*
* This work is licensed under the terms of 3-clause BSD license.
* See COPYING file in the top-level directory.
+ *
+ * recognized asm hint comments:
+ * sctattr - function attributes (see code)
+ * sctend - force end of function/chunk
+ * sctpatch: <p> - replace current asm line with <p>
+ * sctproto: <p> - prototype of ref'd function or struct
+ * sctref - variable is referenced, make global
+ * sctskip_start - start of skipped code chunk (inclusive)
+ * sctskip_end - end of skipped code chunk (inclusive)
*/
#define _GNU_SOURCE
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
+#include <math.h>
+#include <errno.h>
#include "my_assert.h"
#include "my_str.h"
#include "common.h"
-#define ARRAY_SIZE(x) (sizeof(x) / sizeof(x[0]))
-#define IS(w, y) !strcmp(w, y)
-#define IS_START(w, y) !strncmp(w, y, strlen(y))
-
#include "protoparse.h"
static const char *asmfn;
OPF_EBP_S = (1 << 13), /* ebp used as scratch here, not BP */
OPF_DF = (1 << 14), /* DF flag set */
OPF_ATAIL = (1 << 15), /* tail call with reused arg frame */
- OPF_32BIT = (1 << 16), /* 32bit division */
+ OPF_32BIT = (1 << 16), /* enough to do 32bit for this op */
OPF_LOCK = (1 << 17), /* op has lock prefix */
OPF_VAPUSH = (1 << 18), /* vararg ptr push (as call arg) */
OPF_DONE = (1 << 19), /* already fully handled by analysis */
OPF_NOREGS = (1 << 21), /* don't track regs of this op */
OPF_FPUSH = (1 << 22), /* pushes x87 stack */
OPF_FPOP = (1 << 23), /* pops x87 stack */
- OPF_FSHIFT = (1 << 24), /* x87 stack shift is actually needed */
+ OPF_FPOPP = (1 << 24), /* pops x87 stack twice */
+ OPF_FSHIFT = (1 << 25), /* x87 stack shift is actually needed */
+ OPF_FINT = (1 << 26), /* integer float op arg */
};
enum op_op {
OP_MOVS,
OP_CMPS,
OP_SCAS,
+ OP_RDTSC,
+ OP_CPUID,
OP_STD,
OP_CLD,
OP_RET,
OP_ADC,
OP_SBB,
OP_BSF,
+ OP_BSR,
OP_INC,
OP_DEC,
OP_NEG,
unsigned int type_from_var:1; // .. in header, sometimes wrong
unsigned int size_mismatch:1; // type override differs from C
unsigned int size_lt:1; // type override is larger than C
- unsigned int had_ds:1; // had ds: prefix
+ unsigned int segment:7; // had segment override (enum segment)
const struct parsed_proto *pp; // for OPT_LABEL
unsigned int val;
char name[NAMELEN];
IDAFA_FPD = (1 << 5),
};
+// sctattr
enum sct_func_attr {
SCTFA_CLEAR_SF = (1 << 0), // clear stack frame
SCTFA_CLEAR_REGS = (1 << 1), // clear registers (mask)
+ SCTFA_RM_REGS = (1 << 2), // don't emit regs (mask)
+ SCTFA_NOWARN = (1 << 3), // don't try to detect problems
+ SCTFA_ARGFRAME = (1 << 4), // copy all args to a struct, in order
};
enum x87_const {
X87_CONST_1 = 1,
- X87_CONST_2T,
- X87_CONST_2E,
+ X87_CONST_L2T,
+ X87_CONST_L2E,
X87_CONST_PI,
X87_CONST_LG2,
X87_CONST_LN2,
X87_CONST_Z,
};
+enum segment {
+ SEG_CS = 1,
+ SEG_DS,
+ SEG_SS,
+ SEG_ES,
+ SEG_FS,
+ SEG_GS,
+};
+
// note: limited to 32k due to p_argnext
#define MAX_OPS 4096
#define MAX_ARG_GRP 2
static int g_sp_frame;
static int g_stack_frame_used;
static int g_stack_fsz;
+static int g_seh_found;
+static int g_seh_size;
static int g_ida_func_attr;
static int g_sct_func_attr;
static int g_stack_clear_start; // in dwords
static int g_stack_clear_len;
static int g_regmask_init;
+static int g_regmask_rm;
static int g_skip_func;
static int g_allow_regfunc;
static int g_allow_user_icall;
if (!(cond)) ferr(op_, "assertion '%s' failed\n", #cond); \
} while (0)
+#define IS_OP_INDIRECT_CALL(op_) \
+ ((op_)->op == OP_CALL && (op_)->operand[0].type != OPT_LABEL)
+
const char *regs_r32[] = {
"eax", "ebx", "ecx", "edx", "esi", "edi", "ebp", "esp",
// not r32, but list here for easy parsing and printing
};
#define mxAX (1 << xAX)
+#define mxBX (1 << xBX)
#define mxCX (1 << xCX)
#define mxDX (1 << xDX)
+#define mxSP (1 << xSP)
#define mxST0 (1 << xST0)
#define mxST1 (1 << xST1)
#define mxST1_0 (mxST1 | mxST0)
return 0;
switch (s[0]) {
- case 'c': return 1;
- case 'd': return 2;
- case 's': return 3;
- case 'e': return 4;
- case 'f': return 5;
- case 'g': return 6;
+ case 'c': return SEG_CS;
+ case 'd': return SEG_DS;
+ case 's': return SEG_SS;
+ case 'e': return SEG_ES;
+ case 'f': return SEG_FS;
+ case 'g': return SEG_GS;
default: return 0;
}
}
}
if ('0' <= w[0] && w[0] <= '9') {
- number = parse_number(w);
+ number = parse_number(w, 0);
printf_number(d, sizeof(cvtbuf) - (d - cvtbuf), number);
continue;
}
if (p == NULL)
aerr("%s IDA stackvar not set?\n", __func__);
}
- if (!('0' <= *s && *s <= '9')) {
- aerr("%s IDA stackvar offset not set?\n", __func__);
- return NULL;
- }
- if (s[0] == '0' && s[1] == 'x')
- s += 2;
- len = p - s;
- if (len < sizeof(buf) - 1) {
- strncpy(buf, s, len);
- buf[len] = 0;
- val = strtol(buf, &endp, 16);
- if (val == 0 || *endp != 0) {
- aerr("%s num parse fail for '%s'\n", __func__, buf);
- return NULL;
+ if ('0' <= *s && *s <= '9') {
+ if (s[0] == '0' && s[1] == 'x')
+ s += 2;
+ len = p - s;
+ if (len < sizeof(buf) - 1) {
+ strncpy(buf, s, len);
+ buf[len] = 0;
+ errno = 0;
+ val = strtol(buf, &endp, 16);
+ if (val == 0 || *endp != 0 || errno != 0) {
+ aerr("%s num parse fail for '%s'\n", __func__, buf);
+ return NULL;
+ }
}
+ p++;
+ }
+ else {
+ // probably something like [esp+arg_4+2]
+ p = s;
+ val = 0;
}
- p++;
}
else
p = name + 4;
opr->type = OPT_LABEL;
ret = check_segment_prefix(label);
if (ret != 0) {
- if (ret >= 5)
- aerr("fs/gs used\n");
- opr->had_ds = 1;
+ opr->segment = ret;
label += 3;
}
strcpy(opr->name, label);
ret = check_segment_prefix(words[w]);
if (ret != 0) {
- if (ret >= 5)
- aerr("fs/gs used\n");
- opr->had_ds = 1;
+ opr->segment = ret;
memmove(words[w], words[w] + 3, strlen(words[w]) - 2);
+ if (ret == SEG_FS && IS(words[w], "0"))
+ g_seh_found = 1;
}
strcpy(opr->name, words[w]);
else if (('0' <= words[w][0] && words[w][0] <= '9')
|| words[w][0] == '-')
{
- number = parse_number(words[w]);
+ number = parse_number(words[w], 0);
opr->type = OPT_CONST;
opr->val = number;
printf_number(opr->name, sizeof(opr->name), number);
{ "repz", OPF_REP|OPF_REPZ },
{ "repne", OPF_REP|OPF_REPNZ },
{ "repnz", OPF_REP|OPF_REPNZ },
- { "lock", OPF_LOCK }, // ignored for now..
+ { "lock", OPF_LOCK },
};
#define OPF_CJMP_CC (OPF_JMP|OPF_CJMP|OPF_CC)
{ "scasb",OP_SCAS, 0, 0, OPF_DATA|OPF_FLAGS },
{ "scasw",OP_SCAS, 0, 0, OPF_DATA|OPF_FLAGS },
{ "scasd",OP_SCAS, 0, 0, OPF_DATA|OPF_FLAGS },
+ { "rdtsc",OP_RDTSC, 0, 0, OPF_DATA },
+ { "cpuid",OP_CPUID, 0, 0, OPF_DATA },
{ "std", OP_STD, 0, 0, OPF_DATA }, // special flag
{ "cld", OP_CLD, 0, 0, OPF_DATA },
{ "add", OP_ADD, 2, 2, OPF_DATA|OPF_FLAGS },
{ "adc", OP_ADC, 2, 2, OPF_DATA|OPF_FLAGS|OPF_CC, PFO_C },
{ "sbb", OP_SBB, 2, 2, OPF_DATA|OPF_FLAGS|OPF_CC, PFO_C },
{ "bsf", OP_BSF, 2, 2, OPF_DATA|OPF_FLAGS },
+ { "bsr", OP_BSR, 2, 2, OPF_DATA|OPF_FLAGS },
{ "inc", OP_INC, 1, 1, OPF_DATA|OPF_FLAGS },
{ "dec", OP_DEC, 1, 1, OPF_DATA|OPF_FLAGS },
{ "neg", OP_NEG, 1, 1, OPF_DATA|OPF_FLAGS },
{ "setnle", OP_SCC, 1, 1, OPF_DATA|OPF_CC, PFO_LE, 1 },
// x87
{ "fld", OP_FLD, 1, 1, OPF_FPUSH },
- { "fild", OP_FILD, 1, 1, OPF_FPUSH },
+ { "fild", OP_FILD, 1, 1, OPF_FPUSH|OPF_FINT },
{ "fld1", OP_FLDc, 0, 0, OPF_FPUSH },
+ { "fldl2t", OP_FLDc, 0, 0, OPF_FPUSH },
+ { "fldl2e", OP_FLDc, 0, 0, OPF_FPUSH },
+ { "fldpi", OP_FLDc, 0, 0, OPF_FPUSH },
+ { "fldlg2", OP_FLDc, 0, 0, OPF_FPUSH },
{ "fldln2", OP_FLDc, 0, 0, OPF_FPUSH },
{ "fldz", OP_FLDc, 0, 0, OPF_FPUSH },
{ "fst", OP_FST, 1, 1, 0 },
{ "fstp", OP_FST, 1, 1, OPF_FPOP },
- { "fist", OP_FIST, 1, 1, 0 },
- { "fistp", OP_FIST, 1, 1, OPF_FPOP },
+ { "fist", OP_FIST, 1, 1, OPF_FINT },
+ { "fistp", OP_FIST, 1, 1, OPF_FPOP|OPF_FINT },
{ "fadd", OP_FADD, 0, 2, 0 },
{ "faddp", OP_FADD, 0, 2, OPF_FPOP },
{ "fdiv", OP_FDIV, 0, 2, 0 },
{ "fdivrp", OP_FDIVR, 0, 2, OPF_FPOP },
{ "fsubr", OP_FSUBR, 0, 2, 0 },
{ "fsubrp", OP_FSUBR, 0, 2, OPF_FPOP },
- { "fiadd", OP_FIADD, 1, 1, 0 },
- { "fidiv", OP_FIDIV, 1, 1, 0 },
- { "fimul", OP_FIMUL, 1, 1, 0 },
- { "fisub", OP_FISUB, 1, 1, 0 },
- { "fidivr", OP_FIDIVR, 1, 1, 0 },
- { "fisubr", OP_FISUBR, 1, 1, 0 },
+ { "fiadd", OP_FIADD, 1, 1, OPF_FINT },
+ { "fidiv", OP_FIDIV, 1, 1, OPF_FINT },
+ { "fimul", OP_FIMUL, 1, 1, OPF_FINT },
+ { "fisub", OP_FISUB, 1, 1, OPF_FINT },
+ { "fidivr", OP_FIDIVR, 1, 1, OPF_FINT },
+ { "fisubr", OP_FISUBR, 1, 1, OPF_FINT },
{ "fcom", OP_FCOM, 0, 1, 0 },
{ "fcomp", OP_FCOM, 0, 1, OPF_FPOP },
+ { "fcompp", OP_FCOM, 0, 0, OPF_FPOPP },
+ { "fucom", OP_FCOM, 0, 1, 0 },
+ { "fucomp", OP_FCOM, 0, 1, OPF_FPOP },
+ { "fucompp",OP_FCOM, 0, 0, OPF_FPOPP },
{ "fnstsw", OP_FNSTSW, 1, 1, OPF_DATA },
{ "fchs", OP_FCHS, 0, 0, 0 },
{ "fcos", OP_FCOS, 0, 0, 0 },
{ "_allshr",OPP_ALLSHR },
{ "_ftol", OPP_FTOL },
{ "_CIpow", OPP_CIPOW },
+ { "abort", OPP_ABORT },
// must be last
{ "ud2", OP_UD2 },
};
op->regmask_dst = op->regmask_src;
break;
+ case OP_RDTSC:
+ op->regmask_dst = mxAX | mxDX;
+ break;
+
+ case OP_CPUID:
+ // for now, ignore ecx dep for eax={4,7,b,d}
+ op->regmask_src = mxAX;
+ op->regmask_dst = mxAX | mxBX | mxCX | mxDX;
+ break;
+
case OP_LOOP:
op->regmask_dst = 1 << xCX;
// fallthrough
// fallthrough
case OP_MUL:
// singleop mul
- op->regmask_src |= op->regmask_dst;
- op->regmask_dst = (1 << xDX) | (1 << xAX);
if (op->operand[0].lmod == OPLM_UNSPEC)
op->operand[0].lmod = OPLM_DWORD;
+ op->regmask_src = mxAX | op->regmask_dst;
+ op->regmask_dst = mxAX;
+ if (op->operand[0].lmod != OPLM_BYTE)
+ op->regmask_dst |= mxDX;
break;
case OP_DIV:
case OP_IDIV:
// we could set up operands for edx:eax, but there is no real need to
// (see is_opr_modified())
- op->regmask_src |= op->regmask_dst;
- op->regmask_dst = (1 << xDX) | (1 << xAX);
if (op->operand[0].lmod == OPLM_UNSPEC)
op->operand[0].lmod = OPLM_DWORD;
+ op->regmask_src = mxAX | op->regmask_dst;
+ op->regmask_dst = mxAX;
+ if (op->operand[0].lmod != OPLM_BYTE) {
+ op->regmask_src |= mxDX;
+ op->regmask_dst |= mxDX;
+ }
break;
case OP_SHL:
break;
case OP_CALL:
+ // needed because of OPF_DATA
+ op->regmask_src |= op->regmask_dst;
// trashed regs must be explicitly detected later
op->regmask_dst = 0;
break;
op->regmask_dst |= mxST0;
if (IS(words[op_w] + 3, "1"))
op->operand[0].val = X87_CONST_1;
+ else if (IS(words[op_w] + 3, "l2t"))
+ op->operand[0].val = X87_CONST_L2T;
+ else if (IS(words[op_w] + 3, "l2e"))
+ op->operand[0].val = X87_CONST_L2E;
+ else if (IS(words[op_w] + 3, "pi"))
+ op->operand[0].val = X87_CONST_PI;
+ else if (IS(words[op_w] + 3, "lg2"))
+ op->operand[0].val = X87_CONST_LG2;
else if (IS(words[op_w] + 3, "ln2"))
op->operand[0].val = X87_CONST_LN2;
else if (IS(words[op_w] + 3, "z"))
op->operand[0].val = X87_CONST_Z;
else
- aerr("TODO\n");
+ aerr("fld what?\n");
break;
case OP_FST:
case OP_FCOM:
op->regmask_src |= mxST0;
+ if (op->operand_cnt == 0) {
+ op->operand_cnt = 1;
+ op->operand[0].type = OPT_REG;
+ op->operand[0].lmod = OPLM_QWORD;
+ op->operand[0].reg = xST1;
+ op->regmask_src |= mxST1;
+ }
break;
default:
*extra_offs = 0;
namelen = strlen(name);
- p = strchr(name, '+');
+ p = strpbrk(name, "+-");
if (p != NULL) {
namelen = p - name;
if (namelen <= 0)
ferr(po, "equ parse failed for '%s'\n", name);
- if (IS_START(p, "0x"))
- p += 2;
+ errno = 0;
*extra_offs = strtol(p, &endp, 16);
- if (*endp != 0)
+ if (*endp != 0 || errno != 0)
ferr(po, "equ parse failed for '%s'\n", name);
}
p = name + 4;
if (IS_START(p, "0x"))
p += 2;
+ errno = 0;
offset = strtoul(p, &endp, 16);
if (name[3] == '-')
offset = -offset;
- if (*endp != 0)
+ if (*endp != 0 || errno != 0)
ferr(po, "ebp- parse of '%s' failed\n", name);
}
else {
// just plain offset?
if (!IS_START(name, "esp+"))
return -1;
+ errno = 0;
offset = strtol(name + 4, &endp, 0);
- if (endp == NULL || *endp != 0)
+ if (endp == NULL || *endp != 0 || errno != 0)
return -1;
*offset_out = offset;
return 0;
const char *prefix = "";
const char *bp_arg = NULL;
char ofs_reg[16] = { 0, };
+ char argname[8];
int i, arg_i, arg_s;
int unaligned = 0;
int stack_ra = 0;
int offset = 0;
int retval = -1;
int sf_ofs;
- int lim;
- if (po->flags & OPF_EBP_S)
+ if (g_bp_frame && (po->flags & OPF_EBP_S)
+ && !(po->regmask_src & mxSP))
ferr(po, "stack_frame_access while ebp is scratch\n");
parse_stack_access(po, name, ofs_reg, &offset,
snprintf(buf, buf_size, "%sap", cast);
return -1;
}
- ferr(po, "offset %d (%s,%d) doesn't map to any arg\n",
+ ferr(po, "offset 0x%x (%s,%d) doesn't map to any arg\n",
offset, bp_arg, arg_i);
}
if (ofs_reg[0] != 0)
popr->is_ptr = g_func_pp->arg[i].type.is_ptr;
retval = i;
+ snprintf(argname, sizeof(argname), "%sa%d",
+ g_sct_func_attr & SCTFA_ARGFRAME ? "af." : "", i + 1);
+
switch (popr->lmod)
{
case OPLM_BYTE:
if (is_lea)
ferr(po, "lea/byte to arg?\n");
if (is_src && (offset & 3) == 0)
- snprintf(buf, buf_size, "%sa%d",
- simplify_cast(cast, "(u8)"), i + 1);
+ snprintf(buf, buf_size, "%s%s",
+ simplify_cast(cast, "(u8)"), argname);
else
- snprintf(buf, buf_size, "%sBYTE%d(a%d)",
- cast, offset & 3, i + 1);
+ snprintf(buf, buf_size, "%sBYTE%d(%s)",
+ cast, offset & 3, argname);
break;
case OPLM_WORD:
if (!is_src) {
if (offset & 2)
ferr(po, "problematic arg store\n");
- snprintf(buf, buf_size, "%s((char *)&a%d + 1)",
- simplify_cast(cast, "*(u16 *)"), i + 1);
+ snprintf(buf, buf_size, "%s((char *)&%s + 1)",
+ simplify_cast(cast, "*(u16 *)"), argname);
}
else
ferr(po, "unaligned arg word load\n");
}
else if (is_src && (offset & 2) == 0)
- snprintf(buf, buf_size, "%sa%d",
- simplify_cast(cast, "(u16)"), i + 1);
+ snprintf(buf, buf_size, "%s%s",
+ simplify_cast(cast, "(u16)"), argname);
else
- snprintf(buf, buf_size, "%s%sWORD(a%d)",
- cast, (offset & 2) ? "HI" : "LO", i + 1);
+ snprintf(buf, buf_size, "%s%sWORD(%s)",
+ cast, (offset & 2) ? "HI" : "LO", argname);
break;
case OPLM_DWORD:
if (offset & 3) {
unaligned = 1;
if (is_lea)
- snprintf(buf, buf_size, "(u32)&a%d + %d",
- i + 1, offset & 3);
+ snprintf(buf, buf_size, "(u32)&%s + %d",
+ argname, offset & 3);
else if (!is_src)
ferr(po, "unaligned arg store\n");
else {
// mov edx, [ebp+arg_4+2]; movsx ecx, dx
- snprintf(buf, buf_size, "%s(a%d >> %d)",
- prefix, i + 1, (offset & 3) * 8);
+ snprintf(buf, buf_size, "%s(%s >> %d)",
+ prefix, argname, (offset & 3) * 8);
}
}
else {
- snprintf(buf, buf_size, "%s%sa%d",
- prefix, is_lea ? "&" : "", i + 1);
+ snprintf(buf, buf_size, "%s%s%s",
+ prefix, is_lea ? "&" : "", argname);
}
break;
+ case OPLM_QWORD:
+ ferr_assert(po, !(offset & 7));
+ if (cast[0])
+ prefix = cast;
+ snprintf(buf, buf_size, "%s%s%s",
+ prefix, is_lea ? "&" : "", argname);
+ break;
+
default:
ferr(po, "bp_arg bad lmod: %d\n", popr->lmod);
}
g_stack_frame_used = 1;
sf_ofs = g_stack_fsz + offset;
- lim = (ofs_reg[0] != 0) ? -4 : 0;
- if (offset > 0 || sf_ofs < lim)
+ if (ofs_reg[0] == 0 && (offset > 0 || sf_ofs < 0))
ferr(po, "bp_stack offset %d/%d\n", offset, g_stack_fsz);
if (is_lea)
ferr_assert(po, !(sf_ofs & 7));
ferr_assert(po, ofs_reg[0] == 0);
// only used for x87 int64/float, float sets is_lea
- if (is_lea)
- snprintf(buf, buf_size, "%ssf.q[%d]", prefix, sf_ofs / 8);
- else
- snprintf(buf, buf_size, "*(s64 *)&sf.q[%d]", sf_ofs / 8);
+ if (!is_lea && (po->flags & OPF_FINT))
+ prefix = "*(s64 *)&";
+ snprintf(buf, buf_size, "%ssf.q[%d]", prefix, sf_ofs / 8);
break;
default:
}
static const char *check_label_read_ref(struct parsed_op *po,
- const char *name)
+ const char *name, int *is_import)
{
const struct parsed_proto *pp;
if (pp->is_func)
check_func_pp(po, pp, "ref");
+ if (is_import != NULL)
+ *is_import = pp->is_import;
+
return pp->name;
}
+static void check_opr(struct parsed_op *po, struct parsed_opr *popr)
+{
+ if (popr->segment == SEG_FS)
+ ferr(po, "fs: used\n");
+ if (popr->segment == SEG_GS)
+ ferr(po, "gs: used\n");
+}
+
static char *out_src_opr(char *buf, size_t buf_size,
struct parsed_op *po, struct parsed_opr *popr, const char *cast,
int is_lea)
char tmp1[256], tmp2[256];
char expr[256];
const char *name;
+ int is_import = 0;
char *p;
int ret;
+ check_opr(po, popr);
+
if (cast == NULL)
cast = "";
break;
case OPT_LABEL:
- name = check_label_read_ref(po, popr->name);
+ name = check_label_read_ref(po, popr->name, &is_import);
+ if (is_import)
+ // for imported data, asm is loading the offset
+ goto do_offset;
+
if (cast[0] == 0 && popr->is_ptr)
cast = "(u32)";
break;
case OPT_OFFSET:
- name = check_label_read_ref(po, popr->name);
+ do_offset:
+ name = check_label_read_ref(po, popr->name, NULL);
if (cast[0] == 0)
cast = "(u32)";
if (is_lea)
static char *out_dst_opr(char *buf, size_t buf_size,
struct parsed_op *po, struct parsed_opr *popr)
{
+ check_opr(po, popr);
+
switch (popr->type) {
case OPT_REG:
switch (popr->lmod) {
return out_src_opr(buf, buf_size, po, popr, NULL, 0);
}
-static char *out_src_opr_float(char *buf, size_t buf_size,
- struct parsed_op *po, struct parsed_opr *popr, int need_float_stack)
+static char *out_opr_float(char *buf, size_t buf_size,
+ struct parsed_op *po, struct parsed_opr *popr, int is_src,
+ int need_float_stack)
{
const char *cast = NULL;
char tmp[256];
+ union {
+ float f;
+ int i;
+ } u;
switch (popr->type) {
case OPT_REG:
- if (popr->reg < xST0 || popr->reg > xST7)
- ferr(po, "bad reg: %d\n", popr->reg);
+ if (popr->reg < xST0 || popr->reg > xST7) {
+ // func arg
+ ferr_assert(po, po->op == OP_PUSH);
+ ferr_assert(po, popr->lmod == OPLM_DWORD);
+ snprintf(buf, buf_size, "*(float *)&%s", opr_reg_p(po, popr));
+ break;
+ }
if (need_float_stack) {
if (popr->reg == xST0)
break;
case OPT_REGMEM:
+ if (popr->lmod == OPLM_QWORD && is_stack_access(po, popr)) {
+ stack_frame_access(po, popr, buf, buf_size,
+ popr->name, "", is_src, 0);
+ break;
+ }
+ // fallthrough
case OPT_LABEL:
case OPT_OFFSET:
switch (popr->lmod) {
snprintf(buf, buf_size, "*(%s *)(%s)", cast, tmp);
break;
+ case OPT_CONST:
+ // only for func float args pushes
+ ferr_assert(po, po->op == OP_PUSH);
+ u.i = po->operand[0].val;
+ if (ceilf(u.f) == u.f)
+ snprintf(buf, buf_size, "%.1ff", u.f);
+ else
+ snprintf(buf, buf_size, "%.8ff", u.f);
+ break;
+
default:
ferr(po, "invalid float type: %d\n", popr->type);
}
return buf;
}
+static char *out_src_opr_float(char *buf, size_t buf_size,
+ struct parsed_op *po, struct parsed_opr *popr, int need_float_stack)
+{
+ return out_opr_float(buf, buf_size, po, popr, 1, need_float_stack);
+}
+
static char *out_dst_opr_float(char *buf, size_t buf_size,
struct parsed_op *po, struct parsed_opr *popr, int need_float_stack)
{
- // same?
- return out_src_opr_float(buf, buf_size, po, popr, need_float_stack);
+ return out_opr_float(buf, buf_size, po, popr, 0, need_float_stack);
}
static void out_test_for_cc(char *buf, size_t buf_size,
snprintf(buf, buf_size, "(%d)", !!is_inv);
break;
+ case PFO_P: // PF==1
+ snprintf(buf, buf_size, "(%sdo_parity(%s))",
+ is_inv ? "!" : "", expr);
+ break;
+
default:
ferr(po, "%s: unhandled parsed_flag_op: %d\n", __func__, pfo);
}
if (po->pp != NULL && po->pp->is_noreturn)
seen_noreturn = 1;
else
- return -1;
+ goto out;
}
else
- return -1; // deadend
+ goto out;
}
if (po->flags & (OPF_RMD|OPF_DONE|OPF_FARG))
}
}
+out:
// for noreturn, assume msvc skipped stack cleanup
return seen_noreturn ? 1 : -1;
}
return -1;
}
- // nothing interesting on this path
- return 0;
+ // nothing interesting on this path,
+ // still return ret for something recursive calls could find
+ return ret;
}
static void find_reachable_exits(int i, int opcnt, int magic,
{
static int exits[MAX_EXITS];
static int exit_count;
- int j, ret;
+ int found = 0;
+ int e, j, ret;
if (!set_flags) {
exit_count = 0;
}
for (j = 0; j < exit_count; j++) {
- ret = scan_for_rsave_pop_reg(exits[j], i + opcnt * 16 + set_flags,
+ e = exits[j];
+ ret = scan_for_rsave_pop_reg(e, i + opcnt * 16 + set_flags,
reg, set_flags);
- if (ret == -1)
- return -1;
+ if (ret != -1) {
+ found |= ret;
+ continue;
+ }
+ if (ops[e].op == OP_CALL && ops[e].pp != NULL
+ && ops[e].pp->is_noreturn)
+ {
+ // assume stack cleanup was skipped
+ continue;
+ }
+ return -1;
}
- return 1;
+ return found;
}
// scan for one or more pop of push <const>
char buf[256];
char *p;
+ if (po->pp != NULL && (po->flags & OPF_DATA)) {
+ // hint given in asm
+ return po->pp;
+ }
+
// maybe an arg of g_func?
if (opr->type == OPT_REGMEM && is_stack_access(po, opr))
{
if (*pp_found != NULL && pp != NULL && *pp_found != pp) {
if (!IS((*pp_found)->ret_type.name, pp->ret_type.name)
|| (*pp_found)->is_stdcall != pp->is_stdcall
- || (*pp_found)->is_fptr != pp->is_fptr
+ //|| (*pp_found)->is_fptr != pp->is_fptr
|| (*pp_found)->argc != pp->argc
|| (*pp_found)->argc_reg != pp->argc_reg
|| (*pp_found)->argc_stack != pp->argc_stack)
{ "__allshl", OPP_ALLSHL, OPF_DATA, mxAX|mxDX|mxCX, mxAX|mxDX },
{ "__allshr", OPP_ALLSHR, OPF_DATA, mxAX|mxDX|mxCX, mxAX|mxDX },
{ "__ftol", OPP_FTOL, OPF_FPOP, mxST0, mxAX | mxDX },
+ // more precise? Wine gets away with just __ftol handler
+ { "__ftol2", OPP_FTOL, OPF_FPOP, mxST0, mxAX | mxDX },
{ "__CIpow", OPP_CIPOW, OPF_FPOP, mxST0|mxST1, mxST0 },
};
const struct parsed_proto *pp_c;
struct parsed_data *pd;
struct parsed_op *po;
const char *tmpname;
+ enum op_op prev_op;
int i, l;
int ret;
else if (po->operand[0].type == OPT_LABEL)
{
tmpname = opr_name(po, 0);
- if (IS_START(tmpname, "loc_"))
- ferr(po, "call to loc_*\n");
+ if (IS_START(tmpname, "loc_")) {
+ if (!g_seh_found)
+ ferr(po, "call to loc_*\n");
+ // eliminate_seh() must take care of it
+ continue;
+ }
if (IS(tmpname, "__alloca_probe"))
continue;
+ if (IS(tmpname, "__SEH_prolog")) {
+ ferr_assert(po, g_seh_found == 0);
+ g_seh_found = 2;
+ continue;
+ }
+ if (IS(tmpname, "__SEH_epilog"))
+ continue;
// convert some calls to pseudo-ops
for (l = 0; l < ARRAY_SIZE(pseudo_ops); l++) {
if (pp != NULL) {
if (pp->is_fptr)
check_func_pp(po, pp, "fptr var call");
- if (pp->is_noreturn)
+ if (pp->is_noreturn) {
po->flags |= OPF_TAIL;
+ po->flags &= ~OPF_ATAIL; // most likely...
+ }
}
po->pp = pp;
continue;
&& IS(po->operand[0].name, g_labels[l]))
{
if (l == i + 1 && po->op == OP_JMP) {
- // yet another alignment type..
- po->flags |= OPF_RMD|OPF_DONE;
+ // yet another alignment type...
+ po->flags |= OPF_RMD | OPF_DONE;
+ po->flags &= ~OPF_JMP;
+ po->op = OP_NOP;
break;
}
add_label_ref(&g_label_refs[l], i);
tailcall:
po->op = OP_CALL;
po->flags |= OPF_TAIL;
- if (i > 0 && ops[i - 1].op == OP_POP)
+ prev_op = i > 0 ? ops[i - 1].op : OP_UD2;
+ if (prev_op == OP_POP)
+ po->flags |= OPF_ATAIL;
+ if (g_stack_fsz + g_bp_frame == 0 && prev_op != OP_PUSH
+ && (g_func_pp == NULL || g_func_pp->argc_stack > 0))
+ {
po->flags |= OPF_ATAIL;
+ }
i--; // reprocess
}
}
-static void scan_prologue_epilogue(int opcnt)
+static int resolve_origin(int i, const struct parsed_opr *opr,
+ int magic, int *op_i, int *is_caller);
+static void set_label(int i, const char *name);
+
+static void eliminate_seh_writes(int opcnt)
+{
+ const struct parsed_opr *opr;
+ char ofs_reg[16];
+ int offset;
+ int i;
+
+ // assume all sf writes above g_seh_size to be seh related
+ // (probably unsafe but oh well)
+ for (i = 0; i < opcnt; i++) {
+ if (ops[i].op != OP_MOV)
+ continue;
+ opr = &ops[i].operand[0];
+ if (opr->type != OPT_REGMEM)
+ continue;
+ if (!is_stack_access(&ops[i], opr))
+ continue;
+
+ offset = 0;
+ parse_stack_access(&ops[i], opr->name, ofs_reg, &offset,
+ NULL, NULL, 0);
+ if (offset < 0 && offset >= -g_seh_size)
+ ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+ }
+}
+
+static void eliminate_seh_finally(int opcnt)
+{
+ const char *target_name = NULL;
+ const char *return_name = NULL;
+ int exits[MAX_EXITS];
+ int exit_count = 0;
+ int call_i = -1;
+ int target_i = -1;
+ int return_i = -1;
+ int tgend_i = -1;
+ int i;
+
+ for (i = 0; i < opcnt; i++) {
+ if (ops[i].op != OP_CALL)
+ continue;
+ if (!IS_START(opr_name(&ops[i], 0), "loc_"))
+ continue;
+ if (target_name != NULL)
+ ferr(&ops[i], "multiple finally calls? (last was %s)\n",
+ target_name);
+ target_name = opr_name(&ops[i], 0);
+ call_i = i;
+
+ if (g_labels[i + 1] == NULL)
+ set_label(i + 1, "seh_fin_done");
+ return_name = g_labels[i + 1];
+ return_i = i + 1;
+ }
+
+ if (call_i == -1)
+ // no finally block
+ return;
+
+ // find finally code (bt_i is not set because it's call)
+ for (i = 0; i < opcnt; i++) {
+ if (g_labels[i] == NULL)
+ continue;
+ if (!IS(g_labels[i], target_name))
+ continue;
+
+ ferr_assert(&ops[i], target_i == -1);
+ target_i = i;
+ }
+ ferr_assert(&ops[0], target_i != -1);
+
+ find_reachable_exits(target_i, opcnt, target_i + opcnt * 24,
+ exits, &exit_count);
+ ferr_assert(&ops[target_i], exit_count == 1);
+ ferr_assert(&ops[target_i], ops[exits[0]].op == OP_RET);
+ tgend_i = exits[0];
+
+ // convert to jumps, link
+ ops[call_i].op = OP_JMP;
+ ops[call_i].bt_i = target_i;
+ add_label_ref(&g_label_refs[target_i], call_i);
+
+ ops[tgend_i].op = OP_JMP;
+ ops[tgend_i].flags &= ~OPF_TAIL;
+ ops[tgend_i].flags |= OPF_JMP;
+ ops[tgend_i].bt_i = return_i;
+ ops[tgend_i].operand_cnt = 1;
+ ops[tgend_i].operand[0].type = OPT_LABEL;
+ snprintf(ops[tgend_i].operand[0].name, NAMELEN, "%s", return_name);
+ add_label_ref(&g_label_refs[return_i], tgend_i);
+
+ // rm seh finally entry code
+ for (i = target_i - 1; i >= 0; i--) {
+ if (g_labels[i] != NULL && g_label_refs[i].i != -1)
+ return;
+ if (ops[i].flags & OPF_CJMP)
+ return;
+ if (ops[i].flags & (OPF_JMP | OPF_TAIL))
+ break;
+ }
+ for (i = target_i - 1; i >= 0; i--) {
+ if (ops[i].flags & (OPF_JMP | OPF_TAIL))
+ break;
+ ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+ }
+}
+
+static void eliminate_seh(int opcnt)
+{
+ int i, j, k, ret;
+
+ for (i = 0; i < opcnt; i++) {
+ if (ops[i].op != OP_MOV)
+ continue;
+ if (ops[i].operand[0].segment != SEG_FS)
+ continue;
+ if (!IS(opr_name(&ops[i], 0), "0"))
+ continue;
+
+ ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+ if (ops[i].operand[1].reg == xSP) {
+ for (j = i - 1; j >= 0; j--) {
+ if (ops[j].op != OP_PUSH)
+ continue;
+ ops[j].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+ g_seh_size += 4;
+ if (ops[j].operand[0].val == ~0)
+ break;
+ if (ops[j].operand[0].type == OPT_REG) {
+ k = -1;
+ ret = resolve_origin(j, &ops[j].operand[0],
+ j + opcnt * 22, &k, NULL);
+ if (ret == 1)
+ ops[k].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+ }
+ }
+ if (j < 0)
+ ferr(ops, "missing seh terminator\n");
+ }
+ else {
+ k = -1;
+ ret = resolve_origin(i, &ops[i].operand[1],
+ i + opcnt * 23, &k, NULL);
+ if (ret == 1)
+ ops[k].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+ }
+ }
+
+ eliminate_seh_writes(opcnt);
+ eliminate_seh_finally(opcnt);
+}
+
+static void eliminate_seh_calls(int opcnt)
+{
+ int epilog_found = 0;
+ int i;
+
+ g_bp_frame = 1;
+ g_seh_size = 0x10;
+
+ i = 0;
+ ferr_assert(&ops[i], ops[i].op == OP_PUSH
+ && ops[i].operand[0].type == OPT_CONST);
+ g_stack_fsz = g_seh_size + ops[i].operand[0].val;
+ ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+
+ i++;
+ ferr_assert(&ops[i], ops[i].op == OP_PUSH
+ && ops[i].operand[0].type == OPT_OFFSET);
+ ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+
+ i++;
+ ferr_assert(&ops[i], ops[i].op == OP_CALL
+ && IS(opr_name(&ops[i], 0), "__SEH_prolog"));
+ ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+
+ for (i++; i < opcnt; i++) {
+ if (ops[i].op != OP_CALL)
+ continue;
+ if (!IS(opr_name(&ops[i], 0), "__SEH_epilog"))
+ continue;
+
+ ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+ epilog_found = 1;
+ }
+ ferr_assert(ops, epilog_found);
+
+ eliminate_seh_writes(opcnt);
+ eliminate_seh_finally(opcnt);
+}
+
+// check for prologue of many pushes and epilogue with pops
+static void check_simple_sequence(int opcnt, int *fsz)
+{
+ int found = 0;
+ int seq_len;
+ int seq_p;
+ int seq[4];
+ int reg;
+ int i, j;
+
+ for (i = 0; i < opcnt && i < ARRAY_SIZE(seq); i++) {
+ if (ops[i].op != OP_PUSH || ops[i].operand[0].type != OPT_REG)
+ break;
+ reg = ops[i].operand[0].reg;
+ if (reg != xBX && reg != xSI && reg != xDI && reg != xBP)
+ break;
+ for (j = 0; j < i; j++)
+ if (seq[j] == reg)
+ break;
+ if (j != i)
+ // probably something else is going on here
+ break;
+ seq[i] = reg;
+ }
+ seq_len = i;
+ if (seq_len == 0)
+ return;
+
+ for (; i < opcnt && seq_len > 0; i++) {
+ if (!(ops[i].flags & OPF_TAIL))
+ continue;
+
+ for (j = i - 1, seq_p = 0; j >= 0 && seq_p < seq_len; j--) {
+ if (ops[j].op != OP_POP || ops[j].operand[0].type != OPT_REG)
+ break;
+ if (ops[j].operand[0].reg != seq[seq_p])
+ break;
+ seq_p++;
+ }
+ found = seq_len = seq_p;
+ }
+ if (!found)
+ return;
+
+ for (i = 0; i < seq_len; i++)
+ ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+
+ for (; i < opcnt && seq_len > 0; i++) {
+ if (!(ops[i].flags & OPF_TAIL))
+ continue;
+
+ for (j = i - 1, seq_p = 0; j >= 0 && seq_p < seq_len; j--) {
+ ops[j].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+ seq_p++;
+ }
+ }
+
+ // unlike pushes after sub esp,
+ // IDA treats pushed like this as part of var area
+ *fsz += seq_len * 4;
+}
+
+static int scan_prologue(int i, int opcnt, int *ecx_push, int *esp_sub)
+{
+ const char *name;
+ int j, len, ret;
+
+ for (; i < opcnt; i++)
+ if (!(ops[i].flags & OPF_DONE))
+ break;
+
+ while (ops[i].op == OP_PUSH && IS(opr_name(&ops[i], 0), "ecx")) {
+ ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+ g_stack_fsz += 4;
+ (*ecx_push)++;
+ i++;
+ }
+
+ for (; i < opcnt; i++) {
+ if (i > 0 && g_labels[i] != NULL)
+ break;
+ if (ops[i].op == OP_PUSH || (ops[i].flags & (OPF_JMP|OPF_TAIL)))
+ break;
+ if (ops[i].op == OP_SUB && ops[i].operand[0].reg == xSP
+ && ops[i].operand[1].type == OPT_CONST)
+ {
+ g_stack_fsz += opr_const(&ops[i], 1);
+ ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+ i++;
+ *esp_sub = 1;
+ break;
+ }
+ if (ops[i].op == OP_LEA && ops[i].operand[0].reg == xSP
+ && ops[i].operand[1].type == OPT_REGMEM
+ && IS_START(ops[i].operand[1].name, "esp-"))
+ {
+ name = ops[i].operand[1].name;
+ ret = sscanf(name, "esp-%x%n", &j, &len);
+ ferr_assert(&ops[i], ret == 1 && len == strlen(name));
+ g_stack_fsz += j;
+ ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+ i++;
+ *esp_sub = 1;
+ break;
+ }
+ if (ops[i].op == OP_MOV && ops[i].operand[0].reg == xAX
+ && ops[i].operand[1].type == OPT_CONST)
+ {
+ for (j = i + 1; j < opcnt; j++)
+ if (!(ops[j].flags & OPF_DONE))
+ break;
+ if (ops[j].op == OP_CALL
+ && IS(opr_name(&ops[j], 0), "__alloca_probe"))
+ {
+ g_stack_fsz += opr_const(&ops[i], 1);
+ ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+ ops[j].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+ i = j + 1;
+ *esp_sub = 1;
+ }
+ break;
+ }
+ }
+
+ return i;
+}
+
+static void scan_prologue_epilogue(int opcnt, int *stack_align)
{
int ecx_push = 0, esp_sub = 0, pusha = 0;
int sandard_epilogue;
- int found;
+ int found, ret, len;
+ int push_fsz = 0;
int i, j, l;
+ if (g_seh_found == 2) {
+ eliminate_seh_calls(opcnt);
+ return;
+ }
+ if (g_seh_found) {
+ eliminate_seh(opcnt);
+ // ida treats seh as part of sf
+ g_stack_fsz = g_seh_size;
+ esp_sub = 1;
+ }
+
if (ops[0].op == OP_PUSH && IS(opr_name(&ops[0], 0), "ebp")
&& ops[1].op == OP_MOV
&& IS(opr_name(&ops[1], 0), "ebp")
g_bp_frame = 1;
ops[0].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
ops[1].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
- i = 2;
+
+ for (i = 2; i < opcnt; i++)
+ if (!(ops[i].flags & OPF_DONE))
+ break;
if (ops[i].op == OP_PUSHA) {
ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
i++;
}
- if (ops[i].op == OP_SUB && IS(opr_name(&ops[i], 0), "esp")) {
- g_stack_fsz = opr_const(&ops[i], 1);
+ if (ops[i].op == OP_AND && ops[i].operand[0].reg == xSP
+ && ops[i].operand[1].type == OPT_CONST)
+ {
+ l = ops[i].operand[1].val;
+ j = ffs(l) - 1;
+ if (j == -1 || (l >> j) != -1)
+ ferr(&ops[i], "unhandled esp align: %x\n", l);
+ if (stack_align != NULL)
+ *stack_align = 1 << j;
ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
i++;
}
- else {
- // another way msvc builds stack frame..
- while (ops[i].op == OP_PUSH && IS(opr_name(&ops[i], 0), "ecx")) {
- g_stack_fsz += 4;
- ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
- ecx_push++;
- i++;
- }
- // and another way..
- if (i == 2 && ops[i].op == OP_MOV && ops[i].operand[0].reg == xAX
- && ops[i].operand[1].type == OPT_CONST
- && ops[i + 1].op == OP_CALL
- && IS(opr_name(&ops[i + 1], 0), "__alloca_probe"))
- {
- g_stack_fsz += ops[i].operand[1].val;
- ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
- i++;
- ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
- i++;
- }
- }
+
+ i = scan_prologue(i, opcnt, &ecx_push, &esp_sub);
found = 0;
do {
}
// non-bp frame
- i = 0;
- while (ops[i].op == OP_PUSH && IS(opr_name(&ops[i], 0), "ecx")) {
- ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
- g_stack_fsz += 4;
- ecx_push++;
- i++;
- }
-
- for (; i < opcnt; i++) {
- if (ops[i].op == OP_PUSH || (ops[i].flags & (OPF_JMP|OPF_TAIL)))
- break;
- if (ops[i].op == OP_SUB && ops[i].operand[0].reg == xSP
- && ops[i].operand[1].type == OPT_CONST)
- {
- g_stack_fsz = ops[i].operand[1].val;
- ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
- i++;
- esp_sub = 1;
- break;
- }
- else if (ops[i].op == OP_MOV && ops[i].operand[0].reg == xAX
- && ops[i].operand[1].type == OPT_CONST
- && ops[i + 1].op == OP_CALL
- && IS(opr_name(&ops[i + 1], 0), "__alloca_probe"))
- {
- g_stack_fsz += ops[i].operand[1].val;
- ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
- i++;
- ops[i].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
- i++;
- esp_sub = 1;
- break;
- }
- }
+ check_simple_sequence(opcnt, &push_fsz);
+ i = scan_prologue(0, opcnt, &ecx_push, &esp_sub);
if (ecx_push && !esp_sub) {
// could actually be args for a call..
ferr(&ops[i], "unhandled prologue\n");
// recheck
- i = g_stack_fsz = ecx_push = 0;
+ i = ecx_push = 0;
+ g_stack_fsz = g_seh_size;
while (ops[i].op == OP_PUSH && IS(opr_name(&ops[i], 0), "ecx")) {
if (!(ops[i].flags & OPF_RMD))
break;
i--;
j--;
}
+ else if (i < opcnt && (ops[i].flags & OPF_ATAIL)) {
+ // skip arg updates for arg-reuse tailcall
+ for (; j >= 0; j--) {
+ if (ops[j].op != OP_MOV)
+ break;
+ if (ops[j].operand[0].type != OPT_REGMEM)
+ break;
+ if (strstr(ops[j].operand[0].name, "arg_") == NULL)
+ break;
+ }
+ }
- if (ecx_push > 0) {
- for (l = 0; l < ecx_push; l++) {
+ for (; j >= 0; j--) {
+ if ((ops[j].flags & (OPF_RMD | OPF_DONE | OPF_NOREGS)) !=
+ (OPF_RMD | OPF_DONE | OPF_NOREGS))
+ break;
+ }
+
+ if (ecx_push > 0 && !esp_sub) {
+ for (l = 0; l < ecx_push && j >= 0; l++) {
if (ops[j].op == OP_POP && IS(opr_name(&ops[j], 0), "ecx"))
/* pop ecx */;
else if (ops[j].op == OP_ADD
l += ops[j].operand[1].val / 4 - 1;
}
else
- ferr(&ops[j], "'pop ecx' expected\n");
+ break;
ops[j].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
j--;
}
- if (l != ecx_push)
- ferr(&ops[j], "epilogue scan failed\n");
-
- found = 1;
- }
-
- if (esp_sub) {
- if (ops[j].op != OP_ADD
- || !IS(opr_name(&ops[j], 0), "esp")
- || ops[j].operand[1].type != OPT_CONST
- || ops[j].operand[1].val != g_stack_fsz)
- {
- if (ops[i].op == OP_CALL && ops[i].pp != NULL
- && ops[i].pp->is_noreturn)
+ if (l != ecx_push) {
+ if (i < opcnt && ops[i].op == OP_CALL
+ && ops[i].pp != NULL && ops[i].pp->is_noreturn)
{
// noreturn tailcall with no epilogue
i++;
+ found = 1;
continue;
}
- ferr(&ops[j], "'add esp' expected\n");
+ ferr(&ops[j], "epilogue scan failed\n");
}
- ops[j].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
- ops[j].operand[1].val = 0; // hack for stack arg scanner
found = 1;
}
+ if (esp_sub) {
+ if (ops[j].op == OP_ADD
+ && IS(opr_name(&ops[j], 0), "esp")
+ && ops[j].operand[1].type == OPT_CONST)
+ {
+ if (ops[j].operand[1].val < g_stack_fsz)
+ ferr(&ops[j], "esp adj is too low (need %d)\n", g_stack_fsz);
+
+ ops[j].operand[1].val -= g_stack_fsz; // for stack arg scanner
+ if (ops[j].operand[1].val == 0)
+ ops[j].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+ found = 1;
+ }
+ else if (ops[j].op == OP_LEA && ops[j].operand[0].reg == xSP
+ && ops[j].operand[1].type == OPT_REGMEM
+ && IS_START(ops[j].operand[1].name, "esp+"))
+ {
+ const char *name = ops[j].operand[1].name;
+ ret = sscanf(name, "esp+%x%n", &l, &len);
+ ferr_assert(&ops[j], ret == 1 && len == strlen(name));
+ ferr_assert(&ops[j], l <= g_stack_fsz);
+ ops[j].flags |= OPF_RMD | OPF_DONE | OPF_NOREGS;
+ found = 1;
+ }
+ else if (i < opcnt && ops[i].op == OP_CALL
+ && ops[i].pp != NULL && ops[i].pp->is_noreturn)
+ {
+ // noreturn tailcall with no epilogue
+ found = 1;
+ }
+ else
+ ferr(&ops[j], "'add esp' expected\n");
+ }
+
i++;
} while (i < opcnt);
if (!found)
ferr(ops, "missing esp epilogue\n");
}
+
+ if (g_stack_fsz != 0)
+ // see check_simple_sequence
+ g_stack_fsz += push_fsz;
}
// find an instruction that changed opr before i op
return 0;
}
+static int find_next_read_reg(int i, int opcnt, int reg,
+ enum opr_lenmod lmod, int magic, int *op_i)
+{
+ struct parsed_opr opr = OPR_INIT(OPT_REG, lmod, reg);
+
+ *op_i = -1;
+ return find_next_read(i, opcnt, &opr, magic, op_i);
+}
+
// find next instruction that reads opr
// *op_i must be set to -1 by the caller
// on return, *op_i is set to first flag user insn
ferr(po, "too many args for '%s'\n", tmpname);
}
if (pp->argc_stack > adj / 4) {
+ if (pp->is_noreturn)
+ // assume no stack adjust was emited
+ goto out;
fnote(po, "(this call)\n");
ferr(&ops[ret], "stack tracking failed for '%s': %x %x\n",
tmpname, pp->argc_stack * 4, adj);
ferr(po, "missing esp_adjust for vararg func '%s'\n",
pp->name);
+out:
return pp;
}
+static void mark_float_arg(struct parsed_op *po,
+ struct parsed_proto *pp, int arg, int *regmask_ffca)
+{
+ po->p_argnext = -1;
+ po->p_argnum = arg + 1;
+ ferr_assert(po, pp->arg[arg].datap == NULL);
+ pp->arg[arg].datap = po;
+ po->flags |= OPF_DONE | OPF_FARGNR | OPF_FARG;
+ if (regmask_ffca != NULL)
+ *regmask_ffca |= 1 << arg;
+}
+
+static int check_for_stp(int i, int i_to)
+{
+ struct parsed_op *po;
+
+ for (; i < i_to; i++) {
+ po = &ops[i];
+ if (po->op == OP_FST)
+ return i;
+ if (g_labels[i] != NULL || (po->flags & OPF_JMP))
+ return -1;
+ if (po->op == OP_CALL || po->op == OP_PUSH || po->op == OP_POP)
+ return -1;
+ if (po->op == OP_ADD && po->operand[0].reg == xSP)
+ return -1;
+ }
+
+ return -1;
+}
+
static int collect_call_args_no_push(int i, struct parsed_proto *pp,
int *regmask_ffca)
{
ret = parse_stack_esp_offset(po, po->operand[0].name, &offset);
if (ret != 0)
continue;
- if (offset < 0 || offset >= pp->argc_stack * 4 || (offset & 3))
- ferr(po, "bad offset %d (%d args)\n", offset, pp->argc_stack);
+ if (offset < 0 || offset >= pp->argc_stack * 4 || (offset & 3)) {
+ //ferr(po, "offset %d, %d args\n", offset, pp->argc_stack);
+ continue;
+ }
arg = base_arg + offset / 4;
- po->p_argnext = -1;
- po->p_argnum = arg + 1;
- ferr_assert(po, pp->arg[arg].datap == NULL);
- pp->arg[arg].datap = po;
- po->flags |= OPF_DONE | OPF_FARGNR | OPF_FARG;
- if (regmask_ffca != NULL)
- *regmask_ffca |= 1 << arg;
+ mark_float_arg(po, pp, arg, regmask_ffca);
}
else if (po->op == OP_SUB && po->operand[0].reg == xSP
&& po->operand[1].type == OPT_CONST)
{
struct parsed_op *po;
int arg, ret;
- int j;
+ int offset;
+ int j, k;
for (arg = 0; arg < pp->argc; arg++)
if (pp->arg[arg].reg == NULL)
{
ops[j].p_argnext = -1;
ferr_assert(&ops[j], pp->arg[arg].datap == NULL);
- pp->arg[arg].datap = &ops[j];
- if (regmask != NULL && ops[j].operand[0].type == OPT_REG)
- *regmask |= 1 << ops[j].operand[0].reg;
+ k = check_for_stp(j + 1, i);
+ if (k != -1) {
+ // push ecx; fstp dword ptr [esp]
+ ret = parse_stack_esp_offset(&ops[k],
+ ops[k].operand[0].name, &offset);
+ if (ret == 0 && offset == 0) {
+ if (!pp->arg[arg].type.is_float)
+ ferr(&ops[i], "arg %d should be float\n", arg + 1);
+ mark_float_arg(&ops[k], pp, arg, regmask_ffca);
+ }
+ }
+
+ if (pp->arg[arg].datap == NULL) {
+ pp->arg[arg].datap = &ops[j];
+ if (regmask != NULL && ops[j].operand[0].type == OPT_REG)
+ *regmask |= 1 << ops[j].operand[0].reg;
+ }
ops[j].flags |= OPF_RMD | OPF_DONE | OPF_FARGNR | OPF_FARG;
ops[j].flags &= ~OPF_RSAVE;
pp_tmp = ops[j].pp;
if (pp_tmp == NULL)
- ferr(po, "arg collect hit unparsed call '%s'\n",
- ops[j].operand[0].name);
+ ferr(po, "arg collect %d/%d hit unparsed call '%s'\n",
+ arg, pp->argc, ops[j].operand[0].name);
if (may_reuse && pp_tmp->argc_stack > 0)
ferr(po, "arg collect %d/%d hit '%s' with %d stack args\n",
arg, pp->argc, opr_name(&ops[j], 0), pp_tmp->argc_stack);
// don't need eax, will do "return f();" or "f(); return;"
po->regmask_dst &= ~(1 << xAX);
else {
- struct parsed_opr opr = OPR_INIT(OPT_REG, OPLM_DWORD, xAX);
- j = -1;
- find_next_read(i + 1, opcnt, &opr, i + opcnt * 17, &j);
+ find_next_read_reg(i + 1, opcnt, xAX, OPLM_DWORD,
+ i + opcnt * 17, &j);
if (j == -1)
// not used
po->regmask_dst &= ~(1 << xAX);
*regmask |= regmask_now;
// released regs
- if (po->flags & OPF_FPOP) {
+ if (po->flags & OPF_FPOPP) {
+ if ((regmask_now & mxSTa) == 0)
+ ferr(po, "float pop on empty stack?\n");
+ if (regmask_now & mxST7_2)
+ po->flags |= OPF_FSHIFT;
+ if (!(regmask_now & mxST7_2))
+ regmask_now &= ~mxST1_0;
+ }
+ else if (po->flags & OPF_FPOP) {
if ((regmask_now & mxSTa) == 0)
ferr(po, "float pop on empty stack?\n");
if (regmask_now & (mxST7_2 | mxST1))
pp->argc_reg++;
}
-static void output_std_flags(FILE *fout, struct parsed_op *po,
+static void output_std_flag_z(FILE *fout, struct parsed_op *po,
int *pfomask, const char *dst_opr_text)
{
if (*pfomask & (1 << PFO_Z)) {
lmod_cast_u(po, po->operand[0].lmod), dst_opr_text);
*pfomask &= ~(1 << PFO_Z);
}
+}
+
+static void output_std_flag_s(FILE *fout, struct parsed_op *po,
+ int *pfomask, const char *dst_opr_text)
+{
if (*pfomask & (1 << PFO_S)) {
fprintf(fout, "\n cond_s = (%s%s < 0);",
lmod_cast_s(po, po->operand[0].lmod), dst_opr_text);
}
}
+static void output_std_flags(FILE *fout, struct parsed_op *po,
+ int *pfomask, const char *dst_opr_text)
+{
+ output_std_flag_z(fout, po, pfomask, dst_opr_text);
+ output_std_flag_s(fout, po, pfomask, dst_opr_text);
+}
+
enum {
OPP_FORCE_NORETURN = (1 << 0),
OPP_SIMPLE_ARGS = (1 << 1),
if (!pp->is_fptr)
fprintf(fout, " a%d", i + 1);
}
+
+ if (pp->arg[i].type.is_64bit)
+ i++;
}
if (pp->is_vararg) {
if (i > 0)
int had_decl = 0;
int label_pending = 0;
int need_double = 0;
+ int stack_align = 0;
+ int stack_fsz_adj = 0;
+ int lock_handled = 0;
int regmask_save = 0; // used regs saved/restored in this func
int regmask_arg; // regs from this function args (fastcall, etc)
int regmask_ret; // regs needed on ret
g_bp_frame = g_sp_frame = g_stack_fsz = 0;
g_stack_frame_used = 0;
+ g_seh_size = 0;
if (g_sct_func_attr & SCTFA_CLEAR_REGS)
regmask_init = g_regmask_init;
// pass2:
// - handle ebp/esp frame, remove ops related to it
- scan_prologue_epilogue(opcnt);
+ scan_prologue_epilogue(opcnt, &stack_align);
+
+ // handle a case where sf size is unalignment, but is
+ // placed in a way that elements are still aligned
+ if (g_stack_fsz & 4) {
+ for (i = 0; i < g_eqcnt; i++) {
+ if (g_eqs[i].lmod != OPLM_QWORD)
+ continue;
+ if (!(g_eqs[i].offset & 4)) {
+ g_stack_fsz += 4;
+ stack_fsz_adj = 4;
+ }
+ break;
+ }
+ }
// pass3:
// - remove dead labels
if (pp->argc_stack > 0)
pp->is_stdcall = 1;
}
+ if (!(po->flags & OPF_TAIL)
+ && !(g_sct_func_attr & SCTFA_NOWARN))
+ {
+ // treat al write as overwrite to avoid many false positives
+ if (IS(pp->ret_type.name, "void") || pp->ret_type.is_float) {
+ find_next_read_reg(i + 1, opcnt, xAX, OPLM_BYTE,
+ i + opcnt * 25, &j);
+ if (j != -1) {
+ fnote(po, "eax used after void/float ret call\n");
+ fnote(&ops[j], "(used here)\n");
+ }
+ }
+ if (!strstr(pp->ret_type.name, "int64")) {
+ find_next_read_reg(i + 1, opcnt, xDX, OPLM_BYTE,
+ i + opcnt * 26, &j);
+ // indirect calls are often guessed, don't warn
+ if (j != -1 && !IS_OP_INDIRECT_CALL(&ops[j])) {
+ fnote(po, "edx used after 32bit ret call\n");
+ fnote(&ops[j], "(used here)\n");
+ }
+ }
+ j = 1;
+ // msvc often relies on callee not modifying 'this'
+ for (arg = 0; arg < pp->argc; arg++) {
+ if (pp->arg[arg].reg && IS(pp->arg[arg].reg, "ecx")) {
+ j = 0;
+ break;
+ }
+ }
+ if (j != 0) {
+ find_next_read_reg(i + 1, opcnt, xCX, OPLM_BYTE,
+ i + opcnt * 27, &j);
+ if (j != -1 && !IS_OP_INDIRECT_CALL(&ops[j])) {
+ fnote(po, "ecx used after call\n");
+ fnote(&ops[j], "(used here)\n");
+ }
+ }
+ }
break;
case OP_MOV:
need_double = 1;
break;
+ case OP_RDTSC:
case OPP_ALLSHL:
case OPP_ALLSHR:
need_tmp64 = 1;
break;
- case OPP_FTOL: {
- struct parsed_opr opr = OPR_INIT(OPT_REG, OPLM_DWORD, xDX);
- j = -1;
- find_next_read(i + 1, opcnt, &opr, i + opcnt * 18, &j);
+ case OPP_FTOL:
+ find_next_read_reg(i + 1, opcnt, xDX, OPLM_DWORD,
+ i + opcnt * 18, &j);
if (j == -1)
po->flags |= OPF_32BIT;
break;
- }
default:
break;
save_arg_vars[po->p_arggrp] |= 1 << (po->p_argnum - 1);
// correct for "full stack" mode late enable
- if ((po->flags & (OPF_PPUSH|OPF_FPOP)) && need_float_stack)
+ if ((po->flags & (OPF_PPUSH|OPF_FPOP|OPF_FPOPP))
+ && need_float_stack)
po->flags |= OPF_FSHIFT;
}
// output starts here
+ if (g_seh_found)
+ fprintf(fout, "// had SEH\n");
+
// define userstack size
if (g_func_pp->is_userstack) {
fprintf(fout, "#ifndef US_SZ_%s\n", g_func_pp->name);
if (pp->is_fptr && !(pp->name[0] != 0 && pp->is_arg)) {
if (pp->name[0] != 0) {
+ if (IS_START(pp->name, "guess"))
+ pp->is_guessed = 1;
+
memmove(pp->name + 2, pp->name, strlen(pp->name) + 1);
memcpy(pp->name, "i_", 2);
// declare stack frame, va_arg
if (g_stack_fsz) {
+ if (stack_fsz_adj)
+ fprintf(fout, " // stack_fsz_adj %d\n", stack_fsz_adj);
+
fprintf(fout, " union { u32 d[%d];", (g_stack_fsz + 3) / 4);
if (g_func_lmods & (1 << OPLM_WORD))
fprintf(fout, " u16 w[%d];", (g_stack_fsz + 1) / 2);
fprintf(fout, " u8 b[%d];", g_stack_fsz);
if (g_func_lmods & (1 << OPLM_QWORD))
fprintf(fout, " double q[%d];", (g_stack_fsz + 7) / 8);
+
+ if (stack_align > 8)
+ ferr(ops, "unhandled stack align of %d\n", stack_align);
+ else if (stack_align == 8)
+ fprintf(fout, " u64 align;");
fprintf(fout, " } sf;\n");
had_decl = 1;
}
+ if ((g_sct_func_attr & SCTFA_ARGFRAME) && g_func_pp->argc_stack) {
+ fprintf(fout, " struct { u32 ");
+ for (i = j = 0; i < g_func_pp->argc; i++) {
+ if (g_func_pp->arg[i].reg != NULL)
+ continue;
+ if (j++ != 0)
+ fprintf(fout, ", ");
+ fprintf(fout, "a%d", i + 1);
+ }
+ fprintf(fout, "; } af = {\n ");
+ for (i = j = 0; i < g_func_pp->argc; i++) {
+ if (g_func_pp->arg[i].reg != NULL)
+ continue;
+ if (j++ != 0)
+ fprintf(fout, ", ");
+ if (g_func_pp->arg[i].type.is_ptr)
+ fprintf(fout, "(u32)");
+ fprintf(fout, "a%d", i + 1);
+ }
+ fprintf(fout, "\n };\n");
+ }
+
if (g_func_pp->is_userstack) {
fprintf(fout, " u32 fake_sf[US_SZ_%s / 4];\n", g_func_pp->name);
fprintf(fout, " u32 *esp = &fake_sf[sizeof(fake_sf) / 4];\n");
}
// declare normal registers
- regmask_now = regmask & ~regmask_arg;
+ regmask_now = regmask & ~regmask_arg & ~g_regmask_rm;
regmask_now &= ~(1 << xSP);
if (regmask_now & 0x00ff) {
for (reg = 0; reg < 8; reg++) {
if (po->flags & OPF_RMD)
continue;
+ lock_handled = 0;
no_output = 0;
#define assert_operand_cnt(n_) \
fprintf(fout, " for (; ecx != 0; ecx--, edi %c= %d)\n",
(po->flags & OPF_DF) ? '-' : '+',
lmod_bytes(po, po->operand[1].lmod));
- fprintf(fout, " %sedi = eax;",
+ fprintf(fout, " %sedi = eax;\n",
lmod_cast_u_ptr(po, po->operand[1].lmod));
- strcpy(g_comment, "rep stos");
+ fprintf(fout, " barrier();");
+ strcpy(g_comment, "^ rep stos");
}
else {
assert_operand_cnt(2);
" for (; ecx != 0; ecx--, edi %c= %d, esi %c= %d)\n",
l, j, l, j);
fprintf(fout,
- " %sedi = %sesi;", buf1, buf1);
- strcpy(g_comment, "rep movs");
+ " %sedi = %sesi;\n", buf1, buf1);
+ // this can overwrite many variables
+ fprintf(fout, " barrier();");
+ strcpy(g_comment, "^ rep movs");
}
else {
assert_operand_cnt(2);
delayed_flag_op = NULL;
break;
+ case OP_RDTSC:
+ fprintf(fout, " tmp64 = ext_rdtsc();\n");
+ fprintf(fout, " edx = tmp64 >> 32;\n");
+ fprintf(fout, " eax = tmp64;");
+ break;
+
+ case OP_CPUID:
+ fprintf(fout, " ext_cpuid(&eax, &ebx, &ecx, &edx);");
+ break;
+
// arithmetic w/flags
case OP_AND:
if (po->operand[1].type == OPT_CONST && !po->operand[1].val)
break;
case OP_BSF:
+ case OP_BSR:
+ // on SKL, if src is 0, dst is left unchanged
assert_operand_cnt(2);
+ out_dst_opr(buf1, sizeof(buf1), po, &po->operand[0]);
out_src_opr_u32(buf2, sizeof(buf2), po, &po->operand[1]);
- fprintf(fout, " %s = %s ? __builtin_ffs(%s) - 1 : 0;",
- out_dst_opr(buf1, sizeof(buf1), po, &po->operand[0]),
- buf2, buf2);
- output_std_flags(fout, po, &pfomask, buf1);
+ output_std_flag_z(fout, po, &pfomask, buf2);
+ if (po->op == OP_BSF)
+ snprintf(buf3, sizeof(buf3), "__builtin_ffs(%s) - 1", buf2);
+ else
+ snprintf(buf3, sizeof(buf3), "31 - __builtin_clz(%s)", buf2);
+ fprintf(fout, " if (%s) %s = %s;", buf2, buf1, buf3);
last_arith_dst = &po->operand[0];
delayed_flag_op = NULL;
- strcat(g_comment, " bsf");
+ strcat(g_comment, po->op == OP_BSF ? " bsf" : " bsr");
break;
case OP_DEC:
out_dst_opr(buf1, sizeof(buf1), po, &po->operand[0]);
if (po->operand[0].type == OPT_REG) {
+ ferr_assert(po, !(po->flags & OPF_LOCK));
strcpy(buf2, po->op == OP_INC ? "++" : "--");
fprintf(fout, " %s%s;", buf1, buf2);
}
+ else if (po->flags & OPF_LOCK) {
+ out_src_opr(buf2, sizeof(buf2), po, &po->operand[0], "", 1);
+ fprintf(fout, " __sync_fetch_and_%s((%s *)(%s), 1);",
+ po->op == OP_INC ? "add" : "sub",
+ lmod_type_u(po, po->operand[0].lmod), buf2);
+ strcat(g_comment, " lock");
+ lock_handled = 1;
+ }
else {
strcpy(buf2, po->op == OP_INC ? "+" : "-");
fprintf(fout, " %s %s= 1;", buf1, buf2);
lmod_cast_s(po, po->operand[0].lmod), buf2);
last_arith_dst = &po->operand[0];
delayed_flag_op = NULL;
- if (pfomask & (1 << PFO_C)) {
+ if (pfomask & PFOB_C) {
fprintf(fout, "\n cond_c = (%s != 0);", buf1);
- pfomask &= ~(1 << PFO_C);
+ pfomask &= ~PFOB_C;
}
+ output_std_flags(fout, po, &pfomask, buf1);
break;
case OP_IMUL:
fprintf(fout, "%s%s = %s;\n", buf3, pp->name,
out_src_opr(buf1, sizeof(buf1), po, &po->operand[0],
"(void *)", 0));
- if (pp->is_unresolved)
- fprintf(fout, "%sunresolved_call(\"%s:%d\", %s);\n",
- buf3, asmfn, po->asmln, pp->name);
+ }
+ if (pp->is_fptr && (pp->is_unresolved || pp->is_guessed)) {
+ fprintf(fout, "%sunresolved_call(\"%s:%d\", %s);\n",
+ buf3, asmfn, po->asmln, pp->name);
}
fprintf(fout, "%s", buf3);
pp->has_structarg ? "_sa" : "");
if (po->flags & OPF_ATAIL) {
- if (pp->argc_stack != g_func_pp->argc_stack
- || (pp->argc_stack > 0
- && pp->is_stdcall != g_func_pp->is_stdcall))
- ferr(po, "incompatible tailcall\n");
+ int check_compat =
+ g_func_pp->is_stdcall && g_func_pp->argc_stack > 0;
+ check_compat |= pp->argc_stack > 0;
+ if (check_compat
+ && (pp->argc_stack != g_func_pp->argc_stack
+ || pp->is_stdcall != g_func_pp->is_stdcall))
+ ferr(po, "incompatible arg-reuse tailcall\n");
if (g_func_pp->has_retreg)
ferr(po, "TODO: retreg+tailcall\n");
if (pp->arg[arg].type.is_retreg)
fprintf(fout, "&%s", pp->arg[arg].reg);
else if (IS(pp->arg[arg].reg, "ebp")
- && !(po->flags & OPF_EBP_S))
+ && g_bp_frame && !(po->flags & OPF_EBP_S))
{
// rare special case
fprintf(fout, "%s(u32)&sf.b[sizeof(sf)]", cast);
if (tmp_op->operand[0].lmod == OPLM_QWORD)
arg++;
}
+ else if (pp->arg[arg].type.is_64bit) {
+ ferr_assert(po, tmp_op->p_argpass == 0);
+ ferr_assert(po, !pp->arg[arg].is_saved);
+ ferr_assert(po, !pp->arg[arg].type.is_float);
+ ferr_assert(po, cast[0] == 0);
+ out_src_opr(buf1, sizeof(buf1),
+ tmp_op, &tmp_op->operand[0], cast, 0);
+ tmp_op = pp->arg[++arg].datap;
+ ferr_assert(po, tmp_op != NULL);
+ out_src_opr(buf2, sizeof(buf2),
+ tmp_op, &tmp_op->operand[0], cast, 0);
+ fprintf(fout, "((u64)(%s) << 32) | (%s)",
+ buf2, buf1);
+ }
else if (tmp_op->p_argpass != 0) {
+ ferr_assert(po, !pp->arg[arg].type.is_float);
fprintf(fout, "a%d", tmp_op->p_argpass);
}
else if (pp->arg[arg].is_saved) {
ferr_assert(po, tmp_op->p_argnum > 0);
+ ferr_assert(po, !pp->arg[arg].type.is_float);
fprintf(fout, "%s%s", cast,
saved_arg_name(buf1, sizeof(buf1),
tmp_op->p_arggrp, tmp_op->p_argnum));
}
+ else if (pp->arg[arg].type.is_float) {
+ ferr_assert(po, !pp->arg[arg].type.is_64bit);
+ fprintf(fout, "%s",
+ out_src_opr_float(buf1, sizeof(buf1),
+ tmp_op, &tmp_op->operand[0], need_float_stack));
+ }
else {
fprintf(fout, "%s",
out_src_opr(buf1, sizeof(buf1),
}
switch (po->operand[0].val) {
case X87_CONST_1: fprintf(fout, "1.0;"); break;
- case X87_CONST_LN2: fprintf(fout, "0.693147180559945;"); break;
+ case X87_CONST_L2T: fprintf(fout, "3.321928094887362;"); break;
+ case X87_CONST_L2E: fprintf(fout, "M_LOG2E;"); break;
+ case X87_CONST_PI: fprintf(fout, "M_PI;"); break;
+ case X87_CONST_LG2: fprintf(fout, "0.301029995663981;"); break;
+ case X87_CONST_LN2: fprintf(fout, "M_LN2;"); break;
case X87_CONST_Z: fprintf(fout, "0.0;"); break;
- default: ferr(po, "TODO\n"); break;
+ default: ferr_assert(po, 0); break;
}
break;
z_check = ((long)po->datap >> 16) & 1;
out_src_opr_float(buf1, sizeof(buf1), po, &po->operand[0],
need_float_stack);
- if (mask == 0x0100) { // C0 -> <
+ if (mask == 0x0100 || mask == 0x0500) { // C0 -> <
fprintf(fout, " f_sw = %s < %s ? 0x0100 : 0;",
float_st0, buf1);
}
- else if (mask == 0x4000) { // C3 -> =
+ else if (mask == 0x4000 || mask == 0x4400) { // C3 -> =
fprintf(fout, " f_sw = %s == %s ? 0x4000 : 0;",
float_st0, buf1);
}
else
ferr(po, "unhandled sw mask: %x\n", mask);
if (po->flags & OPF_FSHIFT) {
- if (need_float_stack)
- fprintf(fout, " f_stp++;");
- else
+ if (need_float_stack) {
+ if (po->flags & OPF_FPOPP)
+ fprintf(fout, " f_stp += 2;");
+ else
+ fprintf(fout, " f_stp++;");
+ }
+ else {
+ ferr_assert(po, !(po->flags & OPF_FPOPP));
fprintf(fout, " f_st0 = f_st1;");
+ }
}
break;
}
if (pfomask != 0)
ferr(po, "missed flag calc, pfomask=%x\n", pfomask);
+ if ((po->flags & OPF_LOCK) && !lock_handled)
+ ferr(po, "unhandled lock\n");
+
// see is delayed flag stuff is still valid
if (delayed_flag_op != NULL && delayed_flag_op != po) {
if (is_any_opr_modified(delayed_flag_op, po, 0))
last_arith_dst = NULL;
}
- label_pending = 0;
+ if (!no_output)
+ label_pending = 0;
}
if (g_stack_fsz && !g_stack_frame_used)
char name[NAMELEN];
int id;
int argc_stack;
- int regmask_dep;
+ int regmask_dep; // likely register args
+ int regmask_use; // used registers
int has_ret:3; // -1, 0, 1: unresolved, no, yes
+ unsigned int has_ret64:1;
unsigned int dep_resolved:1;
unsigned int is_stdcall:1;
+ unsigned int eax_pass:1; // returns without touching eax
struct func_proto_dep *dep_func;
int dep_func_cnt;
const struct parsed_proto *pp; // seed pp, if any
struct func_prototype *proto;
int regmask_live; // .. at the time of call
unsigned int ret_dep:1; // return from this is caller's return
+ unsigned int has_ret:1; // found from eax use after return
+ unsigned int has_ret64:1;
};
static struct func_prototype *hg_fp;
// - calculate reg deps
static void gen_hdr_dep_pass(int i, int opcnt, unsigned char *cbits,
struct func_prototype *fp, int regmask_save, int regmask_dst,
- int *regmask_dep, int *has_ret)
+ int *regmask_dep, int *regmask_use, int *has_ret)
{
struct func_proto_dep *dep;
struct parsed_op *po;
for (j = 0; j < po->btj->count; j++) {
check_i(po, po->btj->d[j].bt_i);
gen_hdr_dep_pass(po->btj->d[j].bt_i, opcnt, cbits, fp,
- regmask_save, regmask_dst, regmask_dep, has_ret);
+ regmask_save, regmask_dst, regmask_dep, regmask_use,
+ has_ret);
}
return;
}
check_i(po, po->bt_i);
if (po->flags & OPF_CJMP) {
gen_hdr_dep_pass(po->bt_i, opcnt, cbits, fp,
- regmask_save, regmask_dst, regmask_dep, has_ret);
+ regmask_save, regmask_dst, regmask_dep, regmask_use,
+ has_ret);
}
else {
i = po->bt_i - 1;
po->regmask_dst |= 1 << xAX;
dep = hg_fp_find_dep(fp, po->operand[0].name);
- if (dep != NULL)
+ if (dep != NULL) {
dep->regmask_live = regmask_save | regmask_dst;
+ if (g_bp_frame && !(po->flags & OPF_EBP_S))
+ dep->regmask_live |= 1 << xBP;
+ }
}
else if (po->op == OP_RET) {
if (po->operand_cnt > 0) {
}
}
- // if has_ret is 0, there is uninitialized eax path,
- // which means it's most likely void func
- if (*has_ret != 0 && (po->flags & OPF_TAIL)) {
+ if (!fp->eax_pass && (po->flags & OPF_TAIL)) {
if (po->op == OP_CALL) {
j = i;
ret = 1;
if (ret != 1 && from_caller) {
// unresolved eax - probably void func
*has_ret = 0;
+ fp->eax_pass = 1;
}
else {
if (j >= 0 && ops[j].op == OP_CALL) {
- dep = hg_fp_find_dep(fp, ops[j].operand[0].name);
- if (dep != NULL)
- dep->ret_dep = 1;
- else
- *has_ret = 1;
+ if (ops[j].pp != NULL && !ops[j].pp->is_unresolved) {
+ int call_has_ret = !IS(ops[j].pp->ret_type.name, "void");
+ if (ops[j].pp->is_noreturn) {
+ // could be some fail path
+ if (*has_ret == -1)
+ *has_ret = call_has_ret;
+ }
+ else
+ *has_ret = call_has_ret;
+ }
+ else {
+ dep = hg_fp_find_dep(fp, ops[j].operand[0].name);
+ if (dep != NULL)
+ dep->ret_dep = 1;
+ else
+ *has_ret = 1;
+ }
}
else
*has_ret = 1;
l, regmask_dst, regmask_save, po->flags);
#endif
*regmask_dep |= l;
+ *regmask_use |= (po->regmask_src | po->regmask_dst)
+ & ~regmask_save;
regmask_dst |= po->regmask_dst;
- if (po->flags & OPF_TAIL)
- return;
+ if (po->flags & OPF_TAIL) {
+ if (!(po->flags & OPF_CC)) // not cond. tailcall
+ return;
+ }
}
}
const struct parsed_proto *pp_c;
struct parsed_proto *pp;
struct func_prototype *fp;
+ struct func_proto_dep *dep;
struct parsed_op *po;
int regmask_dummy = 0;
int regmask_dep;
+ int regmask_use;
int max_bp_offset = 0;
int has_ret;
int i, j, l;
g_bp_frame = g_sp_frame = g_stack_fsz = 0;
g_stack_frame_used = 0;
+ g_seh_size = 0;
// pass1:
// - resolve all branches
// pass2:
// - handle ebp/esp frame, remove ops related to it
- scan_prologue_epilogue(opcnt);
+ scan_prologue_epilogue(opcnt, NULL);
// pass3:
// - remove dead labels
}
// pass4:
- // - remove dead labels
// - handle push <const>/pop pairs
for (i = 0; i < opcnt; i++)
{
- if (g_labels[i] != NULL && g_label_refs[i].i == -1) {
- free(g_labels[i]);
- g_labels[i] = NULL;
- }
-
po = &ops[i];
if (po->flags & (OPF_RMD|OPF_DONE))
continue;
ret = collect_call_args(po, i, pp, ®mask_dummy,
i + opcnt * 1);
}
+ if (!(po->flags & OPF_TAIL)
+ && po->operand[0].type == OPT_LABEL)
+ {
+ dep = hg_fp_find_dep(fp, opr_name(po, 0));
+ ferr_assert(po, dep != NULL);
+ // treat al write as overwrite to avoid many false positives
+ find_next_read_reg(i + 1, opcnt, xAX, OPLM_BYTE,
+ i + opcnt * 25, &j);
+ if (j != -1)
+ dep->has_ret = 1;
+ find_next_read_reg(i + 1, opcnt, xDX, OPLM_BYTE,
+ i + opcnt * 26, &j);
+ if (j != -1 && !IS_OP_INDIRECT_CALL(&ops[j]))
+ dep->has_ret64 = 1;
+ }
}
}
// pass7
- memset(cbits, 0, sizeof(cbits));
- regmask_dep = 0;
+ memset(cbits, 0, (opcnt + 7) / 8);
+ regmask_dep = regmask_use = 0;
has_ret = -1;
- gen_hdr_dep_pass(0, opcnt, cbits, fp, 0, 0, ®mask_dep, &has_ret);
+ gen_hdr_dep_pass(0, opcnt, cbits, fp, 0, 0,
+ ®mask_dep, ®mask_use, &has_ret);
// find unreachable code - must be fixed in IDA
for (i = 0; i < opcnt; i++)
// noreturn OS functions
break;
}
- if (ops[i].op != OP_NOP)
+ if (!(ops[i].flags & OPF_RMD)
+ && ops[i].op != OP_NOP && ops[i].op != OPP_ABORT)
+ {
ferr(&ops[i], "unreachable code\n");
+ }
}
for (i = 0; i < g_eqcnt; i++) {
}
fp->regmask_dep = regmask_dep & ~((1 << xSP) | mxSTa);
+ fp->regmask_use = regmask_use;
fp->has_ret = has_ret;
#if 0
printf("// has_ret %d, regmask_dep %x\n",
static void hg_fp_resolve_deps(struct func_prototype *fp)
{
struct func_prototype fp_s;
- int dep;
+ struct func_proto_dep *dep;
+ int regmask_dep;
int i;
// this thing is recursive, so mark first..
fp->dep_resolved = 1;
for (i = 0; i < fp->dep_func_cnt; i++) {
- strcpy(fp_s.name, fp->dep_func[i].name);
- fp->dep_func[i].proto = bsearch(&fp_s, hg_fp, hg_fp_cnt,
+ dep = &fp->dep_func[i];
+
+ strcpy(fp_s.name, dep->name);
+ dep->proto = bsearch(&fp_s, hg_fp, hg_fp_cnt,
sizeof(hg_fp[0]), hg_fp_cmp_name);
- if (fp->dep_func[i].proto != NULL) {
- if (!fp->dep_func[i].proto->dep_resolved)
- hg_fp_resolve_deps(fp->dep_func[i].proto);
+ if (dep->proto != NULL) {
+ if (!dep->proto->dep_resolved)
+ hg_fp_resolve_deps(dep->proto);
- dep = ~fp->dep_func[i].regmask_live
- & fp->dep_func[i].proto->regmask_dep;
- fp->regmask_dep |= dep;
+ regmask_dep = ~dep->regmask_live
+ & dep->proto->regmask_dep;
+ fp->regmask_dep |= regmask_dep;
// printf("dep %s %s |= %x\n", fp->name,
- // fp->dep_func[i].name, dep);
+ // fp->dep_func[i].name, regmask_dep);
- if (fp->has_ret == -1 && fp->dep_func[i].ret_dep)
- fp->has_ret = fp->dep_func[i].proto->has_ret;
+ if (dep->has_ret && (dep->proto->regmask_use & mxAX))
+ dep->proto->has_ret = 1;
+ if (dep->has_ret64 && (dep->proto->regmask_use & mxDX))
+ dep->proto->has_ret64 = 1;
+ if (fp->has_ret == -1 && dep->ret_dep)
+ fp->has_ret = dep->proto->has_ret;
}
}
}
regmask_dep = fp->regmask_dep;
argc_normal = fp->argc_stack;
- fprintf(fout, "%-5s", fp->pp ? fp->pp->ret_type.name :
- (fp->has_ret ? "int" : "void"));
+ fprintf(fout, "%-5s",
+ fp->pp ? fp->pp->ret_type.name :
+ fp->has_ret64 ? "__int64" :
+ fp->has_ret ? "int" : "void");
if (regmask_dep && (fp->is_stdcall || fp->argc_stack > 0)
&& (regmask_dep & ~mxCX) == 0)
{
argc_normal++;
regmask_dep = 0;
}
- else if (regmask_dep && (fp->is_stdcall || fp->argc_stack == 0)
- && (regmask_dep & ~(mxCX | mxDX)) == 0)
+ else if ((regmask_dep == (mxCX | mxDX)
+ && (fp->is_stdcall || fp->argc_stack == 0))
+ || (regmask_dep == mxCX && fp->argc_stack == 0))
{
fprintf(fout, " __fastcall ");
if (!(regmask_dep & (1 << xDX)) && fp->argc_stack == 0)
// adjust functions referenced from data segment
do_func_refs_from_data();
+ // final adjustments
+ for (i = 0; i < hg_fp_cnt; i++) {
+ if (hg_fp[i].eax_pass && (hg_fp[i].regmask_dep & mxAX))
+ hg_fp[i].has_ret = 1;
+ }
+
// note: messes up .proto ptr, don't use
//qsort(hg_fp, hg_fp_cnt, sizeof(hg_fp[0]), hg_fp_cmp_id);
long pos;
p = strrchr(p, ';');
- if (p != NULL && *p == ';' && IS_START(p + 2, "DATA XREF: ")) {
- p += 13;
- if (is_xref_needed(p, rlist, rlist_len))
+ if (p != NULL && *p == ';') {
+ if (IS_START(p + 2, "sctref"))
return 1;
+ if (IS_START(p + 2, "DATA XREF: ")) {
+ p += 13;
+ if (is_xref_needed(p, rlist, rlist_len))
+ return 1;
+ }
}
pos = ftell(fasm);
p = strrchr(p, ';');
p += 2;
+
+ if (IS_START(p, "sctref")) {
+ found_need = 1;
+ break;
+ }
+
// it's printed once, but no harm to check again
if (IS_START(p, "DATA XREF: "))
p += 11;
return strcmp(c1->name, c2->name);
}
-static void scan_ahead(FILE *fasm)
+static void scan_ahead_for_chunks(FILE *fasm)
{
char words[2][256];
char line[256];
int pi = 0;
int i, j;
int ret, len;
- char *p;
+ char *p, *p2;
int wordc;
for (arg = 1; arg < argc; arg++) {
static const char *attrs[] = {
"clear_sf",
"clear_regmask",
+ "rm_regmask",
+ "nowarn",
+ "argframe",
};
// parse manual attribute-list comment
else if (i == 1)
// clear_regmask=<mask>
ret = sscanf(p, "=%x%n", &g_regmask_init, &j) + 1;
+ else if (i == 2)
+ // rm_regmask=<mask>
+ ret = sscanf(p, "=%x%n", &g_regmask_rm, &j) + 1;
if (ret < 2) {
anote("unparsed attr value: %s\n", p);
break;
if (addr > f_addr && !scanned_ahead) {
//anote("scan_ahead caused by '%s', addr %lx\n",
// g_func, addr);
- scan_ahead(fasm);
+ scan_ahead_for_chunks(fasm);
scanned_ahead = 1;
func_chunks_sorted = 0;
}
// allow asm patches in comments
if (*p == ';') {
+ // skip IDA's forced non-removable comment
+ if (!IS_START(p, "; sct") && (p2 = strchr(p + 1, ';')))
+ p = p2;
+ }
+ if (*p == ';' && IS_START(p, "; sct")) {
if (IS_START(p, "; sctpatch:")) {
p = sskip(p + 11);
if (*p == 0 || *p == ';')
if (pd->type == OPT_OFFSET)
pd->d[pd->count].u.label = strdup(words[i]);
else
- pd->d[pd->count].u.val = parse_number(words[i]);
+ pd->d[pd->count].u.val = parse_number(words[i], 0);
pd->d[pd->count].bt_i = -1;
pd->count++;
}
g_stack_clear_start = 0;
g_stack_clear_len = 0;
g_regmask_init = 0;
+ g_regmask_rm = 0;
skip_warned = 0;
g_skip_func = 0;
g_func[0] = 0;
+ g_seh_found = 0;
func_chunks_used = 0;
func_chunk_i = -1;
if (pi != 0) {
aerr("endp '%s' while skipping code\n", words[0]);
if ((g_ida_func_attr & IDAFA_THUNK) && pi == 1
- && ops[0].op == OP_JMP && ops[0].operand[0].had_ds)
+ && ops[0].op == OP_JMP && ops[0].operand[0].segment)
{
// import jump
g_skip_func = 1;
else
aerr("bad lmod: '%s'\n", words[2]);
- g_eqs[g_eqcnt].offset = parse_number(words[4]);
+ g_eqs[g_eqcnt].offset = parse_number(words[4], 0);
g_eqcnt++;
continue;
}