#include #include #include #define XBYAK_NO_OP_NAMES #include #include #include using namespace Xbyak; void putNop(Xbyak::CodeGenerator *gen, int n) { for (int i = 0; i < n; i++) { gen->nop(); } } void diff(const std::string& a, const std::string& b) { if (a == b) return; if (a.size() != b.size()) printf("size diff %d %d\n", (int)a.size(), (int)b.size()); for (size_t i = 0; i < (std::min)(a.size(), b.size()); i++) { if (a[i] != b[i]) { printf("diff %d(%04x) %02x %02x\n", (int)i, (int)i, (unsigned char)a[i], (unsigned char)b[i]); } } } void dump(const std::string& m) { printf("size=%d\n ", (int)m.size()); for (int i = 0; i < 16; i++) { printf("%02x ", i); } printf("\n "); for (int i = 0; i < 16; i++) { printf("---"); } printf("\n"); for (size_t i = 0; i < m.size(); i++) { if ((i % 16) == 0) printf("%04x ", (int)(i / 16)); printf("%02x ", (unsigned char)m[i]); if ((i % 16) == 15) putchar('\n'); } putchar('\n'); } CYBOZU_TEST_AUTO(test1) { struct TestJmp : public Xbyak::CodeGenerator { /* 4 X0: 5 00000004 EBFE jmp short X0 6 7 X1: 8 00000006 dummyX1 resb 1 9 00000007 EBFD jmp short X1 10 11 X126: 12 00000009 dummyX126 resb 126 13 00000087 EB80 jmp short X126 14 15 X127: 16 00000089 dummyX127 resb 127 17 00000108 E97CFFFFFF jmp near X127 18 19 0000010D EB00 jmp short Y0 20 Y0: 21 22 0000010F EB01 jmp short Y1 23 00000111 dummyY1 resb 1 24 Y1: 25 26 00000112 EB7F jmp short Y127 27 00000114 dummyY127 resb 127 28 Y127: 29 30 00000193 E980000000 jmp near Y128 31 00000198 dummyY128 resb 128 32 Y128: */ TestJmp(int offset, bool isBack, bool isShort, bool useNewLabel) { if (useNewLabel) { Label label; if (isBack) { L(label); putNop(this, offset); jmp(label); } else { if (isShort) { jmp(label); } else { jmp(label, T_NEAR); } putNop(this, offset); L(label); } } else { if (isBack) { L("@@"); putNop(this, offset); jmp("@b"); } else { if (isShort) { jmp("@f"); } else { jmp("@f", T_NEAR); } putNop(this, offset); L("@@"); } } } }; static const struct Tbl { int offset; bool isBack; bool isShort; uint8 result[6]; int size; } tbl[] = { { 0, true, true, { 0xeb, 0xfe }, 2 }, { 1, true, true, { 0xeb, 0xfd }, 2 }, { 126, true, true, { 0xeb, 0x80 }, 2 }, { 127, true, false, {0xe9, 0x7c, 0xff, 0xff, 0xff }, 5 }, { 0, false, true, { 0xeb, 0x00 }, 2 }, { 1, false, true, { 0xeb, 0x01 }, 2 }, { 127, false, true, { 0xeb, 0x7f }, 2 }, { 128, false, false, { 0xe9, 0x80, 0x00, 0x00, 0x00 }, 5 }, }; for (size_t i = 0; i < CYBOZU_NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; for (int k = 0; k < 2; k++) { TestJmp jmp(p->offset, p->isBack, p->isShort, k == 0); const uint8 *q = (const uint8*)jmp.getCode(); if (p->isBack) q += p->offset; /* skip nop */ for (int j = 0; j < p->size; j++) { CYBOZU_TEST_EQUAL(q[j], p->result[j]); } } } } CYBOZU_TEST_AUTO(testJmpCx) { struct TestJmpCx : public CodeGenerator { explicit TestJmpCx(void *p, bool useNewLabel) : Xbyak::CodeGenerator(16, p) { if (useNewLabel) { Label lp; L(lp); #ifdef XBYAK64 /* 67 E3 FD ; jecxz lp E3 FB ; jrcxz lp */ jecxz(lp); jrcxz(lp); #else /* E3FE ; jecxz lp 67E3FB ; jcxz lp */ jecxz(lp); jcxz(lp); #endif } else { inLocalLabel(); L(".lp"); #ifdef XBYAK64 /* 67 E3 FD ; jecxz lp E3 FB ; jrcxz lp */ jecxz(".lp"); jrcxz(".lp"); #else /* E3FE ; jecxz lp 67E3FB ; jcxz lp */ jecxz(".lp"); jcxz(".lp"); #endif outLocalLabel(); } } }; const struct { const char *p; size_t len; } tbl = { #ifdef XBYAK64 "\x67\xe3\xfd\xe3\xfb", 5 #else "\xe3\xfe\x67\xe3\xfb", 5 #endif }; for (int j = 0; j < 2; j++) { char buf[16] = {}; TestJmpCx code(buf, j == 0); CYBOZU_TEST_EQUAL(memcmp(buf, tbl.p, tbl.len), 0); } } CYBOZU_TEST_AUTO(loop) { const uint8 ok[] = { // lp: 0x31, 0xC0, // xor eax, eax 0xE2, 0xFC, // loop lp 0xE0, 0xFA, // loopne lp 0xE1, 0xF8, // loope lp }; struct Code : CodeGenerator { Code(bool useLabel) { if (useLabel) { Xbyak::Label lp = L(); xor_(eax, eax); loop(lp); loopne(lp); loope(lp); } else { L("@@"); xor_(eax, eax); loop("@b"); loopne("@b"); loope("@b"); } } }; Code code1(false); CYBOZU_TEST_EQUAL(code1.getSize(), sizeof(ok)); CYBOZU_TEST_EQUAL_ARRAY(code1.getCode(), ok, sizeof(ok)); Code code2(true); CYBOZU_TEST_EQUAL(code2.getSize(), sizeof(ok)); CYBOZU_TEST_EQUAL_ARRAY(code2.getCode(), ok, sizeof(ok)); } #ifdef _MSC_VER #pragma warning(disable : 4310) #endif CYBOZU_TEST_AUTO(test2) { struct TestJmp2 : public CodeGenerator { /* 1 00000000 90 nop 2 00000001 90 nop 3 f1: 4 00000002 dummyX1 resb 126 6 00000080 EB80 jmp f1 7 8 f2: 9 00000082 dummyX2 resb 127 11 00000101 E97CFFFFFF jmp f2 12 13 14 00000106 EB7F jmp f3 15 00000108 dummyX3 resb 127 17 f3: 18 19 00000187 E980000000 jmp f4 20 0000018C dummyX4 resb 128 22 f4: */ TestJmp2(void *p, bool useNewLabel) : Xbyak::CodeGenerator(8192, p) { if (useNewLabel) { inLocalLabel(); nop(); nop(); L(".f1"); putNop(this, 126); jmp(".f1"); L(".f2"); putNop(this, 127); jmp(".f2", T_NEAR); jmp(".f3"); putNop(this, 127); L(".f3"); jmp(".f4", T_NEAR); putNop(this, 128); L(".f4"); outLocalLabel(); } else { nop(); nop(); Label f1, f2, f3, f4; L(f1); putNop(this, 126); jmp(f1); L(f2); putNop(this, 127); jmp(f2, T_NEAR); jmp(f3); putNop(this, 127); L(f3); jmp(f4, T_NEAR); putNop(this, 128); L(f4); } } }; std::string ok; ok.resize(0x18C + 128, (char)0x90); ok[0x080] = (char)0xeb; ok[0x081] = (char)0x80; ok[0x101] = (char)0xe9; ok[0x102] = (char)0x7c; ok[0x103] = (char)0xff; ok[0x104] = (char)0xff; ok[0x105] = (char)0xff; ok[0x106] = (char)0xeb; ok[0x107] = (char)0x7f; ok[0x187] = (char)0xe9; ok[0x188] = (char)0x80; ok[0x189] = (char)0x00; ok[0x18a] = (char)0x00; ok[0x18b] = (char)0x00; for (int i = 0; i < 2; i++) { for (int j = 0; j < 2; j++) { TestJmp2 c(i == 0 ? 0 : Xbyak::AutoGrow, j == 0); c.ready(); std::string m((const char*)c.getCode(), c.getSize()); CYBOZU_TEST_EQUAL(m, ok); } } } #ifdef XBYAK32 int add5(int x) { return x + 5; } int add2(int x) { return x + 2; } CYBOZU_TEST_AUTO(test3) { struct Grow : Xbyak::CodeGenerator { Grow(int dummySize) : Xbyak::CodeGenerator(128, Xbyak::AutoGrow) { mov(eax, 100); push(eax); call((void*)add5); add(esp, 4); push(eax); call((void*)add2); add(esp, 4); ret(); for (int i = 0; i < dummySize; i++) { db(0); } } }; for (int dummySize = 0; dummySize < 40000; dummySize += 10000) { printf("dummySize=%d\n", dummySize); Grow g(dummySize); g.ready(); int (*f)() = (int (*)())g.getCode(); int x = f(); const int ok = 107; CYBOZU_TEST_EQUAL(x, ok); } } #endif Xbyak::uint8 bufL[4096 * 32]; Xbyak::uint8 bufS[4096 * 2]; struct MyAllocator : Xbyak::Allocator { Xbyak::uint8 *alloc(size_t size) { if (size < sizeof(bufS)) { printf("test use bufS(%d)\n", (int)size); return bufS; } if (size < sizeof(bufL)) { printf("test use bufL(%d)\n", (int)size); return bufL; } fprintf(stderr, "no memory %d\n", (int)size); exit(1); } void free(Xbyak::uint8 *) { } } myAlloc; CYBOZU_TEST_AUTO(test4) { struct Test4 : Xbyak::CodeGenerator { Test4(int size, void *mode, bool useNewLabel) : CodeGenerator(size, mode) { if (useNewLabel) { Label x; jmp(x); putNop(this, 10); L(x); ret(); } else { inLocalLabel(); jmp(".x"); putNop(this, 10); L(".x"); ret(); outLocalLabel(); } } }; for (int i = 0; i < 2; i++) { const bool useNewLabel = i == 0; std::string fm, gm; Test4 fc(1024, 0, useNewLabel); Test4 gc(5, Xbyak::AutoGrow, !useNewLabel); gc.ready(); fm.assign((const char*)fc.getCode(), fc.getSize()); gm.assign((const char*)gc.getCode(), gc.getSize()); CYBOZU_TEST_EQUAL(fm, gm); } } #ifndef __APPLE__ CYBOZU_TEST_AUTO(test5) { struct Test5 : Xbyak::CodeGenerator { explicit Test5(int size, int count, void *mode) : CodeGenerator(size, mode, &myAlloc) { using namespace Xbyak; inLocalLabel(); mov(ecx, count); xor_(eax, eax); L(".lp"); for (int i = 0; i < count; i++) { L(Label::toStr(i)); add(eax, 1); int to = 0; if (i < count / 2) { to = count - 1 - i; } else { to = count - i; } if (i == count / 2) { jmp(".exit", T_NEAR); } else { jmp(Label::toStr(to), T_NEAR); } } L(".exit"); sub(ecx, 1); jnz(".lp", T_NEAR); ret(); outLocalLabel(); } }; std::string fm, gm; const int count = 50; int ret; Test5 fc(1024 * 64, count, 0); ret = ((int (*)())fc.getCode())(); CYBOZU_TEST_EQUAL(ret, count * count); fm.assign((const char*)fc.getCode(), fc.getSize()); Test5 gc(10, count, Xbyak::AutoGrow); gc.ready(); ret = ((int (*)())gc.getCode())(); CYBOZU_TEST_EQUAL(ret, count * count); gm.assign((const char*)gc.getCode(), gc.getSize()); CYBOZU_TEST_EQUAL(fm, gm); } #endif size_t getValue(const uint8* p) { size_t v = 0; for (size_t i = 0; i < sizeof(size_t); i++) { v |= size_t(p[i]) << (i * 8); } return v; } void checkAddr(const uint8 *p, size_t offset, size_t expect) { size_t v = getValue(p + offset); CYBOZU_TEST_EQUAL(v, size_t(p) + expect); } CYBOZU_TEST_AUTO(MovLabel) { struct MovLabelCode : Xbyak::CodeGenerator { MovLabelCode(bool grow, bool useNewLabel) : Xbyak::CodeGenerator(grow ? 128 : 4096, grow ? Xbyak::AutoGrow : 0) { #ifdef XBYAK64 const Reg64& a = rax; #else const Reg32& a = eax; #endif if (useNewLabel) { nop(); // 0x90 Label lp1, lp2; L(lp1); nop(); mov(a, lp1); // 0xb8 + <4byte> / 0x48bb + <8byte> nop(); mov(a, lp2); // 0xb8 // force realloc if AutoGrow putNop(this, 256); nop(); L(lp2); } else { inLocalLabel(); nop(); // 0x90 L(".lp1"); nop(); mov(a, ".lp1"); // 0xb8 + <4byte> / 0x48bb + <8byte> nop(); mov(a, ".lp2"); // 0xb8 // force realloc if AutoGrow putNop(this, 256); nop(); L(".lp2"); outLocalLabel(); } } }; const struct { int pos; uint8 ok; } tbl[] = { #ifdef XBYAK32 { 0x00, 0x90 }, // lp1:0x001 { 0x001, 0x90 }, { 0x002, 0xb8 }, // 0x003 { 0x007, 0x90 }, { 0x008, 0xb8 }, // 0x009 { 0x10d, 0x90 }, // lp2:0x10e #else { 0x000, 0x90 }, // lp1:0x001 { 0x001, 0x90 }, { 0x002, 0x48 }, { 0x003, 0xb8 }, // 0x004 { 0x00c, 0x90 }, { 0x00d, 0x48 }, { 0x00e, 0xb8 }, // 0x00f { 0x117, 0x90 }, // lp2:0x118 #endif }; for (int j = 0; j < 2; j++) { const bool grow = j == 0; for (int k = 0; k < 2; k++) { const bool useNewLabel = k == 0; MovLabelCode code(grow, useNewLabel); if (grow) code.ready(); const uint8* const p = code.getCode(); for (size_t i = 0; i < CYBOZU_NUM_OF_ARRAY(tbl); i++) { int pos = tbl[i].pos; uint8 x = p[pos]; uint8 ok = tbl[i].ok; CYBOZU_TEST_EQUAL(x, ok); } #ifdef XBYAK32 checkAddr(p, 0x03, 0x001); checkAddr(p, 0x09, 0x10e); #else checkAddr(p, 0x04, 0x001); checkAddr(p, 0x0f, 0x118); #endif } } } CYBOZU_TEST_AUTO(testMovLabel2) { struct MovLabel2Code : Xbyak::CodeGenerator { MovLabel2Code() { #ifdef XBYAK64 const Reg64& a = rax; const Reg64& c = rcx; #else const Reg32& a = eax; const Reg32& c = ecx; #endif xor_(a, a); xor_(c, c); jmp("in"); ud2(); L("@@"); // L1 add(a, 2); mov(c, "@f"); jmp(c); // goto L2 ud2(); L("in"); mov(c, "@b"); add(a, 1); jmp(c); // goto L1 ud2(); L("@@"); // L2 add(a, 4); ret(); } }; MovLabel2Code code; int ret = code.getCode()(); CYBOZU_TEST_EQUAL(ret, 7); } CYBOZU_TEST_AUTO(testF_B) { struct Code : Xbyak::CodeGenerator { Code(int type) { inLocalLabel(); xor_(eax, eax); switch (type) { case 0: L("@@"); inc(eax); cmp(eax, 1); je("@b"); break; case 1: test(eax, eax); jz("@f"); ud2(); L("@@"); break; case 2: L("@@"); inc(eax); cmp(eax, 1); // 1, 2 je("@b"); cmp(eax, 2); // 2, 3 je("@b"); break; case 3: L("@@"); inc(eax); cmp(eax, 1); // 1, 2 je("@b"); cmp(eax, 2); // 2, 3 je("@b"); jmp("@f"); ud2(); L("@@"); break; case 4: L("@@"); inc(eax); cmp(eax, 1); // 1, 2 je("@b"); cmp(eax, 2); // 2, 3 je("@b"); jmp("@f"); ud2(); L("@@"); inc(eax); // 4, 5 cmp(eax, 4); je("@b"); break; case 5: L("@@"); L("@@"); inc(eax); cmp(eax, 1); je("@b"); break; case 6: L("@@"); L("@@"); L("@@"); inc(eax); cmp(eax, 1); je("@b"); break; case 7: jmp("@f"); L("@@"); inc(eax); // 1, 2 cmp(eax, 1); je("@b"); cmp(eax, 2); jne("@f"); // not jmp inc(eax); // 3 L("@@"); inc(eax); // 4, 5, 6 cmp(eax, 4); je("@b"); cmp(eax, 5); je("@b"); jmp("@f"); jmp("@f"); jmp("@b"); L("@@"); break; } ret(); outLocalLabel(); } }; const int expectedTbl[] = { 2, 0, 3, 3, 5, 2, 2, 6 }; for (size_t i = 0; i < CYBOZU_NUM_OF_ARRAY(expectedTbl); i++) { Code code((int)i); int ret = code.getCode()(); CYBOZU_TEST_EQUAL(ret, expectedTbl[i]); } } CYBOZU_TEST_AUTO(test6) { struct TestLocal : public Xbyak::CodeGenerator { TestLocal(bool grow) : Xbyak::CodeGenerator(grow ? 128 : 4096, grow ? Xbyak::AutoGrow : 0) { xor_(eax, eax); inLocalLabel(); jmp("start0", T_NEAR); L(".back"); inc(eax); // 8 jmp(".next", T_NEAR); L("start2"); inc(eax); // 7 jmp(".back", T_NEAR); inLocalLabel(); L(".back"); inc(eax); // 5 putNop(this, 128); jmp(".next", T_NEAR); L("start1"); inc(eax); // 4 jmp(".back", T_NEAR); inLocalLabel(); L(".back"); inc(eax); // 2 jmp(".next", T_NEAR); L("start0"); inc(eax); // 1 jmp(".back", T_NEAR); L(".next"); inc(eax); // 3 jmp("start1", T_NEAR); outLocalLabel(); L(".next"); inc(eax); // 6 jmp("start2", T_NEAR); outLocalLabel(); L(".next"); inc(eax); // 9 jmp("start3", T_NEAR); inLocalLabel(); L(".back"); inc(eax); // 14 jmp("exit", T_NEAR); L("start4"); inc(eax); // 13 jmp(".back", T_NEAR); outLocalLabel(); L("start3"); inc(eax); // 10 inLocalLabel(); jmp(".next", T_NEAR); L(".back"); inc(eax); // 12 jmp("start4", T_NEAR); L(".next"); inc(eax); // 11 jmp(".back", T_NEAR); outLocalLabel(); outLocalLabel(); L("exit"); inc(eax); // 15 ret(); } }; for (int i = 0; i < 2; i++) { const bool grow = i == 1; printf("test6 grow=%d\n", i); TestLocal code(grow); if (grow) code.ready(); int (*f)() = code.getCode(); int a = f(); CYBOZU_TEST_EQUAL(a, 15); } } CYBOZU_TEST_AUTO(test_jcc) { struct A : Xbyak::CodeGenerator { A() { add(eax, 5); ret(); } }; struct B : Xbyak::CodeGenerator { B(bool grow, const void *p) : Xbyak::CodeGenerator(grow ? 0 : 4096, grow ? Xbyak::AutoGrow : 0) { mov(eax, 1); add(eax, 2); jnz(p); } }; A a; const void *p = a.getCode(); for (int i = 0; i < 2; i++) { bool grow = i == 1; B b(grow, p); if (grow) { b.ready(); } int (*f)() = b.getCode(); CYBOZU_TEST_EQUAL(f(), 8); } } CYBOZU_TEST_AUTO(testNewLabel) { struct Code : Xbyak::CodeGenerator { Code(bool grow) : Xbyak::CodeGenerator(grow ? 128 : 4096, grow ? Xbyak::AutoGrow : 0) { xor_(eax, eax); { Label label1; Label label2; Label label3; Label label4; Label exit; jmp(label1, T_NEAR); L(label2); inc(eax); // 2 jmp(label3, T_NEAR); L(label4); inc(eax); // 4 jmp(exit, T_NEAR); putNop(this, 128); L(label3); inc(eax); // 3 jmp(label4, T_NEAR); L(label1); inc(eax); // 1 jmp(label2, T_NEAR); L(exit); } { Label label1; Label label2; Label label3; Label label4; Label exit; jmp(label1); L(label2); inc(eax); // 6 jmp(label3); L(label4); inc(eax); // 8 jmp(exit); L(label3); inc(eax); // 7 jmp(label4); L(label1); inc(eax); // 5 jmp(label2); L(exit); } Label callLabel; { // eax == 8 Label label1; Label label2; L(label1); inc(eax); // 9, 10, 11, 13 cmp(eax, 9); je(label1); // 10, 11, 13 inc(eax); // 11, 12, 13 cmp(eax, 11); je(label1); // 12, 13 cmp(eax, 12); je(label2); inc(eax); // 14 cmp(eax, 14); je(label2); ud2(); L(label2); // 14 inc(eax); // 13, 15 cmp(eax, 13); je(label1); } call(callLabel); ret(); L(callLabel); inc(eax); // 16 ret(); } }; for (int i = 0; i < 2; i++) { const bool grow = i == 1; printf("testNewLabel grow=%d\n", grow); Code code(grow); if (grow) code.ready(); int (*f)() = code.getCode(); int r = f(); CYBOZU_TEST_EQUAL(r, 16); } } CYBOZU_TEST_AUTO(returnLabel) { struct Code : Xbyak::CodeGenerator { Code() { xor_(eax, eax); Label L1 = L(); test(eax, eax); Label exit; jnz(exit); inc(eax); // 1 Label L2; call(L2); jmp(L1); L(L2); inc(eax); // 2 ret(); L(exit); inc(eax); // 3 ret(); } }; Code code; int (*f)() = code.getCode(); int r = f(); CYBOZU_TEST_EQUAL(r, 3); } CYBOZU_TEST_AUTO(testAssign) { struct Code : Xbyak::CodeGenerator { Code(bool grow) : Xbyak::CodeGenerator(grow ? 128 : 4096, grow ? Xbyak::AutoGrow : 0) { xor_(eax, eax); Label dst, src; L(src); inc(eax); cmp(eax, 1); je(dst); inc(eax); // 2, 3, 5 cmp(eax, 5); putNop(this, 128); jne(dst, T_NEAR); ret(); assignL(dst, src); // test of copy label { Label sss(dst); { Label ttt; ttt = src; } } } }; for (int i = 0; i < 2; i++) { const bool grow = i == 0; printf("testAssign grow=%d\n", grow); Code code(grow); if (grow) code.ready(); int (*f)() = code.getCode(); int ret = f(); CYBOZU_TEST_EQUAL(ret, 5); } } CYBOZU_TEST_AUTO(doubleDefine) { struct Code : Xbyak::CodeGenerator { Code() { { Label label; L(label); // forbitten double L() CYBOZU_TEST_EXCEPTION(L(label), Xbyak::Error); } { Label label; jmp(label); CYBOZU_TEST_ASSERT(hasUndefinedLabel()); } { Label label1, label2; L(label1); jmp(label2); assignL(label2, label1); // forbitten double assignL CYBOZU_TEST_EXCEPTION(assignL(label2, label1), Xbyak::Error); } { Label label1, label2; L(label1); jmp(label2); // forbitten assignment to label1 set by L() CYBOZU_TEST_EXCEPTION(assignL(label1, label2), Xbyak::Error); } } } code; } struct GetAddressCode1 : Xbyak::CodeGenerator { void test() { Xbyak::Label L1, L2, L3; nop(); L(L1); const uint8_t *p1 = getCurr(); CYBOZU_TEST_EQUAL_POINTER(L1.getAddress(), p1); nop(); jmp(L2); nop(); jmp(L3); L(L2); CYBOZU_TEST_EQUAL_POINTER(L2.getAddress(), getCurr()); // L3 is not defined CYBOZU_TEST_EQUAL_POINTER(L3.getAddress(), 0); // L3 is set by L1 assignL(L3, L1); CYBOZU_TEST_EQUAL_POINTER(L3.getAddress(), p1); } }; struct CodeLabelTable : Xbyak::CodeGenerator { enum { ret0 = 3 }; enum { ret1 = 5 }; enum { ret2 = 8 }; CodeLabelTable() { using namespace Xbyak; #ifdef XBYAK64_WIN const Reg64& p0 = rcx; const Reg64& a = rax; #elif defined (XBYAK64_GCC) const Reg64& p0 = rdi; const Reg64& a = rax; #else const Reg32& p0 = edx; const Reg32& a = eax; mov(edx, ptr [esp + 4]); #endif Label labelTbl, L0, L1, L2; mov(a, labelTbl); jmp(ptr [a + p0 * sizeof(void*)]); L(labelTbl); putL(L0); putL(L1); putL(L2); L(L0); mov(a, ret0); ret(); L(L1); mov(a, ret1); ret(); L(L2); mov(a, ret2); ret(); } }; CYBOZU_TEST_AUTO(LabelTable) { CodeLabelTable c; int (*f)(int) = c.getCode(); CYBOZU_TEST_EQUAL(f(0), c.ret0); CYBOZU_TEST_EQUAL(f(1), c.ret1); CYBOZU_TEST_EQUAL(f(2), c.ret2); } CYBOZU_TEST_AUTO(getAddress1) { GetAddressCode1 c; c.test(); } struct GetAddressCode2 : Xbyak::CodeGenerator { Xbyak::Label L1, L2, L3; size_t a1; size_t a3; explicit GetAddressCode2(int size) : Xbyak::CodeGenerator(size, size == 4096 ? 0 : Xbyak::AutoGrow) , a1(0) , a3(0) { bool autoGrow = size != 4096; nop(); L(L1); if (autoGrow) { CYBOZU_TEST_EQUAL_POINTER(L1.getAddress(), 0); } a1 = getSize(); nop(); jmp(L2); if (autoGrow) { CYBOZU_TEST_EQUAL_POINTER(L2.getAddress(), 0); } L(L3); a3 = getSize(); if (autoGrow) { CYBOZU_TEST_EQUAL_POINTER(L3.getAddress(), 0); } nop(); assignL(L2, L1); if (autoGrow) { CYBOZU_TEST_EQUAL_POINTER(L2.getAddress(), 0); } } }; CYBOZU_TEST_AUTO(getAddress2) { const int sizeTbl[] = { 2, 128, // grow 4096 // not grow }; for (size_t i = 0; i < CYBOZU_NUM_OF_ARRAY(sizeTbl); i++) { int size = sizeTbl[i]; GetAddressCode2 c(size); c.ready(); const uint8_t *p = c.getCode(); CYBOZU_TEST_EQUAL(c.L1.getAddress(), p + c.a1); CYBOZU_TEST_EQUAL(c.L3.getAddress(), p + c.a3); CYBOZU_TEST_EQUAL(c.L2.getAddress(), p + c.a1); } } #ifdef XBYAK64 CYBOZU_TEST_AUTO(rip) { int a[] = { 1, 10 }; int b[] = { 100, 1000 }; struct Code : Xbyak::CodeGenerator { Code(const int *a, const int *b) { Label label1, label2; jmp("@f"); L(label1); db(a[0], 4); db(a[1], 4); L("@@"); mov(eax, ptr [rip + label1]); // a[0] mov(ecx, ptr [rip + label1+4]); // a[1] mov(edx, ptr [rip + label2-8+2+6]); // b[0] add(ecx, ptr [rip + 16+label2-12]); // b[1] add(eax, ecx); add(eax, edx); ret(); L(label2); db(b[0], 4); db(b[1], 4); // error CYBOZU_TEST_EXCEPTION(rip + label1 + label2, Xbyak::Error); } } code(a, b); int ret = code.getCode()(); CYBOZU_TEST_EQUAL(ret, a[0] + a[1] + b[0] + b[1]); } int ret1234() { return 1234; } int ret9999() { return 9999; } CYBOZU_TEST_AUTO(rip_jmp) { struct Code : Xbyak::CodeGenerator { Code() { Label label; xor_(eax, eax); call(ptr [rip + label]); mov(ecx, eax); call(ptr [rip + label + 8]); add(eax, ecx); ret(); L(label); db((size_t)ret1234, 8); db((size_t)ret9999, 8); } } code; int ret = code.getCode()(); CYBOZU_TEST_EQUAL(ret, ret1234() + ret9999()); } #if 0 CYBOZU_TEST_AUTO(rip_addr) { /* we can't assume |&x - &code| < 2GiB anymore */ static int x = 5; struct Code : Xbyak::CodeGenerator { Code() { mov(eax, 123); mov(ptr[rip + &x], eax); ret(); } } code; code.getCode()(); CYBOZU_TEST_EQUAL(x, 123); } #endif #ifndef __APPLE__ CYBOZU_TEST_AUTO(rip_addr_with_fixed_buf) { MIE_ALIGN(4096) static char buf[8192]; static char *p = buf + 4096; static int *x0 = (int*)buf; static int *x1 = x0 + 1; struct Code : Xbyak::CodeGenerator { Code() : Xbyak::CodeGenerator(4096, p) { mov(eax, 123); mov(ptr[rip + x0], eax); mov(dword[rip + x1], 456); mov(byte[rip + 1 + x1 + 3], 99); ret(); } } code; code.setProtectModeRE(); code.getCode()(); CYBOZU_TEST_EQUAL(*x0, 123); CYBOZU_TEST_EQUAL(*x1, 456); CYBOZU_TEST_EQUAL(buf[8], 99); code.setProtectModeRW(); } #endif #endif struct ReleaseTestCode : Xbyak::CodeGenerator { ReleaseTestCode(Label& L1, Label& L2, Label& L3) { L(L1); jmp(L1); L(L2); jmp(L3); // not assigned } }; /* code must unlink label if code is destroyed */ CYBOZU_TEST_AUTO(release_label_after_code) { puts("---"); { Label L1, L2, L3, L4, L5; { ReleaseTestCode code(L1, L2, L3); CYBOZU_TEST_ASSERT(L1.getId() > 0); CYBOZU_TEST_ASSERT(L1.getAddress() != 0); CYBOZU_TEST_ASSERT(L2.getId() > 0); CYBOZU_TEST_ASSERT(L2.getAddress() != 0); CYBOZU_TEST_ASSERT(L3.getId() > 0); CYBOZU_TEST_ASSERT(L3.getAddress() == 0); // L3 is not assigned code.assignL(L4, L1); L5 = L1; printf("id=%d %d %d %d %d\n", L1.getId(), L2.getId(), L3.getId(), L4.getId(), L5.getId()); } puts("code is released"); CYBOZU_TEST_ASSERT(L1.getId() == 0); CYBOZU_TEST_ASSERT(L1.getAddress() == 0); CYBOZU_TEST_ASSERT(L2.getId() == 0); CYBOZU_TEST_ASSERT(L2.getAddress() == 0); // CYBOZU_TEST_ASSERT(L3.getId() == 0); // L3 is not assigned so not cleared CYBOZU_TEST_ASSERT(L3.getAddress() == 0); CYBOZU_TEST_ASSERT(L4.getId() == 0); CYBOZU_TEST_ASSERT(L4.getAddress() == 0); CYBOZU_TEST_ASSERT(L5.getId() == 0); CYBOZU_TEST_ASSERT(L5.getAddress() == 0); printf("id=%d %d %d %d %d\n", L1.getId(), L2.getId(), L3.getId(), L4.getId(), L5.getId()); } } struct JmpTypeCode : Xbyak::CodeGenerator { void nops() { for (int i = 0; i < 130; i++) { nop(); } } // return jmp code size size_t gen(bool pre, bool large, Xbyak::CodeGenerator::LabelType type) { Label label; if (pre) { L(label); if (large) nops(); size_t pos = getSize(); jmp(label, type); return getSize() - pos; } else { size_t pos = getSize(); jmp(label, type); size_t size = getSize() - pos; if (large) nops(); L(label); return size; } } }; CYBOZU_TEST_AUTO(setDefaultJmpNEAR) { const Xbyak::CodeGenerator::LabelType T_SHORT = Xbyak::CodeGenerator::T_SHORT; const Xbyak::CodeGenerator::LabelType T_NEAR = Xbyak::CodeGenerator::T_NEAR; const Xbyak::CodeGenerator::LabelType T_AUTO = Xbyak::CodeGenerator::T_AUTO; const struct { bool pre; bool large; Xbyak::CodeGenerator::LabelType type; size_t expect1; // 0 means exception size_t expect2; } tbl[] = { { false, false, T_SHORT, 2, 2 }, { false, false, T_NEAR, 5, 5 }, { false, true, T_SHORT, 0, 0 }, { false, true, T_NEAR, 5, 5 }, { true, false, T_SHORT, 2, 2 }, { true, false, T_NEAR, 5, 5 }, { true, true, T_SHORT, 0, 0 }, { true, true, T_NEAR, 5, 5 }, { false, false, T_AUTO, 2, 5 }, { false, true, T_AUTO, 0, 5 }, { true, false, T_AUTO, 2, 2 }, { true, true, T_AUTO, 5, 5 }, }; JmpTypeCode code1, code2; code2.setDefaultJmpNEAR(true); for (size_t i = 0; i < CYBOZU_NUM_OF_ARRAY(tbl); i++) { if (tbl[i].expect1) { size_t size = code1.gen(tbl[i].pre, tbl[i].large, tbl[i].type); CYBOZU_TEST_EQUAL(size, tbl[i].expect1); } else { CYBOZU_TEST_EXCEPTION(code1.gen(tbl[i].pre, tbl[i].large, tbl[i].type), std::exception); } if (tbl[i].expect2) { size_t size = code2.gen(tbl[i].pre, tbl[i].large, tbl[i].type); CYBOZU_TEST_EQUAL(size, tbl[i].expect2); } else { CYBOZU_TEST_EXCEPTION(code2.gen(tbl[i].pre, tbl[i].large, tbl[i].type), std::exception); } } }