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/* Functions for writing LTO sections.
Copyright (C) 2009 Free Software Foundation, Inc.
Contributed by Kenneth Zadeck <zadeck@naturalbridge.com>
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#include "config.h"
#include "system.h"
#include "coretypes.h"
#include "tm.h"
#include "toplev.h"
#include "tree.h"
#include "expr.h"
#include "params.h"
#include "input.h"
#include "varray.h"
#include "hashtab.h"
#include "basic-block.h"
#include "tree-flow.h"
#include "tree-pass.h"
#include "cgraph.h"
#include "function.h"
#include "ggc.h"
#include "except.h"
#include "vec.h"
#include "pointer-set.h"
#include "bitmap.h"
#include "langhooks.h"
#include "lto-streamer.h"
#include "lto-compress.h"
static VEC(lto_out_decl_state_ptr, heap) *decl_state_stack;
/* List of out decl states used by functions. We use this to
generate the decl directory later. */
VEC(lto_out_decl_state_ptr, heap) *lto_function_decl_states;
/* Bitmap indexed by DECL_UID to indicate if a function needs to be
forced extern inline. */
static bitmap forced_extern_inline;
/* Initialize states for determining which function decls to be ouput
as extern inline, regardless of the decls' own attributes. */
void
lto_new_extern_inline_states (void)
{
forced_extern_inline = lto_bitmap_alloc ();
}
/* Releasing resources use for states to determine which function decls
to be ouput as extern inline */
void
lto_delete_extern_inline_states (void)
{
lto_bitmap_free (forced_extern_inline);
forced_extern_inline = NULL;
}
/* Force all the functions in DECLS to be output as extern inline.
DECLS is a bitmap indexed by DECL_UID. */
void
lto_force_functions_extern_inline (bitmap decls)
{
bitmap_ior_into (forced_extern_inline, decls);
}
/* Return true if FN_DECL is a function which should be emitted as
extern inline. */
bool
lto_forced_extern_inline_p (tree fn_decl)
{
return bitmap_bit_p (forced_extern_inline, DECL_UID (fn_decl));
}
/* Returns a hash code for P. */
hashval_t
lto_hash_decl_slot_node (const void *p)
{
const struct lto_decl_slot *ds = (const struct lto_decl_slot *) p;
/*
return (hashval_t) DECL_UID (ds->t);
*/
return (hashval_t) TREE_HASH (ds->t);
}
/* Returns nonzero if P1 and P2 are equal. */
int
lto_eq_decl_slot_node (const void *p1, const void *p2)
{
const struct lto_decl_slot *ds1 =
(const struct lto_decl_slot *) p1;
const struct lto_decl_slot *ds2 =
(const struct lto_decl_slot *) p2;
/*
return DECL_UID (ds1->t) == DECL_UID (ds2->t);
*/
return ds1->t == ds2->t;
}
/* Returns a hash code for P. */
hashval_t
lto_hash_type_slot_node (const void *p)
{
const struct lto_decl_slot *ds = (const struct lto_decl_slot *) p;
return (hashval_t) TYPE_UID (ds->t);
}
/* Returns nonzero if P1 and P2 are equal. */
int
lto_eq_type_slot_node (const void *p1, const void *p2)
{
const struct lto_decl_slot *ds1 =
(const struct lto_decl_slot *) p1;
const struct lto_decl_slot *ds2 =
(const struct lto_decl_slot *) p2;
return TYPE_UID (ds1->t) == TYPE_UID (ds2->t);
}
/*****************************************************************************
Output routines shared by all of the serialization passes.
*****************************************************************************/
/* Flush compressed stream data function, sends NUM_CHARS from CHARS
to the append lang hook, OPAQUE is currently always NULL. */
static void
lto_append_data (const char *chars, unsigned int num_chars, void *opaque)
{
gcc_assert (opaque == NULL);
lang_hooks.lto.append_data (chars, num_chars, opaque);
}
/* Pointer to the current compression stream. */
static struct lto_compression_stream *compression_stream = NULL;
/* Begin a new output section named NAME. If COMPRESS is true, zlib compress
the section. */
void
lto_begin_section (const char *name, bool compress)
{
lang_hooks.lto.begin_section (name);
/* FIXME lto: for now, suppress compression if the lang_hook that appends
data is anything other than assembler output. The effect here is that
we get compression of IL only in non-ltrans object files. */
gcc_assert (compression_stream == NULL);
if (compress)
compression_stream = lto_start_compression (lto_append_data, NULL);
}
/* End the current output section. */
void
lto_end_section (void)
{
if (compression_stream)
{
lto_end_compression (compression_stream);
compression_stream = NULL;
}
lang_hooks.lto.end_section ();
}
/* Write all of the chars in OBS to the assembler. Recycle the blocks
in obs as this is being done. */
void
lto_write_stream (struct lto_output_stream *obs)
{
unsigned int block_size = 1024;
struct lto_char_ptr_base *block;
struct lto_char_ptr_base *next_block;
if (!obs->first_block)
return;
for (block = obs->first_block; block; block = next_block)
{
const char *base = ((char *)block) + sizeof (struct lto_char_ptr_base);
unsigned int num_chars = block_size - sizeof (struct lto_char_ptr_base);
/* If this is not the last block, it is full. If it is the last
block, left_in_block indicates how many chars are unoccupied in
this block; subtract from num_chars to obtain occupancy. */
next_block = (struct lto_char_ptr_base *) block->ptr;
if (!next_block)
num_chars -= obs->left_in_block;
/* FIXME lto: WPA mode uses an ELF function as a lang_hook to append
output data. This hook is not happy with the way that compression
blocks up output differently to the way it's blocked here. So for
now, we don't compress WPA output. */
if (compression_stream)
{
lto_compress_block (compression_stream, base, num_chars);
lang_hooks.lto.append_data (NULL, 0, block);
}
else
lang_hooks.lto.append_data (base, num_chars, block);
block_size *= 2;
}
}
/* Adds a new block to output stream OBS. */
static void
append_block (struct lto_output_stream *obs)
{
struct lto_char_ptr_base *new_block;
gcc_assert (obs->left_in_block == 0);
if (obs->first_block == NULL)
{
/* This is the first time the stream has been written
into. */
obs->block_size = 1024;
new_block = (struct lto_char_ptr_base*) xmalloc (obs->block_size);
obs->first_block = new_block;
}
else
{
struct lto_char_ptr_base *tptr;
/* Get a new block that is twice as big as the last block
and link it into the list. */
obs->block_size *= 2;
new_block = (struct lto_char_ptr_base*) xmalloc (obs->block_size);
/* The first bytes of the block are reserved as a pointer to
the next block. Set the chain of the full block to the
pointer to the new block. */
tptr = obs->current_block;
tptr->ptr = (char *) new_block;
}
/* Set the place for the next char at the first position after the
chain to the next block. */
obs->current_pointer
= ((char *) new_block) + sizeof (struct lto_char_ptr_base);
obs->current_block = new_block;
/* Null out the newly allocated block's pointer to the next block. */
new_block->ptr = NULL;
obs->left_in_block = obs->block_size - sizeof (struct lto_char_ptr_base);
}
/* Write a character to the output block. */
void
lto_output_1_stream (struct lto_output_stream *obs, char c)
{
/* No space left. */
if (obs->left_in_block == 0)
append_block (obs);
/* Write the actual character. */
*obs->current_pointer = c;
obs->current_pointer++;
obs->total_size++;
obs->left_in_block--;
}
/* Write raw DATA of length LEN to the output block OB. */
void
lto_output_data_stream (struct lto_output_stream *obs, const void *data,
size_t len)
{
while (len)
{
size_t copy;
/* No space left. */
if (obs->left_in_block == 0)
append_block (obs);
/* Determine how many bytes to copy in this loop. */
if (len <= obs->left_in_block)
copy = len;
else
copy = obs->left_in_block;
/* Copy the data and do bookkeeping. */
memcpy (obs->current_pointer, data, copy);
obs->current_pointer += copy;
obs->total_size += copy;
obs->left_in_block -= copy;
data = (const char *) data + copy;
len -= copy;
}
}
/* Output an unsigned LEB128 quantity to OBS. */
void
lto_output_uleb128_stream (struct lto_output_stream *obs,
unsigned HOST_WIDE_INT work)
{
do
{
unsigned int byte = (work & 0x7f);
work >>= 7;
if (work != 0)
/* More bytes to follow. */
byte |= 0x80;
lto_output_1_stream (obs, byte);
}
while (work != 0);
}
/* Identical to output_uleb128_stream above except using unsigned
HOST_WIDEST_INT type. For efficiency on host where unsigned HOST_WIDEST_INT
is not native, we only use this if we know that HOST_WIDE_INT is not wide
enough. */
void
lto_output_widest_uint_uleb128_stream (struct lto_output_stream *obs,
unsigned HOST_WIDEST_INT work)
{
do
{
unsigned int byte = (work & 0x7f);
work >>= 7;
if (work != 0)
/* More bytes to follow. */
byte |= 0x80;
lto_output_1_stream (obs, byte);
}
while (work != 0);
}
/* Output a signed LEB128 quantity. */
void
lto_output_sleb128_stream (struct lto_output_stream *obs, HOST_WIDE_INT work)
{
int more, byte;
do
{
byte = (work & 0x7f);
/* arithmetic shift */
work >>= 7;
more = !((work == 0 && (byte & 0x40) == 0)
|| (work == -1 && (byte & 0x40) != 0));
if (more)
byte |= 0x80;
lto_output_1_stream (obs, byte);
}
while (more);
}
/* Lookup NAME in ENCODER. If NAME is not found, create a new entry in
ENCODER for NAME with the next available index of ENCODER, then
print the index to OBS. True is returned if NAME was added to
ENCODER. The resulting index is stored in THIS_INDEX.
If OBS is NULL, the only action is to add NAME to the encoder. */
bool
lto_output_decl_index (struct lto_output_stream *obs,
struct lto_tree_ref_encoder *encoder,
tree name, unsigned int *this_index)
{
void **slot;
struct lto_decl_slot d_slot;
int index;
bool new_entry_p = FALSE;
d_slot.t = name;
slot = htab_find_slot (encoder->tree_hash_table, &d_slot, INSERT);
if (*slot == NULL)
{
struct lto_decl_slot *new_slot
= (struct lto_decl_slot *) xmalloc (sizeof (struct lto_decl_slot));
index = encoder->next_index++;
new_slot->t = name;
new_slot->slot_num = index;
*slot = new_slot;
VEC_safe_push (tree, heap, encoder->trees, name);
new_entry_p = TRUE;
}
else
{
struct lto_decl_slot *old_slot = (struct lto_decl_slot *)*slot;
index = old_slot->slot_num;
}
if (obs)
lto_output_uleb128_stream (obs, index);
*this_index = index;
return new_entry_p;
}
/* Output a field DECL to OBS. */
void
lto_output_field_decl_index (struct lto_out_decl_state *decl_state,
struct lto_output_stream * obs, tree decl)
{
unsigned int index;
lto_output_decl_index (obs, &decl_state->streams[LTO_DECL_STREAM_FIELD_DECL],
decl, &index);
}
/* Output a function DECL to OBS. */
void
lto_output_fn_decl_index (struct lto_out_decl_state *decl_state,
struct lto_output_stream * obs, tree decl)
{
unsigned int index;
lto_output_decl_index (obs, &decl_state->streams[LTO_DECL_STREAM_FN_DECL],
decl, &index);
}
/* Output a namespace DECL to OBS. */
void
lto_output_namespace_decl_index (struct lto_out_decl_state *decl_state,
struct lto_output_stream * obs, tree decl)
{
unsigned int index;
lto_output_decl_index (obs,
&decl_state->streams[LTO_DECL_STREAM_NAMESPACE_DECL],
decl, &index);
}
/* Output a static or extern var DECL to OBS. */
void
lto_output_var_decl_index (struct lto_out_decl_state *decl_state,
struct lto_output_stream * obs, tree decl)
{
unsigned int index;
lto_output_decl_index (obs, &decl_state->streams[LTO_DECL_STREAM_VAR_DECL],
decl, &index);
}
/* Output a type DECL to OBS. */
void
lto_output_type_decl_index (struct lto_out_decl_state *decl_state,
struct lto_output_stream * obs, tree decl)
{
unsigned int index;
lto_output_decl_index (obs, &decl_state->streams[LTO_DECL_STREAM_TYPE_DECL],
decl, &index);
}
/* Output a type REF to OBS. */
void
lto_output_type_ref_index (struct lto_out_decl_state *decl_state,
struct lto_output_stream *obs, tree ref)
{
unsigned int index;
lto_output_decl_index (obs, &decl_state->streams[LTO_DECL_STREAM_TYPE],
ref, &index);
}
/* Create the output block and return it. */
struct lto_simple_output_block *
lto_create_simple_output_block (enum lto_section_type section_type)
{
struct lto_simple_output_block *ob
= ((struct lto_simple_output_block *)
xcalloc (1, sizeof (struct lto_simple_output_block)));
ob->section_type = section_type;
ob->decl_state = lto_get_out_decl_state ();
ob->main_stream = ((struct lto_output_stream *)
xcalloc (1, sizeof (struct lto_output_stream)));
return ob;
}
/* Produce a simple section for one of the ipa passes. */
void
lto_destroy_simple_output_block (struct lto_simple_output_block *ob)
{
char *section_name;
struct lto_simple_header header;
struct lto_output_stream *header_stream;
section_name = lto_get_section_name (ob->section_type, NULL);
lto_begin_section (section_name, !flag_wpa);
free (section_name);
/* Write the header which says how to decode the pieces of the
t. */
memset (&header, 0, sizeof (struct lto_simple_header));
header.lto_header.major_version = LTO_major_version;
header.lto_header.minor_version = LTO_minor_version;
header.lto_header.section_type = LTO_section_cgraph;
header.compressed_size = 0;
header.main_size = ob->main_stream->total_size;
header_stream = XCNEW (struct lto_output_stream);
lto_output_data_stream (header_stream, &header, sizeof header);
lto_write_stream (header_stream);
free (header_stream);
lto_write_stream (ob->main_stream);
/* Put back the assembly section that was there before we started
writing lto info. */
lto_end_section ();
free (ob->main_stream);
free (ob);
}
/* Return a new lto_out_decl_state. */
struct lto_out_decl_state *
lto_new_out_decl_state (void)
{
struct lto_out_decl_state *state = XCNEW (struct lto_out_decl_state);
int i;
htab_hash hash_fn;
htab_eq eq_fn;
for (i = 0; i < LTO_N_DECL_STREAMS; i++)
{
if (i == LTO_DECL_STREAM_TYPE)
{
hash_fn = lto_hash_type_slot_node;
eq_fn = lto_eq_type_slot_node;
}
else
{
hash_fn = lto_hash_decl_slot_node;
eq_fn = lto_eq_decl_slot_node;
}
lto_init_tree_ref_encoder (&state->streams[i], hash_fn, eq_fn);
}
state->cgraph_node_encoder = lto_cgraph_encoder_new ();
return state;
}
/* Delete STATE and components. */
void
lto_delete_out_decl_state (struct lto_out_decl_state *state)
{
int i;
for (i = 0; i < LTO_N_DECL_STREAMS; i++)
lto_destroy_tree_ref_encoder (&state->streams[i]);
free (state);
}
/* Get the currently used lto_out_decl_state structure. */
struct lto_out_decl_state *
lto_get_out_decl_state (void)
{
return VEC_last (lto_out_decl_state_ptr, decl_state_stack);
}
/* Push STATE to top of out decl stack. */
void
lto_push_out_decl_state (struct lto_out_decl_state *state)
{
VEC_safe_push (lto_out_decl_state_ptr, heap, decl_state_stack, state);
}
/* Pop the currently used out-decl state from top of stack. */
struct lto_out_decl_state *
lto_pop_out_decl_state (void)
{
return VEC_pop (lto_out_decl_state_ptr, decl_state_stack);
}
/* Record STATE after it has been used in serializing the body of
FN_DECL. STATE should no longer be used by the caller. The ownership
of it is taken over from this point. */
void
lto_record_function_out_decl_state (tree fn_decl,
struct lto_out_decl_state *state)
{
int i;
/* Strip all hash tables to save some memory. */
for (i = 0; i < LTO_N_DECL_STREAMS; i++)
if (state->streams[i].tree_hash_table)
{
htab_delete (state->streams[i].tree_hash_table);
state->streams[i].tree_hash_table = NULL;
}
state->fn_decl = fn_decl;
VEC_safe_push (lto_out_decl_state_ptr, heap, lto_function_decl_states,
state);
}
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