return 0x00001fe0;
}
+static uint32_t findMaskR11(uint32_t Insn) {
+ if ((0xff000000 & Insn) == 0xa1000000)
+ return 0x060020ff;
+ return 0x06003fe0;
+}
+
static uint32_t findMaskR16(uint32_t Insn) {
if ((0xff000000 & Insn) == 0x48000000)
return 0x061f20ff;
case R_HEX_8_X:
or32le(Loc, applyMask(findMaskR8(read32le(Loc)), Val));
break;
+ case R_HEX_9_X:
+ or32le(Loc, applyMask(0x00003fe0, Val & 0x3f));
+ break;
+ case R_HEX_10_X:
+ or32le(Loc, applyMask(0x00203fe0, Val & 0x3f));
+ break;
+ case R_HEX_11_X:
+ or32le(Loc, applyMask(findMaskR11(read32le(Loc)), Val & 0x3f));
+ break;
case R_HEX_12_X:
or32le(Loc, applyMask(0x000007e0, Val));
break;
# R_HEX_B13_PCREL
if (r0 == #0) jump:t #_start
# CHECK: if (r0==#0) jump:t 0x11000
+
+# R_HEX_9_X
+p0 = !cmp.gtu(r0, ##_start)
+# CHECK: p0 = !cmp.gtu(r0,##69632)
+
+# R_HEX_10_X
+p0 = !cmp.gt(r0, ##_start)
+# CHECK: p0 = !cmp.gt(r0,##69632)
+
+# R_HEX_11_X
+r0 = memw(r1+##_start)
+# CHECK: r0 = memw(r1+##69632)
+
+memw(r0+##_start) = r1
+# CHECK: memw(r0+##69632) = r1