mirror of
https://github.com/fail0verflow/mini.git
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397 lines
9.7 KiB
C
397 lines
9.7 KiB
C
/*
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mini - a Free Software replacement for the Nintendo/BroadOn IOS.
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boot2 chainloader
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Copyright (C) 2008, 2009 Hector Martin "marcan" <marcan@marcansoft.com>
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Copyright (C) 2008, 2009 Sven Peter <svenpeter@gmail.com>
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Copyright (C) 2009 Andre Heider "dhewg" <dhewg@wiibrew.org>
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, version 2.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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#include "types.h"
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#include "nand.h"
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#include "memory.h"
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#include "crypto.h"
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#include "string.h"
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#include "gecko.h"
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#include "powerpc.h"
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#include "utils.h"
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static u8 boot2[0x80000] MEM2_BSS ALIGNED(64);
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static u8 boot2_key[32] MEM2_BSS ALIGNED(32);
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static u8 boot2_iv[32] MEM2_BSS ALIGNED(32);
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static u8 sector_buf[PAGE_SIZE] MEM2_BSS ALIGNED(64);
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static u8 ecc_buf[ECC_BUFFER_ALLOC] MEM2_BSS ALIGNED(128);
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static u8 boot2_initialized = 0;
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static u8 boot2_copy;
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static u8 pages_read;
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static u8 *page_ptr;
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typedef struct {
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u32 len;
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u32 data_offset;
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u32 certs_len;
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u32 tik_len;
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u32 tmd_len;
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u32 padding[3];
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} boot2header;
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typedef struct {
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u32 hdrsize;
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u32 loadersize;
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u32 elfsize;
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u32 argument;
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} ioshdr;
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typedef struct {
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u64 signature;
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u32 generation;
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u8 blocks[0x40];
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} __attribute__((packed)) boot2blockmap;
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typedef struct {
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u32 cid;
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u16 index;
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u16 type;
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u64 size;
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u8 hash[20];
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} __attribute__((packed)) tmd_content;
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typedef struct {
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u32 type;
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u8 sig[256];
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u8 fill[60];
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} __attribute__((packed)) sig_rsa2048;
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typedef struct {
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sig_rsa2048 signature;
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char issuer[0x40];
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u8 version;
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u8 ca_crl_version;
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u8 signer_crl_version;
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u8 fill2;
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u64 sys_version;
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u64 title_id;
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u32 title_type;
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u16 group_id;
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u16 zero;
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u16 region;
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u8 ratings[16];
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u8 reserved[42];
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u32 access_rights;
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u16 title_version;
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u16 num_contents;
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u16 boot_index;
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u16 fill3;
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tmd_content boot_content;
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} __attribute__((packed)) tmd;
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typedef struct _tik {
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sig_rsa2048 signature;
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char issuer[0x40];
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u8 fill[63];
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u8 cipher_title_key[16];
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u8 fill2;
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u64 ticketid;
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u32 devicetype;
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u64 titleid;
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u16 access_mask;
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u8 reserved[0x3c];
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u8 cidx_mask[0x40];
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u16 padding;
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u32 limits[16];
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} __attribute__((packed)) tik;
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static boot2blockmap good_blockmap MEM2_BSS;
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#define BLOCKMAP_SIGNATURE 0x26f29a401ee684cfULL
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#define BOOT2_START 1
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#define BOOT2_END 7
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static u8 boot2_blocks[BOOT2_END - BOOT2_START + 1];
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static u32 valid_blocks;
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static tmd boot2_tmd MEM2_BSS;
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static tik boot2_tik MEM2_BSS;
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static u8 *boot2_content;
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static u32 boot2_content_size;
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// find two equal valid blockmaps from a set of three, return one of them
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static int find_valid_map(const boot2blockmap *maps)
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{
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if(maps[0].signature == BLOCKMAP_SIGNATURE) {
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if(!memcmp(&maps[0],&maps[1],sizeof(boot2blockmap)))
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return 0;
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if(!memcmp(&maps[0],&maps[2],sizeof(boot2blockmap)))
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return 0;
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}
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if(maps[1].signature == BLOCKMAP_SIGNATURE) {
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if(!memcmp(&maps[1],&maps[2],sizeof(boot2blockmap)))
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return 1;
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}
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return -1;
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}
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// translate a page offset into boot2 to a real NAND page number using blockmap
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static inline u32 boot2_page_translate(u32 page)
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{
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u32 subpage = page % BLOCK_SIZE;
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u32 block = page / BLOCK_SIZE;
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return boot2_blocks[block] * BLOCK_SIZE + subpage;
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}
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// read boot2 up to the specified number of bytes (aligned to the next page)
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static int read_to(u32 bytes)
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{
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if(bytes > (valid_blocks * BLOCK_SIZE * PAGE_SIZE)) {
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gecko_printf("tried to read %d boot2 bytes (%d pages), but only %d blocks (%d pages) are valid!\n", bytes, (bytes+(PAGE_SIZE-1)) / PAGE_SIZE, valid_blocks, valid_blocks * BLOCK_SIZE);
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return -1;
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}
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while(bytes > pages_read * PAGE_SIZE) {
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u32 page = boot2_page_translate(pages_read);
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nand_read_page(page, page_ptr, ecc_buf);
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nand_wait();
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if(nand_correct(page, page_ptr, ecc_buf) < 0) {
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gecko_printf("boot2 page %d (NAND 0x%x) is uncorrectable\n", pages_read, page);
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return -1;
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}
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page_ptr += PAGE_SIZE;
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pages_read++;
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}
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return 0;
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}
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int boot2_load(int copy)
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{
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boot2blockmap *maps = (boot2blockmap*)sector_buf;
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u32 block;
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u32 page;
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int mapno;
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u32 found = 0;
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boot2header *hdr;
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u8 iv[16];
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boot2_content = NULL;
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boot2_content_size = 0;
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pages_read = 0;
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memset(&good_blockmap, 0, sizeof(boot2blockmap));
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valid_blocks = 0;
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// find the best blockmap
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for(block=BOOT2_START; block<=BOOT2_END; block++) {
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page = (block+1)*BLOCK_SIZE - 1;
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nand_read_page(page, sector_buf, ecc_buf);
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nand_wait();
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// boot1 doesn't actually do this, but it's probably a good idea to try to correct 1-bit errors anyway
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if(nand_correct(page, sector_buf, ecc_buf) < 0) {
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gecko_printf("boot2 map candidate page %d is uncorrectable, trying anyway\n", page);
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}
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mapno = find_valid_map(maps);
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if(mapno >= 0) {
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gecko_printf("found valid boot2 blockmap at page 0x%x, submap %d, generation %d\n", page, mapno, maps[mapno].generation);
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if(maps[mapno].generation >= good_blockmap.generation) {
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memcpy(&good_blockmap, &maps[mapno], sizeof(boot2blockmap));
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found = 1;
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}
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}
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}
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if(!found) {
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gecko_printf("no valid boot2 blockmap found!\n");
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return -1;
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}
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// traverse the blockmap and make a list of the actual boot2 blocks, in order
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if(copy == 0) {
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for(block=BOOT2_START; block<=BOOT2_END; block++) {
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if(good_blockmap.blocks[block] == 0x00) {
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boot2_blocks[valid_blocks++] = block;
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}
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}
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} else if(copy == 1) {
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for(block=BOOT2_END; block>=BOOT2_START; block--) {
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if(good_blockmap.blocks[block] == 0x00) {
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boot2_blocks[valid_blocks++] = block;
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}
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}
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} else {
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gecko_printf("invalid boot2 copy %d\n", copy);
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return -1;
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}
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gecko_printf("boot2 blocks:");
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for(block=0; block<valid_blocks; block++)
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gecko_printf(" %02x", boot2_blocks[block]);
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gecko_printf("\n");
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// read boot2 header
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page_ptr = boot2;
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if(read_to(sizeof(boot2header)) < 0) {
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gecko_printf("error while reading boot2 header");
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return -1;
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}
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hdr = (boot2header *)boot2;
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if(hdr->len != sizeof(boot2header)) {
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gecko_printf("invalid boot2 header size 0x%x\n", hdr->len);
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return -1;
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}
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if(hdr->tmd_len != sizeof(tmd)) {
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gecko_printf("boot2 tmd size mismatch: expected 0x%x, got 0x%x (more than one content?)\n", sizeof(tmd), hdr->tmd_len);
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return -1;
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}
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if(hdr->tik_len != sizeof(tik)) {
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gecko_printf("boot2 tik size mismatch: expected 0x%x, got 0x%x\n", sizeof(tik), hdr->tik_len);
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return -1;
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}
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// read tmd, tik, certs
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if(read_to(hdr->data_offset) < 0) {
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gecko_printf("error while reading boot2 certs/tmd/ticket");
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return -1;
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}
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memcpy(&boot2_tik, &boot2[hdr->len + hdr->certs_len], sizeof(tik));
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memcpy(&boot2_tmd, &boot2[hdr->len + hdr->certs_len + hdr->tik_len], sizeof(tmd));
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memset(iv, 0, 16);
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memcpy(iv, &boot2_tik.titleid, 8);
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aes_reset();
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aes_set_iv(iv);
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aes_set_key(otp.common_key);
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memcpy(boot2_key, &boot2_tik.cipher_title_key, 16);
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aes_decrypt(boot2_key, boot2_key, 1, 0);
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memset(boot2_iv, 0, 16);
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memcpy(boot2_iv, &boot2_tmd.boot_content.index, 2); //just zero anyway...
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u32 *kp = (u32*)boot2_key;
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gecko_printf("boot2 title key: %08x%08x%08x%08x\n", kp[0], kp[1], kp[2], kp[3]);
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boot2_content_size = (boot2_tmd.boot_content.size + 15) & ~15;
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gecko_printf("boot2 content size: 0x%x (padded: 0x%x)\n", (u32)boot2_tmd.boot_content.size, boot2_content_size);
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// read content
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if(read_to(hdr->data_offset + boot2_content_size) < 0) {
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gecko_printf("error while reading boot2 content");
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return -1;
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}
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boot2_content = &boot2[hdr->data_offset];
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boot2_copy = copy;
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gecko_printf("boot2 copy %d loaded to %p\n", copy, boot2);
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return 0;
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}
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void boot2_init() {
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boot2_copy = -1;
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boot2_initialized = 0;
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if(boot2_load(0) < 0) {
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gecko_printf("failed to load boot2 copy 0, trying copy 1...\n");
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if(boot2_load(1) < 0) {
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gecko_printf("failed to load boot2 copy 1!\n");
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return;
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}
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}
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// boot2 content flush would flush entire cache anyway so just do it all
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dc_flushall();
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boot2_initialized = 1;
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}
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static u32 match[] = {
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0xF7FFFFB8,
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0xBC024708,
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1,
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2,
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};
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static u32 patch[] = {
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0xF7FFFFB8,
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0xBC024708,
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0x10001,
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0x48415858,
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};
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u32 boot2_run(u32 tid_hi, u32 tid_lo) {
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u8 *ptr;
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int i;
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ioshdr *hdr;
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patch[2] = tid_hi;
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patch[3] = tid_lo;
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gecko_printf("booting boot2 with title %08x-%08x\n", tid_hi, tid_lo);
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mem_protect(1, (void *)0x11000000, (void *)0x13FFFFFF);
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aes_reset();
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aes_set_iv(boot2_iv);
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aes_set_key(boot2_key);
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aes_decrypt(boot2_content, (void *)0x11000000, boot2_content_size / 16, 0);
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hdr = (ioshdr *)0x11000000;
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ptr = (u8 *)0x11000000 + hdr->hdrsize + hdr->loadersize;
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for (i = 0; i < sizeof(boot2); i += 1) {
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if (memcmp(ptr+i, match, sizeof(match)) == 0) {
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memcpy(ptr+i, patch, sizeof(patch));
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gecko_printf("patched data @%08x\n", (u32)ptr+i);
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}
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}
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hdr->argument = 0x42;
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u32 vector = 0x11000000 + hdr->hdrsize;
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gecko_printf("boot2 is at 0x%08x\n", vector);
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return vector;
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}
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u32 boot2_ipc(volatile ipc_request *req)
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{
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u32 vector = 0;
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switch (req->req) {
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case IPC_BOOT2_RUN:
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if(boot2_initialized) {
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// post first so that the memory protection doesn't kill IPC for the PowerPC
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ipc_post(req->code, req->tag, 1, boot2_copy);
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ipc_flush();
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vector = boot2_run((u32)req->args[0], (u32)req->args[1]);
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} else {
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ipc_post(req->code, req->tag, 1, -1);
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}
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break;
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case IPC_BOOT2_TMD:
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if (boot2_initialized)
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ipc_post(req->code, req->tag, 1, &boot2_tmd);
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else
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ipc_post(req->code, req->tag, 1, -1);
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break;
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default:
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gecko_printf("IPC: unknown SLOW BOOT2 request %04X\n", req->req);
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}
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return vector;
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}
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