aboutsummaryrefslogtreecommitdiffstats
path: root/lib/hipe/llvm
diff options
context:
space:
mode:
Diffstat (limited to 'lib/hipe/llvm')
-rw-r--r--lib/hipe/llvm/Makefile16
-rw-r--r--lib/hipe/llvm/elf_format.erl654
-rw-r--r--lib/hipe/llvm/elf_format.hrl40
-rw-r--r--lib/hipe/llvm/hipe_llvm.erl56
-rw-r--r--lib/hipe/llvm/hipe_llvm_main.erl189
-rw-r--r--lib/hipe/llvm/hipe_rtl_to_llvm.erl23
6 files changed, 451 insertions, 527 deletions
diff --git a/lib/hipe/llvm/Makefile b/lib/hipe/llvm/Makefile
index d2d39fb9e3..25b47a580f 100644
--- a/lib/hipe/llvm/Makefile
+++ b/lib/hipe/llvm/Makefile
@@ -40,12 +40,12 @@ RELSYSDIR = $(RELEASE_PATH)/lib/hipe-$(VSN)
# Target Specs
# ----------------------------------------------------
ifdef HIPE_ENABLED
-HIPE_MODULES = hipe_rtl_to_llvm \
+HIPE_MODULES = elf_format \
hipe_llvm \
- elf_format \
+ hipe_llvm_liveness \
hipe_llvm_main \
hipe_llvm_merge \
- hipe_llvm_liveness
+ hipe_rtl_to_llvm
else
HIPE_MODULES =
endif
@@ -71,7 +71,7 @@ TARGET_FILES= $(MODULES:%=$(EBIN)/%.$(EMULATOR))
include ../native.mk
-ERL_COMPILE_FLAGS += +inline #+warn_missing_spec
+ERL_COMPILE_FLAGS += +inline +warn_export_vars #+warn_missing_spec
# if in 32 bit backend define BIT32 symbol
ARCH = $(shell echo $(TARGET) | sed 's/^\(x86_64\)-.*/64bit/')
@@ -108,3 +108,11 @@ release_spec: opt
$(INSTALL_DATA) $(TARGET_FILES) $(RELSYSDIR)/ebin
release_docs_spec:
+
+$(EBIN)/elf_format.beam: elf_format.hrl elf32_format.hrl elf64_format.hrl
+$(EBIN)/hipe_llvm_main.beam: ../../kernel/src/hipe_ext_format.hrl \
+ hipe_llvm_arch.hrl elf_format.hrl elf32_format.hrl elf64_format.hrl
+$(EBIN)/hipe_llvm_merge.beam: ../../kernel/src/hipe_ext_format.hrl \
+ hipe_llvm_arch.hrl ../rtl/hipe_literals.hrl ../main/hipe.hrl
+$(EBIN)/hipe_rtl_to_llvm.beam: ../rtl/hipe_rtl.hrl ../rtl/hipe_literals.hrl \
+ hipe_llvm_arch.hrl
diff --git a/lib/hipe/llvm/elf_format.erl b/lib/hipe/llvm/elf_format.erl
index 260da9b5e6..8cf6ea6250 100644
--- a/lib/hipe/llvm/elf_format.erl
+++ b/lib/hipe/llvm/elf_format.erl
@@ -13,21 +13,20 @@
-module(elf_format).
--export([get_tab_entries/1,
- %% Relocations
- get_rodata_relocs/1,
- get_text_relocs/1,
+-export([%% Relocations
extract_rela/2,
- get_rela_addends/1,
%% Note
extract_note/2,
%% Executable code
extract_text/1,
%% GCC Exception Table
- get_exn_handlers/1,
- %% Misc.
- set_architecture_flag/1,
- is64bit/0
+ get_exn_handlers/1,
+ %% Symbols
+ elf_symbols/1,
+ %% Sections
+ section_contents/2,
+ %% Main interface
+ read/1
]).
-include("elf_format.hrl").
@@ -36,27 +35,57 @@
%% Types
%%------------------------------------------------------------------------------
--type elf() :: binary().
-
--type lp() :: non_neg_integer(). % landing pad
--type num() :: non_neg_integer().
--type index() :: non_neg_integer().
--type offset() :: non_neg_integer().
--type size() :: non_neg_integer().
--type start() :: non_neg_integer().
-
--type info() :: index().
--type nameoff() :: offset().
--type valueoff() :: offset().
-
--type name() :: string().
--type name_size() :: {name(), size()}.
--type name_sizes() :: [name_size()].
+-export_type([elf/0
+ ,addend/0
+ ,bitflags/0
+ ,name/0
+ ,offset/0
+ ,reloc_type/0
+ ,shdr_type/0
+ ,size/0
+ ,sym_bind/0
+ ,sym_type/0
+ ,valueoff/0
+ ]).
+
+-type bitflags() :: non_neg_integer().
+-type index() :: non_neg_integer().
+-type lp() :: non_neg_integer(). % landing pad
+-type num() :: non_neg_integer().
+-type offset() :: non_neg_integer().
+-type size() :: non_neg_integer().
+-type start() :: non_neg_integer().
+
+-type addend() :: integer() | undefined.
+-type name() :: string().
+-type shdr_type() :: 'null' | 'progbits' | 'symtab' | 'strtab' | 'rela'
+ | 'hash' | 'dynamic' | 'note' | 'nobits' | 'rel' | 'shlib'
+ | 'dynsym' | {os, ?SHT_LOOS..?SHT_HIOS}
+ | {proc, ?SHT_LOPROC..?SHT_HIPROC}.
+-type sym_bind() :: 'local' | 'global' | 'weak' | {os, ?STB_LOOS..?STB_HIOS}
+ | {proc, ?STB_LOPROC..?STB_HIPROC}.
+-type sym_type() :: 'notype' | 'object' | 'func' | 'section' | 'file'
+ | {os, ?STT_LOOS..?STT_HIOS}
+ | {proc, ?STT_LOPROC..?STT_HIPROC}.
+-type valueoff() :: offset().
+
+-ifdef(BIT32). % 386
+-type reloc_type() :: '32' | 'pc32'.
+-else. % X86_64
+-type reloc_type() :: '64' | 'pc32' | '32'.
+-endif.
%%------------------------------------------------------------------------------
%% Abstract Data Types and Accessors for ELF Structures.
%%------------------------------------------------------------------------------
+-record(elf, {file :: binary()
+ ,sections :: [elf_shdr()]
+ ,sec_nam :: #{string() => elf_shdr()}
+ ,symbols :: undefined | [elf_sym()]
+ }).
+-opaque elf() :: #elf{}.
+
%% File header
-record(elf_ehdr, {ident, % ELF identification
type, % Object file type
@@ -85,42 +114,6 @@
}).
%% -type elf_ehdr_ident() :: #elf_ehdr_ident{}.
-%% Section header entries
--record(elf_shdr, {name, % Section name
- type, % Section type
- flags, % Section attributes
- addr, % Virtual address in memory
- offset :: offset(), % Offset in file
- size :: size(), % Size of section
- link, % Link to other section
- info, % Miscellaneous information
- addralign, % Address align boundary
- entsize % Size of entries, if section has table
- }).
-%% -type elf_shdr() :: #elf_shdr{}.
-
-%% Symbol table entries
--record(elf_sym, {name :: nameoff(), % Symbol name
- info, % Type and Binding attributes
- other, % Reserved
- shndx, % Section table index
- value :: valueoff(), % Symbol value
- size :: size() % Size of object
- }).
--type elf_sym() :: #elf_sym{}.
-
-%% Relocations
--record(elf_rel, {r_offset :: offset(), % Address of reference
- r_info :: info() % Symbol index and type of relocation
- }).
--type elf_rel() :: #elf_rel{}.
-
--record(elf_rela, {r_offset :: offset(), % Address of reference
- r_info :: info(), % Symbol index and type of relocation
- r_addend :: offset() % Constant part of expression
- }).
--type elf_rela() :: #elf_rela{}.
-
%% %% Program header table
%% -record(elf_phdr, {type, % Type of segment
%% flags, % Segment attributes
@@ -199,44 +192,19 @@ mk_shdr(Name, Type, Flags, Addr, Offset, Size, Link, Info, AddrAlign, EntSize) -
%%%-------------------------
%%% Symbol Table Entries
%%%-------------------------
-mk_sym(Name, Info, Other, Shndx, Value, Size) ->
- #elf_sym{name = Name, info = Info, other = Other,
- shndx = Shndx, value = Value, size = Size}.
-
--spec sym_name(elf_sym()) -> nameoff().
-sym_name(#elf_sym{name = Name}) -> Name.
+mk_sym(Name, Bind, Type, Section, Value, Size) ->
+ #elf_sym{name = Name, bind = Bind, type = Type,
+ section = Section, value = Value, size = Size}.
+%% -spec sym_name(elf_sym()) -> string().
+%% sym_name(#elf_sym{name = Name}) -> Name.
+%%
%% -spec sym_value(elf_sym()) -> valueoff().
%% sym_value(#elf_sym{value = Value}) -> Value.
%%
%% -spec sym_size(elf_sym()) -> size().
%% sym_size(#elf_sym{size = Size}) -> Size.
-%%%-------------------------
-%%% Relocations
-%%%-------------------------
--spec mk_rel(offset(), info()) -> elf_rel().
-mk_rel(Offset, Info) ->
- #elf_rel{r_offset = Offset, r_info = Info}.
-
-%% The following two functions capitalize on the fact that the two kinds of
-%% relocation records (for 32- and 64-bit architectures have similar structure.
-
--spec r_offset(elf_rel() | elf_rela()) -> offset().
-r_offset(#elf_rel{r_offset = Offset}) -> Offset;
-r_offset(#elf_rela{r_offset = Offset}) -> Offset.
-
--spec r_info(elf_rel() | elf_rela()) -> info().
-r_info(#elf_rel{r_info = Info}) -> Info;
-r_info(#elf_rela{r_info = Info}) -> Info.
-
--spec mk_rela(offset(), info(), offset()) -> elf_rela().
-mk_rela(Offset, Info, Addend) ->
- #elf_rela{r_offset = Offset, r_info = Info, r_addend = Addend}.
-
--spec rela_addend(elf_rela()) -> offset().
-rela_addend(#elf_rela{r_addend = Addend}) -> Addend.
-
%% %%%-------------------------
%% %%% GCC exception table
%% %%%-------------------------
@@ -263,15 +231,30 @@ mk_gccexntab_callsite(Start, Size, LP, Action) ->
%% gccexntab_callsite_lp(#elf_gccexntab_callsite{lp = LP}) -> LP.
%%------------------------------------------------------------------------------
+%% Main interface function
+%%------------------------------------------------------------------------------
+
+%% @doc Parses an ELF file.
+-spec read(binary()) -> elf().
+read(ElfBin) ->
+ Header = extract_header(ElfBin),
+ [_UndefinedSec|Sections] = extract_shdrtab(ElfBin, Header),
+ SecNam = maps:from_list(
+ [{Name, Sec} || Sec = #elf_shdr{name=Name} <- Sections]),
+ Elf0 = #elf{file=ElfBin, sections=Sections, sec_nam=SecNam},
+ [_UndefinedSym|Symbols] = extract_symtab(Elf0, extract_strtab(Elf0)),
+ Elf0#elf{symbols=Symbols}.
+
+%%------------------------------------------------------------------------------
%% Functions to manipulate the ELF File Header
%%------------------------------------------------------------------------------
%% @doc Extracts the File Header from an ELF formatted object file. Also sets
%% the ELF class variable in the process dictionary (used by many functions
%% in this and hipe_llvm_main modules).
--spec extract_header(elf()) -> elf_ehdr().
-extract_header(Elf) ->
- Ehdr_bin = get_binary_segment(Elf, 0, ?ELF_EHDR_SIZE),
+-spec extract_header(binary()) -> elf_ehdr().
+extract_header(ElfBin) ->
+ Ehdr_bin = get_binary_segment(ElfBin, 0, ?ELF_EHDR_SIZE),
<< %% Structural pattern matching on fields.
Ident_bin:?E_IDENT_SIZE/binary,
Type:?bits(?E_TYPE_SIZE)/integer-little,
@@ -300,19 +283,28 @@ extract_header(Elf) ->
%% Functions to manipulate Section Header Entries
%%------------------------------------------------------------------------------
+-type shdrtab() :: [elf_shdr()].
+
%% @doc Extracts the Section Header Table from an ELF formated Object File.
-extract_shdrtab(Elf) ->
- %% Extract File Header to get info about Section Header Offset (in bytes),
- %% Entry Size (in bytes) and Number of entries
- #elf_ehdr{shoff = ShOff, shentsize = ShEntsize, shnum = ShNum} =
- extract_header(Elf),
+-spec extract_shdrtab(binary(), elf_ehdr()) -> shdrtab().
+extract_shdrtab(ElfBin, #elf_ehdr{shoff=ShOff, shentsize=?ELF_SHDRENTRY_SIZE,
+ shnum=ShNum, shstrndx=ShStrNdx}) ->
%% Get actual Section header table (binary)
- ShdrBin = get_binary_segment(Elf, ShOff, ShNum * ShEntsize),
- get_shdrtab_entries(ShdrBin, []).
-
-get_shdrtab_entries(<<>>, Acc) ->
- lists:reverse(Acc);
-get_shdrtab_entries(ShdrBin, Acc) ->
+ ShdrBin = get_binary_segment(ElfBin, ShOff, ShNum * ?ELF_SHDRENTRY_SIZE),
+ %% We need to lookup the offset and size of the section header string table
+ %% before we can fully parse the section table. We compute its offset and
+ %% extract the fields we need here.
+ ShStrEntryOffset = ShStrNdx * ?ELF_SHDRENTRY_SIZE,
+ <<_:ShStrEntryOffset/binary, _:?SH_NAME_SIZE/binary,
+ _:?SH_TYPE_SIZE/binary, _:?SH_FLAGS_SIZE/binary, _:?SH_ADDR_SIZE/binary,
+ ShStrOffset:?bits(?SH_OFFSET_SIZE)/little,
+ ShStrSize:?bits(?SH_SIZE_SIZE)/little,
+ _/binary>> = ShdrBin,
+ ShStrTab = parse_strtab(get_binary_segment(ElfBin, ShStrOffset, ShStrSize)),
+ get_shdrtab_entries(ShdrBin, ShStrTab).
+
+get_shdrtab_entries(<<>>, _ShStrTab) -> [];
+get_shdrtab_entries(ShdrTab, ShStrTab) ->
<<%% Structural pattern matching on fields.
Name:?bits(?SH_NAME_SIZE)/integer-little,
Type:?bits(?SH_TYPE_SIZE)/integer-little,
@@ -324,205 +316,166 @@ get_shdrtab_entries(ShdrBin, Acc) ->
Info:?bits(?SH_INFO_SIZE)/integer-little,
Addralign:?bits(?SH_ADDRALIGN_SIZE)/integer-little,
Entsize:?bits(?SH_ENTSIZE_SIZE)/integer-little,
- MoreShdrE/binary
- >> = ShdrBin,
- ShdrE = mk_shdr(Name, Type, Flags, Addr, Offset,
- Size, Link, Info, Addralign, Entsize),
- get_shdrtab_entries(MoreShdrE, [ShdrE | Acc]).
-
-%% @doc Extracts a specific Entry of a Section Header Table. This function
-%% takes as argument the Section Header Table (`SHdrTab') and the entry's
-%% serial number (`EntryNum') and returns the entry (`shdr').
-get_shdrtab_entry(SHdrTab, EntryNum) ->
- lists:nth(EntryNum + 1, SHdrTab).
-
-%%------------------------------------------------------------------------------
-%% Functions to manipulate Section Header String Table
-%%------------------------------------------------------------------------------
-
-%% @doc Extracts the Section Header String Table. This section is not a known
-%% ELF Object File section. It is just a "hidden" table storing the
-%% names of all sections that exist in current object file.
--spec extract_shstrtab(elf()) -> [name()].
-extract_shstrtab(Elf) ->
- %% Extract Section Name String Table Index
- #elf_ehdr{shstrndx = ShStrNdx} = extract_header(Elf),
- ShHdrTab = extract_shdrtab(Elf),
- %% Extract Section header entry and get actual Section-header String Table
- #elf_shdr{offset = ShStrOffset, size = ShStrSize} =
- get_shdrtab_entry(ShHdrTab, ShStrNdx),
- case get_binary_segment(Elf, ShStrOffset, ShStrSize) of
- <<>> -> %% Segment empty
- [];
- ShStrTab -> %% Convert to string table
- [Name || {Name, _Size} <- get_names(ShStrTab)]
- end.
-
-%%------------------------------------------------------------------------------
-
--spec get_tab_entries(elf()) -> [{name(), valueoff(), size()}].
-get_tab_entries(Elf) ->
- SymTab = extract_symtab(Elf),
- Ts = [{Name, Value, Size div ?ELF_XWORD_SIZE}
- || #elf_sym{name = Name, value = Value, size = Size} <- SymTab,
- Name =/= 0],
- {NameIndices, ValueOffs, Sizes} = lists:unzip3(Ts),
- %% Find the names of the symbols.
- %% Get string table entries ([{Name, Offset in strtab section}]). Keep only
- %% relevant entries:
- StrTab = extract_strtab(Elf),
- Relevant = [get_strtab_entry(StrTab, Off) || Off <- NameIndices],
- %% Zip back to {Name, ValueOff, Size}
- lists:zip3(Relevant, ValueOffs, Sizes).
+ Rest/binary
+ >> = ShdrTab,
+ Entry = mk_shdr(get_strtab_entry(Name, ShStrTab), decode_shdr_type(Type),
+ Flags, Addr, Offset, Size, Link, Info, Addralign, Entsize),
+ [Entry | get_shdrtab_entries(Rest, ShStrTab)].
+
+decode_shdr_type(?SHT_NULL) -> 'null';
+decode_shdr_type(?SHT_PROGBITS) -> 'progbits';
+decode_shdr_type(?SHT_SYMTAB) -> 'symtab';
+decode_shdr_type(?SHT_STRTAB) -> 'strtab';
+decode_shdr_type(?SHT_RELA) -> 'rela';
+decode_shdr_type(?SHT_HASH) -> 'hash'; %unused
+decode_shdr_type(?SHT_DYNAMIC) -> 'dynamic'; %unused
+decode_shdr_type(?SHT_NOTE) -> 'note'; %unused
+decode_shdr_type(?SHT_NOBITS) -> 'nobits';
+decode_shdr_type(?SHT_REL) -> 'rel';
+decode_shdr_type(?SHT_SHLIB) -> 'shlib'; %unused
+decode_shdr_type(?SHT_DYNSYM) -> 'dynsym'; %unused
+decode_shdr_type(OS) when ?SHT_LOOS =< OS, OS =< ?SHT_HIOS -> {os, OS};
+decode_shdr_type(Proc) when ?SHT_LOPROC =< Proc, Proc =< ?SHT_HIPROC ->
+ {proc, Proc}.
+
+-spec elf_section(non_neg_integer(), elf()) -> undefined | abs | elf_shdr().
+elf_section(0, #elf{}) -> undefined;
+elf_section(?SHN_ABS, #elf{}) -> abs;
+elf_section(Index, #elf{sections=SecIdx}) ->
+ lists:nth(Index, SecIdx).
+
+%% Reads the contents of a section from an object
+-spec section_contents(elf_shdr(), elf()) -> binary().
+section_contents(#elf_shdr{offset=Offset, size=Size}, #elf{file=ElfBin}) ->
+ get_binary_segment(ElfBin, Offset, Size).
%%------------------------------------------------------------------------------
%% Functions to manipulate Symbol Table
%%------------------------------------------------------------------------------
%% @doc Function that extracts Symbol Table from an ELF Object file.
-extract_symtab(Elf) ->
- Symtab_bin = extract_segment_by_name(Elf, ?SYMTAB),
- get_symtab_entries(Symtab_bin, []).
-
-get_symtab_entries(<<>>, Acc) ->
- lists:reverse(Acc);
-get_symtab_entries(Symtab_bin, Acc) ->
- <<SymE_bin:?ELF_SYM_SIZE/binary, MoreSymE/binary>> = Symtab_bin,
- case is64bit() of
- true ->
- <<%% Structural pattern matching on fields.
- Name:?bits(?ST_NAME_SIZE)/integer-little,
- Info:?bits(?ST_INFO_SIZE)/integer-little,
- Other:?bits(?ST_OTHER_SIZE)/integer-little,
- Shndx:?bits(?ST_SHNDX_SIZE)/integer-little,
- Value:?bits(?ST_VALUE_SIZE)/integer-little,
- Size:?bits(?ST_SIZE_SIZE)/integer-little
- >> = SymE_bin;
- false ->
- << %% Same fields in different order:
- Name:?bits(?ST_NAME_SIZE)/integer-little,
- Value:?bits(?ST_VALUE_SIZE)/integer-little,
- Size:?bits(?ST_SIZE_SIZE)/integer-little,
- Info:?bits(?ST_INFO_SIZE)/integer-little,
- Other:?bits(?ST_OTHER_SIZE)/integer-little,
- Shndx:?bits(?ST_SHNDX_SIZE)/integer-little
- >> = SymE_bin
- end,
- SymE = mk_sym(Name, Info, Other, Shndx, Value, Size),
- get_symtab_entries(MoreSymE, [SymE | Acc]).
-
-%% @doc Extracts a specific entry from the Symbol Table (as binary).
-%% This function takes as arguments the Symbol Table (`SymTab')
-%% and the entry's serial number and returns that entry (`sym').
-get_symtab_entry(SymTab, EntryNum) ->
- lists:nth(EntryNum + 1, SymTab).
+extract_symtab(Elf, StrTab) ->
+ Symtab = extract_segment_by_name(Elf, ?SYMTAB),
+ [parse_sym(Sym, Elf, StrTab) || <<Sym:?ELF_SYM_SIZE/binary>> <= Symtab].
+
+-ifdef(BIT32).
+parse_sym(<<%% Structural pattern matching on fields.
+ Name:?bits(?ST_NAME_SIZE)/integer-little,
+ Value:?bits(?ST_VALUE_SIZE)/integer-little,
+ Size:?bits(?ST_SIZE_SIZE)/integer-little,
+ Info:?bits(?ST_INFO_SIZE)/integer-little,
+ _Other:?bits(?ST_OTHER_SIZE)/integer-little,
+ Shndx:?bits(?ST_SHNDX_SIZE)/integer-little>>,
+ Elf, StrTab) ->
+ mk_sym(get_strtab_entry(Name, StrTab), decode_symbol_bind(?ELF_ST_BIND(Info)),
+ decode_symbol_type(?ELF_ST_TYPE(Info)), elf_section(Shndx, Elf), Value,
+ Size).
+-else.
+parse_sym(<<%% Same fields in different order:
+ Name:?bits(?ST_NAME_SIZE)/integer-little,
+ Info:?bits(?ST_INFO_SIZE)/integer-little,
+ _Other:?bits(?ST_OTHER_SIZE)/integer-little,
+ Shndx:?bits(?ST_SHNDX_SIZE)/integer-little,
+ Value:?bits(?ST_VALUE_SIZE)/integer-little,
+ Size:?bits(?ST_SIZE_SIZE)/integer-little>>,
+ Elf, StrTab) ->
+ mk_sym(get_strtab_entry(Name, StrTab), decode_symbol_bind(?ELF_ST_BIND(Info)),
+ decode_symbol_type(?ELF_ST_TYPE(Info)), elf_section(Shndx, Elf), Value,
+ Size).
+-endif.
+
+decode_symbol_bind(?STB_LOCAL) -> 'local';
+decode_symbol_bind(?STB_GLOBAL) -> 'global';
+decode_symbol_bind(?STB_WEAK) -> 'weak'; %unused
+decode_symbol_bind(OS) when ?STB_LOOS =< OS, OS =< ?STB_HIOS -> {os, OS};
+decode_symbol_bind(Proc) when ?STB_LOPROC =< Proc, Proc =< ?STB_HIPROC ->
+ {proc, Proc}.
+
+decode_symbol_type(?STT_NOTYPE) -> 'notype';
+decode_symbol_type(?STT_OBJECT) -> 'object';
+decode_symbol_type(?STT_FUNC) -> 'func';
+decode_symbol_type(?STT_SECTION) -> 'section';
+decode_symbol_type(?STT_FILE) -> 'file';
+decode_symbol_type(OS) when ?STT_LOOS =< OS, OS =< ?STT_HIOS -> {os, OS};
+decode_symbol_type(Proc) when ?STT_LOPROC =< Proc, Proc =< ?STT_HIPROC ->
+ {proc, Proc}.
+
+%% @doc Extracts a specific entry from the Symbol Table.
+-spec elf_symbol(0, elf()) -> undefined;
+ (pos_integer(), elf()) -> elf_sym().
+elf_symbol(0, #elf{}) -> undefined;
+elf_symbol(Index, #elf{symbols=Symbols}) -> lists:nth(Index, Symbols).
+
+-spec elf_symbols(elf()) -> [elf_sym()].
+elf_symbols(#elf{symbols=Symbols}) -> Symbols.
%%------------------------------------------------------------------------------
%% Functions to manipulate String Table
%%------------------------------------------------------------------------------
+%% ADT: get_strtab_entry/1 must be used to consume this type.
+-type strtab() :: binary().
+
%% @doc Extracts String Table from an ELF formated Object File.
--spec extract_strtab(elf()) -> [{string(), offset()}].
+-spec extract_strtab(elf()) -> strtab().
extract_strtab(Elf) ->
- Strtab_bin = extract_segment_by_name(Elf, ?STRTAB),
- NamesSizes = get_names(Strtab_bin),
- make_offsets(NamesSizes).
-
-%% @doc Returns the name of the symbol at the given offset. The string table
-%% contains entries of the form {Name, Offset}. If no such offset exists
-%% returns the empty string (`""').
-%% XXX: There might be a bug here because of the "compact" saving the ELF
-%% format uses: e.g. only stores ".rela.text" for ".rela.text" and ".text".
-get_strtab_entry(Strtab, Offset) ->
- case lists:keyfind(Offset, 2, Strtab) of
- {Name, Offset} -> Name;
- false -> ""
- end.
+ parse_strtab(extract_segment_by_name(Elf, ?STRTAB)).
+
+-spec parse_strtab(binary()) -> strtab().
+parse_strtab(StrTabSectionBin) -> StrTabSectionBin.
+
+%% @doc Returns the name of the symbol at the given offset.
+-spec get_strtab_entry(non_neg_integer(), strtab()) -> string().
+get_strtab_entry(Offset, StrTab) ->
+ <<_:Offset/binary, StrBin/binary>> = StrTab,
+ bin_get_string(StrBin).
+
+%% @doc Extracts a null-terminated string from a binary.
+-spec bin_get_string(binary()) -> string().
+%% FIXME: No regard for encoding (just happens to work for ASCII and Latin-1)
+bin_get_string(<<0, _/binary>>) -> [];
+bin_get_string(<<Char, Rest/binary>>) -> [Char|bin_get_string(Rest)].
%%------------------------------------------------------------------------------
%% Functions to manipulate Relocations
%%------------------------------------------------------------------------------
-%% @doc This function gets as argument an ELF binary file and returns a list
-%% with all .rela.rodata labels (i.e. constants and literals in code)
-%% or an empty list if no ".rela.rodata" section exists in code.
--spec get_rodata_relocs(elf()) -> [offset()].
-get_rodata_relocs(Elf) ->
- case is64bit() of
- true ->
- %% Only care about the addends (== offsets):
- get_rela_addends(extract_rela(Elf, ?RODATA));
- false ->
- %% Find offsets hardcoded in ".rodata" entry
- %%XXX: Treat all 0s as padding and skip them!
- [SkipPadding || SkipPadding <- extract_rodata(Elf), SkipPadding =/= 0]
- end.
-
--spec get_rela_addends([elf_rela()]) -> [offset()].
-get_rela_addends(RelaEntries) ->
- [rela_addend(E) || E <- RelaEntries].
-
-%% @doc Extract a list of the form `[{SymbolName, Offset}]' with all relocatable
-%% symbols and their offsets in the code from the ".text" section.
--spec get_text_relocs(elf()) -> [{name(), offset()}].
-get_text_relocs(Elf) ->
- %% Only care about the symbol table index and the offset:
- NameOffsetTemp = [{?ELF_R_SYM(r_info(E)), r_offset(E)}
- || E <- extract_rela(Elf, ?TEXT)],
- {NameIndices, ActualOffsets} = lists:unzip(NameOffsetTemp),
- %% Find the names of the symbols:
- %%
- %% Get those symbol table entries that are related to Text relocs:
- Symtab = extract_symtab(Elf),
- SymtabEs = [get_symtab_entry(Symtab, Index) || Index <- NameIndices],
- %XXX: not zero-indexed!
- %% Symbol table entries contain the offset of the name of the symbol in
- %% String Table:
- SymtabEs2 = [sym_name(E) || E <- SymtabEs], %XXX: Do we need to sort SymtabE?
- %% Get string table entries ([{Name, Offset in strtab section}]). Keep only
- %% relevant entries:
- Strtab = extract_strtab(Elf),
- Relevant = [get_strtab_entry(Strtab, Off) || Off <- SymtabEs2],
- %% Zip back with actual offsets:
- lists:zip(Relevant, ActualOffsets).
-
%% @doc Extract the Relocations segment for section `Name' (that is passed
%% as second argument) from an ELF formated Object file binary.
--spec extract_rela(elf(), name()) -> [elf_rel() | elf_rela()].
+-spec extract_rela(elf(), name()) -> [elf_rel()].
+
+-ifdef(BIT32).
extract_rela(Elf, Name) ->
- SegName =
- case is64bit() of
- true -> ?RELA(Name); % ELF-64 uses ".rela"
- false -> ?REL(Name) % ...while ELF-32 uses ".rel"
- end,
- Rela_bin = extract_segment_by_name(Elf, SegName),
- get_rela_entries(Rela_bin, []).
-
-get_rela_entries(<<>>, Acc) ->
- lists:reverse(Acc);
-get_rela_entries(Bin, Acc) ->
- E = case is64bit() of
- true ->
- <<%% Structural pattern matching on fields of a Rela Entry.
- Offset:?bits(?R_OFFSET_SIZE)/integer-little,
- Info:?bits(?R_INFO_SIZE)/integer-little,
- Addend:?bits(?R_ADDEND_SIZE)/integer-little,
- Rest/binary
- >> = Bin,
- mk_rela(Offset, Info, Addend);
- false ->
- <<%% Structural pattern matching on fields of a Rel Entry.
- Offset:?bits(?R_OFFSET_SIZE)/integer-little,
- Info:?bits(?R_INFO_SIZE)/integer-little,
- Rest/binary
- >> = Bin,
- mk_rel(Offset, Info)
- end,
- get_rela_entries(Rest, [E | Acc]).
-
-%% %% @doc Extract the `EntryNum' (serial number) Relocation Entry.
-%% get_rela_entry(Rela, EntryNum) ->
-%% lists:nth(EntryNum + 1, Rela).
+ SecData = extract_segment_by_name(Elf, Name),
+ [#elf_rel{offset=Offset, symbol=elf_symbol(?ELF_R_SYM(Info), Elf),
+ type=decode_reloc_type(?ELF_R_TYPE(Info)),
+ addend=read_implicit_addend(Offset, SecData)}
+ || <<Offset:?bits(?R_OFFSET_SIZE)/little,
+ Info:?bits(?R_INFO_SIZE)/little % 386 uses ".rel"
+ >> <= extract_segment_by_name(Elf, ?REL(Name))].
+
+%% The only types HiPE knows how to patch
+decode_reloc_type(1) -> '32';
+decode_reloc_type(2) -> 'pc32'.
+
+read_implicit_addend(Offset, Section) ->
+ %% All x86 relocation types uses 'word32' relocation fields; i.e. 32-bit LE.
+ <<_:Offset/binary, Addend:32/signed-little, _/binary>> = Section,
+ Addend.
+
+-else. %% BIT32
+extract_rela(Elf, Name) ->
+ [#elf_rel{offset=Offset, symbol=elf_symbol(?ELF_R_SYM(Info), Elf),
+ type=decode_reloc_type(?ELF_R_TYPE(Info)), addend=Addend}
+ || <<Offset:?bits(?R_OFFSET_SIZE)/little,
+ Info:?bits(?R_INFO_SIZE)/little,
+ Addend:?bits(?R_ADDEND_SIZE)/signed-little % X86_64 uses ".rela"
+ >> <= extract_segment_by_name(Elf, ?RELA(Name))].
+
+decode_reloc_type(1) -> '64';
+decode_reloc_type(2) -> 'pc32';
+decode_reloc_type(10) -> '32'.
+-endif. %% BIT32
%%------------------------------------------------------------------------------
%% Functions to manipulate Executable Code segment
@@ -615,19 +568,6 @@ get_gccexntab_callsites(CSTab, Acc) ->
get_gccexntab_callsites(More, [GccCS | Acc]).
%%------------------------------------------------------------------------------
-%% Functions to manipulate Read-only Data (.rodata)
-%%------------------------------------------------------------------------------
-extract_rodata(Elf) ->
- Rodata_bin = extract_segment_by_name(Elf, ?RODATA),
- get_rodata_entries(Rodata_bin, []).
-
-get_rodata_entries(<<>>, Acc) ->
- lists:reverse(Acc);
-get_rodata_entries(Rodata_bin, Acc) ->
- <<Num:?bits(?ELF_ADDR_SIZE)/integer-little, More/binary>> = Rodata_bin,
- get_rodata_entries(More, [Num | Acc]).
-
-%%------------------------------------------------------------------------------
%% Helper functions
%%------------------------------------------------------------------------------
@@ -647,107 +587,15 @@ get_binary_segment(Bin, Offset, Size) ->
%% There are handy macros defined in elf_format.hrl for all Standard
%% Section Names.
-spec extract_segment_by_name(elf(), string()) -> binary().
-extract_segment_by_name(Elf, SectionName) ->
- %% Extract Section Header Table and Section Header String Table from binary
- SHdrTable = extract_shdrtab(Elf),
- Names = extract_shstrtab(Elf),
- %% Zip to a list of (Name,ShdrE)
- [_Zero | ShdrEs] = lists:keysort(2, SHdrTable), % Skip first entry (zeros).
- L = lists:zip(Names, ShdrEs),
+extract_segment_by_name(#elf{file=ElfBin, sec_nam=SecNam}, SectionName) ->
%% Find Section Header Table entry by name
- case lists:keyfind(SectionName, 1, L) of
- {SectionName, ShdrE} -> %% Note: Same name.
- #elf_shdr{offset = Offset, size = Size} = ShdrE,
- get_binary_segment(Elf, Offset, Size);
- false -> %% Not found.
+ case SecNam of
+ #{SectionName := #elf_shdr{offset=Offset, size=Size}} ->
+ get_binary_segment(ElfBin, Offset, Size);
+ #{} -> %% Not found.
<<>>
end.
-%% @doc Extracts a list of strings with (zero-separated) names from a binary.
-%% Returns tuples of `{Name, Size}'.
-%% XXX: Skip trailing 0.
--spec get_names(<<_:8,_:_*8>>) -> name_sizes().
-get_names(<<0, Bin/binary>>) ->
- NamesSizes = get_names(Bin, []),
- fix_names(NamesSizes, []).
-
-get_names(<<>>, Acc) ->
- lists:reverse(Acc);
-get_names(Bin, Acc) ->
- {Name, MoreNames} = bin_get_string(Bin),
- get_names(MoreNames, [{Name, length(Name)} | Acc]).
-
-%% @doc Fix names:
-%% e.g. If ".rela.text" exists, ".text" does not. Same goes for
-%% ".rel.text". In that way, the Section Header String Table is more
-%% compact. Add ".text" just *before* the corresponding rela-field,
-%% etc.
--spec fix_names(name_sizes(), name_sizes()) -> name_sizes().
-fix_names([], Acc) ->
- lists:reverse(Acc);
-fix_names([{Name, Size}=T | Names], Acc) ->
- case is64bit() of
- true ->
- case string:str(Name, ".rela") =:= 1 of
- true -> %% Name starts with ".rela":
- Section = string:substr(Name, 6),
- fix_names(Names, [{Section, Size - 5}
- | [T | Acc]]); % XXX: Is order ok? (".text"
- % always before ".rela.text")
- false -> %% Name does not start with ".rela":
- fix_names(Names, [T | Acc])
- end;
- false ->
- case string:str(Name, ".rel") =:= 1 of
- true -> %% Name starts with ".rel":
- Section = string:substr(Name, 5),
- fix_names(Names, [{Section, Size - 4}
- | [T | Acc]]); % XXX: Is order ok? (".text"
- % always before ".rela.text")
- false -> %% Name does not start with ".rel":
- fix_names(Names, [T | Acc])
- end
- end.
-
-
-%% @doc A function that byte-reverses a binary. This might be needed because of
-%% little (fucking!) endianess.
--spec bin_reverse(binary()) -> binary().
-bin_reverse(Bin) when is_binary(Bin) ->
- bin_reverse(Bin, <<>>).
-
--spec bin_reverse(binary(), binary()) -> binary().
-bin_reverse(<<>>, Acc) ->
- Acc;
-bin_reverse(<<Head, More/binary>>, Acc) ->
- bin_reverse(More, <<Head, Acc/binary>>).
-
-%% @doc A function that extracts a null-terminated string from a binary. It
-%% returns the found string along with the rest of the binary.
--spec bin_get_string(binary()) -> {string(), binary()}.
-bin_get_string(Bin) ->
- bin_get_string(Bin, <<>>).
-
-bin_get_string(<<>>, BinAcc) ->
- Bin = bin_reverse(BinAcc), % little endian!
- {binary_to_list(Bin), <<>>};
-bin_get_string(<<0, MoreBin/binary>>, BinAcc) ->
- Bin = bin_reverse(BinAcc), % little endian!
- {binary_to_list(Bin), MoreBin};
-bin_get_string(<<Letter, Tail/binary>>, BinAcc) ->
- bin_get_string(Tail, <<Letter, BinAcc/binary>>).
-
-%% @doc
-make_offsets(NamesSizes) ->
- {Names, Sizes} = lists:unzip(NamesSizes),
- Offsets = make_offsets_from_sizes(Sizes, 1, []),
- lists:zip(Names, Offsets).
-
-make_offsets_from_sizes([], _, Acc) ->
- lists:reverse(Acc);
-make_offsets_from_sizes([Size | Sizes], Cur, Acc) ->
- make_offsets_from_sizes(Sizes, Size+Cur+1, [Cur | Acc]). % For the "."!
-
%% @doc Little-Endian Base 128 (LEB128) Decoder
%% This function extracts the <b>first</b> LEB128-encoded integer in a
%% binary and returns that integer along with the remaining binary. This is
@@ -770,21 +618,3 @@ leb128_decode(LebNum, NoOfBits, Acc) ->
<<Num:Size/integer>> = <<NextBundle:7/bits, Acc/bits>>,
{Num, MoreLebNums}
end.
-
-%% @doc Extract ELF Class from ELF header and export symbol to process
-%% dictionary.
--spec set_architecture_flag(elf()) -> 'ok'.
-set_architecture_flag(Elf) ->
- %% Extract information about ELF Class from ELF Header
- <<16#7f, $E, $L, $F, EI_Class, _MoreHeader/binary>>
- = get_binary_segment(Elf, 0, ?ELF_EHDR_SIZE),
- put(elf_class, EI_Class),
- ok.
-
-%% @doc Read from object file header if the file class is ELF32 or ELF64.
--spec is64bit() -> boolean().
-is64bit() ->
- case get(elf_class) of
- ?ELFCLASS64 -> true;
- ?ELFCLASS32 -> false
- end.
diff --git a/lib/hipe/llvm/elf_format.hrl b/lib/hipe/llvm/elf_format.hrl
index 7a3cdfead6..57a36f0c3e 100644
--- a/lib/hipe/llvm/elf_format.hrl
+++ b/lib/hipe/llvm/elf_format.hrl
@@ -486,3 +486,43 @@
%% Misc.
%%------------------------------------------------------------------------------
-define(bits(Bytes), ((Bytes) bsl 3)).
+
+%%------------------------------------------------------------------------------
+%% Exported record and type declarations for 'elf_format' module
+%%------------------------------------------------------------------------------
+
+%% Section header entries
+-record(elf_shdr,
+ {name :: elf_format:name() % Section name
+ ,type :: elf_format:shdr_type() % Section type
+ ,flags :: elf_format:bitflags() % Section attributes
+ ,addr :: elf_format:offset() % Virtual address in memory
+ ,offset :: elf_format:offset() % Offset in file
+ ,size :: elf_format:size() % Size of section
+ ,link :: non_neg_integer() % Link to other section
+ ,info :: non_neg_integer() % Miscellaneous information
+ ,addralign :: elf_format:size() % Address align boundary
+ ,entsize :: elf_format:size() % Size of entries, if section has
+ % table
+ }).
+-type elf_shdr() :: #elf_shdr{}.
+
+%% Symbol table entries
+-record(elf_sym,
+ {name :: elf_format:name() % Symbol name
+ ,bind :: elf_format:sym_bind() % Symbol binding
+ ,type :: elf_format:sym_type() % Symbol type
+ ,value :: elf_format:valueoff() % Symbol value
+ ,size :: elf_format:size() % Size of object
+ ,section :: undefined | abs | elf_shdr()
+ }).
+-type elf_sym() :: #elf_sym{}.
+
+%% Relocations
+-record(elf_rel,
+ {offset :: elf_format:offset()
+ ,type :: elf_format:reloc_type()
+ ,addend :: elf_format:addend()
+ ,symbol :: elf_sym()
+ }).
+-type elf_rel() :: #elf_rel{}.
diff --git a/lib/hipe/llvm/hipe_llvm.erl b/lib/hipe/llvm/hipe_llvm.erl
index 5e33731a2b..c2547dd89e 100644
--- a/lib/hipe/llvm/hipe_llvm.erl
+++ b/lib/hipe/llvm/hipe_llvm.erl
@@ -234,7 +234,7 @@
function_arg_type_list/1
]).
--export([pp_ins_list/2, pp_ins/2]).
+-export([pp_ins_list/3, pp_ins/3]).
%%-----------------------------------------------------------------------------
@@ -765,13 +765,17 @@ function_arg_type_list(#llvm_fun{arg_type_list=Arg_type_list}) ->
%% Pretty-printer Functions
%%----------------------------------------------------------------------------
-%% @doc Pretty-print a list of LLVM instructions to a Device.
-pp_ins_list(_Dev, []) -> ok;
-pp_ins_list(Dev, [I|Is]) ->
- pp_ins(Dev, I),
- pp_ins_list(Dev, Is).
+-type llvm_version() :: {Major :: integer(), Minor :: integer()}.
-pp_ins(Dev, I) ->
+%% @doc Pretty-print a list of LLVM instructions to a Device, using syntax
+%% compatible with LLVM v. Major.Minor
+-spec pp_ins_list(file:io_device(), llvm_version(), [llvm_instr()]) -> ok.
+pp_ins_list(_Dev, _Ver, []) -> ok;
+pp_ins_list(Dev, Ver={_,_}, [I|Is]) ->
+ pp_ins(Dev, Ver, I),
+ pp_ins_list(Dev, Ver, Is).
+
+pp_ins(Dev, Ver, I) ->
case indent(I) of
true -> write(Dev, " ");
false -> ok
@@ -861,7 +865,7 @@ pp_ins(Dev, I) ->
true -> write(Dev, "volatile ");
false -> ok
end,
- pp_type(Dev, load_p_type(I)),
+ pp_dereference_type(Dev, Ver, load_p_type(I)),
write(Dev, [" ", load_pointer(I), " "]),
case load_alignment(I) of
[] -> ok;
@@ -897,7 +901,7 @@ pp_ins(Dev, I) ->
true -> write(Dev, "inbounds ");
false -> ok
end,
- pp_type(Dev, getelementptr_p_type(I)),
+ pp_dereference_type(Dev, Ver, getelementptr_p_type(I)),
write(Dev, [" ", getelementptr_value(I)]),
pp_typed_idxs(Dev, getelementptr_typed_idxs(I)),
write(Dev, "\n");
@@ -958,12 +962,16 @@ pp_ins(Dev, I) ->
pp_args(Dev, fun_def_arglist(I)),
write(Dev, ") "),
pp_options(Dev, fun_def_fn_attrs(I)),
+ case Ver >= {3,7} of false -> ok; true ->
+ write(Dev, "personality i32 (i32, i64, i8*,i8*)* "
+ "@__gcc_personality_v0 ")
+ end,
case fun_def_align(I) of
[] -> ok;
N -> write(Dev, ["align ", N])
end,
write(Dev, "{\n"),
- pp_ins_list(Dev, fun_def_body(I)),
+ pp_ins_list(Dev, Ver, fun_def_body(I)),
write(Dev, "}\n");
#llvm_fun_decl{} ->
write(Dev, "declare "),
@@ -992,8 +1000,12 @@ pp_ins(Dev, I) ->
pp_type(Dev, const_decl_type(I)),
write(Dev, [" ", const_decl_value(I), "\n"]);
#llvm_landingpad{} ->
- write(Dev, "landingpad { i8*, i32 } personality i32 (i32, i64, i8*,i8*)*
- @__gcc_personality_v0 cleanup\n");
+ write(Dev, "landingpad { i8*, i32 } "),
+ case Ver < {3,7} of false -> ok; true ->
+ write(Dev, "personality i32 (i32, i64, i8*,i8*)* "
+ "@__gcc_personality_v0 ")
+ end,
+ write(Dev, "cleanup\n");
#llvm_asm{} ->
write(Dev, [asm_instruction(I), "\n"]);
#llvm_adj_stack{} ->
@@ -1002,13 +1014,27 @@ pp_ins(Dev, I) ->
pp_type(Dev, adj_stack_type(I)),
write(Dev, [" ", adj_stack_offset(I),")\n"]);
#llvm_branch_meta{} ->
- write(Dev, ["!", branch_meta_id(I), " = metadata !{metadata !\"branch_weights\",
- i32 ", branch_meta_true_weight(I), ", i32 ",
- branch_meta_false_weight(I), "}\n"]);
+ write(Dev, ["!", branch_meta_id(I), " = "]),
+ if Ver < {3,6} -> write(Dev, "metadata !{metadata ");
+ Ver >= {3,6} -> write(Dev, "!{ ")
+ end,
+ write(Dev, ["!\"branch_weights\", i32 ", branch_meta_true_weight(I),
+ ", i32 ", branch_meta_false_weight(I), "}\n"]);
Other ->
exit({?MODULE, pp_ins, {"Unknown LLVM instruction", Other}})
end.
+%% @doc Print the type of a dereference in an LLVM instruction using syntax
+%% parsable by the specified LLVM version.
+pp_dereference_type(Dev, Ver, Type) ->
+ case Ver >= {3,7} of
+ false -> ok;
+ true ->
+ pp_type(Dev, pointer_type(Type)),
+ write(Dev, ", ")
+ end,
+ pp_type(Dev, Type).
+
%% @doc Pretty-print a list of types
pp_type_list(_Dev, []) -> ok;
pp_type_list(Dev, [T]) ->
diff --git a/lib/hipe/llvm/hipe_llvm_main.erl b/lib/hipe/llvm/hipe_llvm_main.erl
index 3c24425828..476d6fb49c 100644
--- a/lib/hipe/llvm/hipe_llvm_main.erl
+++ b/lib/hipe/llvm/hipe_llvm_main.erl
@@ -13,7 +13,7 @@
%% chain is invoked in order to produce an object file.
rtl_to_native(MFA, RTL, Roots, Options) ->
%% Compile to LLVM and get Instruction List (along with infos)
- {LLVMCode, RelocsDict, ConstTab} =
+ {LLVMCode, RelocsDict0, ConstTab0} =
hipe_rtl_to_llvm:translate(RTL, Roots),
%% Fix function name to an acceptable LLVM identifier (needed for closures)
{_Module, Fun, Arity} = hipe_rtl_to_llvm:fix_mfa_name(MFA),
@@ -24,34 +24,33 @@ rtl_to_native(MFA, RTL, Roots, Options) ->
%% Extract information from object file
%%
ObjBin = open_object_file(ObjectFile),
- %% Read and set the ELF class
- elf_format:set_architecture_flag(ObjBin),
+ Obj = elf_format:read(ObjBin),
%% Get labels info (for switches and jump tables)
- Labels = elf_format:get_rodata_relocs(ObjBin),
- {Switches, Closures} = get_tables(ObjBin),
+ Labels = elf_format:extract_rela(Obj, ?RODATA),
+ Tables = get_tables(Obj),
%% Associate Labels with Switches and Closures with stack args
- {SwitchInfos, ExposedClosures} =
- correlate_labels(Switches ++ Closures, Labels),
+ {SwitchInfos, ExposedClosures} = correlate_labels(Tables, Labels),
%% SwitchInfos: [{"table_50", [Labels]}]
%% ExposedClosures: [{"table_closures", [Labels]}]
-
+
%% Labelmap contains the offsets of the labels in the code that are
%% used for switch's jump tables
- LabelMap = create_labelmap(MFA, SwitchInfos, RelocsDict),
+ LabelMap = create_labelmap(MFA, SwitchInfos, RelocsDict0),
+ {RelocsDict, ConstTab} = extract_constants(RelocsDict0, ConstTab0, Obj),
%% Get relocation info
- TextRelocs = elf_format:get_text_relocs(ObjBin),
+ TextRelocs = elf_format:extract_rela(Obj, ?TEXT),
%% AccRefs contains the offsets of all references to relocatable symbols in
%% the code:
AccRefs = fix_relocations(TextRelocs, RelocsDict, MFA),
%% Get stack descriptors
- SDescs = get_sdescs(ObjBin),
+ SDescs = get_sdescs(Obj),
%% FixedSDescs are the stack descriptors after correcting calls that have
%% arguments in the stack
FixedSDescs =
fix_stack_descriptors(RelocsDict, AccRefs, SDescs, ExposedClosures),
Refs = AccRefs ++ FixedSDescs,
%% Get binary code from object file
- BinCode = elf_format:extract_text(ObjBin),
+ BinCode = elf_format:extract_text(Obj),
%% Remove temp files (if needed)
ok = remove_temp_folder(Dir, Options),
%% Return the code together with information that will be used in the
@@ -78,7 +77,8 @@ compile_with_llvm(FunName, Arity, LLVMCode, Options, UseBuffer) ->
false -> []
end,
{ok, File_llvm} = file:open(Dir ++ Filename ++ ".ll", OpenOpts),
- hipe_llvm:pp_ins_list(File_llvm, LLVMCode),
+ Ver = hipe:get_llvm_version(), %% Should probably cache this
+ hipe_llvm:pp_ins_list(File_llvm, Ver, LLVMCode),
%% delayed_write can cause file:close not to do a close, hence the two calls
ok = file:close(File_llvm),
__ = file:close(File_llvm),
@@ -158,12 +158,10 @@ trans_optlev_flag(Tool, Options) ->
%%------------------------------------------------------------------------------
%% @doc Get switch table and closure table.
+-spec get_tables(elf_format:elf()) -> [elf_sym()].
get_tables(Elf) ->
- %% Search Symbol Table for an entry with name prefixed with "table_":
- Triples = elf_format:get_tab_entries(Elf),
- Switches = [T || T={"table_" ++ _, _, _} <- Triples],
- Closures = [T || T={"table_closures" ++ _, _, _} <- Switches],
- {Switches, Closures}.
+ %% Search Symbol Table for entries where name is prefixed with "table_":
+ [S || S=#elf_sym{name="table_" ++ _} <- elf_format:elf_symbols(Elf)].
%% @doc This function associates symbols who point to some table of labels with
%% the corresponding offsets of the labels in the code. These tables can
@@ -171,14 +169,12 @@ get_tables(Elf) ->
%% of blocks that contain closure calls with more than ?NR_ARG_REGS.
correlate_labels([], _L) -> {[], []};
correlate_labels(Tables, Labels) ->
- %% Sort "Tables" based on "ValueOffsets"
- OffsetSortedTb = lists:ukeysort(2, Tables),
- %% Unzip offset-sorted list of "Switches"
- {Names, _Offsets, TablesSizeList} = lists:unzip3(OffsetSortedTb),
- %% Associate switch names with labels
- L = split_list(Labels, TablesSizeList),
- %% Zip back! (to [{SwitchName, Values}])
- NamesValues = lists:zip(Names, L),
+ %% Assumes that the relocations are sorted
+ RelocTree = gb_trees:from_orddict(
+ [{Rel#elf_rel.offset, Rel#elf_rel.addend} || Rel <- Labels]),
+ %% Lookup all relocations pertaining to each symbol
+ NamesValues = [{Name, lookup_range(Value, Value+Size, RelocTree)}
+ || #elf_sym{name=Name, value=Value, size=Size} <- Tables],
case lists:keytake("table_closures", 1, NamesValues) of
false -> %% No closures in the code, no closure table
{NamesValues, []};
@@ -186,6 +182,17 @@ correlate_labels(Tables, Labels) ->
{SwitchesNV, ClosureTableNV}
end.
+%% Fetches all values with a key in [Low, Hi)
+-spec lookup_range(_::K, _::K, gb_trees:tree(K,V)) -> [_::V].
+lookup_range(Low, Hi, Tree) ->
+ lookup_range_1(Hi, gb_trees:iterator_from(Low, Tree)).
+
+lookup_range_1(Hi, Iter0) ->
+ case gb_trees:next(Iter0) of
+ {Key, Value, Iter} when Key < Hi -> [Value | lookup_range_1(Hi, Iter)];
+ _ -> []
+ end.
+
%% @doc Create a gb_tree which contains information about the labels that used
%% for switch's jump tables. The keys of the gb_tree are of the form
%% {MFA, Label} and the values are the actual Offsets.
@@ -213,40 +220,80 @@ insert_to_labelmap([{Key, Value}|Rest], LabelMap) ->
insert_to_labelmap(Rest, LabelMap)
end.
+%% Find any LLVM-generated constants and add them to the constant table
+extract_constants(RelocsDict0, ConstTab0, Obj) ->
+ TextRelocs = elf_format:extract_rela(Obj, ?TEXT),
+ AnonConstSections =
+ lists:usort([{Sec, Offset}
+ || #elf_rel{symbol=#elf_sym{type=section, section=Sec},
+ addend=Offset} <- TextRelocs]),
+ lists:foldl(
+ fun({#elf_shdr{name=Name, type=progbits, addralign=Align, entsize=EntSize,
+ size=Size} = Section, Offset}, {RelocsDict1, ConstTab1})
+ when EntSize > 0, 0 =:= Size rem EntSize, 0 =:= Offset rem EntSize ->
+ SectionBin = elf_format:section_contents(Section, Obj),
+ Constant = binary:part(SectionBin, Offset, EntSize),
+ {ConstTab, ConstLbl} =
+ hipe_consttab:insert_binary_const(ConstTab1, Align, Constant),
+ {dict:store({anon, Name, Offset}, {constant, ConstLbl}, RelocsDict1),
+ ConstTab}
+ end, {RelocsDict0, ConstTab0}, AnonConstSections).
+
%% @doc Correlate object file relocation symbols with info from translation to
%% llvm code.
fix_relocations(Relocs, RelocsDict, MFA) ->
- fix_relocs(Relocs, RelocsDict, MFA, []).
-
-fix_relocs([], _, _, RelocAcc) -> RelocAcc;
-fix_relocs([{Name, Offset}|Rs], RelocsDict, {ModName,_,_}=MFA, RelocAcc) ->
+ lists:map(fun(Reloc) -> fix_reloc(Reloc, RelocsDict, MFA) end, Relocs).
+
+%% Relocation types and expected addends for x86 and amd64
+-define(PCREL_T, 'pc32').
+-define(PCREL_A, -4). %% Hard-coded in hipe_x86.c and hipe_amd64.c
+-ifdef(BIT32).
+-define(ABS_T, '32').
+-define(ABS_A, _). %% We support any addend
+-else.
+-define(ABS_T, '64').
+-define(ABS_A, 0).
+-endif.
+
+fix_reloc(#elf_rel{symbol=#elf_sym{name=Name, section=undefined, type=notype},
+ offset=Offset, type=?PCREL_T, addend=?PCREL_A},
+ RelocsDict, {ModName,_,_}) when Name =/= "" ->
case dict:fetch(Name, RelocsDict) of
- {atom, AtomName} ->
- fix_relocs(Rs, RelocsDict, MFA,
- [{?LOAD_ATOM, Offset, AtomName}|RelocAcc]);
- {constant, Label} ->
- fix_relocs(Rs, RelocsDict, MFA,
- [{?LOAD_ADDRESS, Offset, {constant, Label}}|RelocAcc]);
- {switch, _, JTabLab} -> %% Treat switch exactly as constant
- fix_relocs(Rs, RelocsDict, MFA,
- [{?LOAD_ADDRESS, Offset, {constant, JTabLab}}|RelocAcc]);
- {closure, _}=Closure ->
- fix_relocs(Rs, RelocsDict, MFA,
- [{?LOAD_ADDRESS, Offset, Closure}|RelocAcc]);
- {call, {bif, BifName, _}} ->
- fix_relocs(Rs, RelocsDict, MFA,
- [{?CALL_LOCAL, Offset, BifName}|RelocAcc]);
+ {call, {bif, BifName, _}} -> {?CALL_LOCAL, Offset, BifName};
%% MFA calls to functions in the same module are of type 3, while all
%% other MFA calls are of type 2.
- {call, {ModName,_F,_A}=CallMFA} ->
- fix_relocs(Rs, RelocsDict, MFA,
- [{?CALL_LOCAL, Offset, CallMFA}|RelocAcc]);
- {call, CallMFA} ->
- fix_relocs(Rs, RelocsDict, MFA,
- [{?CALL_REMOTE, Offset, CallMFA}|RelocAcc]);
- Other ->
- exit({?MODULE, fix_relocs,
- {"Relocation not in relocation dictionary", Other}})
+ %% XXX: Does this code break hot code loading (by transforming external
+ %% calls into local calls?)
+ {call, {ModName,_F,_A}=CallMFA} -> {?CALL_LOCAL, Offset, CallMFA};
+ {call, CallMFA} -> {?CALL_REMOTE, Offset, CallMFA}
+ end;
+fix_reloc(#elf_rel{symbol=#elf_sym{name=Name, section=undefined, type=notype},
+ offset=Offset, type=?ABS_T, addend=?ABS_A},
+ RelocsDict, _) when Name =/= "" ->
+ case dict:fetch(Name, RelocsDict) of
+ {atom, AtomName} -> {?LOAD_ATOM, Offset, AtomName};
+ {constant, Label} -> {?LOAD_ADDRESS, Offset, {constant, Label}};
+ {closure, _}=Closure -> {?LOAD_ADDRESS, Offset, Closure}
+ end;
+fix_reloc(#elf_rel{symbol=#elf_sym{name=Name, section=#elf_shdr{name=?TEXT},
+ type=func},
+ offset=Offset, type=?PCREL_T, addend=?PCREL_A},
+ RelocsDict, MFA) when Name =/= "" ->
+ case dict:fetch(Name, RelocsDict) of
+ {call, MFA} -> {?CALL_LOCAL, Offset, MFA}
+ end;
+fix_reloc(#elf_rel{symbol=#elf_sym{name=Name, section=#elf_shdr{name=?RODATA},
+ type=object},
+ offset=Offset, type=?ABS_T, addend=?ABS_A},
+ RelocsDict, _) when Name =/= "" ->
+ case dict:fetch(Name, RelocsDict) of
+ {switch, _, JTabLab} -> %% Treat switch exactly as constant
+ {?LOAD_ADDRESS, Offset, {constant, JTabLab}}
+ end;
+fix_reloc(#elf_rel{symbol=#elf_sym{type=section, section=#elf_shdr{name=Name}},
+ offset=Offset, type=?ABS_T, addend=Addend}, RelocsDict, _) ->
+ case dict:fetch({anon, Name, Addend}, RelocsDict) of
+ {constant, Label} -> {?LOAD_ADDRESS, Offset, {constant, Label}}
end.
%%------------------------------------------------------------------------------
@@ -271,20 +318,14 @@ get_sdescs(Elf) ->
T = SPCount * ?SP_ADDR_SIZE,
%% Pattern match fields of ".note.gc":
<<SPCount:(?bits(?SP_COUNT_SIZE))/integer-little, % Sanity check!
- SPAddrs:T/binary, % NOTE: In 64bit they are relocs!
+ _SPAddrs:T/binary, % NOTE: In 64bit they are relocs!
StkFrameSize:(?bits(?SP_STKFRAME_SIZE))/integer-little,
StkArity:(?bits(?SP_STKARITY_SIZE))/integer-little,
_LiveRootCount:(?bits(?SP_LIVEROOTCNT_SIZE))/integer-little, % Skip
Roots/binary>> = NoteGC_bin,
LiveRoots = get_liveroots(Roots, []),
- %% Extract information about the safe point addresses:
- SPOffs =
- case elf_format:is64bit() of
- true -> %% Find offsets in ".rela.note.gc":
- elf_format:get_rela_addends(RelaNoteGC);
- false -> %% Find offsets in SPAddrs (in ".note.gc"):
- get_spoffs(SPAddrs, [])
- end,
+ %% Extract the safe point offsets:
+ SPOffs = [A || #elf_rel{addend=A} <- RelaNoteGC],
%% Extract Exception Handler labels:
ExnHandlers = elf_format:get_exn_handlers(Elf),
%% Combine ExnHandlers and Safe point addresses (return addresses):
@@ -300,13 +341,6 @@ get_liveroots(<<Root:?bits(?LR_STKINDEX_SIZE)/integer-little,
MoreRoots/binary>>, Acc) ->
get_liveroots(MoreRoots, [Root | Acc]).
-%% @doc Extracts a bunch of integers (safepoint offsets) from a binary. Returns
-%% a tuple as need for stack descriptors.
-get_spoffs(<<>>, Acc) ->
- lists:reverse(Acc);
-get_spoffs(<<SPOff:?bits(?SP_ADDR_SIZE)/integer-little, More/binary>>, Acc) ->
- get_spoffs(More, [SPOff | Acc]).
-
combine_ras_and_exns(_, [], Acc) ->
lists:reverse(Acc);
combine_ras_and_exns(ExnHandlers, [RA | MoreRAs], Acc) ->
@@ -489,18 +523,3 @@ unique_folder(FunName, Arity, Options) ->
dir_exists(Filename) ->
{Flag, Info} = file:read_file_info(Filename),
(Flag =:= ok) andalso (element(3, Info) =:= directory).
-
-%% @doc Function that takes as arguments a list of integers and a list with
-%% numbers indicating how many items should each tuple have and splits
-%% the original list to a list of lists of integers (with the specified
-%% number of elements), i.e. [ [...], [...] ].
--spec split_list([integer()], [integer()]) -> [ [integer()] ].
-split_list(List, ElemsPerTuple) ->
- split_list(List, ElemsPerTuple, []).
-
--spec split_list([integer()], [integer()], [ [integer()] ]) -> [ [integer()] ].
-split_list([], [], Acc) ->
- lists:reverse(Acc);
-split_list(List, [NumOfElems | MoreNums], Acc) ->
- {L1, L2} = lists:split(NumOfElems, List),
- split_list(L2, MoreNums, [ L1 | Acc]).
diff --git a/lib/hipe/llvm/hipe_rtl_to_llvm.erl b/lib/hipe/llvm/hipe_rtl_to_llvm.erl
index d7d8d1b049..b23d756d6c 100644
--- a/lib/hipe/llvm/hipe_rtl_to_llvm.erl
+++ b/lib/hipe/llvm/hipe_rtl_to_llvm.erl
@@ -266,17 +266,18 @@ trans_alub_overflow(I, Sign, Relocs) ->
T2 = mk_temp(),
%% T1{1}: Boolean variable indicating overflow
I6 = hipe_llvm:mk_extractvalue(T2, ReturnType, T1, "1", []),
- case hipe_rtl:alub_cond(I) of
- Op when Op =:= overflow orelse Op =:= ltu ->
- True_label = mk_jump_label(hipe_rtl:alub_true_label(I)),
- False_label = mk_jump_label(hipe_rtl:alub_false_label(I)),
- MetaData = branch_metadata(hipe_rtl:alub_pred(I));
- not_overflow ->
- True_label = mk_jump_label(hipe_rtl:alub_false_label(I)),
- False_label = mk_jump_label(hipe_rtl:alub_true_label(I)),
- MetaData = branch_metadata(1 - hipe_rtl:alub_pred(I))
- end,
- I7 = hipe_llvm:mk_br_cond(T2, True_label, False_label, MetaData),
+ {TrueLabel, FalseLabel, MetaData} =
+ case hipe_rtl:alub_cond(I) of
+ Op when Op =:= overflow orelse Op =:= ltu ->
+ {mk_jump_label(hipe_rtl:alub_true_label(I)),
+ mk_jump_label(hipe_rtl:alub_false_label(I)),
+ branch_metadata(hipe_rtl:alub_pred(I))};
+ not_overflow ->
+ {mk_jump_label(hipe_rtl:alub_false_label(I)),
+ mk_jump_label(hipe_rtl:alub_true_label(I)),
+ branch_metadata(1 - hipe_rtl:alub_pred(I))}
+ end,
+ I7 = hipe_llvm:mk_br_cond(T2, TrueLabel, FalseLabel, MetaData),
{[I7, I6, I5, I4, I3, I2, I1], NewRelocs}.
trans_alub_op(I, Sign) ->