/* * Copyright 2016, 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 #include #include "apf.h" // If "c" is of an unsigned type, generate a compile warning that gets promoted to an error. // This makes bounds checking simpler because ">= 0" can be avoided. Otherwise adding // superfluous ">= 0" with unsigned expressions generates compile warnings. #define ENFORCE_UNSIGNED(c) ((c)==(uint32_t)(c)) static void print_opcode(const char* opcode) { printf("%-6s", opcode); } // Mapping from opcode number to opcode name. static const char* opcode_names [] = { [LDB_OPCODE] = "ldb", [LDH_OPCODE] = "ldh", [LDW_OPCODE] = "ldw", [LDBX_OPCODE] = "ldb", [LDHX_OPCODE] = "ldh", [LDWX_OPCODE] = "ldw", [ADD_OPCODE] = "add", [MUL_OPCODE] = "mul", [DIV_OPCODE] = "div", [AND_OPCODE] = "and", [OR_OPCODE] = "or", [SH_OPCODE] = "sh", [LI_OPCODE] = "li", [JMP_OPCODE] = "jmp", [JEQ_OPCODE] = "jeq", [JNE_OPCODE] = "jne", [JGT_OPCODE] = "jgt", [JLT_OPCODE] = "jlt", [JSET_OPCODE] = "jset", [JNEBS_OPCODE] = "jnebs", }; static void print_jump_target(uint32_t target, uint32_t program_len) { if (target == program_len) { printf("pass"); } else if (target == program_len + 1) { printf("drop"); } else { printf("%u", target); } } // Disassembles an APF program. A hex dump of the program is supplied on stdin. // // NOTE: This is a simple debugging tool not meant for shipping or production use. It is by no // means hardened against malicious input and contains known vulnerabilities. // // Example usage: // adb shell dumpsys wifi ipmanager | sed '/Last program:/,+1!d;/Last program:/d;s/[ ]*//' | out/host/linux-x86/bin/apf_disassembler int main(void) { uint32_t program_len = 0; uint8_t program[10000]; // Read in hex program bytes int byte; while (scanf("%2x", &byte) == 1 && program_len < sizeof(program)) { program[program_len++] = byte; } for (uint32_t pc = 0; pc < program_len;) { printf("%8u: ", pc); const uint8_t bytecode = program[pc++]; const uint32_t opcode = EXTRACT_OPCODE(bytecode); #define PRINT_OPCODE() print_opcode(opcode_names[opcode]) const uint32_t reg_num = EXTRACT_REGISTER(bytecode); // All instructions have immediate fields, so load them now. const uint32_t len_field = EXTRACT_IMM_LENGTH(bytecode); uint32_t imm = 0; int32_t signed_imm = 0; if (len_field != 0) { const uint32_t imm_len = 1 << (len_field - 1); uint32_t i; for (i = 0; i < imm_len; i++) imm = (imm << 8) | program[pc++]; // Sign extend imm into signed_imm. signed_imm = imm << ((4 - imm_len) * 8); signed_imm >>= (4 - imm_len) * 8; } switch (opcode) { case LDB_OPCODE: case LDH_OPCODE: case LDW_OPCODE: PRINT_OPCODE(); printf("r%d, [%u]", reg_num, imm); break; case LDBX_OPCODE: case LDHX_OPCODE: case LDWX_OPCODE: PRINT_OPCODE(); printf("r%d, [%u+r1]", reg_num, imm); break; case JMP_OPCODE: PRINT_OPCODE(); print_jump_target(pc + imm, program_len); break; case JEQ_OPCODE: case JNE_OPCODE: case JGT_OPCODE: case JLT_OPCODE: case JSET_OPCODE: case JNEBS_OPCODE: { PRINT_OPCODE(); printf("r0, "); // Load second immediate field. uint32_t cmp_imm = 0; if (reg_num == 1) { printf("r1, "); } else if (len_field == 0) { printf("0, "); } else { uint32_t cmp_imm_len = 1 << (len_field - 1); uint32_t i; for (i = 0; i < cmp_imm_len; i++) cmp_imm = (cmp_imm << 8) | program[pc++]; printf("0x%x, ", cmp_imm); } if (opcode == JNEBS_OPCODE) { print_jump_target(pc + imm + cmp_imm, program_len); printf(", "); while (cmp_imm--) printf("%02x", program[pc++]); } else { print_jump_target(pc + imm, program_len); } break; } case ADD_OPCODE: case SH_OPCODE: PRINT_OPCODE(); if (reg_num) { printf("r0, r1"); } else { printf("r0, %d", signed_imm); } break; case MUL_OPCODE: case DIV_OPCODE: case AND_OPCODE: case OR_OPCODE: PRINT_OPCODE(); if (reg_num) { printf("r0, r1"); } else { printf("r0, %u", imm); } break; case LI_OPCODE: PRINT_OPCODE(); printf("r%d, %d", reg_num, signed_imm); break; case EXT_OPCODE: if ( // If LDM_EXT_OPCODE is 0 and imm is compared with it, a compiler error will result, // instead just enforce that imm is unsigned (so it's always greater or equal to 0). #if LDM_EXT_OPCODE == 0 ENFORCE_UNSIGNED(imm) && #else imm >= LDM_EXT_OPCODE && #endif imm < (LDM_EXT_OPCODE + MEMORY_ITEMS)) { print_opcode("ldm"); printf("r%d, m[%u]", reg_num, imm - LDM_EXT_OPCODE); } else if (imm >= STM_EXT_OPCODE && imm < (STM_EXT_OPCODE + MEMORY_ITEMS)) { print_opcode("stm"); printf("r%d, m[%u]", reg_num, imm - STM_EXT_OPCODE); } else switch (imm) { case NOT_EXT_OPCODE: print_opcode("not"); printf("r%d", reg_num); break; case NEG_EXT_OPCODE: print_opcode("neg"); printf("r%d", reg_num); break; case SWAP_EXT_OPCODE: print_opcode("swap"); break; case MOV_EXT_OPCODE: print_opcode("mov"); printf("r%d, r%d", reg_num, reg_num ^ 1); break; default: printf("unknown_ext %u", imm); break; } break; // Unknown opcode default: printf("unknown %u", opcode); break; } printf("\n"); } return 0; }