Index: ELF/Arch/Hexagon.cpp =================================================================== --- ELF/Arch/Hexagon.cpp +++ ELF/Arch/Hexagon.cpp @@ -58,18 +58,62 @@ case R_HEX_B22_PCREL: case R_HEX_B22_PCREL_X: case R_HEX_B32_PCREL_X: + case R_HEX_6_PCREL_X: return R_PC; default: return R_ABS; } } +static uint32_t findMaskR6(uint32_t Insn) { + // There are (arguably too) many relocation masks for the DSP's + // R_HEX_6_X type. The table below is used to select the correct mask + // for the given instruction. + struct InstructionMask { + uint32_t CmpMask; + uint32_t RelocMask; + }; + + static const InstructionMask R6[] = { + {0x38000000, 0x0000201f}, {0x39000000, 0x0000201f}, + {0x3e000000, 0x00001f80}, {0x3f000000, 0x00001f80}, + {0x40000000, 0x000020f8}, {0x41000000, 0x000007e0}, + {0x42000000, 0x000020f8}, {0x43000000, 0x000007e0}, + {0x44000000, 0x000020f8}, {0x45000000, 0x000007e0}, + {0x46000000, 0x000020f8}, {0x47000000, 0x000007e0}, + {0x6a000000, 0x00001f80}, {0x7c000000, 0x001f2000}, + {0x9a000000, 0x00000f60}, {0x9b000000, 0x00000f60}, + {0x9c000000, 0x00000f60}, {0x9d000000, 0x00000f60}, + {0x9f000000, 0x001f0100}, {0xab000000, 0x0000003f}, + {0xad000000, 0x0000003f}, {0xaf000000, 0x00030078}, + {0xd7000000, 0x006020e0}, {0xd8000000, 0x006020e0}, + {0xdb000000, 0x006020e0}, {0xdf000000, 0x006020e0}}; + + // Duplex forms have a fixed mask and parse bits 15:14 are always + // zero. Non-duplex insns will always have at least one bit set in the + // parse field. + if ((0xC000 & Insn) == 0x0) + return 0x03f00000; + + for (InstructionMask I : R6) + if ((0xff000000 & Insn) == I.CmpMask) + return I.RelocMask; + + error("unrecognized instruction for R_HEX_6 relocation: 0x" + + utohexstr(Insn)); + return 0; +} + static void or32le(uint8_t *P, int32_t V) { write32le(P, read32le(P) | V); } void Hexagon::relocateOne(uint8_t *Loc, RelType Type, uint64_t Val) const { switch (Type) { case R_HEX_NONE: break; + case R_HEX_6_PCREL_X: + case R_HEX_6_X: + or32le(Loc, applyMask(findMaskR6(read32le(Loc)), Val)); + break; case R_HEX_12_X: or32le(Loc, applyMask(0x000007e0, Val)); break; Index: test/ELF/hexagon.s =================================================================== --- test/ELF/hexagon.s +++ test/ELF/hexagon.s @@ -29,3 +29,125 @@ call ##_start # CHECK: immext(#4294967232) # CHECK: call 0x11000 + +# R_HEX_6_X tests: +# One test for each mask in the lookup table. + +#0x38000000 +if (!P0) memw(r0+#8)=##_start +# CHECK: 38c0c100 if (!p0) memw(r0+#8) = ##69632 } + +#0x39000000 +{ p0 = p1 + if (!P0.new) memw(r0+#0)=##_start } +# CHECK: 39c0c000 if (!p0.new) memw(r0+#0) = ##69632 } + +#0x3e000000 +memw(r0+##_start)+=r1 +# CHECK: 3e40c001 memw(r0+##69632) += r1 } + +#0x3f000000 +memw(r0+##_start)+=#4 +# CHECK: 3f40c004 memw(r0+##69632) += #4 } + +#0x40000000 +{ r0 = r1 + if (p0) memb(r0+##_start)=r0.new } +# CHECK: 40a0c200 if (p0) memb(r0+##69632) = r0.new } + +#0x41000000 +if (p0) r0=memb(r1+##_start) +# CHECK: 4101c000 if (p0) r0 = memb(r1+##69632) } + +#0x42000000 +{ r0 = r1 + p0 = p1 + if (p0.new) memb(r0+##_start)=r0.new } +# CHECK: 42a0c200 if (p0.new) memb(r0+##69632) = r0.new } + +#0x43000000 +{ p0 = p1 + if (P0.new) r0=memb(r0+##_start) } +# CHECK: 4300c000 if (p0.new) r0 = memb(r0+##69632) } + +#0x44000000 +if (!p0) memb(r0+##_start)=r1 +# CHECK: 4400c100 if (!p0) memb(r0+##69632) = r1 } + +#0x45000000 +if (!p0) r0=memb(r1+##_start) +# CHECK: 4501c000 if (!p0) r0 = memb(r1+##69632) } + +#0x46000000 +{ p0 = p1 + if (!p0.new) memb(r0+##_start)=r1 } +# CHECK: 4600c100 if (!p0.new) memb(r0+##69632) = r1 } + +#0x47000000 +{ p0 = p1 + if (!p0.new) r0=memb(r1+##_start) } +# CHECK: 4701c000 if (!p0.new) r0 = memb(r1+##69632) } + +#0x6a000000 -- Note 4294967132 == -0xa4 the distance between +# here and _start, so this will change if +# tests are added between here and _start +r0=add(pc,##_start@pcrel) +# CHECK: 6a49ce00 r0 = add(pc,##4294967132) } + +#0x7c000000 +r1:0=combine(#8,##_start) +# CHECK: 7c80c100 r1:0 = combine(#8,##69632) } + +#0x9a000000 +r1:0=memb_fifo(r2=##_start) +# CHECK: 9a82d000 r1:0 = memb_fifo(r2=##69632) } + +#0x9b000000 +r0=memb(r1=##_start) +# CHECK: 9b01d000 r0 = memb(r1=##69632) } + +#0x9c000000 +r1:0=memb_fifo(r2<<#2+##_start) +# CHECK: 9c82f000 r1:0 = memb_fifo(r2<<#2+##69632) } + +#0x9d000000 +r0=memb(r1<<#2+##_start) +# CHECK: 9d01f000 r0 = memb(r1<<#2+##69632) } + +#0x9f000000 +if (!p0) r0=memb(##_start) +# CHECK: 9f00e880 if (!p0) r0 = memb(##69632) } + +#0xab000000 +memb(r0=##_start)=r1 +# CHECK: ab00c180 memb(r0=##69632) = r1 } + +#0xad000000 +memb(r0<<#2+##_start)=r1 +# CHECK: ad00e180 memb(r0<<#2+##69632) = r1 } + +#0xaf000000 +if (!p0) memb(##_start)=r1 +# CHECK: af00c184 if (!p0) memb(##69632) = r1 } + +#0xd7000000 +r0=add(##_start,mpyi(r1,r2)) +# CHECK: d701c200 r0 = add(##69632,mpyi(r1,r2)) } + +#0xd8000000 +R0=add(##_start,mpyi(r0,#2)) +# CHECK: d800c002 r0 = add(##69632,mpyi(r0,#2)) } + +#0xdb000000 +r0=add(r1,add(r2,##_start)) +# CHECK: db01c002 r0 = add(r1,add(r2,##69632)) } + +#0xdf000000 +r0=add(r1,mpyi(r2,##_start)) +# CHECK: df82c001 r0 = add(r1,mpyi(r2,##69632)) } + +# Duplex form of R_HEX_6_X +# R_HEX_32_6_X +# R_HEX_6_X +{ r0 = ##_start; r2 = r16 } +# CHECK: 28003082 r0 = ##69632; r2 = r16 }