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arm-trusted-firmware/common/desc_image_load.c
Antonio Nino Diaz 09d40e0e08 Sanitise includes across codebase 
Enforce full include path for includes. Deprecate old paths.

The following folders inside include/lib have been left unchanged:

- include/lib/cpus/${ARCH}
- include/lib/el3_runtime/${ARCH}

The reason for this change is that having a global namespace for
includes isn't a good idea. It defeats one of the advantages of having
folders and it introduces problems that are sometimes subtle (because
you may not know the header you are actually including if there are two
of them).

For example, this patch had to be created because two headers were
called the same way: e0ea0928d5 ("Fix gpio includes of mt8173 platform
to avoid collision."). More recently, this patch has had similar
problems: 46f9b2c3a2 ("drivers: add tzc380 support").

This problem was introduced in commit 4ecca33988 ("Move include and
source files to logical locations"). At that time, there weren't too
many headers so it wasn't a real issue. However, time has shown that
this creates problems.

Platforms that want to preserve the way they include headers may add the
removed paths to PLAT_INCLUDES, but this is discouraged.

Change-Id: I39dc53ed98f9e297a5966e723d1936d6ccf2fc8f
Signed-off-by: Antonio Nino Diaz <antonio.ninodiaz@arm.com>
2019-01-04 10:43:17 +00:00

260 lines
8.3 KiB
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/*
* Copyright (c) 2016-2018, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <assert.h>
#include <arch_helpers.h>
#include <common/bl_common.h>
#include <common/desc_image_load.h>
static bl_load_info_t bl_load_info;
static bl_params_t next_bl_params;
/*******************************************************************************
* This function flushes the data structures so that they are visible
* in memory for the next BL image.
******************************************************************************/
void flush_bl_params_desc(void)
{
flush_dcache_range((uintptr_t)bl_mem_params_desc_ptr,
sizeof(*bl_mem_params_desc_ptr) * bl_mem_params_desc_num);
flush_dcache_range((uintptr_t)&next_bl_params,
sizeof(next_bl_params));
}
/*******************************************************************************
* This function returns the index for given image_id, within the
* image descriptor array provided by bl_image_info_descs_ptr, if the
* image is found else it returns -1.
******************************************************************************/
int get_bl_params_node_index(unsigned int image_id)
{
unsigned int index;
assert(image_id != INVALID_IMAGE_ID);
for (index = 0U; index < bl_mem_params_desc_num; index++) {
if (bl_mem_params_desc_ptr[index].image_id == image_id)
return (int)index;
}
return -1;
}
/*******************************************************************************
* This function returns the pointer to `bl_mem_params_node_t` object for
* given image_id, within the image descriptor array provided by
* bl_mem_params_desc_ptr, if the image is found else it returns NULL.
******************************************************************************/
bl_mem_params_node_t *get_bl_mem_params_node(unsigned int image_id)
{
int index;
assert(image_id != INVALID_IMAGE_ID);
index = get_bl_params_node_index(image_id);
if (index >= 0)
return &bl_mem_params_desc_ptr[index];
else
return NULL;
}
/*******************************************************************************
* This function creates the list of loadable images, by populating and
* linking each `bl_load_info_node_t` type node, using the internal array
* of image descriptor provided by bl_mem_params_desc_ptr. It also populates
* and returns `bl_load_info_t` type structure that contains head of the list
* of loadable images.
******************************************************************************/
bl_load_info_t *get_bl_load_info_from_mem_params_desc(void)
{
unsigned int index = 0;
/* If there is no image to start with, return NULL */
if (bl_mem_params_desc_num == 0U)
return NULL;
/* Assign initial data structures */
bl_load_info_node_t *bl_node_info =
&bl_mem_params_desc_ptr[index].load_node_mem;
bl_load_info.head = bl_node_info;
SET_PARAM_HEAD(&bl_load_info, PARAM_BL_LOAD_INFO, VERSION_2, 0U);
/* Go through the image descriptor array and create the list */
for (; index < bl_mem_params_desc_num; index++) {
/* Populate the image information */
bl_node_info->image_id = bl_mem_params_desc_ptr[index].image_id;
bl_node_info->image_info = &bl_mem_params_desc_ptr[index].image_info;
/* Link next image if present */
if ((index + 1U) < bl_mem_params_desc_num) {
/* Get the memory and link the next node */
bl_node_info->next_load_info =
&bl_mem_params_desc_ptr[index + 1U].load_node_mem;
bl_node_info = bl_node_info->next_load_info;
}
}
return &bl_load_info;
}
/*******************************************************************************
* This function creates the list of executable images, by populating and
* linking each `bl_params_node_t` type node, using the internal array of
* image descriptor provided by bl_mem_params_desc_ptr. It also populates
* and returns `bl_params_t` type structure that contains head of the list
* of executable images.
******************************************************************************/
bl_params_t *get_next_bl_params_from_mem_params_desc(void)
{
unsigned int count;
unsigned int img_id = 0U;
unsigned int link_index = 0U;
bl_params_node_t *bl_current_exec_node = NULL;
bl_params_node_t *bl_last_exec_node = NULL;
bl_mem_params_node_t *desc_ptr;
/* If there is no image to start with, return NULL */
if (bl_mem_params_desc_num == 0U)
return NULL;
/* Get the list HEAD */
for (count = 0U; count < bl_mem_params_desc_num; count++) {
desc_ptr = &bl_mem_params_desc_ptr[count];
if ((EP_GET_EXE(desc_ptr->ep_info.h.attr) == EXECUTABLE) &&
(EP_GET_FIRST_EXE(desc_ptr->ep_info.h.attr) == EP_FIRST_EXE)) {
next_bl_params.head = &desc_ptr->params_node_mem;
link_index = count;
break;
}
}
/* Make sure we have a HEAD node */
assert(next_bl_params.head != NULL);
/* Populate the HEAD information */
SET_PARAM_HEAD(&next_bl_params, PARAM_BL_PARAMS, VERSION_2, 0U);
/*
* Go through the image descriptor array and create the list.
* This bounded loop is to make sure that we are not looping forever.
*/
for (count = 0U; count < bl_mem_params_desc_num; count++) {
desc_ptr = &bl_mem_params_desc_ptr[link_index];
/* Make sure the image is executable */
assert(EP_GET_EXE(desc_ptr->ep_info.h.attr) == EXECUTABLE);
/* Get the memory for current node */
bl_current_exec_node = &desc_ptr->params_node_mem;
/* Populate the image information */
bl_current_exec_node->image_id = desc_ptr->image_id;
bl_current_exec_node->image_info = &desc_ptr->image_info;
bl_current_exec_node->ep_info = &desc_ptr->ep_info;
if (bl_last_exec_node != NULL) {
/* Assert if loop detected */
assert(bl_last_exec_node->next_params_info == NULL);
/* Link the previous node to the current one */
bl_last_exec_node->next_params_info = bl_current_exec_node;
}
/* Update the last node */
bl_last_exec_node = bl_current_exec_node;
/* If no next hand-off image then break out */
img_id = desc_ptr->next_handoff_image_id;
if (img_id == INVALID_IMAGE_ID)
break;
/* Get the index for the next hand-off image */
link_index = get_bl_params_node_index(img_id);
assert((link_index > 0U) &&
(link_index < bl_mem_params_desc_num));
}
/* Invalid image is expected to terminate the loop */
assert(img_id == INVALID_IMAGE_ID);
return &next_bl_params;
}
/*******************************************************************************
* This function populates the entry point information with the corresponding
* config file for all executable BL images described in bl_params.
******************************************************************************/
void populate_next_bl_params_config(bl_params_t *bl2_to_next_bl_params)
{
bl_params_node_t *params_node;
unsigned int fw_config_id;
uintptr_t hw_config_base = 0, fw_config_base;
bl_mem_params_node_t *mem_params;
assert(bl2_to_next_bl_params != NULL);
/*
* Get the `bl_mem_params_node_t` corresponding to HW_CONFIG
* if available.
*/
mem_params = get_bl_mem_params_node(HW_CONFIG_ID);
if (mem_params != NULL)
hw_config_base = mem_params->image_info.image_base;
for (params_node = bl2_to_next_bl_params->head; params_node != NULL;
params_node = params_node->next_params_info) {
fw_config_base = 0;
switch (params_node->image_id) {
case BL31_IMAGE_ID:
fw_config_id = SOC_FW_CONFIG_ID;
break;
case BL32_IMAGE_ID:
fw_config_id = TOS_FW_CONFIG_ID;
break;
case BL33_IMAGE_ID:
fw_config_id = NT_FW_CONFIG_ID;
break;
default:
fw_config_id = INVALID_IMAGE_ID;
break;
}
if (fw_config_id != INVALID_IMAGE_ID) {
mem_params = get_bl_mem_params_node(fw_config_id);
if (mem_params != NULL)
fw_config_base = mem_params->image_info.image_base;
}
/*
* Pass hw and tb_fw config addresses to next images. NOTE - for
* EL3 runtime images (BL31 for AArch64 and BL32 for AArch32),
* arg0 is already used by generic code. Take care of not
* overwriting the previous initialisations.
*/
if (params_node == bl2_to_next_bl_params->head) {
if (params_node->ep_info->args.arg1 == 0U)
params_node->ep_info->args.arg1 =
fw_config_base;
if (params_node->ep_info->args.arg2 == 0U)
params_node->ep_info->args.arg2 =
hw_config_base;
} else {
if (params_node->ep_info->args.arg0 == 0U)
params_node->ep_info->args.arg0 =
fw_config_base;
if (params_node->ep_info->args.arg1 == 0U)
params_node->ep_info->args.arg1 =
hw_config_base;
}
}
}
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