}
if (tl->signature != TRANSFER_LIST_SIGNATURE) {
ERROR("Bad transfer list signature %#" PRIx32 "\n",
tl->signature);
return TL_OPS_NON;
}
if (!tl->max_size) {
ERROR("Bad transfer list max size %#" PRIx32 "\n",
tl->max_size);
return TL_OPS_NON;
}
if (tl->size > tl->max_size) {
ERROR("Bad transfer list size %#" PRIx32 "\n", tl->size);
return TL_OPS_NON;
}
if (tl->hdr_size != sizeof(struct transfer_list_header)) {
ERROR("Bad transfer list header size %#" PRIx32 "\n",
tl->hdr_size);
return TL_OPS_NON;
}
if (!transfer_list_verify_checksum(tl)) {
ERROR("Bad transfer list checksum %#" PRIx32 "\n",
tl->checksum);
return TL_OPS_NON;
}
if (tl->version == 0) {
ERROR("Transfer list version is invalid\n");
return TL_OPS_NON;
} else if (tl->version == TRANSFER_LIST_VERSION) {
INFO("Transfer list version is valid for all operations\n");
return TL_OPS_ALL;
} else if (tl->version > TRANSFER_LIST_VERSION) {
INFO("Transfer list version is valid for read-only\n");
return TL_OPS_RO;
}
INFO("Old transfer list version is detected\n");
return TL_OPS_CUS;
}
/*******************************************************************************
* Enumerate the next transfer entry
* Return pointer to the next transfer entry or NULL on error
******************************************************************************/
struct transfer_list_entry *transfer_list_next(struct transfer_list_header *tl,
struct transfer_list_entry *last)
{
struct transfer_list_entry *te = NULL;
uintptr_t tl_ev = 0;
uintptr_t va = 0;
uintptr_t ev = 0;
size_t sz = 0;
if (!tl) {
return NULL;
}
tl_ev = (uintptr_t)tl + tl->size;
if (last) {
va = (uintptr_t)last;
/* check if the total size overflow */
if (add_overflow(last->hdr_size, last->data_size, &sz)) {
return NULL;
}
/* roundup to the next entry */
if (add_with_round_up_overflow(va, sz, TRANSFER_LIST_GRANULE,
&va)) {
return NULL;
}
} else {
va = (uintptr_t)tl + tl->hdr_size;
}
te = (struct transfer_list_entry *)va;
if (va + sizeof(*te) > tl_ev || te->hdr_size < sizeof(*te) ||
add_overflow(te->hdr_size, te->data_size, &sz) ||
add_overflow(va, sz, &ev) || ev > tl_ev) {
return NULL;
}
return te;
}
/*******************************************************************************
* Calculate the byte sum of a transfer list
* Return byte sum of the transfer list
******************************************************************************/
static uint8_t calc_byte_sum(const struct transfer_list_header *tl)
{
uint8_t *b = (uint8_t *)tl;
uint8_t cs = 0;
size_t n = 0;
for (n = 0; n < tl->size; n++) {
cs += b[n];
}
return cs;
}
/*******************************************************************************
* Update the checksum of a transfer list
* Return updated checksum of the transfer list
******************************************************************************/
void transfer_list_update_checksum(struct transfer_list_header *tl)
{
uint8_t cs;
if (!tl || !(tl->flags & TL_FLAGS_HAS_CHECKSUM)) {
return;
}
cs = calc_byte_sum(tl);
cs -= tl->checksum;
cs = 256 - cs;
tl->checksum = cs;
assert(transfer_list_verify_checksum(tl));
}
/*******************************************************************************
* Verify the checksum of a transfer list
* Return true if verified or false if not
******************************************************************************/
bool transfer_list_verify_checksum(const struct transfer_list_header *tl)
{
if (!tl) {
return false;
}
if (!(tl->flags & TL_FLAGS_HAS_CHECKSUM)) {
return true;
}
return !calc_byte_sum(tl);
}
/*******************************************************************************
* Update the data size of a transfer entry
* Return true on success or false on error
******************************************************************************/
bool transfer_list_set_data_size(struct transfer_list_header *tl,
struct transfer_list_entry *te,
uint32_t new_data_size)
{
uintptr_t tl_old_ev, new_ev = 0, old_ev = 0, ru_new_ev;
struct transfer_list_entry *dummy_te = NULL;
size_t gap = 0;
size_t mov_dis = 0;
size_t sz = 0;
if (!tl || !te) {
return false;
}
tl_old_ev = (uintptr_t)tl + tl->size;
/*
* calculate the old and new end of TE
* both must be roundup to align with TRANSFER_LIST_GRANULE
*/
if (add_overflow(te->hdr_size, te->data_size, &sz) ||
add_with_round_up_overflow((uintptr_t)te, sz, TRANSFER_LIST_GRANULE,
&old_ev)) {
return false;
}
if (add_overflow(te->hdr_size, new_data_size, &sz) ||
add_with_round_up_overflow((uintptr_t)te, sz, TRANSFER_LIST_GRANULE,
&new_ev)) {
return false;
}
if (new_ev > old_ev) {
/*
* move distance should be roundup
* to meet the requirement of TE data max alignment
* ensure that the increased size doesn't exceed
* the max size of TL
*/
mov_dis = new_ev - old_ev;
if (round_up_overflow(mov_dis, 1 << tl->alignment, &mov_dis) ||
tl->size + mov_dis > tl->max_size) {
return false;
}
ru_new_ev = old_ev + mov_dis;
memmove((void *)ru_new_ev, (void *)old_ev, tl_old_ev - old_ev);
tl->size += mov_dis;
gap = ru_new_ev - new_ev;
} else {
gap = old_ev - new_ev;
}
if (gap >= sizeof(*dummy_te)) {
/* create a dummy TE to fill up the gap */
dummy_te = (struct transfer_list_entry *)new_ev;
dummy_te->tag_id = TL_TAG_EMPTY;
dummy_te->reserved0 = 0;
dummy_te->hdr_size = sizeof(*dummy_te);
dummy_te->data_size = gap - sizeof(*dummy_te);
}
te->data_size = new_data_size;
transfer_list_update_checksum(tl);
return true;
}
/*******************************************************************************
* Remove a specified transfer entry from a transfer list
* Return true on success or false on error
******************************************************************************/
bool transfer_list_rem(struct transfer_list_header *tl,
struct transfer_list_entry *te)
{
if (!tl || !te || (uintptr_t)te > (uintptr_t)tl + tl->size) {
return false;
}
te->tag_id = TL_TAG_EMPTY;
te->reserved0 = 0;
transfer_list_update_checksum(tl);
return true;
}
/*******************************************************************************
* Add a new transfer entry into a transfer list
* Compliant to 2.4.3 of Firmware handoff specification (v0.9)
* Return pointer to the added transfer entry or NULL on error
******************************************************************************/
struct transfer_list_entry *transfer_list_add(struct transfer_list_header *tl,
uint16_t tag_id,
uint32_t data_size,
const void *data)
{
uintptr_t max_tl_ev, tl_ev, ev;
struct transfer_list_entry *te = NULL;
uint8_t *te_data = NULL;
size_t sz = 0;
if (!tl) {
return NULL;
}
max_tl_ev = (uintptr_t)tl + tl->max_size;
tl_ev = (uintptr_t)tl + tl->size;
ev = tl_ev;
/*
* skip the step 1 (optional step)
* new TE will be added into the tail
*/
if (add_overflow(sizeof(*te), data_size, &sz) ||
add_with_round_up_overflow(ev, sz, TRANSFER_LIST_GRANULE, &ev) ||
ev > max_tl_ev) {
return NULL;
}
te = (struct transfer_list_entry *)tl_ev;
te->tag_id = tag_id;
te->reserved0 = 0;
te->hdr_size = sizeof(*te);
te->data_size = data_size;
tl->size += ev - tl_ev;
if (data) {
/* get TE data pointer */
te_data = transfer_list_entry_data(te);
if (!te_data) {
return NULL;
}
memmove(te_data, data, data_size);
}
transfer_list_update_checksum(tl);
return te;
}
/*******************************************************************************
* Add a new transfer entry into a transfer list with specified new data
* alignment requirement
* Compliant to 2.4.4 of Firmware handoff specification (v0.9)
* Return pointer to the added transfer entry or NULL on error
******************************************************************************/
struct transfer_list_entry *
transfer_list_add_with_align(struct transfer_list_header *tl, uint16_t tag_id,
uint32_t data_size, const void *data,
uint8_t alignment)
{
struct transfer_list_entry *te = NULL;
uintptr_t tl_ev, ev, new_tl_ev;
size_t dummy_te_data_sz = 0;
if (!tl) {
return NULL;
}
tl_ev = (uintptr_t)tl + tl->size;
ev = tl_ev + sizeof(struct transfer_list_entry);
if (!is_aligned(ev, 1 << alignment)) {
/*
* TE data address is not aligned to the new alignment
* fill the gap with an empty TE as a placeholder before
* adding the desire TE
*/
new_tl_ev = round_up(ev, 1 << alignment) -
sizeof(struct transfer_list_entry);
dummy_te_data_sz =
new_tl_ev - tl_ev - sizeof(struct transfer_list_entry);
if (!transfer_list_add(tl, TL_TAG_EMPTY, dummy_te_data_sz,
NULL)) {
return NULL;
}
}
te = transfer_list_add(tl, tag_id, data_size, data);
if (alignment > tl->alignment) {
tl->alignment = alignment;
transfer_list_update_checksum(tl);
}
return te;
}
/*******************************************************************************
* Search for an existing transfer entry with the specified tag id from a
* transfer list
* Return pointer to the found transfer entry or NULL on error
******************************************************************************/
struct transfer_list_entry *transfer_list_find(struct transfer_list_header *tl,
uint16_t tag_id)
{
struct transfer_list_entry *te = NULL;
do {
te = transfer_list_next(tl, te);
} while (te && (te->tag_id != tag_id || te->reserved0 != 0));
return te;
}
/*******************************************************************************
* Retrieve the data pointer of a specified transfer entry
* Return pointer to the transfer entry data or NULL on error
******************************************************************************/
void *transfer_list_entry_data(struct transfer_list_entry *entry)
{
if (!entry) {
return NULL;
}
return (uint8_t *)entry + entry->hdr_size;
}