COND_R instruction reworked as CBRANCH

instruction mod field bits reallocated
This commit is contained in:
tevador 2019-04-29 23:38:23 +02:00
parent ebddaf671c
commit ffebc37381
12 changed files with 166 additions and 313 deletions

View File

@ -25,9 +25,9 @@ randomx_isn_6:
; FSQRT_R e3
sqrtpd xmm7, xmm7
randomx_isn_7:
; ISTORE L1[r0-784322734], r3
; ISTORE L3[r0-784322734], r3
lea eax, [r8d-784322734]
and eax, 16376
and eax, 2097144
mov qword ptr [rsi+rax], r11
randomx_isn_8:
; FMUL_R e1, a1
@ -55,8 +55,8 @@ randomx_isn_14:
; FSQRT_R e2
sqrtpd xmm6, xmm6
randomx_isn_15:
; IADD_RS r6, r2, LSH 1
lea r14, [r14+r10*2]
; IADD_RS r6, r2, SHFT 3
lea r14, [r14+r10*8]
randomx_isn_16:
; FSUB_M f2, L1[r1-1890725713]
lea eax, [r9d-1890725713]
@ -68,22 +68,18 @@ randomx_isn_17:
mov ecx, r11d
ror r12, cl
randomx_isn_18:
; ISTORE L3[r4+1297827817], r4
; ISTORE L1[r4+1297827817], r4
lea eax, [r12d+1297827817]
and eax, 2097144
and eax, 16376
mov qword ptr [rsi+rax], r12
randomx_isn_19:
; FMUL_R e1, a2
mulpd xmm5, xmm10
randomx_isn_20:
; COND_R r6, of(r3, 1593588996), LSH 1
add r8, 2
test r8, 254
; CBRANCH 1593588996, COND 3
add r8, 1593589004
test r8, 1016
jz randomx_isn_0
xor ecx, ecx
cmp r11d, 1593588996
seto cl
add r14, rcx
randomx_isn_21:
; IXOR_M r7, L1[r2+1680388681]
lea eax, [r10d+1680388681]
@ -98,26 +94,22 @@ randomx_isn_23:
; FMUL_R e2, a0
mulpd xmm6, xmm8
randomx_isn_24:
; COND_R r6, no(r0, 149087159), LSH 6
add r8, 64
test r8, 8128
; CBRANCH 149087159, COND 13
add r8, 149087159
test r8, 1040384
jz randomx_isn_21
xor ecx, ecx
cmp r8d, 149087159
setno cl
add r14, rcx
randomx_isn_25:
; FADD_R f3, a0
addpd xmm3, xmm8
randomx_isn_26:
; IADD_RS r7, r0, LSH 3
lea r15, [r15+r8*8]
; IADD_RS r7, r0, SHFT 2
lea r15, [r15+r8*4]
randomx_isn_27:
; IMUL_R r2, r3
imul r10, r11
randomx_isn_28:
; IADD_RS r5, r7, 1345488645, LSH 1
lea r13, [r13+r15*2+1345488645]
; IADD_RS r5, r7, 1345488645, SHFT 3
lea r13, [r13+r15*8+1345488645]
randomx_isn_29:
; ISTORE L2[r6-950233266], r2
lea eax, [r14d-950233266]
@ -144,8 +136,8 @@ randomx_isn_35:
; IMUL_R r6, 835132161
imul r14, 835132161
randomx_isn_36:
; IADD_RS r3, r4, LSH 2
lea r11, [r11+r12*4]
; IADD_RS r3, r4, SHFT 0
lea r11, [r11+r12*1]
randomx_isn_37:
; ISUB_M r6, L2[r4+1885029796]
lea eax, [r12d+1885029796]
@ -173,12 +165,12 @@ randomx_isn_44:
; FADD_R f1, a2
addpd xmm1, xmm10
randomx_isn_45:
; ISTORE L3[r0+1805562386], r5
; ISTORE L1[r0+1805562386], r5
lea eax, [r8d+1805562386]
and eax, 2097144
and eax, 16376
mov qword ptr [rsi+rax], r13
randomx_isn_46:
; IADD_RS r0, r7, LSH 0
; IADD_RS r0, r7, SHFT 0
lea r8, [r8+r15*1]
randomx_isn_47:
; IXOR_R r5, r2
@ -193,29 +185,21 @@ randomx_isn_50:
; FSUB_R f3, a0
subpd xmm3, xmm8
randomx_isn_51:
; COND_R r2, be(r3, -1975981803), LSH 7
add r12, 128
test r12, 16256
; CBRANCH -1975981803, COND 14
add r12, -1975981803
test r12, 2080768
jz randomx_isn_25
xor ecx, ecx
cmp r11d, -1975981803
setbe cl
add r10, rcx
randomx_isn_52:
; IADD_RS r1, r1, LSH 2
; IADD_RS r1, r1, SHFT 2
lea r9, [r9+r9*4]
randomx_isn_53:
; FSUB_R f2, a0
subpd xmm2, xmm8
randomx_isn_54:
; COND_R r5, ns(r1, 1917049931), LSH 6
add r8, 64
test r8, 8128
; CBRANCH 1917049931, COND 12
add r8, 1917049931
test r8, 520192
jz randomx_isn_52
xor ecx, ecx
cmp r9d, 1917049931
setns cl
add r13, rcx
randomx_isn_55:
; IXOR_R r2, r3
xor r10, r11
@ -226,7 +210,7 @@ randomx_isn_57:
; IMUL_R r5, r1
imul r13, r9
randomx_isn_58:
; IADD_RS r5, r1, -999103579, LSH 0
; IADD_RS r5, r1, -999103579, SHFT 0
lea r13, [r13+r9*1-999103579]
randomx_isn_59:
; FMUL_R e2, a2
@ -236,8 +220,8 @@ randomx_isn_60:
mov ecx, r14d
ror r10, cl
randomx_isn_61:
; IADD_RS r0, r3, LSH 1
lea r8, [r8+r11*2]
; IADD_RS r0, r3, SHFT 3
lea r8, [r8+r11*8]
randomx_isn_62:
; FSQRT_R e3
sqrtpd xmm7, xmm7
@ -259,8 +243,8 @@ randomx_isn_66:
; ISUB_R r4, 841292629
sub r12, 841292629
randomx_isn_67:
; IADD_RS r4, r6, LSH 2
lea r12, [r12+r14*4]
; IADD_RS r4, r6, SHFT 3
lea r12, [r12+r14*8]
randomx_isn_68:
; FSUB_M f3, L1[r4+613549729]
lea eax, [r12d+613549729]
@ -268,8 +252,8 @@ randomx_isn_68:
cvtdq2pd xmm12, qword ptr [rsi+rax]
subpd xmm3, xmm12
randomx_isn_69:
; IADD_RS r6, r4, LSH 0
lea r14, [r14+r12*1]
; IADD_RS r6, r4, SHFT 3
lea r14, [r14+r12*8]
randomx_isn_70:
; FSUB_M f1, L1[r5+629563256]
lea eax, [r13d+629563256]
@ -286,14 +270,10 @@ randomx_isn_73:
; FMUL_R e0, a0
mulpd xmm4, xmm8
randomx_isn_74:
; COND_R r6, ns(r3, -1200328848), LSH 2
add r9, 4
test r9, 508
; CBRANCH -1200328848, COND 4
add r9, -1200328848
test r9, 2032
jz randomx_isn_55
xor ecx, ecx
cmp r11d, -1200328848
setns cl
add r14, rcx
randomx_isn_75:
; FMUL_R e0, a3
mulpd xmm4, xmm11
@ -312,12 +292,12 @@ randomx_isn_78:
; FMUL_R e2, a1
mulpd xmm6, xmm9
randomx_isn_79:
; IADD_RS r3, r1, LSH 1
lea r11, [r11+r9*2]
; IADD_RS r3, r1, SHFT 2
lea r11, [r11+r9*4]
randomx_isn_80:
; ISTORE L3[r2+1885666804], r4
; ISTORE L1[r2+1885666804], r4
lea eax, [r10d+1885666804]
and eax, 2097144
and eax, 16376
mov qword ptr [rsi+rax], r12
randomx_isn_81:
; IMULH_R r3, r0
@ -348,23 +328,19 @@ randomx_isn_88:
; IMUL_R r1, r3
imul r9, r11
randomx_isn_89:
; COND_R r2, no(r0, -122257389), LSH 6
add r8, 64
test r8, 8128
; CBRANCH -122257389, COND 13
add r8, -122249197
test r8, 1040384
jz randomx_isn_75
xor ecx, ecx
cmp r8d, -122257389
setno cl
add r10, rcx
randomx_isn_90:
; ISTORE L1[r5+228116180], r7
lea eax, [r13d+228116180]
and eax, 16376
mov qword ptr [rsi+rax], r15
randomx_isn_91:
; ISTORE L1[r6+650356254], r5
; ISTORE L3[r6+650356254], r5
lea eax, [r14d+650356254]
and eax, 16376
and eax, 2097144
mov qword ptr [rsi+rax], r13
randomx_isn_92:
; FSUB_R f2, a0
@ -426,8 +402,8 @@ randomx_isn_107:
imul r13
mov r14, rdx
randomx_isn_108:
; IADD_RS r7, r0, LSH 1
lea r15, [r15+r8*2]
; IADD_RS r7, r0, SHFT 2
lea r15, [r15+r8*4]
randomx_isn_109:
; IMUL_R r6, r5
imul r14, r13
@ -441,14 +417,14 @@ randomx_isn_111:
cvtdq2pd xmm12, qword ptr [rsi+rax]
addpd xmm2, xmm12
randomx_isn_112:
; IADD_RS r0, r3, LSH 0
lea r8, [r8+r11*1]
; IADD_RS r0, r3, SHFT 1
lea r8, [r8+r11*2]
randomx_isn_113:
; IADD_RS r3, r4, LSH 1
; IADD_RS r3, r4, SHFT 1
lea r11, [r11+r12*2]
randomx_isn_114:
; IADD_RS r2, r4, LSH 2
lea r10, [r10+r12*4]
; IADD_RS r2, r4, SHFT 1
lea r10, [r10+r12*2]
randomx_isn_115:
; IMUL_M r7, L1[r2-106928748]
lea eax, [r10d-106928748]
@ -461,17 +437,17 @@ randomx_isn_117:
; FSUB_R f2, a2
subpd xmm2, xmm10
randomx_isn_118:
; IADD_RS r2, r2, LSH 0
lea r10, [r10+r10*1]
; IADD_RS r2, r2, SHFT 3
lea r10, [r10+r10*8]
randomx_isn_119:
; ISUB_R r7, -342152774
sub r15, -342152774
randomx_isn_120:
; IADD_RS r4, r1, LSH 1
lea r12, [r12+r9*2]
; IADD_RS r4, r1, SHFT 0
lea r12, [r12+r9*1]
randomx_isn_121:
; IADD_RS r4, r7, LSH 2
lea r12, [r12+r15*4]
; IADD_RS r4, r7, SHFT 3
lea r12, [r12+r15*8]
randomx_isn_122:
; FSUB_R f0, a1
subpd xmm0, xmm9
@ -501,7 +477,7 @@ randomx_isn_128:
; FSUB_R f3, a1
subpd xmm3, xmm9
randomx_isn_129:
; IADD_RS r1, r2, LSH 2
; IADD_RS r1, r2, SHFT 2
lea r9, [r9+r10*4]
randomx_isn_130:
; FSUB_R f1, a1
@ -528,8 +504,8 @@ randomx_isn_136:
; ISUB_R r3, r6
sub r11, r14
randomx_isn_137:
; IADD_RS r4, r1, LSH 0
lea r12, [r12+r9*1]
; IADD_RS r4, r1, SHFT 1
lea r12, [r12+r9*2]
randomx_isn_138:
; ISTORE L1[r0+56684410], r0
lea eax, [r8d+56684410]
@ -552,14 +528,10 @@ randomx_isn_142:
; FADD_R f1, a0
addpd xmm1, xmm8
randomx_isn_143:
; COND_R r5, ge(r1, 880467599), LSH 2
add r14, 4
test r14, 508
; CBRANCH 880467599, COND 5
add r14, 880467631
test r14, 4064
jz randomx_isn_110
xor ecx, ecx
cmp r9d, 880467599
setge cl
add r13, rcx
randomx_isn_144:
; FSUB_M f1, L1[r5+1283529302]
lea eax, [r13d+1283529302]
@ -570,17 +542,17 @@ randomx_isn_145:
; ISUB_R r5, r3
sub r13, r11
randomx_isn_146:
; IADD_RS r0, r3, LSH 1
lea r8, [r8+r11*2]
; IADD_RS r0, r3, SHFT 3
lea r8, [r8+r11*8]
randomx_isn_147:
; IADD_RS r1, r3, LSH 1
lea r9, [r9+r11*2]
; IADD_RS r1, r3, SHFT 2
lea r9, [r9+r11*4]
randomx_isn_148:
; FSQRT_R e1
sqrtpd xmm5, xmm5
randomx_isn_149:
; IADD_RS r4, r3, LSH 1
lea r12, [r12+r11*2]
; IADD_RS r4, r3, SHFT 2
lea r12, [r12+r11*4]
randomx_isn_150:
; FADD_M f1, L1[r0-1977073973]
lea eax, [r8d-1977073973]
@ -588,8 +560,8 @@ randomx_isn_150:
cvtdq2pd xmm12, qword ptr [rsi+rax]
addpd xmm1, xmm12
randomx_isn_151:
; IADD_RS r1, r0, LSH 1
lea r9, [r9+r8*2]
; IADD_RS r1, r0, SHFT 3
lea r9, [r9+r8*8]
randomx_isn_152:
; FSUB_R f1, a0
subpd xmm1, xmm8
@ -622,8 +594,8 @@ randomx_isn_158:
and eax, 16376
mov qword ptr [rsi+rax], r12
randomx_isn_159:
; IADD_RS r7, r2, LSH 3
lea r15, [r15+r10*8]
; IADD_RS r7, r2, SHFT 2
lea r15, [r15+r10*4]
randomx_isn_160:
; IMUL_RCP r7, 2040763167
mov rax, 9705702723791900149
@ -632,8 +604,8 @@ randomx_isn_161:
; FADD_R f3, a3
addpd xmm3, xmm11
randomx_isn_162:
; IADD_RS r6, r4, LSH 1
lea r14, [r14+r12*2]
; IADD_RS r6, r4, SHFT 3
lea r14, [r14+r12*8]
randomx_isn_163:
; ISWAP_R r3, r5
xchg r11, r13
@ -697,8 +669,8 @@ randomx_isn_177:
; IMUL_M r3, L3[232968]
imul r11, qword ptr [rsi+232968]
randomx_isn_178:
; IADD_RS r5, r3, -2108568616, LSH 1
lea r13, [r13+r11*2-2108568616]
; IADD_RS r5, r3, -2108568616, SHFT 0
lea r13, [r13+r11*1-2108568616]
randomx_isn_179:
; IADD_M r3, L1[r4+1322108729]
lea eax, [r12d+1322108729]
@ -714,8 +686,8 @@ randomx_isn_182:
; FMUL_R e2, a2
mulpd xmm6, xmm10
randomx_isn_183:
; IADD_RS r6, r2, LSH 0
lea r14, [r14+r10*1]
; IADD_RS r6, r2, SHFT 1
lea r14, [r14+r10*2]
randomx_isn_184:
; FADD_R f2, a3
addpd xmm2, xmm11
@ -726,7 +698,7 @@ randomx_isn_186:
; FSCAL_R f3
xorps xmm3, xmm15
randomx_isn_187:
; IADD_RS r6, r6, LSH 3
; IADD_RS r6, r6, SHFT 3
lea r14, [r14+r14*8]
randomx_isn_188:
; FSCAL_R f2
@ -779,8 +751,8 @@ randomx_isn_199:
; FSUB_R f3, a3
subpd xmm3, xmm11
randomx_isn_200:
; IADD_RS r2, r5, LSH 2
lea r10, [r10+r13*4]
; IADD_RS r2, r5, SHFT 0
lea r10, [r10+r13*1]
randomx_isn_201:
; ISUB_M r6, L2[r3+376384700]
lea eax, [r11d+376384700]
@ -803,14 +775,14 @@ randomx_isn_205:
and eax, 262136
add r15, qword ptr [rsi+rax]
randomx_isn_206:
; IADD_RS r3, r5, LSH 0
lea r11, [r11+r13*1]
; IADD_RS r3, r5, SHFT 2
lea r11, [r11+r13*4]
randomx_isn_207:
; FSCAL_R f1
xorps xmm1, xmm15
randomx_isn_208:
; IADD_RS r6, r3, LSH 1
lea r14, [r14+r11*2]
; IADD_RS r6, r3, SHFT 0
lea r14, [r14+r11*1]
randomx_isn_209:
; FSUB_M f0, L1[r4-557177119]
lea eax, [r12d-557177119]
@ -866,18 +838,18 @@ randomx_isn_221:
; IMUL_R r1, r0
imul r9, r8
randomx_isn_222:
; IADD_RS r1, r0, LSH 2
; IADD_RS r1, r0, SHFT 2
lea r9, [r9+r8*4]
randomx_isn_223:
; FSCAL_R f2
xorps xmm2, xmm15
randomx_isn_224:
; IADD_RS r5, r4, 312567979, LSH 1
lea r13, [r13+r12*2+312567979]
; IADD_RS r5, r4, 312567979, SHFT 3
lea r13, [r13+r12*8+312567979]
randomx_isn_225:
; ISTORE L2[r2+260885699], r1
; ISTORE L3[r2+260885699], r1
lea eax, [r10d+260885699]
and eax, 262136
and eax, 2097144
mov qword ptr [rsi+rax], r9
randomx_isn_226:
; ISUB_R r6, -791575725
@ -897,8 +869,8 @@ randomx_isn_229:
; ISWAP_R r0, r6
xchg r8, r14
randomx_isn_230:
; IADD_RS r2, r7, LSH 2
lea r10, [r10+r15*4]
; IADD_RS r2, r7, SHFT 3
lea r10, [r10+r15*8]
randomx_isn_231:
; FMUL_R e1, a0
mulpd xmm5, xmm8
@ -923,8 +895,8 @@ randomx_isn_237:
; FSUB_R f1, a3
subpd xmm1, xmm11
randomx_isn_238:
; IADD_RS r4, r2, LSH 1
lea r12, [r12+r10*2]
; IADD_RS r4, r2, SHFT 0
lea r12, [r12+r10*1]
randomx_isn_239:
; IMUL_RCP r7, 3065786637
mov rax, 12921343181238534701
@ -957,36 +929,32 @@ randomx_isn_246:
and eax, 262136
sub r15, qword ptr [rsi+rax]
randomx_isn_247:
; COND_R r2, be(r5, -8545330), LSH 2
add r9, 4
test r9, 508
; CBRANCH -8545330, COND 4
add r9, -8545314
test r9, 2032
jz randomx_isn_223
xor ecx, ecx
cmp r13d, -8545330
setbe cl
add r10, rcx
randomx_isn_248:
; ISTORE L1[r0+1951752498], r5
lea eax, [r8d+1951752498]
and eax, 16376
mov qword ptr [rsi+rax], r13
randomx_isn_249:
; IADD_RS r6, r5, LSH 2
lea r14, [r14+r13*4]
; IADD_RS r6, r5, SHFT 3
lea r14, [r14+r13*8]
randomx_isn_250:
; FADD_R f3, a0
addpd xmm3, xmm8
randomx_isn_251:
; IADD_RS r0, r0, LSH 0
; IADD_RS r0, r0, SHFT 0
lea r8, [r8+r8*1]
randomx_isn_252:
; ISUB_R r4, r2
sub r12, r10
randomx_isn_253:
; IADD_RS r5, r4, 256175395, LSH 0
lea r13, [r13+r12*1+256175395]
; IADD_RS r5, r4, 256175395, SHFT 3
lea r13, [r13+r12*8+256175395]
randomx_isn_254:
; IADD_RS r6, r7, LSH 2
; IADD_RS r6, r7, SHFT 2
lea r14, [r14+r15*4]
randomx_isn_255:
; IROR_R r7, r3

View File

@ -44,14 +44,12 @@ namespace randomx {
static const char* regScratchpadAddr = "rsi";
void AssemblyGeneratorX86::generateProgram(Program& prog) {
for (unsigned i = 0; i < 8; ++i) {
for (unsigned i = 0; i < RegistersCount; ++i) {
registerUsage[i] = -1;
}
asmCode.str(std::string()); //clear
for (unsigned i = 0; i < prog.getSize(); ++i) {
#if RANDOMX_JUMP
asmCode << "randomx_isn_" << i << ":" << std::endl;
#endif
Instruction& instr = prog(i);
instr.src %= RegistersCount;
instr.dst %= RegistersCount;
@ -261,7 +259,7 @@ namespace randomx {
void AssemblyGeneratorX86::genAddressRegDst(Instruction& instr, int maskAlign = 8) {
asmCode << "\tlea eax, [" << regR32[instr.dst] << std::showpos << (int32_t)instr.getImm32() << std::noshowpos << "]" << std::endl;
int mask;
if (instr.getModCond()) {
if (instr.getModCond() < StoreL3Condition) {
mask = instr.getModMem() ? ScratchpadL1Mask : ScratchpadL2Mask;
}
else {
@ -277,9 +275,9 @@ namespace randomx {
void AssemblyGeneratorX86::h_IADD_RS(Instruction& instr, int i) {
registerUsage[instr.dst] = i;
if(instr.dst == RegisterNeedsDisplacement)
asmCode << "\tlea " << regR[instr.dst] << ", [" << regR[instr.dst] << "+" << regR[instr.src] << "*" << (1 << (instr.getModMem())) << std::showpos << (int32_t)instr.getImm32() << std::noshowpos << "]" << std::endl;
asmCode << "\tlea " << regR[instr.dst] << ", [" << regR[instr.dst] << "+" << regR[instr.src] << "*" << (1 << (instr.getModShift())) << std::showpos << (int32_t)instr.getImm32() << std::noshowpos << "]" << std::endl;
else
asmCode << "\tlea " << regR[instr.dst] << ", [" << regR[instr.dst] << "+" << regR[instr.src] << "*" << (1 << (instr.getModMem())) << "]" << std::endl;
asmCode << "\tlea " << regR[instr.dst] << ", [" << regR[instr.dst] << "+" << regR[instr.src] << "*" << (1 << (instr.getModShift())) << "]" << std::endl;
traceint(instr);
}
@ -542,55 +540,18 @@ namespace randomx {
tracenop(instr);
}
static inline const char* condition(Instruction& instr) {
switch (instr.getModCond())
{
case 0:
return "be";
case 1:
return "a";
case 2:
return "s";
case 3:
return "ns";
case 4:
return "o";
case 5:
return "no";
case 6:
return "l";
case 7:
return "ge";
default:
UNREACHABLE;
}
}
void AssemblyGeneratorX86::handleCondition(Instruction& instr, int i) {
const int shift = instr.getModShift();
const int conditionMask = ((1 << RANDOMX_JUMP_BITS) - 1) << shift;
void AssemblyGeneratorX86::h_CBRANCH(Instruction& instr, int i) {
int reg = getConditionRegister();
int target = registerUsage[reg] + 1;
registerUsage[reg] = i;
asmCode << "\tadd " << regR[reg] << ", " << (1 << shift) << std::endl;
asmCode << "\ttest " << regR[reg] << ", " << conditionMask << std::endl;
int shift = instr.getModCond();
asmCode << "\tadd " << regR[reg] << ", " << (int32_t)(instr.getImm32() | (1 << shift)) << std::endl;
asmCode << "\ttest " << regR[reg] << ", " << (ConditionMask << shift) << std::endl;
asmCode << "\tjz randomx_isn_" << target << std::endl;
for (unsigned j = 0; j < 8; ++j) { //mark all registers as used
for (unsigned j = 0; j < RegistersCount; ++j) { //mark all registers as used
registerUsage[j] = i;
}
}
void AssemblyGeneratorX86::h_COND_R(Instruction& instr, int i) {
#if RANDOMX_JUMP
handleCondition(instr, i);
#endif
asmCode << "\txor ecx, ecx" << std::endl;
asmCode << "\tcmp " << regR32[instr.src] << ", " << (int32_t)instr.getImm32() << std::endl;
asmCode << "\tset" << condition(instr) << " cl" << std::endl;
asmCode << "\tadd " << regR[instr.dst] << ", rcx" << std::endl;
traceint(instr);
}
void AssemblyGeneratorX86::h_ISTORE(Instruction& instr, int i) {
genAddressRegDst(instr);
asmCode << "\tmov qword ptr [" << regScratchpadAddr << "+rax], " << regR[instr.src] << std::endl;
@ -632,7 +593,7 @@ namespace randomx {
INST_HANDLE(FMUL_R)
INST_HANDLE(FDIV_M)
INST_HANDLE(FSQRT_R)
INST_HANDLE(COND_R)
INST_HANDLE(CBRANCH)
INST_HANDLE(CFROUND)
INST_HANDLE(ISTORE)
INST_HANDLE(NOP)

View File

@ -44,7 +44,6 @@ namespace randomx {
void genAddressRegDst(Instruction&, int);
int32_t genAddressImm(Instruction&);
int getConditionRegister();
void handleCondition(Instruction&, int);
void generateCode(Instruction&, int);
void traceint(Instruction&);
void traceflt(Instruction&);
@ -76,7 +75,7 @@ namespace randomx {
void h_FMUL_R(Instruction&, int);
void h_FDIV_M(Instruction&, int);
void h_FSQRT_R(Instruction&, int);
void h_COND_R(Instruction&, int);
void h_CBRANCH(Instruction&, int);
void h_CFROUND(Instruction&, int);
void h_ISTORE(Instruction&, int);
void h_NOP(Instruction&, int);

View File

@ -40,13 +40,14 @@ namespace randomx {
static_assert(RANDOMX_SCRATCHPAD_L2 >= RANDOMX_SCRATCHPAD_L1, "RANDOMX_SCRATCHPAD_L2 must be greater than or equal to RANDOMX_SCRATCHPAD_L1.");
static_assert((RANDOMX_SCRATCHPAD_L1 & (RANDOMX_SCRATCHPAD_L1 - 1)) == 0, "RANDOMX_SCRATCHPAD_L1 must be a power of 2.");
static_assert(RANDOMX_CACHE_ACCESSES > 1, "RANDOMX_CACHE_ACCESSES must be greater than 1");
static_assert(RANDOMX_JUMP_BITS >= 1 && RANDOMX_JUMP_BITS <= 16, "RANDOMX_JUMP_BITS must be an integer in the range 1-16.");
constexpr int wtSum = RANDOMX_FREQ_IADD_RS + RANDOMX_FREQ_IADD_M + RANDOMX_FREQ_ISUB_R + \
RANDOMX_FREQ_ISUB_M + RANDOMX_FREQ_IMUL_R + RANDOMX_FREQ_IMUL_M + RANDOMX_FREQ_IMULH_R + \
RANDOMX_FREQ_IMULH_M + RANDOMX_FREQ_ISMULH_R + RANDOMX_FREQ_ISMULH_M + RANDOMX_FREQ_IMUL_RCP + \
RANDOMX_FREQ_INEG_R + RANDOMX_FREQ_IXOR_R + RANDOMX_FREQ_IXOR_M + RANDOMX_FREQ_IROR_R + RANDOMX_FREQ_ISWAP_R + \
RANDOMX_FREQ_FSWAP_R + RANDOMX_FREQ_FADD_R + RANDOMX_FREQ_FADD_M + RANDOMX_FREQ_FSUB_R + RANDOMX_FREQ_FSUB_M + \
RANDOMX_FREQ_FSCAL_R + RANDOMX_FREQ_FMUL_R + RANDOMX_FREQ_FDIV_M + RANDOMX_FREQ_FSQRT_R + RANDOMX_FREQ_COND_R + \
RANDOMX_FREQ_FSCAL_R + RANDOMX_FREQ_FMUL_R + RANDOMX_FREQ_FDIV_M + RANDOMX_FREQ_FSQRT_R + RANDOMX_FREQ_CBRANCH + \
RANDOMX_FREQ_CFROUND + RANDOMX_FREQ_ISTORE + RANDOMX_FREQ_NOP;
static_assert(wtSum == 256, "Sum of instruction frequencies must be 256.");
@ -59,6 +60,8 @@ namespace randomx {
constexpr uint32_t CacheSize = RANDOMX_ARGON_MEMORY * ArgonBlockSize;
constexpr uint64_t DatasetSize = RANDOMX_DATASET_BASE_SIZE + RANDOMX_DATASET_EXTRA_SIZE;
constexpr uint32_t DatasetExtraItems = RANDOMX_DATASET_EXTRA_SIZE / RANDOMX_DATASET_ITEM_SIZE;
constexpr uint32_t ConditionMask = ((1 << RANDOMX_JUMP_BITS) - 1);
constexpr int StoreL3Condition = 14;
#ifdef TRACE
constexpr bool trace = true;
@ -76,8 +79,6 @@ namespace randomx {
#endif
#endif
#define RANDOMX_JUMP (RANDOMX_JUMP_BITS > 0)
using addr_t = uint32_t;
using int_reg_t = uint64_t;

View File

@ -64,7 +64,7 @@ along with RandomX. If not, see<http://www.gnu.org/licenses/>.
//Scratchpad L1 size in bytes. Must be a power of two and less than or equal to RANDOMX_SCRATCHPAD_L2.
#define RANDOMX_SCRATCHPAD_L1 (16 * 1024)
//How many register bits must be zero for a jump condition to be triggered. If set to 0, jumps are disabled.
//How many register bits must be zero for CBRANCH instruction to jump. Must be an integer in the range 1-16.
#define RANDOMX_JUMP_BITS 7
/*
@ -100,8 +100,9 @@ Total sum of frequencies must be 256
#define RANDOMX_FREQ_FDIV_M 4
#define RANDOMX_FREQ_FSQRT_R 6
#define RANDOMX_FREQ_COND_R 8
#define RANDOMX_FREQ_CBRANCH 8
#define RANDOMX_FREQ_CFROUND 1
#define RANDOMX_FREQ_ISTORE 16
#define RANDOMX_FREQ_NOP 0

View File

@ -33,7 +33,7 @@ namespace randomx {
}
void Instruction::genAddressRegDst(std::ostream& os) const {
if (getModCond())
if (getModCond() < StoreL3Condition)
os << (getModMem() ? "L1" : "L2");
else
os << "L3";
@ -49,7 +49,7 @@ namespace randomx {
if(dst == RegisterNeedsDisplacement) {
os << ", " << (int32_t)getImm32();
}
os << ", LSH " << (int)getModMem() << std::endl;
os << ", SHFT " << (int)getModShift() << std::endl;
}
void Instruction::h_IADD_M(std::ostream& os) const {
@ -278,8 +278,8 @@ namespace randomx {
}
}
void Instruction::h_COND_R(std::ostream& os) const {
os << "r" << (int)dst << ", " << condition(getModCond()) << "(r" << (int)src << ", " << (int32_t)getImm32() << "), LSH " << (int)(getModShift()) << std::endl;
void Instruction::h_CBRANCH(std::ostream& os) const {
os << (int32_t)getImm32() << ", COND " << (int)(getModCond()) << std::endl;
}
void Instruction::h_ISTORE(std::ostream& os) const {
@ -321,7 +321,7 @@ namespace randomx {
INST_NAME(FMUL_R)
INST_NAME(FDIV_M)
INST_NAME(FSQRT_R)
INST_NAME(COND_R)
INST_NAME(CBRANCH)
INST_NAME(CFROUND)
INST_NAME(ISTORE)
INST_NAME(NOP)
@ -354,7 +354,7 @@ namespace randomx {
INST_HANDLE(FMUL_R)
INST_HANDLE(FDIV_M)
INST_HANDLE(FSQRT_R)
INST_HANDLE(COND_R)
INST_HANDLE(CBRANCH)
INST_HANDLE(CFROUND)
INST_HANDLE(ISTORE)
INST_HANDLE(NOP)

View File

@ -57,7 +57,7 @@ namespace randomx {
constexpr int FMUL_R = 23;
constexpr int FDIV_M = 24;
constexpr int FSQRT_R = 25;
constexpr int COND_R = 26;
constexpr int CBRANCH = 26;
constexpr int CFROUND = 27;
constexpr int ISTORE = 28;
constexpr int NOP = 29;
@ -81,11 +81,11 @@ namespace randomx {
int getModMem() const {
return mod % 4; //bits 0-1
}
int getModCond() const {
return (mod >> 2) % 8; //bits 2-4
}
int getModShift() const {
return mod >> 5; //bits 5-7
return (mod >> 2) % 4; //bits 2-3
}
int getModCond() const {
return mod >> 4; //bits 4-7
}
void setMod(uint8_t val) {
mod = val;
@ -129,7 +129,7 @@ namespace randomx {
void h_FMUL_R(std::ostream&) const;
void h_FDIV_M(std::ostream&) const;
void h_FSQRT_R(std::ostream&) const;
void h_COND_R(std::ostream&) const;
void h_CBRANCH(std::ostream&) const;
void h_CFROUND(std::ostream&) const;
void h_ISTORE(std::ostream&) const;
void h_NOP(std::ostream&) const;

View File

@ -297,12 +297,10 @@ namespace randomx {
}
void JitCompilerX86::generateProgramPrologue(Program& prog, ProgramConfiguration& pcfg) {
#if RANDOMX_JUMP
instructionOffsets.clear();
for (unsigned i = 0; i < 8; ++i) {
registerUsage[i] = -1;
}
#endif
codePos = prologueSize;
memcpy(code + codePos - 48, &pcfg.eMask, sizeof(pcfg.eMask));
emit(REX_XOR_RAX_R64);
@ -334,9 +332,7 @@ namespace randomx {
}
void JitCompilerX86::generateCode(Instruction& instr, int i) {
#if RANDOMX_JUMP
instructionOffsets.push_back(codePos);
#endif
auto generator = engine[instr.opcode];
(this->*generator)(instr, i);
}
@ -457,7 +453,7 @@ namespace randomx {
}
emit32(instr.getImm32());
emitByte(AND_EAX_I);
if (instr.getModCond()) {
if (instr.getModCond() < StoreL3Condition) {
int32_t maskL1 = align16 ? ScratchpadL1Mask16 : ScratchpadL1Mask;
int32_t maskL2 = align16 ? ScratchpadL2Mask16 : ScratchpadL2Mask;
emit32(instr.getModMem() ? maskL1 : maskL2);
@ -478,7 +474,7 @@ namespace randomx {
emitByte(0xac);
else
emitByte(0x04 + 8 * instr.dst);
genSIB(instr.getModMem(), instr.src, instr.dst);
genSIB(instr.getModShift(), instr.src, instr.dst);
if (instr.dst == RegisterNeedsDisplacement)
emit32(instr.getImm32());
}
@ -774,56 +770,10 @@ namespace randomx {
emit(AND_OR_MOV_LDMXCSR);
}
static inline uint8_t jumpCondition(Instruction& instr, bool invert = false) {
switch (instr.getModCond() ^ invert)
{
case 0:
return 0x76; //jbe
case 1:
return 0x77; //ja
case 2:
return 0x78; //js
case 3:
return 0x79; //jns
case 4:
return 0x70; //jo
case 5:
return 0x71; //jno
case 6:
return 0x7c; //jl
case 7:
return 0x7d; //jge
}
}
static inline uint8_t condition(Instruction& instr) {
switch (instr.getModCond())
{
case 0:
return 0x96; //setbe
case 1:
return 0x97; //seta
case 2:
return 0x98; //sets
case 3:
return 0x99; //setns
case 4:
return 0x90; //seto
case 5:
return 0x91; //setno
case 6:
return 0x9c; //setl
case 7:
return 0x9d; //setge
default:
UNREACHABLE;
}
}
int JitCompilerX86::getConditionRegister() {
int min = INT_MAX;
int minIndex;
for (unsigned i = 0; i < 8; ++i) {
for (unsigned i = 0; i < RegistersCount; ++i) {
if (registerUsage[i] < min) {
min = registerUsage[i];
minIndex = i;
@ -832,40 +782,23 @@ namespace randomx {
return minIndex;
}
void JitCompilerX86::handleCondition(Instruction& instr, int i) {
const int shift = instr.getModShift();
const int conditionMask = ((1 << RANDOMX_JUMP_BITS) - 1) << shift;
void JitCompilerX86::h_CBRANCH(Instruction& instr, int i) {
int reg = getConditionRegister();
int target = registerUsage[reg] + 1;
int shift = instr.getModCond();
emit(REX_ADD_I);
emitByte(0xc0 + reg);
emit32(1 << shift);
emit32(instr.getImm32() | (1 << shift));
emit(REX_TEST);
emitByte(0xc0 + reg);
emit32(conditionMask);
emit32(ConditionMask << shift);
emit(JZ);
emit32(instructionOffsets[target] - (codePos + 4));
for (unsigned j = 0; j < 8; ++j) { //mark all registers as used
for (unsigned j = 0; j < RegistersCount; ++j) { //mark all registers as used
registerUsage[j] = i;
}
}
void JitCompilerX86::h_COND_R(Instruction& instr, int i) {
#if RANDOMX_JUMP
handleCondition(instr, i);
#endif
emit(XOR_ECX_ECX);
emit(REX_CMP_R32I);
emitByte(0xf8 + instr.src);
emit32(instr.getImm32());
emitByte(0x0f);
emitByte(condition(instr));
emitByte(0xc1);
emit(REX_ADD_RM);
emitByte(0xc1 + 8 * instr.dst);
}
void JitCompilerX86::h_ISTORE(Instruction& instr, int i) {
genAddressRegDst(instr);
emit(REX_MOV_MR);
@ -907,7 +840,7 @@ namespace randomx {
INST_HANDLE(FMUL_R)
INST_HANDLE(FDIV_M)
INST_HANDLE(FSQRT_R)
INST_HANDLE(COND_R)
INST_HANDLE(CBRANCH)
INST_HANDLE(CFROUND)
INST_HANDLE(ISTORE)
INST_HANDLE(NOP)

View File

@ -70,8 +70,6 @@ namespace randomx {
void genAddressImm(Instruction&);
void genSIB(int scale, int index, int base);
void handleCondition(Instruction&, int);
void generateCode(Instruction&, int);
void generateSuperscalarCode(Instruction &, std::vector<uint64_t> &);
@ -136,7 +134,7 @@ namespace randomx {
void h_FMUL_R(Instruction&, int);
void h_FDIV_M(Instruction&, int);
void h_FSQRT_R(Instruction&, int);
void h_COND_R(Instruction&, int);
void h_CBRANCH(Instruction&, int);
void h_CFROUND(Instruction&, int);
void h_ISTORE(Instruction&, int);
void h_NOP(Instruction&, int);

View File

@ -229,7 +229,7 @@ int main(int argc, char** argv) {
std::cout << "Calculated result: ";
result.print(std::cout);
if (noncesCount == 1000 && seedValue == 0)
std::cout << "Reference result: 89336a85bf6d1e83eb20fbc92170705ded9b42285b30178ed8e855d65c4c4b69" << std::endl;
std::cout << "Reference result: 804fed4a3dc4ed12917a210aad295925544e688e28549d7178eb27f412476a10" << std::endl;
if (!miningMode) {
std::cout << "Performance: " << 1000 * elapsed / noncesCount << " ms per hash" << std::endl;
}

View File

@ -180,16 +180,11 @@ namespace randomx {
*ibc.fdst = _mm_sqrt_pd(*ibc.fdst);
} break;
case InstructionType::COND_R: {
#if RANDOMX_JUMP
*ibc.creg += (1 << ibc.shift);
const uint64_t conditionMask = ((1ULL << RANDOMX_JUMP_BITS) - 1) << ibc.shift;
if ((*ibc.creg & conditionMask) == 0) {
case InstructionType::CBRANCH: {
*ibc.isrc += ibc.imm;
if ((*ibc.isrc & ibc.memMask) == 0) {
pc = ibc.target;
break;
}
#endif
*ibc.idst += condition(ibc.condition, *ibc.isrc, ibc.imm) ? 1 : 0;
} break;
case InstructionType::CFROUND: {
@ -308,12 +303,12 @@ namespace randomx {
ibc.idst = &r[dst];
if (dst != RegisterNeedsDisplacement) {
ibc.isrc = &r[src];
ibc.shift = instr.getModMem();
ibc.shift = instr.getModShift();
ibc.imm = 0;
}
else {
ibc.isrc = &r[src];
ibc.shift = instr.getModMem();
ibc.shift = instr.getModShift();
ibc.imm = signExtend2sCompl(instr.getImm32());
}
registerUsage[dst] = i;
@ -626,19 +621,16 @@ namespace randomx {
ibc.fdst = &e[dst];
} break;
CASE_REP(COND_R) {
auto dst = instr.dst % RegistersCount;
auto src = instr.src % RegistersCount;
ibc.type = InstructionType::COND_R;
ibc.idst = &r[dst];
ibc.isrc = &r[src];
ibc.condition = instr.getModCond();
ibc.imm = instr.getImm32();
CASE_REP(CBRANCH) {
ibc.type = InstructionType::CBRANCH;
//jump condition
int reg = getConditionRegister(registerUsage);
ibc.isrc = &r[reg];
ibc.target = registerUsage[reg];
ibc.shift = instr.getModShift();
ibc.creg = &r[reg];
int shift = instr.getModCond();
const uint64_t conditionMask = ConditionMask << instr.getModCond();
ibc.imm = signExtend2sCompl(instr.getImm32()) | (1ULL << shift);
ibc.memMask = ConditionMask << shift;
for (unsigned j = 0; j < RegistersCount; ++j) { //mark all registers as used
registerUsage[j] = i;
}
@ -658,7 +650,7 @@ namespace randomx {
ibc.idst = &r[dst];
ibc.isrc = &r[src];
ibc.imm = signExtend2sCompl(instr.getImm32());
if (instr.getModCond())
if (instr.getModCond() < StoreL3Condition)
ibc.memMask = (instr.getModMem() ? ScratchpadL1Mask : ScratchpadL2Mask);
else
ibc.memMask = ScratchpadL3Mask;

View File

@ -41,13 +41,13 @@ namespace randomx {
uint64_t imm;
int64_t simm;
};
int_reg_t* creg;
uint16_t condition;
int16_t target;
uint32_t memMask;
uint16_t type;
union {
int16_t target;
uint16_t shift;
};
uint32_t memMask;
};
template<class Allocator, bool softAes>
class InterpretedVm : public VmBase<Allocator, softAes> {