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hekate/bootloader/hos/sept.c

263 lines
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6.3 KiB
C

/*
* Copyright (c) 2019 CTCaer
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <string.h>
#include "hos.h"
#include "fss.h"
#include "sept.h"
#include "../config.h"
#include <display/di.h>
#include <ianos/ianos.h>
#include <libs/fatfs/ff.h>
#include <mem/heap.h>
#include <soc/hw_init.h>
#include <soc/pmc.h>
#include <soc/t210.h>
#include "../storage/emummc.h"
#include "../storage/nx_emmc.h"
#include <storage/nx_sd.h>
#include <storage/sdmmc.h>
#include <utils/btn.h>
#include <utils/types.h>
#include <gfx_utils.h>
#define RELOC_META_OFF 0x7C
#define PATCHED_RELOC_SZ 0x94
#define WB_RST_ADDR 0x40010ED0
#define WB_RST_SIZE 0x30
u8 warmboot_reboot[] = {
0x14, 0x00, 0x9F, 0xE5, // LDR R0, =0x7000E450
0x01, 0x10, 0xB0, 0xE3, // MOVS R1, #1
0x00, 0x10, 0x80, 0xE5, // STR R1, [R0]
0x0C, 0x00, 0x9F, 0xE5, // LDR R0, =0x7000E400
0x10, 0x10, 0xB0, 0xE3, // MOVS R1, #0x10
0x00, 0x10, 0x80, 0xE5, // STR R1, [R0]
0xFE, 0xFF, 0xFF, 0xEA, // LOOP
0x50, 0xE4, 0x00, 0x70, // #0x7000E450
0x00, 0xE4, 0x00, 0x70 // #0x7000E400
};
#define SEPT_PRI_ADDR 0x4003F000
#define SEPT_PK1T_ADDR 0xC0400000
#define SEPT_TCSZ_ADDR (SEPT_PK1T_ADDR - 0x4)
#define SEPT_STG1_ADDR (SEPT_PK1T_ADDR + 0x2E100)
#define SEPT_STG2_ADDR (SEPT_PK1T_ADDR + 0x60E0)
#define SEPT_PKG_SZ (0x2F100 + WB_RST_SIZE)
extern boot_cfg_t b_cfg;
extern hekate_config h_cfg;
extern const volatile ipl_ver_meta_t ipl_ver;
extern bool is_ipl_updated(void *buf);
extern void reloc_patcher(u32 payload_dst, u32 payload_src, u32 payload_size);
void check_sept(ini_sec_t *cfg_sec)
{
if (h_cfg.t210b01)
{
h_cfg.sept_run = true;
return;
}
hos_eks_get();
// Check if non-hekate payload is used for sept and restore it.
if (h_cfg.sept_run)
{
if (!f_stat("sept/payload.bak", NULL))
{
f_unlink("sept/payload.bin");
f_rename("sept/payload.bak", "sept/payload.bin");
}
return;
}
u8 *pkg1 = (u8 *)calloc(1, 0x40000);
sdmmc_storage_t storage;
sdmmc_t sdmmc;
int res = emummc_storage_init_mmc(&storage, &sdmmc);
if (res)
{
if (res == 2)
EPRINTF("Failed to init eMMC");
else
EPRINTF("Failed to init emuMMC");
goto out_free;
}
emummc_storage_set_mmc_partition(&storage, EMMC_BOOT0);
// Read package1.
emummc_storage_read(&storage, 0x100000 / NX_EMMC_BLOCKSIZE, 0x40000 / NX_EMMC_BLOCKSIZE, pkg1);
const pkg1_id_t *pkg1_id = pkg1_identify(pkg1);
if (!pkg1_id)
{
EPRINTF("Unknown pkg1 version.");
goto out_free;
}
if (pkg1_id->kb >= KB_FIRMWARE_VERSION_700 && !h_cfg.sept_run)
{
u32 key_idx = 0;
if (pkg1_id->kb >= KB_FIRMWARE_VERSION_810)
key_idx = 1;
if (h_cfg.eks && h_cfg.eks->enabled[key_idx] >= pkg1_id->kb)
{
h_cfg.sept_run = true;
goto out_free;
}
sdmmc_storage_end(&storage);
reboot_to_sept((u8 *)pkg1 + pkg1_id->tsec_off, pkg1_id->kb, cfg_sec);
}
out_free:
free(pkg1);
sdmmc_storage_end(&storage);
}
int reboot_to_sept(const u8 *tsec_fw, u32 kb, ini_sec_t *cfg_sec)
{
FIL fp;
bool fss0_sept_used = false;
// Copy warmboot reboot code and TSEC fw.
u32 tsec_fw_size = 0x3000;
if (kb > KB_FIRMWARE_VERSION_700)
tsec_fw_size = 0x3300;
memcpy((u8 *)(SEPT_PK1T_ADDR - WB_RST_SIZE), (u8 *)warmboot_reboot, sizeof(warmboot_reboot));
memcpy((void *)SEPT_PK1T_ADDR, tsec_fw, tsec_fw_size);
*(vu32 *)SEPT_TCSZ_ADDR = tsec_fw_size;
if (cfg_sec)
{
fss0_sept_t sept_ctxt;
sept_ctxt.kb = kb;
sept_ctxt.cfg_sec = cfg_sec;
sept_ctxt.sept_primary = (void *)SEPT_STG1_ADDR;
sept_ctxt.sept_secondary = (void *)SEPT_STG2_ADDR;
fss0_sept_used = load_sept_from_ffs0(&sept_ctxt);
}
if (!fss0_sept_used)
{
// Copy sept-primary.
if (f_open(&fp, "sept/sept-primary.bin", FA_READ))
goto error;
if (f_read(&fp, (u8 *)SEPT_STG1_ADDR, f_size(&fp), NULL))
{
f_close(&fp);
goto error;
}
f_close(&fp);
// Copy sept-secondary.
if (kb < KB_FIRMWARE_VERSION_810)
{
if (f_open(&fp, "sept/sept-secondary_00.enc", FA_READ))
goto error;
}
else
{
if (f_open(&fp, "sept/sept-secondary_01.enc", FA_READ))
goto error;
}
if (f_read(&fp, (u8 *)SEPT_STG2_ADDR, f_size(&fp), NULL))
{
f_close(&fp);
goto error;
}
f_close(&fp);
}
b_cfg.boot_cfg |= (BOOT_CFG_AUTOBOOT_EN | BOOT_CFG_SEPT_RUN);
bool update_sept_payload = true;
if (!f_open(&fp, "sept/payload.bin", FA_READ | FA_WRITE))
{
ipl_ver_meta_t tmp_ver;
f_lseek(&fp, PATCHED_RELOC_SZ + sizeof(boot_cfg_t));
f_read(&fp, &tmp_ver, sizeof(ipl_ver_meta_t), NULL);
if (tmp_ver.magic == ipl_ver.magic)
{
if (tmp_ver.version == ipl_ver.version)
{
// Save auto boot config to sept payload, if any.
boot_cfg_t *tmp_cfg = malloc(sizeof(boot_cfg_t));
memcpy(tmp_cfg, &b_cfg, sizeof(boot_cfg_t));
f_lseek(&fp, PATCHED_RELOC_SZ);
f_write(&fp, tmp_cfg, sizeof(boot_cfg_t), NULL);
update_sept_payload = false;
}
f_close(&fp);
}
else
{
f_close(&fp);
f_rename("sept/payload.bin", "sept/payload.bak"); // Backup foreign payload.
}
}
if (update_sept_payload)
{
volatile reloc_meta_t *reloc = (reloc_meta_t *)(IPL_LOAD_ADDR + RELOC_META_OFF);
f_mkdir("sept");
f_open(&fp, "sept/payload.bin", FA_WRITE | FA_CREATE_ALWAYS);
f_write(&fp, (u8 *)reloc->start, reloc->end - reloc->start, NULL);
f_close(&fp);
}
sd_end();
u32 pk1t_sept = SEPT_PK1T_ADDR - (ALIGN(PATCHED_RELOC_SZ, 0x10) + WB_RST_SIZE);
void (*sept)() = (void *)pk1t_sept;
reloc_patcher(WB_RST_ADDR, pk1t_sept, SEPT_PKG_SZ);
// Patch SDRAM init to perform an SVC immediately after second write.
PMC(APBDEV_PMC_SCRATCH45) = 0x2E38DFFF;
PMC(APBDEV_PMC_SCRATCH46) = 0x6001DC28;
// Set SVC handler to jump to sept-primary in IRAM.
PMC(APBDEV_PMC_SCRATCH33) = SEPT_PRI_ADDR;
PMC(APBDEV_PMC_SCRATCH40) = 0x6000F208;
hw_reinit_workaround(false, 0);
(*sept)();
error:
gfx_con.mute = false;
EPRINTF("Failed to run sept\n");
btn_wait();
return 0;
}