211 lines
5.6 KiB
C
211 lines
5.6 KiB
C
/*
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* Copyright (c) 2018 naehrwert
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* Copyright (c) 2018-2020 CTCaer
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* Copyright (c) 2018 Atmosphère-NX
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms and conditions of the GNU General Public License,
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* version 2, as published by the Free Software Foundation.
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*
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* This program is distributed in the hope it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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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, see <http://www.gnu.org/licenses/>.
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*/
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#include <string.h>
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#include "pkg2.h"
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#include "../utils/aarch64_util.h"
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#include "../mem/heap.h"
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#include "../sec/se.h"
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#include "../libs/compr/blz.h"
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#include "../gfx/gfx.h"
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u32 pkg2_newkern_ini1_val;
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u32 pkg2_newkern_ini1_start;
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u32 pkg2_newkern_ini1_end;
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/*#include "util.h"
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#define DPRINTF(...) gfx_printf(__VA_ARGS__)
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#define DEBUG_PRINTING*/
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#define DPRINTF(...)
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static u32 _pkg2_calc_kip1_size(pkg2_kip1_t *kip1)
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{
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u32 size = sizeof(pkg2_kip1_t);
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for (u32 j = 0; j < KIP1_NUM_SECTIONS; j++)
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size += kip1->sections[j].size_comp;
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return size;
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}
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void pkg2_get_newkern_info(u8 *kern_data)
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{
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u32 pkg2_newkern_ini1_off = 0;
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pkg2_newkern_ini1_start = 0;
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// Find static OP offset that is close to INI1 offset.
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u32 counter_ops = 0x100;
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while (counter_ops)
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{
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if (*(u32 *)(kern_data + 0x100 - counter_ops) == PKG2_NEWKERN_GET_INI1_HEURISTIC)
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{
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pkg2_newkern_ini1_off = 0x100 - counter_ops + 12; // OP found. Add 12 for the INI1 offset.
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break;
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}
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counter_ops -= 4;
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}
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// Offset not found?
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if (!counter_ops)
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return;
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u32 info_op = *(u32 *)(kern_data + pkg2_newkern_ini1_off);
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pkg2_newkern_ini1_val = ((info_op & 0xFFFF) >> 3) + pkg2_newkern_ini1_off; // Parse ADR and PC.
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pkg2_newkern_ini1_start = *(u32 *)(kern_data + pkg2_newkern_ini1_val);
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pkg2_newkern_ini1_end = *(u32 *)(kern_data + pkg2_newkern_ini1_val + 0x8);
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}
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bool pkg2_parse_kips(link_t *info, pkg2_hdr_t *pkg2, bool *new_pkg2)
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{
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u8 *ptr;
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// Check for new pkg2 type.
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if (!pkg2->sec_size[PKG2_SEC_INI1])
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{
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pkg2_get_newkern_info(pkg2->data);
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if (!pkg2_newkern_ini1_start)
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return false;
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ptr = pkg2->data + pkg2_newkern_ini1_start;
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*new_pkg2 = true;
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}
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else
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ptr = pkg2->data + pkg2->sec_size[PKG2_SEC_KERNEL];
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pkg2_ini1_t *ini1 = (pkg2_ini1_t *)ptr;
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ptr += sizeof(pkg2_ini1_t);
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for (u32 i = 0; i < ini1->num_procs; i++)
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{
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pkg2_kip1_t *kip1 = (pkg2_kip1_t *)ptr;
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pkg2_kip1_info_t *ki = (pkg2_kip1_info_t *)malloc(sizeof(pkg2_kip1_info_t));
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ki->kip1 = kip1;
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ki->size = _pkg2_calc_kip1_size(kip1);
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list_append(info, &ki->link);
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ptr += ki->size;
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DPRINTF(" kip1 %d:%s @ %08X (%08X)\n", i, kip1->name, (u32)kip1, ki->size);
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}
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return true;
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}
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int pkg2_decompress_kip(pkg2_kip1_info_t* ki, u32 sectsToDecomp)
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{
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u32 compClearMask = ~sectsToDecomp;
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if ((ki->kip1->flags & compClearMask) == ki->kip1->flags)
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return 0; // Already decompressed, nothing to do.
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pkg2_kip1_t hdr;
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memcpy(&hdr, ki->kip1, sizeof(hdr));
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unsigned int newKipSize = sizeof(hdr);
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for (u32 sectIdx = 0; sectIdx < KIP1_NUM_SECTIONS; sectIdx++)
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{
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u32 sectCompBit = 1u << sectIdx;
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// For compressed, cant get actual decompressed size without doing it, so use safe "output size".
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if (sectIdx < 3 && (sectsToDecomp & sectCompBit) && (hdr.flags & sectCompBit))
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newKipSize += hdr.sections[sectIdx].size_decomp;
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else
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newKipSize += hdr.sections[sectIdx].size_comp;
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}
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pkg2_kip1_t* newKip = malloc(newKipSize);
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unsigned char* dstDataPtr = newKip->data;
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const unsigned char* srcDataPtr = ki->kip1->data;
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for (u32 sectIdx = 0; sectIdx < KIP1_NUM_SECTIONS; sectIdx++)
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{
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u32 sectCompBit = 1u << sectIdx;
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// Easy copy path for uncompressed or ones we dont want to uncompress.
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if (sectIdx >= 3 || !(sectsToDecomp & sectCompBit) || !(hdr.flags & sectCompBit))
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{
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unsigned int dataSize = hdr.sections[sectIdx].size_comp;
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if (dataSize == 0)
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continue;
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memcpy(dstDataPtr, srcDataPtr, dataSize);
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srcDataPtr += dataSize;
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dstDataPtr += dataSize;
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continue;
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}
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unsigned int compSize = hdr.sections[sectIdx].size_comp;
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unsigned int outputSize = hdr.sections[sectIdx].size_decomp;
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//gfx_printf("Decomping %s KIP1 sect %d of size %d...\n", (const char*)hdr.name, sectIdx, compSize);
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if (blz_uncompress_srcdest(srcDataPtr, compSize, dstDataPtr, outputSize) == 0)
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{
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gfx_printf("%kERROR decomping sect %d of %s KIP!%k\n", 0xFFFF0000, sectIdx, (char*)hdr.name, 0xFFCCCCCC);
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free(newKip);
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return 1;
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}
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else
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{
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DPRINTF("Done! Decompressed size is %d!\n", outputSize);
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}
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hdr.sections[sectIdx].size_comp = outputSize;
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srcDataPtr += compSize;
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dstDataPtr += outputSize;
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}
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hdr.flags &= compClearMask;
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memcpy(newKip, &hdr, sizeof(hdr));
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newKipSize = dstDataPtr-(unsigned char*)(newKip);
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free(ki->kip1);
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ki->kip1 = newKip;
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ki->size = newKipSize;
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return 0;
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}
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pkg2_hdr_t *pkg2_decrypt(void *data)
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{
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u8 *pdata = (u8 *)data;
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// Skip signature.
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pdata += 0x100;
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pkg2_hdr_t *hdr = (pkg2_hdr_t *)pdata;
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// Skip header.
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pdata += sizeof(pkg2_hdr_t);
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// Decrypt header.
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se_aes_crypt_ctr(8, hdr, sizeof(pkg2_hdr_t), hdr, sizeof(pkg2_hdr_t), hdr);
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//gfx_hexdump((u32)hdr, hdr, 0x100);
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if (hdr->magic != PKG2_MAGIC)
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return NULL;
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for (u32 i = 0; i < 4; i++)
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{
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DPRINTF("sec %d has size %08X\n", i, hdr->sec_size[i]);
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if (!hdr->sec_size[i])
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continue;
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se_aes_crypt_ctr(8, pdata, hdr->sec_size[i], pdata, hdr->sec_size[i], &hdr->sec_ctr[i * 0x10]);
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//gfx_hexdump((u32)pdata, pdata, 0x100);
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pdata += hdr->sec_size[i];
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}
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return hdr;
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}
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