mirror of
https://git.wownero.com/wownero/RandomWOW.git
synced 2024-12-22 15:58:53 +00:00
595 lines
24 KiB
Python
595 lines
24 KiB
Python
import random
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import sys
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import os
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PROGRAM_SIZE = 512
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INSTRUCTION_COUNT = 1024 * 1024
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INSTRUCTION_WEIGHTS = [
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("ADD_64", 16),
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("ADD_32", 8),
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("SUB_64", 16),
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("SUB_32", 8),
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("MUL_64", 7),
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("MULH_64", 7),
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("MUL_32", 7),
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("IMUL_32", 7),
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("IMULH_64", 7),
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("DIV_64", 1),
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("IDIV_64", 1),
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("AND_64", 4),
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("AND_32", 3),
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("OR_64", 4),
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("OR_32", 3),
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("XOR_64", 4),
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("XOR_32", 3),
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("SHL_64", 6),
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("SHR_64", 6),
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("SAR_64", 6),
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("ROL_64", 9),
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("ROR_64", 9),
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("FADD", 22),
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("FSUB", 22),
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("FMUL", 22),
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("FDIV", 8),
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("FSQRT", 6),
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("FROUND", 2),
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("CALL", 17),
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("RET", 15),
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]
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def genBytes(count):
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return ', '.join(str(random.getrandbits(8)) for i in range(count))
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class OperandType:
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INT32 = 0
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UINT32 = 1
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INT64 = 2
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UINT64 = 3
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FLOAT = 4
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SHIFT = 5
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def declareType(type):
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converters = {
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0: "int32_t",
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1: "uint32_t",
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2: "int64_t",
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3: "uint64_t",
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4: "double",
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5: "int32_t"
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}
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return converters.get(type)
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def toSigned32(x):
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return x - ((x & 0x80000000) << 1)
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def toSigned64(x):
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return x - ((x & 0x8000000000000000) << 1)
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def immediateTo(symbol, type):
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converters = {
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0: toSigned32(symbol.imm1),
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1: symbol.imm1,
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2: toSigned32(symbol.imm1),
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3: symbol.imm1,
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4: float(toSigned32(symbol.imm1) << 32),
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5: symbol.imm0 & 63
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}
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return repr(converters.get(type))
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def registerTo(expr, type):
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converters = {
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0: "(int64_t){0}",
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1: "{0}",
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2: "(int64_t){0}",
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3: "{0}",
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4: "{0}",
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5: "({0} & 63)"
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}
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return converters.get(type).format(expr)
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def registerFrom(num, type):
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converters = {
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0: "r{0}",
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1: "r{0}",
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2: "r{0}",
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3: "r{0}",
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4: "((convertible_t)f{0}).u64",
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5: "r{0}"
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}
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return converters.get(type).format(num)
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def convertibleTo(expr, type):
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converters = {
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0: "{0}.i32",
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1: "{0}.u32",
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2: "{0}.i64",
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3: "{0}.u64",
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4: "(double){0}.i64",
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5: "({0}.u64 & 63)"
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}
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return converters.get(type).format(expr)
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def convertibleFrom(expr, type):
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converters = {
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0: "{0}.i32",
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1: "{0}.u32",
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2: "{0}.i64",
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3: "{0}.u64",
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4: "{0}.f64",
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5: "({0}.u64 & 63)"
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}
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return converters.get(type).format(expr)
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def getRegister(num, type):
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registers = {
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0: "r{0}",
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1: "r{0}",
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2: "r{0}",
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3: "r{0}",
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4: "f{0}",
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5: "r{0}"
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}
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return registers.get(type).format(num)
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def writeInitialValues(file):
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file.write("#ifdef RAM\n")
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file.write("\tmmu.buffer = (char*)_mm_malloc(DRAM_SIZE, 16);\n")
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file.write("\tif(!mmu.buffer) {\n")
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file.write('\t\tprintf("DRAM buffer allocation failed\\n");\n')
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file.write("\t\treturn 1;\n")
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file.write("\t}\n")
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file.write('\tprintf("Initializing DRAM buffer...\\n");\n')
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file.write("\taesInitialize((__m128i*)aesKey, (__m128i*)aesSeed, (__m128i*)mmu.buffer, DRAM_SIZE);\n")
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file.write("#endif\n")
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file.write("\tclock_t clockStart = clock(), clockEnd;\n")
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for i in range(8):
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file.write("\tr{0} = *(uint64_t*)(aesSeed + {1});\n".format(i, i * 8))
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for i in range(8):
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file.write("\tf{0} = *(int64_t*)(aesSeed + {1});\n".format(i, 64 + i * 8))
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file.write("\taesInitialize((__m128i*)aesKey, (__m128i*)aesSeed, (__m128i*)scratchpad, SCRATCHPAD_SIZE);\n")
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file.write("\tmmu.ma = *(addr_t*)(aesKey + 8) & ~7U;\n")
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file.write("#ifdef PRNTADDR\n")
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file.write('\tprintf("DRAM address = %#010x\\n", mmu.ma);\n')
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file.write("#endif\n")
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file.write("\tmmu.mx = 0;\n")
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file.write("\tsp = 0;\n")
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file.write("\tic = {0};\n".format(INSTRUCTION_COUNT))
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file.write("\tmxcsr = (_mm_getcsr() | _MM_FLUSH_ZERO_ON) & ~_MM_ROUND_MASK; //flush denormals to zero, round to nearest\n")
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file.write("\t_mm_setcsr(mxcsr);\n")
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def writeEpilog(file):
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file.write("\tend:\n")
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file.write("\t\tclockEnd = clock();\n")
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for i in range(8):
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file.write('\t\tprintf("r{0} = %-36" PRIu64 " f{0} = %g\\n", r{0}, f{0});\n'.format(i))
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file.write(("\t\tuint64_t spadsum = 0;\n"
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"\t\tfor(int i = 0; i < SCRATCHPAD_LENGTH; ++i) {\n"
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"\t\t spadsum += scratchpad[i].u64;\n"
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"\t\t}\n"
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'\t\tprintf("scratchpad sum = %" PRIu64 "\\n", spadsum);\n'
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'\t\tprintf("runtime: %f\\n", (clockEnd - clockStart) / (double)CLOCKS_PER_SEC);\n'
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"#ifdef RAM\n"
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"\t\t_mm_free((void*)mmu.buffer);\n"
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"#endif\n"))
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file.write("\t\treturn 0;")
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file.write("}")
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def writeCommon(file, i, symbol, type, name):
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file.write("\ti_{0}: {{ //{1}\n".format(i, name))
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file.write("\t\tif(0 == ic--) goto end;\n")
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file.write("\t\tr{0} ^= {1};\n".format(symbol.rega, symbol.addr0))
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file.write("\t\taddr_t addr = r{0};\n".format(symbol.rega))
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def readA(symbol, type):
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location = {
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0: "readDram(&mmu, addr)",
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1: "readDram(&mmu, addr)",
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2: "readDram(&mmu, addr)",
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3: "readDram(&mmu, addr)",
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4: "SCRATCHPAD_256K(addr)",
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5: "SCRATCHPAD_16K(addr)",
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6: "SCRATCHPAD_16K(addr)",
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7: "SCRATCHPAD_16K(addr)",
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}
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return convertibleTo(location.get(symbol.loca), type)
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def writeC(symbol, type):
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location = {
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0: "SCRATCHPAD_256K(r{0} ^ {1})",
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1: "SCRATCHPAD_16K(r{0} ^ {1})",
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2: "SCRATCHPAD_16K(r{0} ^ {1})",
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3: "SCRATCHPAD_16K(r{0} ^ {1})",
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4: "",
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5: "",
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6: "",
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7: ""
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}
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c = location.get(symbol.locc)
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if c == "":
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c = getRegister(symbol.regc, type)
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else:
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c = convertibleFrom(c.format(symbol.regc, symbol.addr1), type)
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return c
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def readB(symbol, type):
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if symbol.locb < 6:
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return registerTo(getRegister(symbol.regb, type), type)
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else:
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return immediateTo(symbol, type)
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class CodeSymbol:
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def __init__(self, qi):
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self.opcode = qi & 255
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self.loca = (qi >> 8) & 7
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self.rega = (qi >> 16) & 7
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self.locb = (qi >> 24) & 7
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self.regb = (qi >> 32) & 7
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self.locc = (qi >> 40) & 7
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self.regc = (qi >> 48) & 7
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self.imm0 = (qi >> 56) & 255
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self.addr0 = (qi >> 64) & 0xFFFFFFFF
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self.addr1 = self.imm1 = qi >> 96
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def writeOperation(file, i, symbol, type, name, op):
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writeCommon(file, i, symbol, type, name)
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file.write("\t\t{0} A = {1};\n".format(declareType(type), readA(symbol, type)))
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file.write("\t\t{0} B = {1};\n".format(declareType(type), readB(symbol, type)))
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file.write("\t\t{0} = A {1} B; }}\n".format(writeC(symbol, type), op))
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def write_ADD_64(file, i, symbol):
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writeOperation(file, i, symbol, OperandType.UINT64, 'ADD_64', '+');
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def write_ADD_32(file, i, symbol):
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writeOperation(file, i, symbol, OperandType.UINT32, 'ADD_32', '+');
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def write_SUB_64(file, i, symbol):
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writeOperation(file, i, symbol, OperandType.UINT64, 'SUB_64', '-');
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def write_SUB_32(file, i, symbol):
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writeOperation(file, i, symbol, OperandType.UINT32, 'SUB_32', '-');
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def write_MUL_64(file, i, symbol):
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writeOperation(file, i, symbol, OperandType.UINT64, 'MUL_64', '*');
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def write_MULH_64(file, i, symbol):
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type = OperandType.UINT64
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writeCommon(file, i, symbol, type, 'MULH_64')
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file.write("\t\t{0} A = {1};\n".format(declareType(type), readA(symbol, type)))
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file.write("\t\t{0} B = {1};\n".format(declareType(type), readB(symbol, type)))
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file.write("\t\t{0} = ((uint128_t)A * B) >> 64; }}\n".format(writeC(symbol, type)))
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def write_MUL_32(file, i, symbol):
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type = OperandType.UINT32
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writeCommon(file, i, symbol, type, 'MUL_32')
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file.write("\t\t{0} A = {1};\n".format(declareType(type), readA(symbol, type)))
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file.write("\t\t{0} B = {1};\n".format(declareType(type), readB(symbol, type)))
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file.write("\t\t{0} = (uint64_t)A * B; }}\n".format(writeC(symbol, OperandType.UINT64)))
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def write_IMUL_32(file, i, symbol):
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type = OperandType.INT32
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writeCommon(file, i, symbol, type, 'IMUL_32')
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file.write("\t\t{0} A = {1};\n".format(declareType(type), readA(symbol, type)))
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file.write("\t\t{0} B = {1};\n".format(declareType(type), readB(symbol, type)))
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file.write("\t\t{0} = (int64_t)A * B; }}\n".format(writeC(symbol, OperandType.INT64)))
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def write_IMULH_64(file, i, symbol):
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type = OperandType.INT64
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writeCommon(file, i, symbol, type, 'IMULH_64')
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file.write("\t\t{0} A = {1};\n".format(declareType(type), readA(symbol, type)))
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file.write("\t\t{0} B = {1};\n".format(declareType(type), readB(symbol, type)))
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file.write("\t\t{0} = ((int128_t)A * B) >> 64; }}\n".format(writeC(symbol, type)))
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def write_DIV_64(file, i, symbol):
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type = OperandType.UINT64
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writeCommon(file, i, symbol, type, 'DIV_64')
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file.write("\t\t{0} A = {1};\n".format(declareType(type), readA(symbol, type)))
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file.write("\t\t{0} B = {1};\n".format(declareType(OperandType.UINT32), readB(symbol, OperandType.UINT32)))
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file.write("\t\tif(B == 0) B = 1;\n".format(declareType(type), readB(symbol, type)))
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file.write("\t\t{0} = A / B; }}\n".format(writeC(symbol, type)))
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def write_IDIV_64(file, i, symbol):
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type = OperandType.INT64
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writeCommon(file, i, symbol, type, 'IDIV_64')
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file.write("\t\t{0} A = {1};\n".format(declareType(type), readA(symbol, type)))
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file.write("\t\t{0} B = {1};\n".format(declareType(OperandType.INT32), readB(symbol, OperandType.INT32)))
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file.write("\t\tif(B == 0) B = 1;\n".format(declareType(type), readB(symbol, type)))
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file.write("\t\t{0} = A / B; }}\n".format(writeC(symbol, type)))
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def write_AND_64(file, i, symbol):
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writeOperation(file, i, symbol, OperandType.UINT64, 'AND_64', '&');
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def write_AND_32(file, i, symbol):
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writeOperation(file, i, symbol, OperandType.UINT32, 'AND_32', '&');
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def write_OR_64(file, i, symbol):
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writeOperation(file, i, symbol, OperandType.UINT64, 'OR_64', '|');
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def write_OR_32(file, i, symbol):
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writeOperation(file, i, symbol, OperandType.UINT32, 'OR_32', '|');
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def write_XOR_64(file, i, symbol):
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writeOperation(file, i, symbol, OperandType.UINT64, 'XOR_64', '^');
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def write_XOR_32(file, i, symbol):
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writeOperation(file, i, symbol, OperandType.UINT32, 'XOR_32', '^');
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def write_SHL_64(file, i, symbol):
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type = OperandType.UINT64
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writeCommon(file, i, symbol, type, 'SHL_64')
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file.write("\t\t{0} A = {1};\n".format(declareType(type), readA(symbol, type)))
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file.write("\t\t{0} B = {1};\n".format(declareType(OperandType.SHIFT), readB(symbol, OperandType.SHIFT)))
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file.write("\t\t{0} = A << B; }}\n".format(writeC(symbol, type)))
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def write_SHR_64(file, i, symbol):
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type = OperandType.UINT64
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writeCommon(file, i, symbol, type, 'SHR_64')
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file.write("\t\t{0} A = {1};\n".format(declareType(type), readA(symbol, type)))
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file.write("\t\t{0} B = {1};\n".format(declareType(OperandType.SHIFT), readB(symbol, OperandType.SHIFT)))
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file.write("\t\t{0} = A >> B; }}\n".format(writeC(symbol, type)))
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def write_SAR_64(file, i, symbol):
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type = OperandType.INT64
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writeCommon(file, i, symbol, type, 'SAR_64')
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file.write("\t\t{0} A = {1};\n".format(declareType(type), readA(symbol, type)))
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file.write("\t\t{0} B = {1};\n".format(declareType(OperandType.SHIFT), readB(symbol, OperandType.SHIFT)))
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file.write("\t\t{0} = A >> B; }}\n".format(writeC(symbol, type)))
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def write_ROL_64(file, i, symbol):
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type = OperandType.UINT64
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writeCommon(file, i, symbol, type, 'ROL_64')
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file.write("\t\t{0} A = {1};\n".format(declareType(type), readA(symbol, type)))
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file.write("\t\t{0} B = {1};\n".format(declareType(OperandType.SHIFT), readB(symbol, OperandType.SHIFT)))
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file.write("\t\t{0} = __rolq(A, B); }}\n".format(writeC(symbol, type)))
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def write_ROR_64(file, i, symbol):
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type = OperandType.UINT64
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writeCommon(file, i, symbol, type, 'ROR_64')
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file.write("\t\t{0} A = {1};\n".format(declareType(type), readA(symbol, type)))
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file.write("\t\t{0} B = {1};\n".format(declareType(OperandType.SHIFT), readB(symbol, OperandType.SHIFT)))
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file.write("\t\t{0} = __rorq(A, B); }}\n".format(writeC(symbol, type)))
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def write_FADD(file, i, symbol):
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writeOperation(file, i, symbol, OperandType.FLOAT, 'FADD', '+');
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def write_FSUB(file, i, symbol):
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writeOperation(file, i, symbol, OperandType.FLOAT, 'FSUB', '-');
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def write_FMUL(file, i, symbol):
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writeOperation(file, i, symbol, OperandType.FLOAT, 'FMUL', '*');
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def write_FDIV(file, i, symbol):
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writeOperation(file, i, symbol, OperandType.FLOAT, 'FDIV', '/');
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def write_FSQRT(file, i, symbol):
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type = OperandType.FLOAT
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writeCommon(file, i, symbol, type, 'FSQRT')
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file.write("\t\t{0} A = fabs({1});\n".format(declareType(type), readA(symbol, type)))
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file.write("\t\t{0} = _mm_cvtsd_f64(_mm_sqrt_sd(_mm_setzero_pd(), _mm_load_pd(&A))); }}\n".format(writeC(symbol, type)))
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def write_FROUND(file, i, symbol):
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type = OperandType.FLOAT
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writeCommon(file, i, symbol, type, 'FROUND')
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file.write("\t\t{0} A = {1};\n".format(declareType(OperandType.INT64), readA(symbol, OperandType.INT64)))
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file.write("\t\t{0} = A;\n".format(writeC(symbol, type)))
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file.write("\t\t_mm_setcsr(mxcsr | ((uint32_t)(A << 13) & _MM_ROUND_MASK)); }\n")
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def write_CALL(file, i, symbol):
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type = OperandType.UINT64
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writeCommon(file, i, symbol, type, 'CALL')
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file.write("\t\t{0} A = {1};\n".format(declareType(type), readA(symbol, type)))
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if symbol.locb < 6:
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file.write("\t\tif((uint32_t)r{0} <= {1}) {{\n".format(symbol.regb, symbol.imm1))
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file.write("\t\t\tPUSH_VALUE(A);\n");
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file.write("\t\t\tPUSH_ADDRESS(&&i_{0});\n".format((i + 1) & (PROGRAM_SIZE - 1)));
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file.write("\t\t\tgoto i_{0};\n".format((i + 1 + (symbol.imm0 & ((PROGRAM_SIZE >> 2) - 1))) & (PROGRAM_SIZE - 1)));
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if symbol.locb < 6:
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file.write("\t\t}}\n\t\t{0} = A;".format(writeC(symbol, type)))
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file.write("\t\t}\n")
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def write_RET(file, i, symbol):
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type = OperandType.UINT64
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writeCommon(file, i, symbol, type, 'RET')
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file.write("\t\t{0} A = {1};\n".format(declareType(type), readA(symbol, type)))
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file.write("\t\tif(!STACK_IS_EMPTY()")
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if symbol.locb < 6:
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|
file.write(" && (uint32_t)r{0} <= {1}".format(symbol.regb, symbol.imm1))
|
|
file.write(") {\n")
|
|
file.write("\t\t\tvoid* target = POP_ADDRESS();\n")
|
|
file.write("\t\t\tuint64_t C = POP_VALUE();\n")
|
|
file.write("\t\t\t{0} = A ^ C;\n".format(writeC(symbol, type)))
|
|
file.write("\t\t\tgoto *target;\n")
|
|
file.write("\t\t}}\n\t\t{0} = A; }}\n".format(writeC(symbol, type)))
|
|
|
|
opcodeMap = { }
|
|
|
|
def buildOpcodeMap():
|
|
functions = globals()
|
|
totalWeight = 0;
|
|
for instruction, weight in INSTRUCTION_WEIGHTS:
|
|
func = functions['write_' + instruction]
|
|
for i in range(weight):
|
|
opcodeMap[totalWeight] = func
|
|
totalWeight = totalWeight + 1
|
|
assert totalWeight == 256
|
|
|
|
def writeCode(file, i, symbol):
|
|
opcodeMap.get(symbol.opcode)(file, i, symbol)
|
|
|
|
def writeMain(file):
|
|
file.write(('__attribute__((optimize("Os"))) int main() {\n'
|
|
" register uint64_t r0, r1, r2, r3, r4, r5, r6, r7;\n"
|
|
" register double f0, f1, f2, f3, f4, f5, f6, f7;\n"
|
|
" register uint64_t ic, sp;\n"
|
|
" stack_t stack[STACK_LENGTH];\n"
|
|
" convertible_t scratchpad[SCRATCHPAD_LENGTH] __attribute__ ((aligned (16)));\n"
|
|
" mmu_t mmu;\n"
|
|
" uint32_t mxcsr;\n"
|
|
))
|
|
|
|
def writeProlog(file):
|
|
file.write(("#include <stdint.h>\n"
|
|
"#include <time.h>\n"
|
|
"#include <stdio.h>\n"
|
|
"#include <x86intrin.h>\n"
|
|
"#include <emmintrin.h>\n"
|
|
"#include <wmmintrin.h>\n"
|
|
"#include <math.h>\n"
|
|
"#include <inttypes.h>\n"
|
|
"typedef uint32_t addr_t;\n"
|
|
"typedef unsigned __int128 uint128_t;\n"
|
|
"typedef __int128 int128_t;\n"
|
|
"typedef unsigned char byte;\n"
|
|
"typedef union {\n"
|
|
" double f64;\n"
|
|
" int64_t i64;\n"
|
|
" uint64_t u64;\n"
|
|
" int32_t i32;\n"
|
|
" uint32_t u32;\n"
|
|
"} convertible_t;\n"
|
|
"typedef union {\n"
|
|
" uint64_t value;\n"
|
|
" void* address;\n"
|
|
"} stack_t;\n"
|
|
"typedef struct {\n"
|
|
" addr_t ma;\n"
|
|
" addr_t mx;\n"
|
|
"#ifdef RAM\n"
|
|
" const char* buffer;\n"
|
|
"#endif\n"
|
|
"} mmu_t;\n"
|
|
"#define DRAM_SIZE (1ULL << 32)\n"
|
|
"#define SCRATCHPAD_SIZE (256 * 1024)\n"
|
|
"#define SCRATCHPAD_LENGTH (SCRATCHPAD_SIZE / sizeof(convertible_t))\n"
|
|
"#define SCRATCHPAD_MASK14 (16 * 1024 / sizeof(convertible_t) - 1)\n"
|
|
"#define SCRATCHPAD_MASK18 (SCRATCHPAD_LENGTH - 1)\n"
|
|
"#define SCRATCHPAD_16K(x) scratchpad[(x) & SCRATCHPAD_MASK14]\n"
|
|
"#define SCRATCHPAD_256K(x) scratchpad[(x) & SCRATCHPAD_MASK18]\n"
|
|
"#define STACK_LENGTH (128 * 1024)\n"
|
|
"#ifdef RAM\n"
|
|
"#define DRAM_READ(mmu) (convertible_t)*(uint64_t*)((mmu)->buffer + (mmu)->ma)\n"
|
|
"#define PREFETCH(mmu) _mm_prefetch(((mmu)->buffer + (mmu)->ma), _MM_HINT_T0)\n"
|
|
"#else\n"
|
|
"#define DRAM_READ(mmu) (convertible_t)(uint64_t)__rolq(6364136223846793005ULL*((mmu)->ma)+1442695040888963407ULL,32)\n"
|
|
"#define PREFETCH(mmu)\n"
|
|
"#endif\n"
|
|
"#define PUSH_VALUE(x) stack[sp++].value = x\n"
|
|
"#define PUSH_ADDRESS(x) stack[sp++].address = x\n"
|
|
"#define STACK_IS_EMPTY() (sp == 0)\n"
|
|
"#define POP_VALUE() stack[--sp].value\n"
|
|
"#define POP_ADDRESS() stack[--sp].address\n"
|
|
"static convertible_t readDram(mmu_t* mmu, addr_t addr) {\n"
|
|
" convertible_t data;\n"
|
|
" data = DRAM_READ(mmu);\n"
|
|
" mmu->ma += 8;\n"
|
|
" mmu->mx ^= addr;\n"
|
|
" if((mmu->mx & 0x1FFF) == 0) {\n"
|
|
"#ifdef PRNTADDR\n"
|
|
' printf("DRAM jump %#010x -> %#010x\\n", mmu->ma, mmu->mx);\n'
|
|
"#endif\n"
|
|
" mmu->ma = mmu->mx;\n"
|
|
"#ifdef PREF\n"
|
|
" PREFETCH(mmu);\n"
|
|
"#endif\n"
|
|
" }\n"
|
|
" return data;\n"
|
|
"}\n"
|
|
"static inline __m128i sl_xor(__m128i tmp1) {\n"
|
|
" __m128i tmp4;\n"
|
|
" tmp4 = _mm_slli_si128(tmp1, 0x04);\n"
|
|
" tmp1 = _mm_xor_si128(tmp1, tmp4);\n"
|
|
" tmp4 = _mm_slli_si128(tmp4, 0x04);\n"
|
|
" tmp1 = _mm_xor_si128(tmp1, tmp4);\n"
|
|
" tmp4 = _mm_slli_si128(tmp4, 0x04);\n"
|
|
" tmp1 = _mm_xor_si128(tmp1, tmp4);\n"
|
|
" return tmp1;\n"
|
|
"}\n"
|
|
"#define AES_GENKEY_SUB(rcon) do { \\\n"
|
|
" __m128i xout1 = _mm_aeskeygenassist_si128(xout2, rcon); \\\n"
|
|
" xout1 = _mm_shuffle_epi32(xout1, 0xFF); \\\n"
|
|
" xout0 = sl_xor(xout0); \\\n"
|
|
" xout0 = _mm_xor_si128(xout0, xout1); \\\n"
|
|
" xout1 = _mm_aeskeygenassist_si128(xout0, 0x00); \\\n"
|
|
" xout1 = _mm_shuffle_epi32(xout1, 0xAA); \\\n"
|
|
" xout2 = sl_xor(xout2); \\\n"
|
|
" xout2 = _mm_xor_si128(xout2, xout1); } while(0)\n"
|
|
"static inline void aes_genkey(const __m128i* memory, __m128i* k0, __m128i* k1, __m128i* k2, __m128i* k3, __m128i* k4, __m128i* k5, __m128i* k6, __m128i* k7, __m128i* k8, __m128i* k9) {\n"
|
|
" __m128i xout0, xout2;\n"
|
|
" xout0 = _mm_load_si128(memory);\n"
|
|
" xout2 = _mm_load_si128(memory+1);\n"
|
|
" *k0 = xout0;\n"
|
|
" *k1 = xout2;\n"
|
|
" AES_GENKEY_SUB(0x01);\n"
|
|
" *k2 = xout0;\n"
|
|
" *k3 = xout2;\n"
|
|
" AES_GENKEY_SUB(0x02);\n"
|
|
" *k4 = xout0;\n"
|
|
" *k5 = xout2;\n"
|
|
" AES_GENKEY_SUB(0x04);\n"
|
|
" *k6 = xout0;\n"
|
|
" *k7 = xout2;\n"
|
|
" AES_GENKEY_SUB(0x08);\n"
|
|
" *k8 = xout0;\n"
|
|
" *k9 = xout2;\n"
|
|
"}\n"
|
|
"static inline void aes_round(__m128i key, __m128i* x0, __m128i* x1, __m128i* x2, __m128i* x3, __m128i* x4, __m128i* x5, __m128i* x6, __m128i* x7) {\n"
|
|
" *x0 = _mm_aesenc_si128(*x0, key);\n"
|
|
" *x1 = _mm_aesenc_si128(*x1, key);\n"
|
|
" *x2 = _mm_aesenc_si128(*x2, key);\n"
|
|
" *x3 = _mm_aesenc_si128(*x3, key);\n"
|
|
" *x4 = _mm_aesenc_si128(*x4, key);\n"
|
|
" *x5 = _mm_aesenc_si128(*x5, key);\n"
|
|
" *x6 = _mm_aesenc_si128(*x6, key);\n"
|
|
" *x7 = _mm_aesenc_si128(*x7, key);\n"
|
|
"}\n"
|
|
"static void aesInitialize(__m128i* key, __m128i* seed, __m128i* output, size_t count) {\n"
|
|
" \n"
|
|
" __m128i xin0, xin1, xin2, xin3, xin4, xin5, xin6, xin7;\n"
|
|
" __m128i k0, k1, k2, k3, k4, k5, k6, k7, k8, k9;\n"
|
|
" \n"
|
|
" aes_genkey(key, &k0, &k1, &k2, &k3, &k4, &k5, &k6, &k7, &k8, &k9);\n"
|
|
" \n"
|
|
" xin0 = _mm_load_si128(seed + 0);\n"
|
|
" xin1 = _mm_load_si128(seed + 1);\n"
|
|
" xin2 = _mm_load_si128(seed + 2);\n"
|
|
" xin3 = _mm_load_si128(seed + 3);\n"
|
|
" xin4 = _mm_load_si128(seed + 4);\n"
|
|
" xin5 = _mm_load_si128(seed + 5);\n"
|
|
" xin6 = _mm_load_si128(seed + 6);\n"
|
|
" xin7 = _mm_load_si128(seed + 7);\n"
|
|
" \n"
|
|
" for (size_t i = 0; i < count / sizeof(__m128i); i += 8)\n"
|
|
" {\n"
|
|
" aes_round(k0, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);\n"
|
|
" aes_round(k1, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);\n"
|
|
" aes_round(k2, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);\n"
|
|
" aes_round(k3, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);\n"
|
|
" aes_round(k4, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);\n"
|
|
" aes_round(k5, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);\n"
|
|
" aes_round(k6, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);\n"
|
|
" aes_round(k7, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);\n"
|
|
" aes_round(k8, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);\n"
|
|
" aes_round(k9, &xin0, &xin1, &xin2, &xin3, &xin4, &xin5, &xin6, &xin7);\n"
|
|
" \n"
|
|
" _mm_store_si128(output + i + 0, xin0);\n"
|
|
" _mm_store_si128(output + i + 1, xin1);\n"
|
|
" _mm_store_si128(output + i + 2, xin2);\n"
|
|
" _mm_store_si128(output + i + 3, xin3);\n"
|
|
" _mm_store_si128(output + i + 4, xin4);\n"
|
|
" _mm_store_si128(output + i + 5, xin5);\n"
|
|
" _mm_store_si128(output + i + 6, xin6);\n"
|
|
" _mm_store_si128(output + i + 7, xin7);\n"
|
|
" }\n"
|
|
"}\n"))
|
|
|
|
with sys.stdout as file:
|
|
buildOpcodeMap()
|
|
writeProlog(file)
|
|
file.write("const byte aesKey[32] = {{ {0} }};\n".format(genBytes(32)))
|
|
file.write("const byte aesSeed[128] = {{ {0} }};\n".format(genBytes(128)))
|
|
writeMain(file)
|
|
writeInitialValues(file)
|
|
for i in range(PROGRAM_SIZE):
|
|
writeCode(file, i, CodeSymbol(random.getrandbits(128)))
|
|
if PROGRAM_SIZE > 0:
|
|
file.write("\t\tgoto i_0;\n")
|
|
writeEpilog(file) |