/* * Copyright (C) 2009 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include <errno.h> #include <sys/stat.h> #include <fcntl.h> #include <stdio.h> #include <unistd.h> #include <string.h> #include <strings.h> #include "Retouch.h" #include "applypatch/applypatch.h" typedef struct { int32_t mmap_addr; char tag[4]; /* 'P', 'R', 'E', ' ' */ } prelink_info_t __attribute__((packed)); #define false 0 #define true 1 static int32_t offs_prev; static uint32_t cont_prev; static void init_compression_state(void) { offs_prev = 0; cont_prev = 0; } // For details on the encoding used for relocation lists, please // refer to build/tools/retouch/retouch-prepare.c. The intent is to // save space by removing most of the inherent redundancy. static void decode_bytes(uint8_t *encoded_bytes, int encoded_size, int32_t *dst_offset, uint32_t *dst_contents) { if (encoded_size == 2) { *dst_offset = offs_prev + (((encoded_bytes[0]&0x60)>>5)+1)*4; // if the original was negative, we need to 1-pad before applying delta int32_t tmp = (((encoded_bytes[0] & 0x0000001f) << 8) | encoded_bytes[1]); if (tmp & 0x1000) tmp = 0xffffe000 | tmp; *dst_contents = cont_prev + tmp; } else if (encoded_size == 3) { *dst_offset = offs_prev + (((encoded_bytes[0]&0x30)>>4)+1)*4; // if the original was negative, we need to 1-pad before applying delta int32_t tmp = (((encoded_bytes[0] & 0x0000000f) << 16) | (encoded_bytes[1] << 8) | encoded_bytes[2]); if (tmp & 0x80000) tmp = 0xfff00000 | tmp; *dst_contents = cont_prev + tmp; } else { *dst_offset = (encoded_bytes[0]<<24) | (encoded_bytes[1]<<16) | (encoded_bytes[2]<<8) | encoded_bytes[3]; if (*dst_offset == 0x3fffffff) *dst_offset = -1; *dst_contents = (encoded_bytes[4]<<24) | (encoded_bytes[5]<<16) | (encoded_bytes[6]<<8) | encoded_bytes[7]; } } static uint8_t *decode_in_memory(uint8_t *encoded_bytes, int32_t *offset, uint32_t *contents) { int input_size, charIx; uint8_t input[8]; input[0] = *(encoded_bytes++); if (input[0] & 0x80) input_size = 2; else if (input[0] & 0x40) input_size = 3; else input_size = 8; // we already read one byte.. charIx = 1; while (charIx < input_size) { input[charIx++] = *(encoded_bytes++); } // depends on the decoder state! decode_bytes(input, input_size, offset, contents); offs_prev = *offset; cont_prev = *contents; return encoded_bytes; } int retouch_mask_data(uint8_t *binary_object, int32_t binary_size, int32_t *desired_offset, int32_t *retouch_offset) { retouch_info_t *r_info; prelink_info_t *p_info; int32_t target_offset = 0; if (desired_offset) target_offset = *desired_offset; int32_t p_offs = binary_size-sizeof(prelink_info_t); // prelink_info_t int32_t r_offs = p_offs-sizeof(retouch_info_t); // retouch_info_t int32_t b_offs; // retouch data blob // If not retouched, we say it was a match. This might get invoked on // non-retouched binaries, so that's why we need to do this. if (retouch_offset != NULL) *retouch_offset = target_offset; if (r_offs < 0) return (desired_offset == NULL) ? RETOUCH_DATA_NOTAPPLICABLE : RETOUCH_DATA_MATCHED; p_info = (prelink_info_t *)(binary_object+p_offs); r_info = (retouch_info_t *)(binary_object+r_offs); if (strncmp(p_info->tag, "PRE ", 4) || strncmp(r_info->tag, "RETOUCH ", 8)) return (desired_offset == NULL) ? RETOUCH_DATA_NOTAPPLICABLE : RETOUCH_DATA_MATCHED; b_offs = r_offs-r_info->blob_size; if (b_offs < 0) { printf("negative binary offset: %d = %d - %d\n", b_offs, r_offs, r_info->blob_size); return RETOUCH_DATA_ERROR; } uint8_t *b_ptr = binary_object+b_offs; // Retouched: let's go through the work then. int32_t offset_candidate = target_offset; bool offset_set = false, offset_mismatch = false; init_compression_state(); while (b_ptr < (uint8_t *)r_info) { int32_t retouch_entry_offset; uint32_t *retouch_entry; uint32_t retouch_original_value; b_ptr = decode_in_memory(b_ptr, &retouch_entry_offset, &retouch_original_value); if (retouch_entry_offset < (-1) || retouch_entry_offset >= b_offs) { printf("bad retouch_entry_offset: %d", retouch_entry_offset); return RETOUCH_DATA_ERROR; } // "-1" means this is the value in prelink_info_t, which also gets // randomized. if (retouch_entry_offset == -1) retouch_entry = (uint32_t *)&(p_info->mmap_addr); else retouch_entry = (uint32_t *)(binary_object+retouch_entry_offset); if (desired_offset) *retouch_entry = retouch_original_value + target_offset; // Infer the randomization shift, compare to previously inferred. int32_t offset_of_this_entry = (int32_t)(*retouch_entry- retouch_original_value); if (!offset_set) { offset_candidate = offset_of_this_entry; offset_set = true; } else { if (offset_candidate != offset_of_this_entry) { offset_mismatch = true; printf("offset is mismatched: %d, this entry is %d," " original 0x%x @ 0x%x", offset_candidate, offset_of_this_entry, retouch_original_value, retouch_entry_offset); } } } if (b_ptr > (uint8_t *)r_info) { printf("b_ptr went too far: %p, while r_info is %p", b_ptr, r_info); return RETOUCH_DATA_ERROR; } if (offset_mismatch) return RETOUCH_DATA_MISMATCHED; if (retouch_offset != NULL) *retouch_offset = offset_candidate; return RETOUCH_DATA_MATCHED; }