/*************************************************************************/ /* macho.cpp */ /*************************************************************************/ /* This file is part of: */ /* GODOT ENGINE */ /* https://godotengine.org */ /*************************************************************************/ /* Copyright (c) 2007-2022 Juan Linietsky, Ariel Manzur. */ /* Copyright (c) 2014-2022 Godot Engine contributors (cf. AUTHORS.md). */ /* */ /* Permission is hereby granted, free of charge, to any person obtaining */ /* a copy of this software and associated documentation files (the */ /* "Software"), to deal in the Software without restriction, including */ /* without limitation the rights to use, copy, modify, merge, publish, */ /* distribute, sublicense, and/or sell copies of the Software, and to */ /* permit persons to whom the Software is furnished to do so, subject to */ /* the following conditions: */ /* */ /* The above copyright notice and this permission notice shall be */ /* included in all copies or substantial portions of the Software. */ /* */ /* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */ /* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */ /* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/ /* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */ /* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */ /* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */ /* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /*************************************************************************/ #include "modules/modules_enabled.gen.h" // For regex. #include "macho.h" #ifdef MODULE_REGEX_ENABLED uint32_t MachO::seg_align(uint64_t p_vmaddr, uint32_t p_min, uint32_t p_max) { uint32_t salign = p_max; if (p_vmaddr != 0) { uint64_t seg_align = 1; salign = 0; while ((seg_align & p_vmaddr) == 0) { seg_align = seg_align << 1; salign++; } salign = CLAMP(salign, p_min, p_max); } return salign; } bool MachO::alloc_signature(uint64_t p_size) { ERR_FAIL_COND_V_MSG(fa.is_null(), false, "MachO: File not opened."); if (signature_offset != 0) { // Nothing to do, already have signature load command. return true; } if (lc_limit == 0 || lc_limit + 16 > exe_base) { ERR_FAIL_V_MSG(false, "MachO: Can't allocate signature load command, please use \"codesign_allocate\" utility first."); } else { // Add signature load command. signature_offset = lc_limit; fa->seek(lc_limit); LoadCommandHeader lc; lc.cmd = LC_CODE_SIGNATURE; lc.cmdsize = 16; if (swap) { lc.cmdsize = BSWAP32(lc.cmdsize); } fa->store_buffer((const uint8_t *)&lc, sizeof(LoadCommandHeader)); uint32_t lc_offset = fa->get_length() + PAD(fa->get_length(), 16); uint32_t lc_size = 0; if (swap) { lc_offset = BSWAP32(lc_offset); lc_size = BSWAP32(lc_size); } fa->store_32(lc_offset); fa->store_32(lc_size); // Write new command number. fa->seek(0x10); uint32_t ncmds = fa->get_32(); uint32_t cmdssize = fa->get_32(); if (swap) { ncmds = BSWAP32(ncmds); cmdssize = BSWAP32(cmdssize); } ncmds += 1; cmdssize += 16; if (swap) { ncmds = BSWAP32(ncmds); cmdssize = BSWAP32(cmdssize); } fa->seek(0x10); fa->store_32(ncmds); fa->store_32(cmdssize); lc_limit = lc_limit + sizeof(LoadCommandHeader) + 8; return true; } } bool MachO::is_macho(const String &p_path) { Ref fb = FileAccess::open(p_path, FileAccess::READ); ERR_FAIL_COND_V_MSG(fb.is_null(), false, vformat("MachO: Can't open file: \"%s\".", p_path)); uint32_t magic = fb->get_32(); return (magic == 0xcefaedfe || magic == 0xfeedface || magic == 0xcffaedfe || magic == 0xfeedfacf); } bool MachO::open_file(const String &p_path) { fa = FileAccess::open(p_path, FileAccess::READ_WRITE); ERR_FAIL_COND_V_MSG(fa.is_null(), false, vformat("MachO: Can't open file: \"%s\".", p_path)); uint32_t magic = fa->get_32(); MachHeader mach_header; // Read MachO header. swap = (magic == 0xcffaedfe || magic == 0xcefaedfe); if (magic == 0xcefaedfe || magic == 0xfeedface) { // Thin 32-bit binary. fa->get_buffer((uint8_t *)&mach_header, sizeof(MachHeader)); } else if (magic == 0xcffaedfe || magic == 0xfeedfacf) { // Thin 64-bit binary. fa->get_buffer((uint8_t *)&mach_header, sizeof(MachHeader)); fa->get_32(); // Skip extra reserved field. } else { ERR_FAIL_V_MSG(false, vformat("MachO: File is not a valid MachO binary: \"%s\".", p_path)); } if (swap) { mach_header.ncmds = BSWAP32(mach_header.ncmds); mach_header.cpusubtype = BSWAP32(mach_header.cpusubtype); mach_header.cputype = BSWAP32(mach_header.cputype); } cpusubtype = mach_header.cpusubtype; cputype = mach_header.cputype; align = 0; exe_base = std::numeric_limits::max(); exe_limit = 0; lc_limit = 0; link_edit_offset = 0; signature_offset = 0; // Read load commands. for (uint32_t i = 0; i < mach_header.ncmds; i++) { LoadCommandHeader lc; fa->get_buffer((uint8_t *)&lc, sizeof(LoadCommandHeader)); if (swap) { lc.cmd = BSWAP32(lc.cmd); lc.cmdsize = BSWAP32(lc.cmdsize); } uint64_t ps = fa->get_position(); switch (lc.cmd) { case LC_SEGMENT: { LoadCommandSegment lc_seg; fa->get_buffer((uint8_t *)&lc_seg, sizeof(LoadCommandSegment)); if (swap) { lc_seg.nsects = BSWAP32(lc_seg.nsects); lc_seg.vmaddr = BSWAP32(lc_seg.vmaddr); lc_seg.vmsize = BSWAP32(lc_seg.vmsize); } align = MAX(align, seg_align(lc_seg.vmaddr, 2, 15)); if (String(lc_seg.segname) == "__TEXT") { exe_limit = MAX(exe_limit, lc_seg.vmsize); for (uint32_t j = 0; j < lc_seg.nsects; j++) { Section lc_sect; fa->get_buffer((uint8_t *)&lc_sect, sizeof(Section)); if (String(lc_sect.sectname) == "__text") { if (swap) { exe_base = MIN(exe_base, BSWAP32(lc_sect.offset)); } else { exe_base = MIN(exe_base, lc_sect.offset); } } if (swap) { align = MAX(align, BSWAP32(lc_sect.align)); } else { align = MAX(align, lc_sect.align); } } } else if (String(lc_seg.segname) == "__LINKEDIT") { link_edit_offset = ps - 8; } } break; case LC_SEGMENT_64: { LoadCommandSegment64 lc_seg; fa->get_buffer((uint8_t *)&lc_seg, sizeof(LoadCommandSegment64)); if (swap) { lc_seg.nsects = BSWAP32(lc_seg.nsects); lc_seg.vmaddr = BSWAP64(lc_seg.vmaddr); lc_seg.vmsize = BSWAP64(lc_seg.vmsize); } align = MAX(align, seg_align(lc_seg.vmaddr, 3, 15)); if (String(lc_seg.segname) == "__TEXT") { exe_limit = MAX(exe_limit, lc_seg.vmsize); for (uint32_t j = 0; j < lc_seg.nsects; j++) { Section64 lc_sect; fa->get_buffer((uint8_t *)&lc_sect, sizeof(Section64)); if (String(lc_sect.sectname) == "__text") { if (swap) { exe_base = MIN(exe_base, BSWAP32(lc_sect.offset)); } else { exe_base = MIN(exe_base, lc_sect.offset); } if (swap) { align = MAX(align, BSWAP32(lc_sect.align)); } else { align = MAX(align, lc_sect.align); } } } } else if (String(lc_seg.segname) == "__LINKEDIT") { link_edit_offset = ps - 8; } } break; case LC_CODE_SIGNATURE: { signature_offset = ps - 8; } break; default: { } break; } fa->seek(ps + lc.cmdsize - 8); lc_limit = ps + lc.cmdsize - 8; } if (exe_limit == 0 || lc_limit == 0) { ERR_FAIL_V_MSG(false, vformat("MachO: No load commands or executable code found: \"%s\".", p_path)); } return true; } uint64_t MachO::get_exe_base() { ERR_FAIL_COND_V_MSG(fa.is_null(), 0, "MachO: File not opened."); return exe_base; } uint64_t MachO::get_exe_limit() { ERR_FAIL_COND_V_MSG(fa.is_null(), 0, "MachO: File not opened."); return exe_limit; } int32_t MachO::get_align() { ERR_FAIL_COND_V_MSG(fa.is_null(), 0, "MachO: File not opened."); return align; } uint32_t MachO::get_cputype() { ERR_FAIL_COND_V_MSG(fa.is_null(), 0, "MachO: File not opened."); return cputype; } uint32_t MachO::get_cpusubtype() { ERR_FAIL_COND_V_MSG(fa.is_null(), 0, "MachO: File not opened."); return cpusubtype; } uint64_t MachO::get_size() { ERR_FAIL_COND_V_MSG(fa.is_null(), 0, "MachO: File not opened."); return fa->get_length(); } uint64_t MachO::get_signature_offset() { ERR_FAIL_COND_V_MSG(fa.is_null(), 0, "MachO: File not opened."); ERR_FAIL_COND_V_MSG(signature_offset == 0, 0, "MachO: No signature load command."); fa->seek(signature_offset + 8); if (swap) { return BSWAP32(fa->get_32()); } else { return fa->get_32(); } } uint64_t MachO::get_code_limit() { ERR_FAIL_COND_V_MSG(fa.is_null(), 0, "MachO: File not opened."); if (signature_offset == 0) { return fa->get_length() + PAD(fa->get_length(), 16); } else { return get_signature_offset(); } } uint64_t MachO::get_signature_size() { ERR_FAIL_COND_V_MSG(fa.is_null(), 0, "MachO: File not opened."); ERR_FAIL_COND_V_MSG(signature_offset == 0, 0, "MachO: No signature load command."); fa->seek(signature_offset + 12); if (swap) { return BSWAP32(fa->get_32()); } else { return fa->get_32(); } } bool MachO::is_signed() { ERR_FAIL_COND_V_MSG(fa.is_null(), false, "MachO: File not opened."); if (signature_offset == 0) { return false; } fa->seek(get_signature_offset()); uint32_t magic = BSWAP32(fa->get_32()); if (magic != 0xfade0cc0) { return false; // No SuperBlob found. } fa->get_32(); // Skip size field, unused. uint32_t count = BSWAP32(fa->get_32()); for (uint32_t i = 0; i < count; i++) { uint32_t index_type = BSWAP32(fa->get_32()); uint32_t offset = BSWAP32(fa->get_32()); if (index_type == 0x00000000) { // CodeDirectory index type. fa->seek(get_signature_offset() + offset + 12); uint32_t flags = BSWAP32(fa->get_32()); if (flags & 0x20000) { return false; // Found CD, linker-signed. } else { return true; // Found CD, not linker-signed. } } } return false; // No CD found. } PackedByteArray MachO::get_cdhash_sha1() { ERR_FAIL_COND_V_MSG(fa.is_null(), PackedByteArray(), "MachO: File not opened."); if (signature_offset == 0) { return PackedByteArray(); } fa->seek(get_signature_offset()); uint32_t magic = BSWAP32(fa->get_32()); if (magic != 0xfade0cc0) { return PackedByteArray(); // No SuperBlob found. } fa->get_32(); // Skip size field, unused. uint32_t count = BSWAP32(fa->get_32()); for (uint32_t i = 0; i < count; i++) { fa->get_32(); // Index type, skip. uint32_t offset = BSWAP32(fa->get_32()); uint64_t pos = fa->get_position(); fa->seek(get_signature_offset() + offset); uint32_t cdmagic = BSWAP32(fa->get_32()); uint32_t cdsize = BSWAP32(fa->get_32()); if (cdmagic == 0xfade0c02) { // CodeDirectory. fa->seek(get_signature_offset() + offset + 36); uint8_t hash_size = fa->get_8(); uint8_t hash_type = fa->get_8(); if (hash_size == 0x14 && hash_type == 0x01) { /* SHA-1 */ PackedByteArray hash; hash.resize(0x14); fa->seek(get_signature_offset() + offset); PackedByteArray blob; blob.resize(cdsize); fa->get_buffer(blob.ptrw(), cdsize); CryptoCore::SHA1Context ctx; ctx.start(); ctx.update(blob.ptr(), blob.size()); ctx.finish(hash.ptrw()); return hash; } } fa->seek(pos); } return PackedByteArray(); } PackedByteArray MachO::get_cdhash_sha256() { ERR_FAIL_COND_V_MSG(fa.is_null(), PackedByteArray(), "MachO: File not opened."); if (signature_offset == 0) { return PackedByteArray(); } fa->seek(get_signature_offset()); uint32_t magic = BSWAP32(fa->get_32()); if (magic != 0xfade0cc0) { return PackedByteArray(); // No SuperBlob found. } fa->get_32(); // Skip size field, unused. uint32_t count = BSWAP32(fa->get_32()); for (uint32_t i = 0; i < count; i++) { fa->get_32(); // Index type, skip. uint32_t offset = BSWAP32(fa->get_32()); uint64_t pos = fa->get_position(); fa->seek(get_signature_offset() + offset); uint32_t cdmagic = BSWAP32(fa->get_32()); uint32_t cdsize = BSWAP32(fa->get_32()); if (cdmagic == 0xfade0c02) { // CodeDirectory. fa->seek(get_signature_offset() + offset + 36); uint8_t hash_size = fa->get_8(); uint8_t hash_type = fa->get_8(); if (hash_size == 0x20 && hash_type == 0x02) { /* SHA-256 */ PackedByteArray hash; hash.resize(0x20); fa->seek(get_signature_offset() + offset); PackedByteArray blob; blob.resize(cdsize); fa->get_buffer(blob.ptrw(), cdsize); CryptoCore::SHA256Context ctx; ctx.start(); ctx.update(blob.ptr(), blob.size()); ctx.finish(hash.ptrw()); return hash; } } fa->seek(pos); } return PackedByteArray(); } PackedByteArray MachO::get_requirements() { ERR_FAIL_COND_V_MSG(fa.is_null(), PackedByteArray(), "MachO: File not opened."); if (signature_offset == 0) { return PackedByteArray(); } fa->seek(get_signature_offset()); uint32_t magic = BSWAP32(fa->get_32()); if (magic != 0xfade0cc0) { return PackedByteArray(); // No SuperBlob found. } fa->get_32(); // Skip size field, unused. uint32_t count = BSWAP32(fa->get_32()); for (uint32_t i = 0; i < count; i++) { fa->get_32(); // Index type, skip. uint32_t offset = BSWAP32(fa->get_32()); uint64_t pos = fa->get_position(); fa->seek(get_signature_offset() + offset); uint32_t rqmagic = BSWAP32(fa->get_32()); uint32_t rqsize = BSWAP32(fa->get_32()); if (rqmagic == 0xfade0c01) { // Requirements. PackedByteArray blob; fa->seek(get_signature_offset() + offset); blob.resize(rqsize); fa->get_buffer(blob.ptrw(), rqsize); return blob; } fa->seek(pos); } return PackedByteArray(); } const Ref MachO::get_file() const { return fa; } Ref MachO::get_file() { return fa; } bool MachO::set_signature_size(uint64_t p_size) { ERR_FAIL_COND_V_MSG(fa.is_null(), false, "MachO: File not opened."); // Ensure signature load command exists. ERR_FAIL_COND_V_MSG(link_edit_offset == 0, false, "MachO: No __LINKEDIT segment found."); ERR_FAIL_COND_V_MSG(!alloc_signature(p_size), false, "MachO: Can't allocate signature load command."); // Update signature load command. uint64_t old_size = get_signature_size(); uint64_t new_size = p_size + PAD(p_size, 16384); if (new_size <= old_size) { fa->seek(get_signature_offset()); for (uint64_t i = 0; i < old_size; i++) { fa->store_8(0x00); } return true; } fa->seek(signature_offset + 12); if (swap) { fa->store_32(BSWAP32(new_size)); } else { fa->store_32(new_size); } uint64_t end = get_signature_offset() + new_size; // Update "__LINKEDIT" segment. LoadCommandHeader lc; fa->seek(link_edit_offset); fa->get_buffer((uint8_t *)&lc, sizeof(LoadCommandHeader)); if (swap) { lc.cmd = BSWAP32(lc.cmd); lc.cmdsize = BSWAP32(lc.cmdsize); } switch (lc.cmd) { case LC_SEGMENT: { LoadCommandSegment lc_seg; fa->get_buffer((uint8_t *)&lc_seg, sizeof(LoadCommandSegment)); if (swap) { lc_seg.vmsize = BSWAP32(lc_seg.vmsize); lc_seg.filesize = BSWAP32(lc_seg.filesize); lc_seg.fileoff = BSWAP32(lc_seg.fileoff); } lc_seg.vmsize = end - lc_seg.fileoff; lc_seg.vmsize += PAD(lc_seg.vmsize, 4096); lc_seg.filesize = end - lc_seg.fileoff; if (swap) { lc_seg.vmsize = BSWAP32(lc_seg.vmsize); lc_seg.filesize = BSWAP32(lc_seg.filesize); } fa->seek(link_edit_offset + 8); fa->store_buffer((const uint8_t *)&lc_seg, sizeof(LoadCommandSegment)); } break; case LC_SEGMENT_64: { LoadCommandSegment64 lc_seg; fa->get_buffer((uint8_t *)&lc_seg, sizeof(LoadCommandSegment64)); if (swap) { lc_seg.vmsize = BSWAP64(lc_seg.vmsize); lc_seg.filesize = BSWAP64(lc_seg.filesize); lc_seg.fileoff = BSWAP64(lc_seg.fileoff); } lc_seg.vmsize = end - lc_seg.fileoff; lc_seg.vmsize += PAD(lc_seg.vmsize, 4096); lc_seg.filesize = end - lc_seg.fileoff; if (swap) { lc_seg.vmsize = BSWAP64(lc_seg.vmsize); lc_seg.filesize = BSWAP64(lc_seg.filesize); } fa->seek(link_edit_offset + 8); fa->store_buffer((const uint8_t *)&lc_seg, sizeof(LoadCommandSegment64)); } break; default: { ERR_FAIL_V_MSG(false, "MachO: Invalid __LINKEDIT segment type."); } break; } fa->seek(get_signature_offset()); for (uint64_t i = 0; i < new_size; i++) { fa->store_8(0x00); } return true; } #endif // MODULE_REGEX_ENABLED