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// Copyright 2012 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
//! Finds crate binaries and loads their metadata
use lib::llvm::{False, llvm, mk_object_file, mk_section_iter};
use metadata::decoder;
use metadata::encoder;
use metadata::filesearch::FileSearch;
use metadata::filesearch;
use syntax::codemap::span;
use syntax::diagnostic::span_handler;
use syntax::parse::token;
use syntax::parse::token::ident_interner;
use syntax::print::pprust;
use syntax::{ast, attr};
use std::cast;
use std::io;
use std::option;
use std::os::consts::{macos, freebsd, linux, android, win32};
use std::ptr;
use std::str;
use std::uint;
use std::vec;
use extra::flate;
pub enum os {
os_macos,
os_win32,
os_linux,
os_android,
os_freebsd
}
pub struct Context {
diag: @span_handler,
filesearch: @FileSearch,
span: span,
ident: ast::ident,
metas: ~[@ast::meta_item],
hash: @str,
os: os,
is_static: bool,
intr: @ident_interner
}
pub fn load_library_crate(cx: &Context) -> (~str, @~[u8]) {
match find_library_crate(cx) {
Some(ref t) => return (/*bad*/copy *t),
None => {
cx.diag.span_fatal(
cx.span, fmt!("can't find crate for `%s`",
token::ident_to_str(&cx.ident)));
}
}
}
fn find_library_crate(cx: &Context) -> Option<(~str, @~[u8])> {
attr::require_unique_names(cx.diag, cx.metas);
find_library_crate_aux(cx, libname(cx), cx.filesearch)
}
fn libname(cx: &Context) -> (~str, ~str) {
if cx.is_static { return (~"lib", ~".rlib"); }
let (dll_prefix, dll_suffix) = match cx.os {
os_win32 => (win32::DLL_PREFIX, win32::DLL_SUFFIX),
os_macos => (macos::DLL_PREFIX, macos::DLL_SUFFIX),
os_linux => (linux::DLL_PREFIX, linux::DLL_SUFFIX),
os_android => (android::DLL_PREFIX, android::DLL_SUFFIX),
os_freebsd => (freebsd::DLL_PREFIX, freebsd::DLL_SUFFIX),
};
(str::to_owned(dll_prefix), str::to_owned(dll_suffix))
}
fn find_library_crate_aux(
cx: &Context,
(prefix, suffix): (~str, ~str),
filesearch: @filesearch::FileSearch
) -> Option<(~str, @~[u8])> {
let crate_name = crate_name_from_metas(cx.metas);
let prefix = prefix + crate_name + "-";
let mut matches = ~[];
filesearch::search(filesearch, |path| -> Option<()> {
debug!("inspecting file %s", path.to_str());
match path.filename() {
Some(ref f) if f.starts_with(prefix) && f.ends_with(suffix) => {
debug!("%s is a candidate", path.to_str());
match get_metadata_section(cx.os, path) {
Some(cvec) =>
if !crate_matches(cvec, cx.metas, cx.hash) {
debug!("skipping %s, metadata doesn't match",
path.to_str());
None
} else {
debug!("found %s with matching metadata", path.to_str());
matches.push((path.to_str(), cvec));
None
},
_ => {
debug!("could not load metadata for %s", path.to_str());
None
}
}
}
_ => {
debug!("skipping %s, doesn't look like %s*%s", path.to_str(),
prefix, suffix);
None
}
}});
match matches.len() {
0 => None,
1 => Some(matches[0]),
_ => {
cx.diag.span_err(
cx.span, fmt!("multiple matching crates for `%s`", crate_name));
cx.diag.handler().note("candidates:");
for matches.iter().advance |&(ident, data)| {
cx.diag.handler().note(fmt!("path: %s", ident));
let attrs = decoder::get_crate_attributes(data);
note_linkage_attrs(cx.intr, cx.diag, attrs);
}
cx.diag.handler().abort_if_errors();
None
}
}
}
pub fn crate_name_from_metas(metas: &[@ast::meta_item]) -> @str {
for metas.iter().advance |m| {
match m.node {
ast::meta_name_value(s, ref l) if s == @"name" =>
match l.node {
ast::lit_str(s) => return s,
_ => ()
},
_ => ()
}
}
fail!("expected to find the crate name")
}
pub fn note_linkage_attrs(intr: @ident_interner,
diag: @span_handler,
attrs: ~[ast::attribute]) {
let r = attr::find_linkage_metas(attrs);
for r.iter().advance |mi| {
diag.handler().note(fmt!("meta: %s", pprust::meta_item_to_str(*mi,intr)));
}
}
fn crate_matches(crate_data: @~[u8],
metas: &[@ast::meta_item],
hash: @str) -> bool {
let attrs = decoder::get_crate_attributes(crate_data);
let linkage_metas = attr::find_linkage_metas(attrs);
if !hash.is_empty() {
let chash = decoder::get_crate_hash(crate_data);
if chash != hash { return false; }
}
metadata_matches(linkage_metas, metas)
}
pub fn metadata_matches(extern_metas: &[@ast::meta_item],
local_metas: &[@ast::meta_item]) -> bool {
debug!("matching %u metadata requirements against %u items",
local_metas.len(), extern_metas.len());
for local_metas.iter().advance |needed| {
if !attr::contains(extern_metas, *needed) {
return false;
}
}
return true;
}
fn get_metadata_section(os: os,
filename: &Path) -> Option<@~[u8]> {
unsafe {
let mb = str::as_c_str(filename.to_str(), |buf| {
llvm::LLVMRustCreateMemoryBufferWithContentsOfFile(buf)
});
if mb as int == 0 { return option::None::<@~[u8]>; }
let of = match mk_object_file(mb) {
option::Some(of) => of,
_ => return option::None::<@~[u8]>
};
let si = mk_section_iter(of.llof);
while llvm::LLVMIsSectionIteratorAtEnd(of.llof, si.llsi) == False {
let name_buf = llvm::LLVMGetSectionName(si.llsi);
let name = str::raw::from_c_str(name_buf);
debug!("get_metadata_section: name %s", name);
if name == read_meta_section_name(os) {
let cbuf = llvm::LLVMGetSectionContents(si.llsi);
let csz = llvm::LLVMGetSectionSize(si.llsi) as uint;
let mut found = None;
let cvbuf: *u8 = cast::transmute(cbuf);
let vlen = encoder::metadata_encoding_version.len();
debug!("checking %u bytes of metadata-version stamp",
vlen);
let minsz = uint::min(vlen, csz);
let mut version_ok = false;
do vec::raw::buf_as_slice(cvbuf, minsz) |buf0| {
version_ok = (buf0 ==
encoder::metadata_encoding_version);
}
if !version_ok { return None; }
let cvbuf1 = ptr::offset(cvbuf, vlen);
debug!("inflating %u bytes of compressed metadata",
csz - vlen);
do vec::raw::buf_as_slice(cvbuf1, csz-vlen) |bytes| {
let inflated = flate::inflate_bytes(bytes);
found = Some(@(inflated));
}
if found != None {
return found;
}
}
llvm::LLVMMoveToNextSection(si.llsi);
}
return option::None::<@~[u8]>;
}
}
pub fn meta_section_name(os: os) -> ~str {
match os {
os_macos => ~"__DATA,__note.rustc",
os_win32 => ~".note.rustc",
os_linux => ~".note.rustc",
os_android => ~".note.rustc",
os_freebsd => ~".note.rustc"
}
}
pub fn read_meta_section_name(os: os) -> ~str {
match os {
os_macos => ~"__note.rustc",
os_win32 => ~".note.rustc",
os_linux => ~".note.rustc",
os_android => ~".note.rustc",
os_freebsd => ~".note.rustc"
}
}
// A diagnostic function for dumping crate metadata to an output stream
pub fn list_file_metadata(intr: @ident_interner,
os: os,
path: &Path,
out: @io::Writer) {
match get_metadata_section(os, path) {
option::Some(bytes) => decoder::list_crate_metadata(intr, bytes, out),
option::None => {
out.write_str(fmt!("could not find metadata in %s.\n", path.to_str()))
}
}
}
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