mirror of
https://github.com/AsahiLinux/u-boot
synced 2024-12-24 12:03:39 +00:00
83d290c56f
When U-Boot started using SPDX tags we were among the early adopters and there weren't a lot of other examples to borrow from. So we picked the area of the file that usually had a full license text and replaced it with an appropriate SPDX-License-Identifier: entry. Since then, the Linux Kernel has adopted SPDX tags and they place it as the very first line in a file (except where shebangs are used, then it's second line) and with slightly different comment styles than us. In part due to community overlap, in part due to better tag visibility and in part for other minor reasons, switch over to that style. This commit changes all instances where we have a single declared license in the tag as both the before and after are identical in tag contents. There's also a few places where I found we did not have a tag and have introduced one. Signed-off-by: Tom Rini <trini@konsulko.com>
433 lines
11 KiB
C
433 lines
11 KiB
C
// SPDX-License-Identifier: Intel
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/*
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* Copyright (C) 2013, Intel Corporation
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* Copyright (C) 2014, Bin Meng <bmeng.cn@gmail.com>
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*/
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#include <common.h>
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#include <asm/fsp/fsp_support.h>
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#include <asm/post.h>
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/**
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* Compares two GUIDs
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*
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* If the GUIDs are identical then true is returned.
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* If there are any bit differences in the two GUIDs, then false is returned.
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*
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* @guid1: A pointer to a 128 bit GUID.
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* @guid2: A pointer to a 128 bit GUID.
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*
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* @retval true: guid1 and guid2 are identical.
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* @retval false: guid1 and guid2 are not identical.
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*/
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static bool compare_guid(const struct efi_guid *guid1,
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const struct efi_guid *guid2)
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{
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if (memcmp(guid1, guid2, sizeof(struct efi_guid)) == 0)
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return true;
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else
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return false;
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}
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struct fsp_header *__attribute__((optimize("O0"))) find_fsp_header(void)
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{
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/*
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* This function may be called before the a stack is established,
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* so special care must be taken. First, it cannot declare any local
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* variable using stack. Only register variable can be used here.
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* Secondly, some compiler version will add prolog or epilog code
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* for the C function. If so the function call may not work before
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* stack is ready.
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*
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* GCC 4.8.1 has been verified to be working for the following codes.
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*/
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volatile register u8 *fsp asm("eax");
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/* Initalize the FSP base */
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fsp = (u8 *)CONFIG_FSP_ADDR;
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/* Check the FV signature, _FVH */
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if (((struct fv_header *)fsp)->sign == EFI_FVH_SIGNATURE) {
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/* Go to the end of the FV header and align the address */
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fsp += ((struct fv_header *)fsp)->ext_hdr_off;
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fsp += ((struct fv_ext_header *)fsp)->ext_hdr_size;
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fsp = (u8 *)(((u32)fsp + 7) & 0xFFFFFFF8);
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} else {
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fsp = 0;
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}
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/* Check the FFS GUID */
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if (fsp &&
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((struct ffs_file_header *)fsp)->name.data1 == FSP_GUID_DATA1 &&
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((struct ffs_file_header *)fsp)->name.data2 == FSP_GUID_DATA2 &&
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((struct ffs_file_header *)fsp)->name.data3 == FSP_GUID_DATA3 &&
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((struct ffs_file_header *)fsp)->name.data4[0] == FSP_GUID_DATA4_0 &&
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((struct ffs_file_header *)fsp)->name.data4[1] == FSP_GUID_DATA4_1 &&
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((struct ffs_file_header *)fsp)->name.data4[2] == FSP_GUID_DATA4_2 &&
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((struct ffs_file_header *)fsp)->name.data4[3] == FSP_GUID_DATA4_3 &&
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((struct ffs_file_header *)fsp)->name.data4[4] == FSP_GUID_DATA4_4 &&
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((struct ffs_file_header *)fsp)->name.data4[5] == FSP_GUID_DATA4_5 &&
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((struct ffs_file_header *)fsp)->name.data4[6] == FSP_GUID_DATA4_6 &&
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((struct ffs_file_header *)fsp)->name.data4[7] == FSP_GUID_DATA4_7) {
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/* Add the FFS header size to find the raw section header */
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fsp += sizeof(struct ffs_file_header);
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} else {
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fsp = 0;
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}
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if (fsp &&
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((struct raw_section *)fsp)->type == EFI_SECTION_RAW) {
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/* Add the raw section header size to find the FSP header */
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fsp += sizeof(struct raw_section);
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} else {
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fsp = 0;
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}
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return (struct fsp_header *)fsp;
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}
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void fsp_continue(u32 status, void *hob_list)
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{
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post_code(POST_MRC);
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assert(status == 0);
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/* The boot loader main function entry */
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fsp_init_done(hob_list);
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}
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void fsp_init(u32 stack_top, u32 boot_mode, void *nvs_buf)
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{
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struct fsp_config_data config_data;
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fsp_init_f init;
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struct fsp_init_params params;
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struct fspinit_rtbuf rt_buf;
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struct fsp_header *fsp_hdr;
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struct fsp_init_params *params_ptr;
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#ifdef CONFIG_FSP_USE_UPD
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struct vpd_region *fsp_vpd;
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struct upd_region *fsp_upd;
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#endif
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fsp_hdr = find_fsp_header();
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if (fsp_hdr == NULL) {
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/* No valid FSP info header was found */
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panic("Invalid FSP header");
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}
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config_data.common.fsp_hdr = fsp_hdr;
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config_data.common.stack_top = stack_top;
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config_data.common.boot_mode = boot_mode;
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#ifdef CONFIG_FSP_USE_UPD
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/* Get VPD region start */
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fsp_vpd = (struct vpd_region *)(fsp_hdr->img_base +
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fsp_hdr->cfg_region_off);
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/* Verify the VPD data region is valid */
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assert(fsp_vpd->sign == VPD_IMAGE_ID);
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fsp_upd = &config_data.fsp_upd;
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/* Copy default data from Flash */
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memcpy(fsp_upd, (void *)(fsp_hdr->img_base + fsp_vpd->upd_offset),
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sizeof(struct upd_region));
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/* Verify the UPD data region is valid */
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assert(fsp_upd->terminator == UPD_TERMINATOR);
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#endif
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memset(&rt_buf, 0, sizeof(struct fspinit_rtbuf));
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/* Override any configuration if required */
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update_fsp_configs(&config_data, &rt_buf);
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memset(¶ms, 0, sizeof(struct fsp_init_params));
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params.nvs_buf = nvs_buf;
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params.rt_buf = (struct fspinit_rtbuf *)&rt_buf;
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params.continuation = (fsp_continuation_f)asm_continuation;
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init = (fsp_init_f)(fsp_hdr->img_base + fsp_hdr->fsp_init);
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params_ptr = ¶ms;
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post_code(POST_PRE_MRC);
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/* Load GDT for FSP */
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setup_fsp_gdt();
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/*
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* Use ASM code to ensure the register value in EAX & EDX
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* will be passed into fsp_continue
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*/
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asm volatile (
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"pushl %0;"
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"call *%%eax;"
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".global asm_continuation;"
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"asm_continuation:;"
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"movl 4(%%esp), %%eax;" /* status */
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"movl 8(%%esp), %%edx;" /* hob_list */
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"jmp fsp_continue;"
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: : "m"(params_ptr), "a"(init)
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);
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/*
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* Should never get here.
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* Control will continue from fsp_continue.
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* This line below is to prevent the compiler from optimizing
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* structure intialization.
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*
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* DO NOT REMOVE!
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*/
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init(¶ms);
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}
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u32 fsp_notify(struct fsp_header *fsp_hdr, u32 phase)
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{
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fsp_notify_f notify;
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struct fsp_notify_params params;
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struct fsp_notify_params *params_ptr;
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u32 status;
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if (!fsp_hdr)
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fsp_hdr = (struct fsp_header *)find_fsp_header();
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if (fsp_hdr == NULL) {
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/* No valid FSP info header */
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panic("Invalid FSP header");
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}
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notify = (fsp_notify_f)(fsp_hdr->img_base + fsp_hdr->fsp_notify);
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params.phase = phase;
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params_ptr = ¶ms;
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/*
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* Use ASM code to ensure correct parameter is on the stack for
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* FspNotify as U-Boot is using different ABI from FSP
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*/
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asm volatile (
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"pushl %1;" /* push notify phase */
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"call *%%eax;" /* call FspNotify */
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"addl $4, %%esp;" /* clean up the stack */
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: "=a"(status) : "m"(params_ptr), "a"(notify), "m"(*params_ptr)
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);
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return status;
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}
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u32 fsp_get_usable_lowmem_top(const void *hob_list)
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{
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const struct hob_header *hdr;
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struct hob_res_desc *res_desc;
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phys_addr_t phys_start;
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u32 top;
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#ifdef CONFIG_FSP_BROKEN_HOB
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struct hob_mem_alloc *res_mem;
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phys_addr_t mem_base = 0;
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#endif
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/* Get the HOB list for processing */
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hdr = hob_list;
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/* * Collect memory ranges */
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top = FSP_LOWMEM_BASE;
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while (!end_of_hob(hdr)) {
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if (hdr->type == HOB_TYPE_RES_DESC) {
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res_desc = (struct hob_res_desc *)hdr;
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if (res_desc->type == RES_SYS_MEM) {
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phys_start = res_desc->phys_start;
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/* Need memory above 1MB to be collected here */
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if (phys_start >= FSP_LOWMEM_BASE &&
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phys_start < (phys_addr_t)FSP_HIGHMEM_BASE)
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top += (u32)(res_desc->len);
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}
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}
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#ifdef CONFIG_FSP_BROKEN_HOB
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/*
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* Find out the lowest memory base address allocated by FSP
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* for the boot service data
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*/
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if (hdr->type == HOB_TYPE_MEM_ALLOC) {
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res_mem = (struct hob_mem_alloc *)hdr;
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if (!mem_base)
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mem_base = res_mem->mem_base;
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if (res_mem->mem_base < mem_base)
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mem_base = res_mem->mem_base;
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}
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#endif
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hdr = get_next_hob(hdr);
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}
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#ifdef CONFIG_FSP_BROKEN_HOB
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/*
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* Check whether the memory top address is below the FSP HOB list.
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* If not, use the lowest memory base address allocated by FSP as
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* the memory top address. This is to prevent U-Boot relocation
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* overwrites the important boot service data which is used by FSP,
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* otherwise the subsequent call to fsp_notify() will fail.
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*/
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if (top > (u32)hob_list) {
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debug("Adjust memory top address due to a buggy FSP\n");
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top = (u32)mem_base;
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}
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#endif
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return top;
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}
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u64 fsp_get_usable_highmem_top(const void *hob_list)
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{
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const struct hob_header *hdr;
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struct hob_res_desc *res_desc;
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phys_addr_t phys_start;
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u64 top;
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/* Get the HOB list for processing */
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hdr = hob_list;
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/* Collect memory ranges */
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top = FSP_HIGHMEM_BASE;
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while (!end_of_hob(hdr)) {
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if (hdr->type == HOB_TYPE_RES_DESC) {
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res_desc = (struct hob_res_desc *)hdr;
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if (res_desc->type == RES_SYS_MEM) {
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phys_start = res_desc->phys_start;
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/* Need memory above 4GB to be collected here */
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if (phys_start >= (phys_addr_t)FSP_HIGHMEM_BASE)
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top += (u32)(res_desc->len);
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}
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}
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hdr = get_next_hob(hdr);
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}
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return top;
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}
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u64 fsp_get_reserved_mem_from_guid(const void *hob_list, u64 *len,
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struct efi_guid *guid)
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{
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const struct hob_header *hdr;
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struct hob_res_desc *res_desc;
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/* Get the HOB list for processing */
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hdr = hob_list;
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/* Collect memory ranges */
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while (!end_of_hob(hdr)) {
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if (hdr->type == HOB_TYPE_RES_DESC) {
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res_desc = (struct hob_res_desc *)hdr;
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if (res_desc->type == RES_MEM_RESERVED) {
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if (compare_guid(&res_desc->owner, guid)) {
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if (len)
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*len = (u32)(res_desc->len);
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return (u64)(res_desc->phys_start);
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}
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}
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}
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hdr = get_next_hob(hdr);
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}
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return 0;
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}
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u32 fsp_get_fsp_reserved_mem(const void *hob_list, u32 *len)
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{
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const struct efi_guid guid = FSP_HOB_RESOURCE_OWNER_FSP_GUID;
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u64 length;
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u32 base;
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base = (u32)fsp_get_reserved_mem_from_guid(hob_list,
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&length, (struct efi_guid *)&guid);
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if ((len != 0) && (base != 0))
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*len = (u32)length;
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return base;
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}
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u32 fsp_get_tseg_reserved_mem(const void *hob_list, u32 *len)
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{
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const struct efi_guid guid = FSP_HOB_RESOURCE_OWNER_TSEG_GUID;
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u64 length;
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u32 base;
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base = (u32)fsp_get_reserved_mem_from_guid(hob_list,
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&length, (struct efi_guid *)&guid);
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if ((len != 0) && (base != 0))
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*len = (u32)length;
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return base;
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}
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const struct hob_header *fsp_get_next_hob(uint type, const void *hob_list)
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{
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const struct hob_header *hdr;
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hdr = hob_list;
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/* Parse the HOB list until end of list or matching type is found */
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while (!end_of_hob(hdr)) {
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if (hdr->type == type)
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return hdr;
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hdr = get_next_hob(hdr);
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}
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return NULL;
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}
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const struct hob_header *fsp_get_next_guid_hob(const struct efi_guid *guid,
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const void *hob_list)
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{
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const struct hob_header *hdr;
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struct hob_guid *guid_hob;
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hdr = hob_list;
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while ((hdr = fsp_get_next_hob(HOB_TYPE_GUID_EXT,
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hdr)) != NULL) {
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guid_hob = (struct hob_guid *)hdr;
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if (compare_guid(guid, &(guid_hob->name)))
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break;
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hdr = get_next_hob(hdr);
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}
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return hdr;
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}
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void *fsp_get_guid_hob_data(const void *hob_list, u32 *len,
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struct efi_guid *guid)
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{
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const struct hob_header *guid_hob;
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guid_hob = fsp_get_next_guid_hob(guid, hob_list);
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if (guid_hob == NULL) {
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return NULL;
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} else {
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if (len)
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*len = get_guid_hob_data_size(guid_hob);
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return get_guid_hob_data(guid_hob);
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}
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}
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void *fsp_get_nvs_data(const void *hob_list, u32 *len)
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{
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const struct efi_guid guid = FSP_NON_VOLATILE_STORAGE_HOB_GUID;
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return fsp_get_guid_hob_data(hob_list, len, (struct efi_guid *)&guid);
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}
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void *fsp_get_bootloader_tmp_mem(const void *hob_list, u32 *len)
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{
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const struct efi_guid guid = FSP_BOOTLOADER_TEMP_MEM_HOB_GUID;
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return fsp_get_guid_hob_data(hob_list, len, (struct efi_guid *)&guid);
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}
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void *fsp_get_graphics_info(const void *hob_list, u32 *len)
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{
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const struct efi_guid guid = FSP_GRAPHICS_INFO_HOB_GUID;
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return fsp_get_guid_hob_data(hob_list, len, (struct efi_guid *)&guid);
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}
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