/* * Debugger ARM specific functions * * Copyright 2000-2003 Marcus Meissner * 2004 Eric Pouech * 2010-2012 André Hentschel * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include "debugger.h" #if defined(__arm__) && !defined(__ARMEB__) /* * Switch to disassemble Thumb code. */ static BOOL db_disasm_thumb = FALSE; /* * Flag to indicate whether we need to display instruction, * or whether we just need to know the address of the next * instruction. */ static BOOL db_display = FALSE; #define ARM_INSN_SIZE 4 #define THUMB_INSN_SIZE 2 #define ROR32(n, r) (((n) >> (r)) | ((n) << (32 - (r)))) #define get_cond(ins) tbl_cond[(ins >> 28) & 0x0f] #define get_nibble(ins, num) ((ins >> (num * 4)) & 0x0f) static char const tbl_regs[][4] = { "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7", "r8", "r9", "r10", "fp", "ip", "sp", "lr", "pc", "cpsr" }; static char const tbl_addrmode[][3] = { "da", "ia", "db", "ib" }; static char const tbl_cond[][3] = { "eq", "ne", "cs", "cc", "mi", "pl", "vs", "vc", "hi", "ls", "ge", "lt", "gt", "le", "", "" }; static char const tbl_dataops[][4] = { "and", "eor", "sub", "rsb", "add", "adc", "sbc", "rsc", "tst", "teq", "cmp", "cmn", "orr", "mov", "bic", "mvn" }; static char const tbl_hiops_t[][4] = { "add", "cmp", "mov", "bx" }; static char const tbl_immops_t[][4] = { "mov", "cmp", "add", "sub" }; static UINT db_get_inst(void* addr, int size) { UINT result = 0; char buffer[4]; if (dbg_read_memory(addr, buffer, size)) { switch (size) { case 4: result = *(UINT*)buffer; break; case 2: result = *(WORD*)buffer; break; } } return result; } static UINT arm_disasm_branch(UINT inst) { short link = (inst >> 24) & 0x01; int offset = (inst << 2) & 0x03ffffff; if (offset & 0x02000000) offset |= 0xfc000000; offset += 8; dbg_printf("\n\tb%s%s\t#%d", link ? "l" : "", get_cond(inst), offset); return 0; } static UINT arm_disasm_branchreg(UINT inst) { dbg_printf("\n\tb%s\t%s", get_cond(inst), tbl_regs[get_nibble(inst, 0)]); return 0; } static UINT arm_disasm_dataprocessing(UINT inst) { short condcodes = (inst >> 20) & 0x01; short opcode = (inst >> 21) & 0x0f; short immediate = (inst >> 25) & 0x01; short no_op1 = (opcode & 0x0d) == 0x0d; short no_dst = (opcode & 0x0c) == 0x08; /* check for nop */ if (get_nibble(inst, 3) == 15 /* r15 */ && condcodes == 0 && opcode >= 8 /* tst */ && opcode <= 11 /* cmn */) { dbg_printf("\n\tnop"); return 0; } dbg_printf("\n\t%s%s%s", tbl_dataops[opcode], condcodes ? "s" : "", get_cond(inst)); if (!no_dst) dbg_printf("\t%s, ", tbl_regs[get_nibble(inst, 3)]); else dbg_printf("\t"); if (no_op1) { if (immediate) dbg_printf("#%u", ROR32(inst & 0xff, 2 * get_nibble(inst, 2))); else dbg_printf("%s", tbl_regs[get_nibble(inst, 0)]); } else { if (immediate) dbg_printf("%s, #%u", tbl_regs[get_nibble(inst, 4)], ROR32(inst & 0xff, 2 * get_nibble(inst, 2))); else dbg_printf("%s, %s", tbl_regs[get_nibble(inst, 4)], tbl_regs[get_nibble(inst, 0)]); } return 0; } static UINT arm_disasm_singletrans(UINT inst) { short load = (inst >> 20) & 0x01; short writeback = (inst >> 21) & 0x01; short byte = (inst >> 22) & 0x01; short direction = (inst >> 23) & 0x01; short indexing = (inst >> 24) & 0x01; short immediate = !((inst >> 25) & 0x01); short offset = inst & 0x0fff; if (!direction) offset *= -1; dbg_printf("\n\t%s%s%s%s", load ? "ldr" : "str", byte ? "b" : "", writeback ? "t" : "", get_cond(inst)); dbg_printf("\t%s, ", tbl_regs[get_nibble(inst, 3)]); if (indexing) { if (immediate) dbg_printf("[%s, #%d]", tbl_regs[get_nibble(inst, 4)], offset); else dbg_printf("[%s, %s]", tbl_regs[get_nibble(inst, 4)], tbl_regs[get_nibble(inst, 0)]); } else { if (immediate) dbg_printf("[%s], #%d", tbl_regs[get_nibble(inst, 4)], offset); else dbg_printf("[%s], %s", tbl_regs[get_nibble(inst, 4)], tbl_regs[get_nibble(inst, 0)]); } return 0; } static UINT arm_disasm_halfwordtrans(UINT inst) { short halfword = (inst >> 5) & 0x01; short sign = (inst >> 6) & 0x01; short load = (inst >> 20) & 0x01; short writeback = (inst >> 21) & 0x01; short immediate = (inst >> 22) & 0x01; short direction = (inst >> 23) & 0x01; short indexing = (inst >> 24) & 0x01; short offset = ((inst >> 4) & 0xf0) + (inst & 0x0f); if (!direction) offset *= -1; dbg_printf("\n\t%s%s%s%s%s", load ? "ldr" : "str", sign ? "s" : "", halfword ? "h" : (sign ? "b" : ""), writeback ? "t" : "", get_cond(inst)); dbg_printf("\t%s, ", tbl_regs[get_nibble(inst, 3)]); if (indexing) { if (immediate) dbg_printf("[%s, #%d]", tbl_regs[get_nibble(inst, 4)], offset); else dbg_printf("[%s, %s]", tbl_regs[get_nibble(inst, 4)], tbl_regs[get_nibble(inst, 0)]); } else { if (immediate) dbg_printf("[%s], #%d", tbl_regs[get_nibble(inst, 4)], offset); else dbg_printf("[%s], %s", tbl_regs[get_nibble(inst, 4)], tbl_regs[get_nibble(inst, 0)]); } return 0; } static UINT arm_disasm_blocktrans(UINT inst) { short load = (inst >> 20) & 0x01; short writeback = (inst >> 21) & 0x01; short psr = (inst >> 22) & 0x01; short addrmode = (inst >> 23) & 0x03; short i; short last=15; for (i=15;i>=0;i--) if ((inst>>i) & 1) { last = i; break; } dbg_printf("\n\t%s%s%s\t%s%s, {", load ? "ldm" : "stm", tbl_addrmode[addrmode], get_cond(inst), tbl_regs[get_nibble(inst, 4)], writeback ? "!" : ""); for (i=0;i<=15;i++) if ((inst>>i) & 1) { if (i == last) dbg_printf("%s", tbl_regs[i]); else dbg_printf("%s, ", tbl_regs[i]); } dbg_printf("}%s", psr ? "^" : ""); return 0; } static UINT arm_disasm_swi(UINT inst) { UINT comment = inst & 0x00ffffff; dbg_printf("\n\tswi%s\t#%d", get_cond(inst), comment); return 0; } static UINT arm_disasm_coproctrans(UINT inst) { WORD CRm = inst & 0x0f; WORD CP = (inst >> 5) & 0x07; WORD CPnum = (inst >> 8) & 0x0f; WORD CRn = (inst >> 16) & 0x0f; WORD load = (inst >> 20) & 0x01; WORD CP_Opc = (inst >> 21) & 0x07; dbg_printf("\n\t%s%s\t%u, %u, %s, cr%u, cr%u, {%u}", load ? "mrc" : "mcr", get_cond(inst), CPnum, CP, tbl_regs[get_nibble(inst, 3)], CRn, CRm, CP_Opc); return 0; } static UINT arm_disasm_coprocdataop(UINT inst) { WORD CRm = inst & 0x0f; WORD CP = (inst >> 5) & 0x07; WORD CPnum = (inst >> 8) & 0x0f; WORD CRd = (inst >> 12) & 0x0f; WORD CRn = (inst >> 16) & 0x0f; WORD CP_Opc = (inst >> 20) & 0x0f; dbg_printf("\n\tcdp%s\t%u, %u, cr%u, cr%u, cr%u, {%u}", get_cond(inst), CPnum, CP, CRd, CRn, CRm, CP_Opc); return 0; } static UINT arm_disasm_coprocdatatrans(UINT inst) { WORD CPnum = (inst >> 8) & 0x0f; WORD CRd = (inst >> 12) & 0x0f; WORD load = (inst >> 20) & 0x01; WORD writeback = (inst >> 21) & 0x01; WORD translen = (inst >> 22) & 0x01; WORD direction = (inst >> 23) & 0x01; WORD indexing = (inst >> 24) & 0x01; short offset = (inst & 0xff) << 2; if (!direction) offset *= -1; dbg_printf("\n\t%s%s%s", load ? "ldc" : "stc", translen ? "l" : "", get_cond(inst)); if (indexing) dbg_printf("\t%u, cr%u, [%s, #%d]%s", CPnum, CRd, tbl_regs[get_nibble(inst, 4)], offset, writeback?"!":""); else dbg_printf("\t%u, cr%u, [%s], #%d", CPnum, CRd, tbl_regs[get_nibble(inst, 4)], offset); return 0; } static WORD thumb_disasm_hireg(WORD inst, ADDRESS64 *addr) { short dst = inst & 0x07; short src = (inst >> 3) & 0x07; short h2 = (inst >> 6) & 0x01; short h1 = (inst >> 7) & 0x01; short op = (inst >> 8) & 0x03; if (h1) dst += 8; if (h2) src += 8; if (op == 3) dbg_printf("\n\tb%sx\t%s", h1?"l":"", tbl_regs[src]); else dbg_printf("\n\t%s\t%s, %s", tbl_hiops_t[op], tbl_regs[dst], tbl_regs[src]); return 0; } static WORD thumb_disasm_blocktrans(WORD inst, ADDRESS64 *addr) { short lrpc = (inst >> 8) & 0x01; short load = (inst >> 11) & 0x01; short i; short last; for (i=7;i>=0;i--) if ((inst>>i) & 1) break; last = i; dbg_printf("\n\t%s\t{", load ? "pop" : "push"); for (i=0;i<=7;i++) if ((inst>>i) & 1) { if (i == last) dbg_printf("%s", tbl_regs[i]); else dbg_printf("%s, ", tbl_regs[i]); } if (lrpc) dbg_printf(", %s", load ? "pc" : "lr"); dbg_printf("}"); return 0; } static WORD thumb_disasm_longbl(WORD inst, ADDRESS64 *addr) { WORD inst2; UINT offset = (inst & 0x07ff) << 12; addr->Offset += 2; inst2 = db_get_inst( memory_to_linear_addr(addr), 2 ); if (!((inst2 & 0xf800) == 0xf800)) return inst; offset += (inst2 & 0x07ff) << 1; dbg_printf("\tbl\t%08x", offset); return 0; } static WORD thumb_disasm_swi(WORD inst, ADDRESS64 *addr) { WORD comment = inst & 0x00ff; dbg_printf("\n\tswi\t#%d", comment); return 0; } static WORD thumb_disasm_nop(WORD inst, ADDRESS64 *addr) { dbg_printf("\n\tnop"); return 0; } static WORD thumb_disasm_ldrpcrel(WORD inst, ADDRESS64 *addr) { WORD offset = (inst & 0xff) << 2; dbg_printf("\n\tldr\t%s, [pc, #%u]", tbl_regs[(inst >> 8) & 0x07], offset); return 0; } static WORD thumb_disasm_ldrsprel(WORD inst, ADDRESS64 *addr) { WORD offset = (inst & 0xff) << 2; dbg_printf("\n\t%s\t%s, [sp, #%u]", (inst & 0x0800)?"ldr":"str", tbl_regs[(inst >> 8) & 0x07], offset); return 0; } static WORD thumb_disasm_ldrimm(WORD inst, ADDRESS64 *addr) { WORD offset = (inst & 0x07c0) >> 6; dbg_printf("\n\t%s%s\t%s, [%s, #%u]", (inst & 0x0800)?"ldr":"str", (inst & 0x1000)?"b":"", tbl_regs[inst & 0x07], tbl_regs[(inst >> 3) & 0x07], (inst & 0x1000)?offset:(offset << 2)); return 0; } static WORD thumb_disasm_immop(WORD inst, ADDRESS64 *addr) { WORD op = (inst >> 11) & 0x03; dbg_printf("\n\t%s\t%s, #%u", tbl_immops_t[op], tbl_regs[(inst >> 8) & 0x07], inst & 0xff); return 0; } struct inst_arm { UINT mask; UINT pattern; UINT (*func)(UINT); }; static const struct inst_arm tbl_arm[] = { { 0x0e000000, 0x0a000000, arm_disasm_branch }, { 0x0e000090, 0x00000090, arm_disasm_halfwordtrans }, { 0x0fffff00, 0x012fff00, arm_disasm_branchreg }, { 0x0c000000, 0x00000000, arm_disasm_dataprocessing }, { 0x0c000000, 0x04000000, arm_disasm_singletrans }, { 0x0e000000, 0x08000000, arm_disasm_blocktrans }, { 0x0f000000, 0x0f000000, arm_disasm_swi }, { 0x0f000010, 0x0e000010, arm_disasm_coproctrans }, { 0x0f000010, 0x0e000000, arm_disasm_coprocdataop }, { 0x0e000000, 0x0c000000, arm_disasm_coprocdatatrans }, { 0x00000000, 0x00000000, NULL } }; struct inst_thumb16 { WORD mask; WORD pattern; WORD (*func)(WORD, ADDRESS64*); }; static const struct inst_thumb16 tbl_thumb16[] = { { 0xfc00, 0x4400, thumb_disasm_hireg }, { 0xf600, 0xb400, thumb_disasm_blocktrans }, { 0xf800, 0xf000, thumb_disasm_longbl }, { 0xf800, 0x4800, thumb_disasm_ldrpcrel }, { 0xf000, 0x9000, thumb_disasm_ldrsprel }, { 0xe000, 0x6000, thumb_disasm_ldrimm }, { 0xe000, 0x2000, thumb_disasm_immop }, { 0xff00, 0xdf00, thumb_disasm_swi }, { 0xff00, 0xbf00, thumb_disasm_nop }, { 0x0000, 0x0000, NULL } }; /*********************************************************************** * disasm_one_insn * * Disassemble instruction at 'addr'. addr is changed to point to the * start of the next instruction. */ void be_arm_disasm_one_insn(ADDRESS64 *addr, int display) { struct inst_arm *a_ptr = (struct inst_arm *)&tbl_arm; struct inst_thumb16 *t_ptr = (struct inst_thumb16 *)&tbl_thumb16; UINT inst; WORD tinst; int size; int matched = 0; char tmp[64]; DWORD_PTR* pval; if (!memory_get_register(CV_ARM_CPSR, &pval, tmp, sizeof(tmp))) dbg_printf("\n\tmemory_get_register failed: %s\n",tmp); else db_disasm_thumb=(*pval & 0x20)?TRUE:FALSE; if (db_disasm_thumb) size = THUMB_INSN_SIZE; else size = ARM_INSN_SIZE; db_display = display; inst = db_get_inst( memory_to_linear_addr(addr), size ); if (!db_disasm_thumb) { while (a_ptr->func) { if ((inst & a_ptr->mask) == a_ptr->pattern) { matched = 1; break; } a_ptr++; } if (!matched) { dbg_printf("\n\tUnknown Instruction: %08x\n", inst); addr->Offset += size; return; } else { if (!a_ptr->func(inst)) { dbg_printf("\n"); addr->Offset += size; } return; } } else { tinst = inst; while (t_ptr->func) { if ((tinst & t_ptr->mask) == t_ptr->pattern) { matched = 1; break; } t_ptr++; } if (!matched) { dbg_printf("\n\tUnknown Instruction: %08x\n", tinst); addr->Offset += size; return; } else { if (!t_ptr->func(tinst, addr)) { dbg_printf("\n"); addr->Offset += size; } } return; } } static unsigned be_arm_get_addr(HANDLE hThread, const CONTEXT* ctx, enum be_cpu_addr bca, ADDRESS64* addr) { switch (bca) { case be_cpu_addr_pc: return be_cpu_build_addr(hThread, ctx, addr, 0, ctx->Pc); case be_cpu_addr_stack: return be_cpu_build_addr(hThread, ctx, addr, 0, ctx->Sp); case be_cpu_addr_frame: return be_cpu_build_addr(hThread, ctx, addr, 0, ctx->Fp); } return FALSE; } static unsigned be_arm_get_register_info(int regno, enum be_cpu_addr* kind) { switch (regno) { case CV_ARM_PC: *kind = be_cpu_addr_pc; return TRUE; case CV_ARM_R0 + 11: *kind = be_cpu_addr_frame; return TRUE; case CV_ARM_SP: *kind = be_cpu_addr_stack; return TRUE; } return FALSE; } static void be_arm_single_step(CONTEXT* ctx, unsigned enable) { dbg_printf("be_arm_single_step: not done\n"); } static void be_arm_print_context(HANDLE hThread, const CONTEXT* ctx, int all_regs) { static const char condflags[] = "NZCV"; int i; char buf[8]; switch (ctx->Cpsr & 0x1F) { case 0: strcpy(buf, "User26"); break; case 1: strcpy(buf, "FIQ26"); break; case 2: strcpy(buf, "IRQ26"); break; case 3: strcpy(buf, "SVC26"); break; case 16: strcpy(buf, "User"); break; case 17: strcpy(buf, "FIQ"); break; case 18: strcpy(buf, "IRQ"); break; case 19: strcpy(buf, "SVC"); break; case 23: strcpy(buf, "ABT"); break; case 27: strcpy(buf, "UND"); break; default: strcpy(buf, "UNKNWN"); break; } dbg_printf("Register dump:\n"); dbg_printf("%s %s Mode\n", (ctx->Cpsr & 0x20) ? "Thumb" : "ARM", buf); strcpy(buf, condflags); for (i = 0; buf[i]; i++) if (!((ctx->Cpsr >> 26) & (1 << (sizeof(condflags) - i)))) buf[i] = '-'; dbg_printf(" Pc:%04x Sp:%04x Lr:%04x Cpsr:%04x(%s)\n", ctx->Pc, ctx->Sp, ctx->Lr, ctx->Cpsr, buf); dbg_printf(" r0:%04x r1:%04x r2:%04x r3:%04x\n", ctx->R0, ctx->R1, ctx->R2, ctx->R3); dbg_printf(" r4:%04x r5:%04x r6:%04x r7:%04x r8:%04x\n", ctx->R4, ctx->R5, ctx->R6, ctx->R7, ctx->R8 ); dbg_printf(" r9:%04x r10:%04x Fp:%04x Ip:%04x\n", ctx->R9, ctx->R10, ctx->Fp, ctx->Ip ); if (all_regs) dbg_printf( "Floating point ARM dump not implemented\n" ); } static void be_arm_print_segment_info(HANDLE hThread, const CONTEXT* ctx) { } static struct dbg_internal_var be_arm_ctx[] = { {CV_ARM_R0 + 0, "r0", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, R0), dbg_itype_unsigned_int}, {CV_ARM_R0 + 1, "r1", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, R1), dbg_itype_unsigned_int}, {CV_ARM_R0 + 2, "r2", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, R2), dbg_itype_unsigned_int}, {CV_ARM_R0 + 3, "r3", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, R3), dbg_itype_unsigned_int}, {CV_ARM_R0 + 4, "r4", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, R4), dbg_itype_unsigned_int}, {CV_ARM_R0 + 5, "r5", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, R5), dbg_itype_unsigned_int}, {CV_ARM_R0 + 6, "r6", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, R6), dbg_itype_unsigned_int}, {CV_ARM_R0 + 7, "r7", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, R7), dbg_itype_unsigned_int}, {CV_ARM_R0 + 8, "r8", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, R8), dbg_itype_unsigned_int}, {CV_ARM_R0 + 9, "r9", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, R9), dbg_itype_unsigned_int}, {CV_ARM_R0 + 10, "r10", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, R10), dbg_itype_unsigned_int}, {CV_ARM_R0 + 11, "r11", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, Fp), dbg_itype_unsigned_int}, {CV_ARM_R0 + 12, "r12", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, Ip), dbg_itype_unsigned_int}, {CV_ARM_SP, "sp", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, Sp), dbg_itype_unsigned_int}, {CV_ARM_LR, "lr", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, Lr), dbg_itype_unsigned_int}, {CV_ARM_PC, "pc", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, Pc), dbg_itype_unsigned_int}, {CV_ARM_CPSR, "cpsr", (DWORD_PTR*)FIELD_OFFSET(CONTEXT, Cpsr), dbg_itype_unsigned_int}, {0, NULL, 0, dbg_itype_none} }; static unsigned be_arm_is_step_over_insn(const void* insn) { dbg_printf("be_arm_is_step_over_insn: not done\n"); return FALSE; } static unsigned be_arm_is_function_return(const void* insn) { dbg_printf("be_arm_is_function_return: not done\n"); return FALSE; } static unsigned be_arm_is_break_insn(const void* insn) { dbg_printf("be_arm_is_break_insn: not done\n"); return FALSE; } static unsigned be_arm_is_func_call(const void* insn, ADDRESS64* callee) { return FALSE; } static unsigned be_arm_is_jump(const void* insn, ADDRESS64* jumpee) { return FALSE; } static unsigned be_arm_insert_Xpoint(HANDLE hProcess, const struct be_process_io* pio, CONTEXT* ctx, enum be_xpoint_type type, void* addr, unsigned long* val, unsigned size) { SIZE_T sz; switch (type) { case be_xpoint_break: if (!size) return 0; if (!pio->read(hProcess, addr, val, 4, &sz) || sz != 4) return 0; default: dbg_printf("Unknown/unsupported bp type %c\n", type); return 0; } return 1; } static unsigned be_arm_remove_Xpoint(HANDLE hProcess, const struct be_process_io* pio, CONTEXT* ctx, enum be_xpoint_type type, void* addr, unsigned long val, unsigned size) { SIZE_T sz; switch (type) { case be_xpoint_break: if (!size) return 0; if (!pio->write(hProcess, addr, &val, 4, &sz) || sz == 4) return 0; break; default: dbg_printf("Unknown/unsupported bp type %c\n", type); return 0; } return 1; } static unsigned be_arm_is_watchpoint_set(const CONTEXT* ctx, unsigned idx) { dbg_printf("be_arm_is_watchpoint_set: not done\n"); return FALSE; } static void be_arm_clear_watchpoint(CONTEXT* ctx, unsigned idx) { dbg_printf("be_arm_clear_watchpoint: not done\n"); } static int be_arm_adjust_pc_for_break(CONTEXT* ctx, BOOL way) { INT step = (ctx->Cpsr & 0x20) ? 2 : 4; if (way) { ctx->Pc -= step; return -step; } ctx->Pc += step; return step; } static int be_arm_fetch_integer(const struct dbg_lvalue* lvalue, unsigned size, unsigned ext_sign, LONGLONG* ret) { if (size != 1 && size != 2 && size != 4 && size != 8) return FALSE; memset(ret, 0, sizeof(*ret)); /* clear unread bytes */ /* FIXME: this assumes that debuggee and debugger use the same * integral representation */ if (!memory_read_value(lvalue, size, ret)) return FALSE; /* propagate sign information */ if (ext_sign && size < 8 && (*ret >> (size * 8 - 1)) != 0) { ULONGLONG neg = -1; *ret |= neg << (size * 8); } return TRUE; } static int be_arm_fetch_float(const struct dbg_lvalue* lvalue, unsigned size, long double* ret) { char tmp[sizeof(long double)]; /* FIXME: this assumes that debuggee and debugger use the same * representation for reals */ if (!memory_read_value(lvalue, size, tmp)) return FALSE; switch (size) { case sizeof(float): *ret = *(float*)tmp; break; case sizeof(double): *ret = *(double*)tmp; break; default: return FALSE; } return TRUE; } static int be_arm_store_integer(const struct dbg_lvalue* lvalue, unsigned size, unsigned is_signed, LONGLONG val) { /* this is simple if we're on a little endian CPU */ return memory_write_value(lvalue, size, &val); } struct backend_cpu be_arm = { IMAGE_FILE_MACHINE_ARMV7, 4, be_cpu_linearize, be_cpu_build_addr, be_arm_get_addr, be_arm_get_register_info, be_arm_single_step, be_arm_print_context, be_arm_print_segment_info, be_arm_ctx, be_arm_is_step_over_insn, be_arm_is_function_return, be_arm_is_break_insn, be_arm_is_func_call, be_arm_is_jump, be_arm_disasm_one_insn, be_arm_insert_Xpoint, be_arm_remove_Xpoint, be_arm_is_watchpoint_set, be_arm_clear_watchpoint, be_arm_adjust_pc_for_break, be_arm_fetch_integer, be_arm_fetch_float, be_arm_store_integer, }; #endif