)
from copy import deepcopy
+def write_byte(mem, addr, val):
+ addr, offs = (addr // 8)*8, (addr % 8)*8
+ mask = (0xff << offs)
+ value = mem.get(addr, 0) & ~mask
+ value = value | (val << offs)
+ mem[addr] = value & 0xffff_ffff_ffff_ffff
+
class DecoderTestCase(FHDLTestCase):
for i in range(32):
self.assertEqual(sim.fpr(i), SelectableInt(expected[i], 64))
+ def test_sv_load_store_strncpy(self):
+ """>>> lst = [
+ ]
+
+ strncpy using post-increment ld/st, sv.bc, and data-dependent ffirst
+ """
+ maxvl = 4
+ lst = SVP64Asm(
+ [
+ "mtspr 9, 3", # move r3 to CTR
+ # loop starts here
+ "setvl 1,0,%d,0,1,1" % maxvl, # VL (and r1) = MIN(CTR,MAXVL=4)
+ "sv.lbzu/pi *16, 1(10)", # load VL bytes (update r10 addr)
+ "sv.cmpi/ff=eq/vli *0,1,*16,0", # compare against zero, truncate VL
+ "sv.stbu/pi *16, 1(12)", # store VL bytes (update r12 addr)
+ "sv.bc/all 0, *2, -0x1c", # test CTR, stop if cmpi failed
+ ]
+ )
+ lst = list(lst)
+
+ # SVSTATE (in this case, VL=2)
+ svstate = SVP64State()
+ svstate.vl = 4 # VL
+ svstate.maxvl = 4 # MAXVL
+ print ("SVSTATE", bin(svstate.asint()))
+
+ tst_string = "hello\x00bye\x00"
+ initial_regs = [0] * 32
+ initial_regs[3] = len(tst_string) # including the zero
+ initial_regs[10] = 16 # load address
+ initial_regs[12] = 40 # store address
+
+ # some memory with identifying garbage in it
+ initial_mem = {16: 0xf0f1_f2f3_f4f5_f6f7,
+ 24: 0x4041_4243_4445_4647,
+ 40: 0x8081_8283_8485_8687,
+ 48: 0x9091_9293_9495_9697,
+ }
+
+ for i, c in enumerate(tst_string):
+ write_byte(initial_mem, 16+i, ord(c))
+
+ # now get the expected results: copy the string to the other address,
+ # but terminate at first zero (strncpy, duh)
+ expected_mem = deepcopy(initial_mem)
+ strlen = 0
+ for i, c in enumerate(tst_string):
+ strlen = i+1
+ c = ord(c)
+ write_byte(expected_mem, 40+i, c)
+ if c == 0:
+ break
+
+ with Program(lst, bigendian=False) as program:
+ sim = self.run_tst_program(program, svstate=svstate,
+ initial_mem=initial_mem,
+ initial_regs=initial_regs)
+ mem = sim.mem.dump(printout=True, asciidump=True)
+ #print (mem)
+ # contents of memory expected at:
+ # element 0: r1=0x10, D=24, => EA = 0x10+24*0 = 16 (0x10)
+ # element 1: r1=0x10, D=24, => EA = 0x10+24*1 = 40 (0x28)
+ # therefore, at address 0x10 ==> 0x1234
+ # therefore, at address 0x28 ==> 0x1235
+ for (k, val) in expected_mem.items():
+ print ("mem, val", k, hex(val))
+ self.assertEqual(mem, list(expected_mem.items()))
+ print(sim.gpr(1))
+ # reg 10 (the LD EA) is expected to be nearest
+ # 16 + strlen, rounded up
+ rounded = ((strlen+maxvl-1) // maxvl) * maxvl
+ self.assertEqual(sim.gpr(10), SelectableInt(16+rounded, 64))
+ # whereas reg 10 (the ST EA) is expected to be 40+strlen
+ self.assertEqual(sim.gpr(12), SelectableInt(40+strlen, 64))
+
def test_sv_load_store_postinc(self):
""">>> lst = ["addi 20, 0, 0x0010",
"addi 3, 0, 0x0008",
self.assertEqual(sim.gpr(i+12), av[i])
def run_tst_program(self, prog, initial_regs=None,
- svstate=None, initial_fprs=None):
+ svstate=None, initial_fprs=None,
+ initial_mem=None):
if initial_regs is None:
initial_regs = [0] * 32
if initial_fprs is None:
initial_fprs = [0] * 32
simulator = run_tst(prog, initial_regs, svstate=svstate,
- initial_fprs=initial_fprs)
+ initial_fprs=initial_fprs,
+ mem=initial_mem)
print ("GPRs")
simulator.gpr.dump()
print ("FPRs")
projects / openpower-isa.git / commitdiff