// 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 or the MIT license // , 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::ident_interner; use syntax::print::pprust; use syntax::{ast, attr}; use std::flate; use core::os::consts::{macos, freebsd, linux, android, win32}; 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`", *cx.intr.get(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: ~str = prefix + *crate_name + ~"-"; let suffix: ~str = /*bad*/copy suffix; let mut matches = ~[]; filesearch::search(filesearch, |path| { debug!("inspecting file %s", path.to_str()); let f: ~str = path.filename().get(); if !(f.starts_with(prefix) && f.ends_with(suffix)) { debug!("skipping %s, doesn't look like %s*%s", path.to_str(), prefix, suffix); option::None::<()> } else { debug!("%s is a candidate", path.to_str()); match get_metadata_section(cx.os, path) { option::Some(cvec) => { if !crate_matches(cvec, cx.metas, cx.hash) { debug!("skipping %s, metadata doesn't match", path.to_str()); option::None::<()> } else { debug!("found %s with matching metadata", path.to_str()); matches.push((path.to_str(), cvec)); option::None::<()> } } _ => { debug!("could not load metadata for %s", path.to_str()); option::None::<()> } } } }); if matches.is_empty() { None } else if matches.len() == 1u { Some(/*bad*/copy matches[0]) } else { cx.diag.span_err( cx.span, fmt!("multiple matching crates for `%s`", *crate_name)); cx.diag.handler().note(~"candidates:"); for matches.each |&(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 { let name_items = attr::find_meta_items_by_name(metas, ~"name"); match name_items.last_opt() { Some(i) => { match attr::get_meta_item_value_str(*i) { Some(n) => n, // FIXME (#2406): Probably want a warning here since the user // is using the wrong type of meta item. _ => fail!() } } None => fail!("expected to find the crate name") } } pub fn note_linkage_attrs(intr: @ident_interner, diag: @span_handler, attrs: ~[ast::attribute]) { for attr::find_linkage_metas(attrs).each |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.each |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 = unsafe { 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; unsafe { let cvbuf: *u8 = cast::transmute(cbuf); let vlen = vec::len(encoder::metadata_encoding_version); 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(~"could not find metadata in " + path.to_str() + ~".\n"); } } }