#include #include #include "utils.h" static int check_verity_pattern(const char *s) { int skip = 0; if (s[0] == ',') ++skip; if (strncmp(s + skip, "verify", 6) == 0) skip += 6; else if (strncmp(s + skip, "avb", 3) == 0) skip += 3; else return -1; if (s[skip] == '=') { while (s[skip] != '\0' && s[skip] != ' ' && s[skip] != '\n' && s[skip] != ',') ++skip; } return skip; } static int check_encryption_pattern(const char *s) { const char *encrypt_list[] = { "forceencrypt", "forcefdeorfbe", NULL }; for (int i = 0 ; encrypt_list[i]; ++i) { int len = strlen(encrypt_list[i]); if (strncmp(s, encrypt_list[i], len) == 0) return len; } return -1; } int patch_verity(void **buf, uint32_t *size, int patch) { int skip, src_size = *size, found = 0; char *src = *buf, *patched = patch ? xcalloc(src_size, 1) : NULL; for (int read = 0, write = 0; read < src_size; ++read, ++write) { if ((skip = check_verity_pattern(src + read)) > 0) { if (patch) { fprintf(stderr, "Remove pattern [%.*s]\n", skip, src + read); *size -= skip; } else { fprintf(stderr, "Found pattern [%.*s]\n", skip, src + read); } read += skip; found = 1; } if (patch) patched[write] = src[read]; } if (patch) { free(*buf); *buf = patched; } return found; } void patch_encryption(void **buf, uint32_t *size) { int skip, src_size = *size; char *src = *buf, *patched = xcalloc(src_size, 1); for (int read = 0, write = 0; read < src_size; ++read, ++write) { if ((skip = check_encryption_pattern(src + read)) > 0) { fprintf(stderr, "Replace pattern [%.*s] with [encryptable]\n", skip, src + read); memcpy(patched + read, "encryptable", 11); read += skip; write += 11; *size -= (skip - 11); } patched[write] = src[read]; } free(*buf); *buf = patched; }