Source file abi_power64_relocation.ml
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(** [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].
*)
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")
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")