package linksem
A formalisation of the core ELF and DWARF file formats written in Lem
Install
Dune Dependency
Authors
Maintainers
Sources
0.8.tar.gz
md5=2075c56715539b3b8f54ae65cc808b8c
sha512=f7c16e4036a1440a6a8d13707a43f0f9f9db0c68489215f948cc300b6a164dba5bf852e58f89503e9d9f38180ee658d9478156ca1a1ef64d6861eec5f9cf43d2
doc/src/linksem_zarith/abi_power64_relocation.ml.html
Source file abi_power64_relocation.ml
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778 779 780 781 782 783 784 785 786 787 788 789 790 791 792 793 794 795 796 797 798 799 800 801 802 803 804 805 806 807 808 809 810 811 812 813 814 815 816 817 818 819 820 821 822 823 824 825 826 827 828 829 830 831 832 833(*Generated by Lem from abis/power64/abi_power64_relocation.lem.*) (** [abi_power64_relocation] contains types and definitions specific to * relocations in the Power64 ABI *) open Lem_basic_classes open Lem_map open Lem_maybe open Lem_num open Lem_string open Error open Missing_pervasives open Elf_types_native_uint open Elf_file open Elf_header open Elf_relocation open Elf_symbol_table open Abi_utilities (** Power64 relocation types *) let r_ppc64_none : Nat_big_num.num= ( (Nat_big_num.of_int 0)) let r_ppc64_addr32 : Nat_big_num.num= ( (Nat_big_num.of_int 1)) let r_ppc64_addr24 : Nat_big_num.num= ( (Nat_big_num.of_int 2)) let r_ppc64_addr16 : Nat_big_num.num= ( (Nat_big_num.of_int 3)) let r_ppc64_addr16_lo : Nat_big_num.num= ( (Nat_big_num.of_int 4)) let r_ppc64_addr16_hi : Nat_big_num.num= ( (Nat_big_num.of_int 5)) let r_ppc64_addr16_ha : Nat_big_num.num= ( (Nat_big_num.of_int 6)) let r_ppc64_addr14 : Nat_big_num.num= ( (Nat_big_num.of_int 7)) let r_ppc64_addr14_brtaken : Nat_big_num.num= ( (Nat_big_num.of_int 8)) let r_ppc64_addr14_brntaken : Nat_big_num.num= ( (Nat_big_num.of_int 9)) let r_ppc64_rel24 : Nat_big_num.num= ( (Nat_big_num.of_int 10)) let r_ppc64_rel14 : Nat_big_num.num= ( (Nat_big_num.of_int 11)) let r_ppc64_rel14_brtaken : Nat_big_num.num= ( (Nat_big_num.of_int 12)) let r_ppc64_rel14_brntaken : Nat_big_num.num= ( (Nat_big_num.of_int 13)) let r_ppc64_got16 : Nat_big_num.num= ( (Nat_big_num.of_int 14)) let r_ppc64_got16_lo : Nat_big_num.num= ( (Nat_big_num.of_int 15)) let r_ppc64_got16_hi : Nat_big_num.num= ( (Nat_big_num.of_int 16)) let r_ppc64_got16_ha : Nat_big_num.num= ( (Nat_big_num.of_int 17)) let r_ppc64_copy : Nat_big_num.num= ( (Nat_big_num.of_int 19)) let r_ppc64_glob_dat : Nat_big_num.num= ( (Nat_big_num.of_int 20)) let r_ppc64_jmp_slot : Nat_big_num.num= ( (Nat_big_num.of_int 21)) let r_ppc64_relative : Nat_big_num.num= ( (Nat_big_num.of_int 22)) let r_ppc64_uaddr32 : Nat_big_num.num= ( (Nat_big_num.of_int 24)) let r_ppc64_uaddr16 : Nat_big_num.num= ( (Nat_big_num.of_int 25)) let r_ppc64_rel32 : Nat_big_num.num= ( (Nat_big_num.of_int 26)) let r_ppc64_plt32 : Nat_big_num.num= ( (Nat_big_num.of_int 27)) let r_ppc64_pltrel32 : Nat_big_num.num= ( (Nat_big_num.of_int 28)) let r_ppc64_plt16_lo : Nat_big_num.num= ( (Nat_big_num.of_int 29)) let r_ppc64_plt16_hi : Nat_big_num.num= ( (Nat_big_num.of_int 30)) let r_ppc64_plt16_ha : Nat_big_num.num= ( (Nat_big_num.of_int 31)) let r_ppc64_sectoff : Nat_big_num.num= ( (Nat_big_num.of_int 33)) let r_ppc64_sectoff_lo : Nat_big_num.num= ( (Nat_big_num.of_int 34)) let r_ppc64_sectoff_hi : Nat_big_num.num= ( (Nat_big_num.of_int 35)) let r_ppc64_sectoff_ha : Nat_big_num.num= ( (Nat_big_num.of_int 36)) let r_ppc64_addr30 : Nat_big_num.num= ( (Nat_big_num.of_int 37)) let r_ppc64_addr64 : Nat_big_num.num= ( (Nat_big_num.of_int 38)) let r_ppc64_addr16_higher : Nat_big_num.num= ( (Nat_big_num.of_int 39)) let r_ppc64_addr16_highera : Nat_big_num.num= ( (Nat_big_num.of_int 40)) let r_ppc64_addr16_highest : Nat_big_num.num= ( (Nat_big_num.of_int 41)) let r_ppc64_addr16_highesta : Nat_big_num.num= ( (Nat_big_num.of_int 42)) let r_ppc64_uaddr64 : Nat_big_num.num= ( (Nat_big_num.of_int 43)) let r_ppc64_rel64 : Nat_big_num.num= ( (Nat_big_num.of_int 44)) let r_ppc64_plt64 : Nat_big_num.num= ( (Nat_big_num.of_int 45)) let r_ppc64_pltrel64 : Nat_big_num.num= ( (Nat_big_num.of_int 46)) let r_ppc64_toc16 : Nat_big_num.num= ( (Nat_big_num.of_int 47)) let r_ppc64_toc16_lo : Nat_big_num.num= ( (Nat_big_num.of_int 48)) let r_ppc64_toc16_hi : Nat_big_num.num= ( (Nat_big_num.of_int 49)) let r_ppc64_toc16_ha : Nat_big_num.num= ( (Nat_big_num.of_int 50)) let r_ppc64_toc : Nat_big_num.num= ( (Nat_big_num.of_int 51)) let r_ppc64_pltgot16 : Nat_big_num.num= ( (Nat_big_num.of_int 52)) let r_ppc64_pltgot16_lo : Nat_big_num.num= ( (Nat_big_num.of_int 53)) let r_ppc64_pltgot16_hi : Nat_big_num.num= ( (Nat_big_num.of_int 54)) let r_ppc64_pltgot16_ha : Nat_big_num.num= ( (Nat_big_num.of_int 55)) let r_ppc64_addr16_ds : Nat_big_num.num= ( (Nat_big_num.of_int 56)) let r_ppc64_addr16_lo_ds : Nat_big_num.num= ( (Nat_big_num.of_int 57)) let r_ppc64_got16_ds : Nat_big_num.num= ( (Nat_big_num.of_int 58)) let r_ppc64_got16_lo_ds : Nat_big_num.num= ( (Nat_big_num.of_int 59)) let r_ppc64_plt16_lo_ds : Nat_big_num.num= ( (Nat_big_num.of_int 60)) let r_ppc64_sectoff_ds : Nat_big_num.num= ( (Nat_big_num.of_int 61)) let r_ppc64_sectoff_lo_ds : Nat_big_num.num= ( (Nat_big_num.of_int 62)) let r_ppc64_toc16_ds : Nat_big_num.num= ( (Nat_big_num.of_int 63)) let r_ppc64_toc16_lo_ds : Nat_big_num.num= ( (Nat_big_num.of_int 64)) let r_ppc64_pltgot16_ds : Nat_big_num.num= ( (Nat_big_num.of_int 65)) let r_ppc64_pltgot16_lo_ds : Nat_big_num.num= ( (Nat_big_num.of_int 66)) let r_ppc64_tls : Nat_big_num.num= ( (Nat_big_num.of_int 67)) let r_ppc64_dtpmod64 : Nat_big_num.num= ( (Nat_big_num.of_int 68)) let r_ppc64_tprel16 : Nat_big_num.num= ( (Nat_big_num.of_int 69)) let r_ppc64_tprel16_lo : Nat_big_num.num= ( (Nat_big_num.of_int 60)) let r_ppc64_tprel16_hi : Nat_big_num.num= ( (Nat_big_num.of_int 71)) let r_ppc64_tprel16_ha : Nat_big_num.num= ( (Nat_big_num.of_int 72)) let r_ppc64_tprel64 : Nat_big_num.num= ( (Nat_big_num.of_int 73)) let r_ppc64_dtprel16 : Nat_big_num.num= ( (Nat_big_num.of_int 74)) let r_ppc64_dtprel16_lo : Nat_big_num.num= ( (Nat_big_num.of_int 75)) let r_ppc64_dtprel16_hi : Nat_big_num.num= ( (Nat_big_num.of_int 76)) let r_ppc64_dtprel16_ha : Nat_big_num.num= ( (Nat_big_num.of_int 77)) let r_ppc64_dtprel64 : Nat_big_num.num= ( (Nat_big_num.of_int 78)) let r_ppc64_got_tlsgd16 : Nat_big_num.num= ( (Nat_big_num.of_int 79)) let r_ppc64_got_tlsgd16_lo : Nat_big_num.num= ( (Nat_big_num.of_int 80)) let r_ppc64_got_tlsgd16_hi : Nat_big_num.num= ( (Nat_big_num.of_int 81)) let r_ppc64_got_tlsgd16_ha : Nat_big_num.num= ( (Nat_big_num.of_int 82)) let r_ppc64_got_tlsld16 : Nat_big_num.num= ( (Nat_big_num.of_int 83)) let r_ppc64_got_tlsld16_lo : Nat_big_num.num= ( (Nat_big_num.of_int 84)) let r_ppc64_got_tlsld16_hi : Nat_big_num.num= ( (Nat_big_num.of_int 85)) let r_ppc64_got_tlsld16_ha : Nat_big_num.num= ( (Nat_big_num.of_int 86)) let r_ppc64_got_tprel16_ds : Nat_big_num.num= ( (Nat_big_num.of_int 87)) let r_ppc64_got_tprel16_lo_ds : Nat_big_num.num= ( (Nat_big_num.of_int 88)) let r_ppc64_got_tprel16_hi : Nat_big_num.num= ( (Nat_big_num.of_int 89)) let r_ppc64_got_tprel16_ha : Nat_big_num.num= ( (Nat_big_num.of_int 90)) let r_ppc64_got_dtprel16_ds : Nat_big_num.num= ( (Nat_big_num.of_int 91)) let r_ppc64_got_dtprel16_lo_ds : Nat_big_num.num= ( (Nat_big_num.of_int 92)) let r_ppc64_got_dtprel16_hi : Nat_big_num.num= ( (Nat_big_num.of_int 93)) let r_ppc64_got_dtprel16_ha : Nat_big_num.num= ( (Nat_big_num.of_int 94)) let r_ppc64_tprel16_ds : Nat_big_num.num= ( (Nat_big_num.of_int 95)) let r_ppc64_tprel16_lo_ds : Nat_big_num.num= ( (Nat_big_num.of_int 96)) let r_ppc64_tprel16_higher : Nat_big_num.num= ( (Nat_big_num.of_int 97)) let r_ppc64_tprel16_highera : Nat_big_num.num= ( (Nat_big_num.of_int 98)) let r_ppc64_tprel16_highest : Nat_big_num.num= ( (Nat_big_num.of_int 99)) let r_ppc64_tprel16_highesta : Nat_big_num.num= ( (Nat_big_num.of_int 100)) let r_ppc64_dtprel16_ds : Nat_big_num.num= ( (Nat_big_num.of_int 101)) let r_ppc64_dtprel16_lo_ds : Nat_big_num.num= ( (Nat_big_num.of_int 102)) let r_ppc64_dtprel16_higher : Nat_big_num.num= ( (Nat_big_num.of_int 103)) let r_ppc64_dtprel16_highera : Nat_big_num.num= ( (Nat_big_num.of_int 104)) let r_ppc64_dtprel16_highest : Nat_big_num.num= ( (Nat_big_num.of_int 105)) let r_ppc64_dtprel16_highesta : Nat_big_num.num= ( (Nat_big_num.of_int 106)) (** [string_of_ppc64_relocation_type rel_type] produces a string representation * of relocation type [rel_type]. *) (*val string_of_ppc64_relocation_type : natural -> string*) let string_of_ppc64_relocation_type rel_type1:string= (if Nat_big_num.equal rel_type1 r_ppc64_none then "R_PPC64_NONE" else if Nat_big_num.equal rel_type1 r_ppc64_addr32 then "R_PPC64_ADDR32" else if Nat_big_num.equal rel_type1 r_ppc64_addr24 then "R_PPC64_ADDR24" else if Nat_big_num.equal rel_type1 r_ppc64_addr16 then "R_PPC64_ADDR16" else if Nat_big_num.equal rel_type1 r_ppc64_addr16_lo then "R_PPC64_ADDR16_LO" else if Nat_big_num.equal rel_type1 r_ppc64_addr16_hi then "R_PPC64_ADDR16_HI" else if Nat_big_num.equal rel_type1 r_ppc64_addr16_ha then "R_PPC64_ADDR16_HA" else if Nat_big_num.equal rel_type1 r_ppc64_addr14 then "R_PPC64_ADDR14" else if Nat_big_num.equal rel_type1 r_ppc64_addr14_brtaken then "R_PPC64_ADDR14_BRTAKEN" else if Nat_big_num.equal rel_type1 r_ppc64_addr14_brntaken then "R_PPC64_ADDR14_BRNTAKEN" else if Nat_big_num.equal rel_type1 r_ppc64_rel24 then "R_PPC64_REL24" else if Nat_big_num.equal rel_type1 r_ppc64_rel14 then "R_PPC64_REL14" else if Nat_big_num.equal rel_type1 r_ppc64_rel14_brtaken then "R_PPC64_REL14_BRTAKEN" else if Nat_big_num.equal rel_type1 r_ppc64_rel14_brntaken then "R_PPC64_REL14_BRNTAKEN" else if Nat_big_num.equal rel_type1 r_ppc64_got16 then "R_PPC64_GOT16" else if Nat_big_num.equal rel_type1 r_ppc64_got16_lo then "R_PPC64_GOT16_LO" else if Nat_big_num.equal rel_type1 r_ppc64_got16_hi then "R_PPC64_GOT16_HI" else if Nat_big_num.equal rel_type1 r_ppc64_got16_ha then "R_PPC64_GOT16_HA" else if Nat_big_num.equal rel_type1 r_ppc64_copy then "R_PPC64_COPY" else if Nat_big_num.equal rel_type1 r_ppc64_glob_dat then "R_PPC64_GLOB_DAT" else if Nat_big_num.equal rel_type1 r_ppc64_jmp_slot then "R_PPC64_JMP_SLOT" else if Nat_big_num.equal rel_type1 r_ppc64_relative then "R_PPC64_RELATIVE" else if Nat_big_num.equal rel_type1 r_ppc64_uaddr32 then "R_PPC64_UADDR32" else if Nat_big_num.equal rel_type1 r_ppc64_uaddr16 then "R_PPC64_UADDR16" else if Nat_big_num.equal rel_type1 r_ppc64_rel32 then "R_PPC64_REL32" else if Nat_big_num.equal rel_type1 r_ppc64_plt32 then "R_PPC64_PLT32" else if Nat_big_num.equal rel_type1 r_ppc64_pltrel32 then "R_PPC64_PLTREL32" else if Nat_big_num.equal rel_type1 r_ppc64_plt16_lo then "R_PPC64_PLT16_LO" else if Nat_big_num.equal rel_type1 r_ppc64_plt16_hi then "R_PPC64_PLT16_HI" else if Nat_big_num.equal rel_type1 r_ppc64_plt16_ha then "R_PPC64_PLT16_HA" else if Nat_big_num.equal rel_type1 r_ppc64_sectoff then "R_PPC64_SECTOFF" else if Nat_big_num.equal rel_type1 r_ppc64_sectoff_lo then "R_PPC64_SECTOFF_LO" else if Nat_big_num.equal rel_type1 r_ppc64_sectoff_hi then "R_PPC64_SECTOFF_HI" else if Nat_big_num.equal rel_type1 r_ppc64_sectoff_ha then "R_PPC64_SECTOFF_HA" else if Nat_big_num.equal rel_type1 r_ppc64_addr30 then "R_PPC64_ADDR30" else if Nat_big_num.equal rel_type1 r_ppc64_addr64 then "R_PPC64_ADDR64" else if Nat_big_num.equal rel_type1 r_ppc64_addr16_higher then "R_PPC64_ADDR16_HIGHER" else if Nat_big_num.equal rel_type1 r_ppc64_addr16_highera then "R_PPC64_ADDR16_HIGHERA" else if Nat_big_num.equal rel_type1 r_ppc64_addr16_highest then "R_PPC64_ADDR16_HIGHEST" else if Nat_big_num.equal rel_type1 r_ppc64_addr16_highesta then "R_PPC64_ADDR16_HIGHESTA" else if Nat_big_num.equal rel_type1 r_ppc64_uaddr64 then "R_PPC64_UADDR64" else if Nat_big_num.equal rel_type1 r_ppc64_rel64 then "R_PPC64_REL64" else if Nat_big_num.equal rel_type1 r_ppc64_plt64 then "R_PPC64_PLT64" else if Nat_big_num.equal rel_type1 r_ppc64_pltrel64 then "R_PPC64_PLTREL64" else if Nat_big_num.equal rel_type1 r_ppc64_toc16 then "R_PPC64_TOC16" else if Nat_big_num.equal rel_type1 r_ppc64_toc16_lo then "R_PPC64_TOC16_LO" else if Nat_big_num.equal rel_type1 r_ppc64_toc16_hi then "R_PPC64_TOC16_HI" else if Nat_big_num.equal rel_type1 r_ppc64_toc16_ha then "R_PPC64_TOC16_HA" else if Nat_big_num.equal rel_type1 r_ppc64_toc then "R_PPC64_TOC" else if Nat_big_num.equal rel_type1 r_ppc64_pltgot16 then "R_PPC64_PLTGOT16" else if Nat_big_num.equal rel_type1 r_ppc64_pltgot16_lo then "R_PPC64_PLTGOT16_LO" else if Nat_big_num.equal rel_type1 r_ppc64_pltgot16_hi then "R_PPC64_PLTGOT16_HI" else if Nat_big_num.equal rel_type1 r_ppc64_pltgot16_ha then "R_PPC64_PLTGOT16_HA" else if Nat_big_num.equal rel_type1 r_ppc64_addr16_ds then "R_PPC64_ADDR16_DS" else if Nat_big_num.equal rel_type1 r_ppc64_addr16_lo_ds then "R_PPC64_ADDR16_DS" else if Nat_big_num.equal rel_type1 r_ppc64_got16_ds then "R_PPC64_GOT16_DS" else if Nat_big_num.equal rel_type1 r_ppc64_got16_lo_ds then "R_PPC64_GOT16_LO_DS" else if Nat_big_num.equal rel_type1 r_ppc64_plt16_lo_ds then "R_PPC64_PLT16_LO_DS" else if Nat_big_num.equal rel_type1 r_ppc64_sectoff_ds then "R_PPC64_SECTOFF_DS" else if Nat_big_num.equal rel_type1 r_ppc64_sectoff_lo_ds then "R_PPC64_SECTOFF_LO_DS" else if Nat_big_num.equal rel_type1 r_ppc64_toc16_ds then "R_PPC64_TOC16_DS" else if Nat_big_num.equal rel_type1 r_ppc64_toc16_lo_ds then "R_PPC64_TOC16_LO_DS" else if Nat_big_num.equal rel_type1 r_ppc64_pltgot16_ds then "R_PPC64_PLTGOT16_DS" else if Nat_big_num.equal rel_type1 r_ppc64_pltgot16_lo_ds then "R_PPC64_PLTGOT16_LO_DS" else if Nat_big_num.equal rel_type1 r_ppc64_tls then "R_PPC64_TLS" else if Nat_big_num.equal rel_type1 r_ppc64_dtpmod64 then "R_PPC64_DTPMOD64" else if Nat_big_num.equal rel_type1 r_ppc64_tprel16 then "R_PPC64_TPREL16" else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_lo then "R_PPC64_TPREL16_LO" else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_hi then "R_PPC64_TPREL16_HI" else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_ha then "R_PPC64_TPREL16_HA" else if Nat_big_num.equal rel_type1 r_ppc64_tprel64 then "R_PPC64_TPREL64" else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16 then "R_PPC64_DTPREL16" else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_lo then "R_PPC64_DTPREL16_LO" else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_hi then "R_PPC64_DTPREL16_HI" else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_ha then "R_PPC64_DTPREL16_HA" else if Nat_big_num.equal rel_type1 r_ppc64_dtprel64 then "R_PPC64_DTPREL64" else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsgd16 then "R_PPC64_GOT_TLSGD16" else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsgd16_lo then "R_PPC64_GOT_TLSGD16_LO" else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsgd16_hi then "R_PPC64_GOT_TLSGD16_HI" else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsgd16_ha then "R_PPC64_GOT_TLSGD16_HA" else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsld16 then "R_PPC64_GOT_TLSLD16" else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsld16_lo then "R_PPC64_GOT_TLSLD16_LO" else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsld16_hi then "R_PPC64_GOT_TLSLD16_HI" else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsld16_ha then "R_PPC64_GOT_TLSLD16_HA" else if Nat_big_num.equal rel_type1 r_ppc64_got_tprel16_ds then "R_PPC64_GOT_TPREL16_DS" else if Nat_big_num.equal rel_type1 r_ppc64_got_tprel16_lo_ds then "R_PPC64_GOT_TPREL16_LO_DS" else if Nat_big_num.equal rel_type1 r_ppc64_got_tprel16_hi then "R_PPC64_GOT_TPREL16_HI" else if Nat_big_num.equal rel_type1 r_ppc64_got_tprel16_ha then "R_PPC64_GOT_TPREL16_HA" else if Nat_big_num.equal rel_type1 r_ppc64_got_dtprel16_ds then "R_PPC64_GOT_DTPREL16_DS" else if Nat_big_num.equal rel_type1 r_ppc64_got_dtprel16_lo_ds then "R_PPC64_GOT_DTPREL16_LO_DS" else if Nat_big_num.equal rel_type1 r_ppc64_got_dtprel16_hi then "R_PPC64_GOT_DTPREL16_HI" else if Nat_big_num.equal rel_type1 r_ppc64_got_dtprel16_ha then "R_PPC64_GOT_DTPREL16_HA" else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_ds then "R_PPC64_TPREL16_DS" else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_lo_ds then "R_PPC64_TPREL16_LO_DS" else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_higher then "R_PPC64_TPREL16_HIGHER" else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_highera then "R_PPC64_TPREL16_HIGHERA" else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_highest then "R_PPC64_TPREL16_HIGHEST" else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_highesta then "R_PPC64_TPREL16_HIGHESTA" else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_ds then "R_PPC64_DTPREL16_DS" else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_lo_ds then "R_PPC64_DTPREL16_LO_DS" else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_higher then "R_PPC64_DTPREL16_HIGHER" else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_highera then "R_PPC64_DTPREL16_HIGHERA" else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_highest then "R_PPC64_DTPREL16_HIGHEST" else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_highesta then "R_PPC64_DTPREL16_HIGHESTA" else "Invalid Power64 relocation type") (*val abi_ppc64_apply_relocation : elf64_relocation_a -> integer -> integer -> integer -> integer -> integer -> integer -> integer -> integer -> integer -> integer -> integer -> integer -> integer -> integer -> integer -> elf64_file -> error (Map.map elf64_addr (relocation_operator_expression integer * integer_bit_width * can_fail integer))*) let abi_ppc64_apply_relocation rel s_val b_val p_val l_val g_val r_val m_val toc_val dtpmod_val tprel_val dtprel_val gottlsgd_val gottlsld_val gottprel_val gotdtprel_val ef:(((Uint64_wrapper.uint64),((Nat_big_num.num)relocation_operator_expression*integer_bit_width*(Nat_big_num.num)can_fail))Pmap.map)error= (if is_elf64_relocatable_file ef.elf64_file_header then let (rel_type1, _) = (parse_elf64_relocation_info rel.elf64_ra_info) in let a_val = (Nat_big_num.of_int64 rel.elf64_ra_addend) in (** No width, no calculation *) if Nat_big_num.equal rel_type1 r_ppc64_none then return (Pmap.empty compare) (** Width: 32 Calculation: S + A *) else if Nat_big_num.equal rel_type1 r_ppc64_addr32 then let result = (Lift ( Nat_big_num.add s_val a_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I32, CanFail) (Pmap.empty compare)) (** Width: Low24 Calculation: (S + A) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_addr24 then let result = (RShift (Lift( Nat_big_num.add s_val a_val), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Low24, CanFail) (Pmap.empty compare)) (** Width: Half16 Calculation: S + A *) else if Nat_big_num.equal rel_type1 r_ppc64_addr16 then let result = (Lift ( Nat_big_num.add s_val a_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CanFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #lo(S + A) *) else if Nat_big_num.equal rel_type1 r_ppc64_addr16_lo then let result = (Apply(Lo, Lift ( Nat_big_num.add s_val a_val))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #hi(S + A) *) else if Nat_big_num.equal rel_type1 r_ppc64_addr16_hi then let result = (Apply(Hi, Lift ( Nat_big_num.add s_val a_val))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #ha(S + A) *) else if Nat_big_num.equal rel_type1 r_ppc64_addr16_ha then let result = (Apply(Ha, Lift ( Nat_big_num.add s_val a_val))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Low14 Calculation: (S + A) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_addr14 then let result = (RShift(Lift( Nat_big_num.add s_val a_val), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Low14, CanFail) (Pmap.empty compare)) (** Width: Low14 Calculation: (S + A) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_addr14_brtaken then let result = (RShift(Lift( Nat_big_num.add s_val a_val), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Low14, CanFail) (Pmap.empty compare)) (** Width: Low14 Calculation: (S + A) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_addr14_brntaken then let result = (RShift(Lift( Nat_big_num.add s_val a_val), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Low14, CanFail) (Pmap.empty compare)) (** Width: Low24 Calculation: ((S + A) - P) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_rel24 then let result = (RShift(Lift ( Nat_big_num.sub( Nat_big_num.add s_val a_val) p_val), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Low24, CanFail) (Pmap.empty compare)) (** Width: Low14 Calculation: ((S + A) - P) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_rel14 then let result = (RShift(Lift ( Nat_big_num.sub( Nat_big_num.add s_val a_val) p_val), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Low14, CanFail) (Pmap.empty compare)) (** Width: Low14 Calculation: ((S + A) - P) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_rel14_brtaken then let result = (RShift(Lift ( Nat_big_num.sub( Nat_big_num.add s_val a_val) p_val), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Low14, CanFail) (Pmap.empty compare)) (** Width: Low14 Calculation: ((S + A) - P) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_rel14_brntaken then let result = (RShift(Lift ( Nat_big_num.sub( Nat_big_num.add s_val a_val) p_val), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Low14, CanFail) (Pmap.empty compare)) (** Width: Half16 Calculation: G *) else if Nat_big_num.equal rel_type1 r_ppc64_got16 then let result = (Lift g_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CanFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #lo(G) *) else if Nat_big_num.equal rel_type1 r_ppc64_got16_lo then let result = (Apply(Lo, Lift g_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #hi(G) *) else if Nat_big_num.equal rel_type1 r_ppc64_got16_hi then let result = (Apply(Hi, Lift g_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #ha(G) *) else if Nat_big_num.equal rel_type1 r_ppc64_got16_ha then let result = (Apply(Ha, Lift g_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** No width, no calculation *) else if Nat_big_num.equal rel_type1 r_ppc64_copy then fail "abi_ppc64_apply_relocation: r_ppc64_copy not implemented" (** Width I64, Calculation: S + A *) else if Nat_big_num.equal rel_type1 r_ppc64_glob_dat then let result = (Lift( Nat_big_num.add s_val a_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I64, CannotFail) (Pmap.empty compare)) (** No width, dynamic link calculation *) else if Nat_big_num.equal rel_type1 r_ppc64_jmp_slot then fail "abi_ppc64_apply_relocation: r_ppc64_jmp_slot not implemented" (** Width I64, Calculation: B + A *) else if Nat_big_num.equal rel_type1 r_ppc64_relative then let result = (Lift( Nat_big_num.add b_val a_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I64, CannotFail) (Pmap.empty compare)) (** Width: I32 Calculation: S + A *) else if Nat_big_num.equal rel_type1 r_ppc64_uaddr32 then let result = (Lift( Nat_big_num.add s_val a_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I32, CanFail) (Pmap.empty compare)) (** Width: Half16 Calculation: S + A *) else if Nat_big_num.equal rel_type1 r_ppc64_uaddr16 then let result = (Lift( Nat_big_num.add s_val a_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CanFail) (Pmap.empty compare)) (** Width: I32 Calculation: (S + A) - P *) else if Nat_big_num.equal rel_type1 r_ppc64_rel32 then let result = (Lift ( Nat_big_num.sub( Nat_big_num.add s_val a_val) p_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I32, CanFail) (Pmap.empty compare)) (** Width: I32 Calculation: L *) else if Nat_big_num.equal rel_type1 r_ppc64_plt32 then let result = (Lift l_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I32, CanFail) (Pmap.empty compare)) (** Width: I32 Calculation: L - P *) else if Nat_big_num.equal rel_type1 r_ppc64_pltrel32 then let result = (Lift ( Nat_big_num.sub l_val p_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I32, CanFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #lo(L) *) else if Nat_big_num.equal rel_type1 r_ppc64_plt16_lo then let result = (Apply(Lo, Lift l_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #hi(L) *) else if Nat_big_num.equal rel_type1 r_ppc64_plt16_hi then let result = (Apply(Hi, Lift l_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #ha(L) *) else if Nat_big_num.equal rel_type1 r_ppc64_plt16_ha then let result = (Apply(Ha, Lift l_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: R + A *) else if Nat_big_num.equal rel_type1 r_ppc64_sectoff then let result = (Lift( Nat_big_num.add r_val a_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CanFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #lo(R + A) *) else if Nat_big_num.equal rel_type1 r_ppc64_sectoff_lo then let result = (Apply(Lo, Lift ( Nat_big_num.add r_val a_val))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #hi(R + A) *) else if Nat_big_num.equal rel_type1 r_ppc64_sectoff_hi then let result = (Apply(Hi, Lift ( Nat_big_num.add r_val a_val))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #ha(R + A) *) else if Nat_big_num.equal rel_type1 r_ppc64_sectoff_ha then let result = (Apply(Ha, Lift ( Nat_big_num.add r_val a_val))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Word30 Calculation: ((S + A) - P) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_addr30 then let result = (RShift(Lift ( Nat_big_num.sub( Nat_big_num.add s_val a_val) p_val), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Word30, CannotFail) (Pmap.empty compare)) (** Width: I64 Calculation: S + A *) else if Nat_big_num.equal rel_type1 r_ppc64_addr64 then let result = (Lift( Nat_big_num.add s_val a_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I64, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #higher(S + A) *) else if Nat_big_num.equal rel_type1 r_ppc64_addr16_higher then let result = (Apply(Higher, Lift ( Nat_big_num.add s_val a_val))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #highera(S + A) *) else if Nat_big_num.equal rel_type1 r_ppc64_addr16_highera then let result = (Apply(HigherA, Lift ( Nat_big_num.add s_val a_val))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #highest(S + A) *) else if Nat_big_num.equal rel_type1 r_ppc64_addr16_highest then let result = (Apply(Highest, Lift ( Nat_big_num.add s_val a_val))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #highesta(S + A) *) else if Nat_big_num.equal rel_type1 r_ppc64_addr16_highesta then let result = (Apply(HighestA, Lift( Nat_big_num.add s_val a_val))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: I64 Calculation: S + A *) else if Nat_big_num.equal rel_type1 r_ppc64_uaddr64 then let result = (Lift( Nat_big_num.add s_val a_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I64, CannotFail) (Pmap.empty compare)) (** Width: I64 Calculation: (S + A) - P *) else if Nat_big_num.equal rel_type1 r_ppc64_rel64 then let result = (Lift ( Nat_big_num.sub( Nat_big_num.add s_val a_val) p_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I64, CannotFail) (Pmap.empty compare)) (** Width: I64 Calculation: L *) else if Nat_big_num.equal rel_type1 r_ppc64_plt64 then let result = (Lift l_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I64, CannotFail) (Pmap.empty compare)) (** Width: I64 Calculation: L - P *) else if Nat_big_num.equal rel_type1 r_ppc64_pltrel64 then let result = (Lift( Nat_big_num.sub l_val p_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I64, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: (S + A) - TOC *) else if Nat_big_num.equal rel_type1 r_ppc64_toc16 then let result = (Lift ( Nat_big_num.sub( Nat_big_num.add s_val a_val) toc_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CanFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #lo((S + A) - TOC) *) else if Nat_big_num.equal rel_type1 r_ppc64_toc16_lo then let result = (Apply (Lo, Lift ( Nat_big_num.sub( Nat_big_num.add s_val a_val) toc_val))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CanFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #hi((S + A) - TOC) *) else if Nat_big_num.equal rel_type1 r_ppc64_toc16_hi then let result = (Apply(Hi, Lift ( Nat_big_num.sub( Nat_big_num.add s_val a_val) toc_val))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CanFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #ha((S + A) - TOC) *) else if Nat_big_num.equal rel_type1 r_ppc64_toc16_ha then let result = (Apply(Ha, Lift ( Nat_big_num.sub( Nat_big_num.add s_val a_val) toc_val))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CanFail) (Pmap.empty compare)) (** Width: I64 Calculation: .TOC *) else if Nat_big_num.equal rel_type1 r_ppc64_toc then let result = (Lift toc_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I64, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: M *) else if Nat_big_num.equal rel_type1 r_ppc64_pltgot16 then let result = (Lift m_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CanFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #lo(M) *) else if Nat_big_num.equal rel_type1 r_ppc64_pltgot16_lo then let result = (Apply(Lo, Lift m_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #hi(M) *) else if Nat_big_num.equal rel_type1 r_ppc64_pltgot16_hi then let result = (Apply(Hi, Lift m_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Half16 Calculation: #ha(M) *) else if Nat_big_num.equal rel_type1 r_ppc64_pltgot16_ha then let result = (Apply(Ha, Lift m_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) (** Width: Half16ds Calculation: (S + A) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_addr16_ds then let result = (RShift(Lift ( Nat_big_num.add s_val a_val), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CanFail) (Pmap.empty compare)) (** Width: Half16ds Calculation: #lo((S + A) >> 2) *) else if Nat_big_num.equal rel_type1 r_ppc64_addr16_lo_ds then let result = (Apply(Lo, RShift(Lift ( Nat_big_num.add s_val a_val), (Nat_big_num.of_int 2)))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CannotFail) (Pmap.empty compare)) (** Width: Half16ds Calculation: G >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_got16_ds then let result = (RShift(Lift g_val, (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CanFail) (Pmap.empty compare)) (** Width: Half16ds Calculation: #lo(G) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_got16_lo_ds then let result = (RShift(Apply(Lo, Lift g_val), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CannotFail) (Pmap.empty compare)) (** Width: Half16ds Calculation: #lo(L) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_plt16_lo_ds then let result = (RShift (Apply(Lo, Lift l_val), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CannotFail) (Pmap.empty compare)) (** Width: Half16ds Calculation: (R + A) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_sectoff_ds then let result = (RShift (Lift ( Nat_big_num.add r_val a_val), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CanFail) (Pmap.empty compare)) (** Width: Half16ds Calculation: #lo(R + A) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_sectoff_lo_ds then let result = (RShift(Apply(Lo, Lift ( Nat_big_num.add r_val a_val)), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CannotFail) (Pmap.empty compare)) (** Width: Half16ds Calculation: ((S + A) - TOC) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_toc16_ds then let result = (RShift (Lift ( Nat_big_num.sub( Nat_big_num.add s_val a_val) toc_val), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CanFail) (Pmap.empty compare)) (** Width: Half16ds Calculation: #lo((S + A) - TOC) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_toc16_lo_ds then let result = (RShift (Apply(Lo, Lift ( Nat_big_num.sub( Nat_big_num.add s_val a_val) toc_val)), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CannotFail) (Pmap.empty compare)) (** Width: Half16ds Calculation: M >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_pltgot16_ds then let result = (RShift(Lift m_val, (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CanFail) (Pmap.empty compare)) (** Width: Half16ds Calculation: #lo(M) >> 2 *) else if Nat_big_num.equal rel_type1 r_ppc64_pltgot16_lo_ds then let result = (RShift (Apply(Lo, Lift m_val), (Nat_big_num.of_int 2))) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CannotFail) (Pmap.empty compare)) (** No width, no calculation *) else if Nat_big_num.equal rel_type1 r_ppc64_tls then fail "abi_ppc64_apply_relocation: r_ppc64_tls not implemented" (** Width I64 Calculation: @dtpmod *) else if Nat_big_num.equal rel_type1 r_ppc64_dtpmod64 then let result = (Lift dtpmod_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I64, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_tprel16 then let result = (Lift tprel_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CanFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_lo then let result = (Apply(Lo, Lift tprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_hi then let result = (Apply(Hi, Lift tprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_ha then let result = (Apply(Ha, Lift tprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_tprel64 then let result = (Lift tprel_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I64, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16 then let result = (Lift dtprel_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CanFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_lo then let result = (Apply(Lo, Lift dtprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_hi then let result = (Apply(Hi, Lift dtprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_ha then let result = (Apply(Ha, Lift dtprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_dtprel64 then let result = (Lift dtprel_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I64, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsgd16 then let result = (Lift gottlsgd_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CanFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsgd16_lo then let result = (Apply(Lo, Lift gottlsgd_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsgd16_hi then let result = (Apply(Hi, Lift gottlsgd_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsgd16_ha then let result = (Apply(Ha, Lift gottlsgd_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsld16 then let result = (Lift gottlsgd_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CanFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsld16_lo then let result = (Apply(Lo, Lift gottlsgd_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsld16_hi then let result = (Apply(Hi, Lift gottlsgd_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_tlsld16_ha then let result = (Apply(Ha, Lift gottlsgd_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_tprel16_ds then let result = (Lift gottprel_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CanFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_tprel16_lo_ds then let result = (Apply(Lo, Lift gottprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_tprel16_hi then let result = (Apply(Hi, Lift gottprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_tprel16_ha then let result = (Apply(Ha, Lift gottprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_dtprel16_ds then let result = (Lift gotdtprel_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CanFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_dtprel16_lo_ds then let result = (Apply(Lo, Lift gotdtprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_dtprel16_hi then let result = (Apply(Hi, Lift gotdtprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_got_dtprel16_ha then let result = (Apply(Ha, Lift gotdtprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_ds then let result = (Lift tprel_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CanFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_lo_ds then let result = (Apply(Lo, Lift tprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_higher then let result = (Apply(Higher, Lift tprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_highera then let result = (Apply(HigherA, Lift tprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_highest then let result = (Apply(Highest, Lift tprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_tprel16_highesta then let result = (Apply(HighestA, Lift tprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_ds then let result = (Lift dtprel_val) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CanFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_lo_ds then let result = (Apply(Lo, Lift dtprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, Half16ds, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_higher then let result = (Apply(Higher, Lift dtprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_highera then let result = (Apply(HigherA, Lift dtprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_highest then let result = (Apply(Highest, Lift dtprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else if Nat_big_num.equal rel_type1 r_ppc64_dtprel16_highesta then let result = (Apply(HighestA, Lift dtprel_val)) in let addr = (rel.elf64_ra_offset) in return (Pmap.add addr (result, I16, CannotFail) (Pmap.empty compare)) else fail "abi_ppc64_apply_relocation: unrecognised relocation type" else fail "abi_ppc64_apply_relocation: not a relocatable file")