| /* |
| * Copyright (c) 2002, 2016, Oracle and/or its affiliates. All rights reserved. |
| * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
| * |
| * This code is free software; you can redistribute it and/or modify it |
| * under the terms of the GNU General Public License version 2 only, as |
| * published by the Free Software Foundation. Oracle designates this |
| * particular file as subject to the "Classpath" exception as provided |
| * by Oracle in the LICENSE file that accompanied this code. |
| * |
| * This code 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 |
| * version 2 for more details (a copy is included in the LICENSE file that |
| * accompanied this code). |
| * |
| * You should have received a copy of the GNU General Public License version |
| * 2 along with this work; if not, write to the Free Software Foundation, |
| * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
| * |
| * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
| * or visit www.oracle.com if you need additional information or have any |
| * questions. |
| */ |
| // Global Structures |
| struct jar; |
| struct gunzip; |
| struct band; |
| struct cpool; |
| struct entry; |
| struct cpindex; |
| struct inner_class; |
| struct value_stream; |
| |
| struct cpindex { |
| uint len; |
| entry* base1; // base of primary index |
| entry** base2; // base of secondary index |
| byte ixTag; // type of entries (!= CONSTANT_None), plus 64 if sub-index |
| enum { SUB_TAG = 64 }; |
| |
| entry* get(uint i); |
| |
| void init(int len_, entry* base1_, int ixTag_) { |
| len = len_; |
| base1 = base1_; |
| base2 = null; |
| ixTag = ixTag_; |
| } |
| void init(int len_, entry** base2_, int ixTag_) { |
| len = len_; |
| base1 = null; |
| base2 = base2_; |
| ixTag = ixTag_; |
| } |
| }; |
| |
| struct cpool { |
| uint nentries; |
| entry* entries; |
| entry* first_extra_entry; |
| uint maxentries; // total allocated size of entries |
| |
| // Position and size of each homogeneous subrange: |
| int tag_count[CONSTANT_Limit]; |
| int tag_base[CONSTANT_Limit]; |
| cpindex tag_index[CONSTANT_Limit]; |
| ptrlist tag_extras[CONSTANT_Limit]; |
| |
| int tag_group_count[CONSTANT_GroupLimit - CONSTANT_GroupFirst]; |
| cpindex tag_group_index[CONSTANT_GroupLimit - CONSTANT_GroupFirst]; |
| |
| cpindex* member_indexes; // indexed by 2*CONSTANT_Class.inord |
| cpindex* getFieldIndex(entry* classRef); |
| cpindex* getMethodIndex(entry* classRef); |
| |
| inner_class** ic_index; |
| inner_class** ic_child_index; |
| inner_class* getIC(entry* inner); |
| inner_class* getFirstChildIC(entry* outer); |
| inner_class* getNextChildIC(inner_class* child); |
| |
| int outputIndexLimit; // index limit after renumbering |
| ptrlist outputEntries; // list of entry* needing output idx assigned |
| ptrlist requested_bsms; // which bsms need output? |
| |
| entry** hashTab; |
| uint hashTabLength; |
| entry*& hashTabRef(byte tag, bytes& b); |
| entry* ensureUtf8(bytes& b); |
| entry* ensureClass(bytes& b); |
| |
| // Well-known Utf8 symbols. |
| enum { |
| #define SNAME(n,s) s_##s, |
| ALL_ATTR_DO(SNAME) |
| #undef SNAME |
| s_lt_init_gt, // <init> |
| s_LIMIT |
| }; |
| entry* sym[s_LIMIT]; |
| |
| // read counts from hdr, allocate main arrays |
| void init(unpacker* u, int counts[CONSTANT_Limit]); |
| |
| // pointer to outer unpacker, for error checks etc. |
| unpacker* u; |
| |
| int getCount(byte tag) { |
| if ((uint)tag >= CONSTANT_GroupFirst) { |
| assert((uint)tag < CONSTANT_GroupLimit); |
| return tag_group_count[(uint)tag - CONSTANT_GroupFirst]; |
| } else { |
| assert((uint)tag < CONSTANT_Limit); |
| return tag_count[(uint)tag]; |
| } |
| } |
| cpindex* getIndex(byte tag) { |
| if ((uint)tag >= CONSTANT_GroupFirst) { |
| assert((uint)tag < CONSTANT_GroupLimit); |
| return &tag_group_index[(uint)tag - CONSTANT_GroupFirst]; |
| } else { |
| assert((uint)tag < CONSTANT_Limit); |
| return &tag_index[(uint)tag]; |
| } |
| } |
| |
| cpindex* getKQIndex(); // uses cur_descr |
| |
| void expandSignatures(); |
| void initGroupIndexes(); |
| void initMemberIndexes(); |
| int initLoadableValues(entry** loadable_entries); |
| |
| void computeOutputOrder(); |
| void computeOutputIndexes(); |
| void resetOutputIndexes(); |
| |
| // error handling |
| inline void abort(const char* msg); |
| inline bool aborting(); |
| }; |
| |
| /* |
| * The unpacker provides the entry points to the unpack engine, |
| * as well as maintains the state of the engine. |
| */ |
| struct unpacker { |
| // One element of the resulting JAR. |
| struct file { |
| const char* name; |
| julong size; |
| int modtime; |
| int options; |
| bytes data[2]; |
| // Note: If Sum(data[*].len) < size, |
| // remaining bytes must be read directly from the input stream. |
| bool deflate_hint() { return ((options & FO_DEFLATE_HINT) != 0); } |
| }; |
| |
| // back pointer to NativeUnpacker obj and Java environment |
| void* jniobj; |
| void* jnienv; |
| |
| // global pointer to self, if not running under JNI (not multi-thread safe) |
| static unpacker* non_mt_current; |
| |
| // if running Unix-style, here are the inputs and outputs |
| FILE* infileptr; // buffered |
| int infileno; // unbuffered |
| bytes inbytes; // direct |
| gunzip* gzin; // gunzip filter, if any |
| jar* jarout; // output JAR file |
| |
| #ifndef PRODUCT |
| int nowrite; |
| int skipfiles; |
| int verbose_bands; |
| #endif |
| |
| // pointer to self, for U_NEW macro |
| unpacker* u; |
| |
| // private abort message string, allocated to PATH_MAX*2 |
| const char* abort_message; |
| ptrlist mallocs; // list of guys to free when we are all done |
| ptrlist tmallocs; // list of guys to free on next client request |
| fillbytes smallbuf; // supplies small alloc requests |
| fillbytes tsmallbuf; // supplies temporary small alloc requests |
| |
| // option management members |
| int verbose; // verbose level, 0 means no output |
| bool strip_compile; |
| bool strip_debug; |
| bool strip_jcov; |
| bool remove_packfile; |
| int deflate_hint_or_zero; // ==0 means not set, otherwise -1 or 1 |
| int modification_time_or_zero; |
| |
| FILE* errstrm; |
| const char* errstrm_name; |
| |
| const char* log_file; |
| |
| // input stream |
| fillbytes input; // the whole block (size is predicted, has slop too) |
| bool live_input; // is the data in this block live? |
| bool free_input; // must the input buffer be freed? |
| byte* rp; // read pointer (< rplimit <= input.limit()) |
| byte* rplimit; // how much of the input block has been read? |
| julong bytes_read; |
| size_t unsized_bytes_read; |
| |
| // callback to read at least one byte, up to available input |
| typedef jlong (*read_input_fn_t)(unpacker* self, void* buf, jlong minlen, jlong maxlen); |
| read_input_fn_t read_input_fn; |
| |
| // archive header fields |
| int magic, minver, majver; |
| size_t archive_size; |
| int archive_next_count, archive_options, archive_modtime; |
| int band_headers_size; |
| int file_count, attr_definition_count, ic_count, class_count; |
| int default_class_minver, default_class_majver; |
| int default_file_options, suppress_file_options; // not header fields |
| int default_archive_modtime, default_file_modtime; // not header fields |
| int code_count; // not a header field |
| int files_remaining; // not a header field |
| |
| // engine state |
| band* all_bands; // indexed by band_number |
| byte* meta_rp; // read-pointer into (copy of) band_headers |
| cpool cp; // all constant pool information |
| inner_class* ics; // InnerClasses |
| |
| // output stream |
| bytes output; // output block (either classfile head or tail) |
| byte* wp; // write pointer (< wplimit == output.limit()) |
| byte* wpbase; // write pointer starting address (<= wp) |
| byte* wplimit; // how much of the output block has been written? |
| |
| // output state |
| file cur_file; |
| entry* cur_class; // CONSTANT_Class entry |
| entry* cur_super; // CONSTANT_Class entry or null |
| entry* cur_descr; // CONSTANT_NameandType entry |
| int cur_descr_flags; // flags corresponding to cur_descr |
| int cur_class_minver, cur_class_majver; |
| bool cur_class_has_local_ics; |
| int cur_class_local_bsm_count; |
| fillbytes cur_classfile_head; |
| fillbytes cur_classfile_tail; |
| int files_written; // also tells which file we're working on |
| int classes_written; // also tells which class we're working on |
| julong bytes_written; |
| intlist bcimap; |
| fillbytes class_fixup_type; |
| intlist class_fixup_offset; |
| ptrlist class_fixup_ref; |
| fillbytes code_fixup_type; // which format of branch operand? |
| intlist code_fixup_offset; // location of operand needing fixup |
| intlist code_fixup_source; // encoded ID of branch insn |
| ptrlist requested_ics; // which ics need output? |
| |
| // stats pertaining to multiple segments (updated on reset) |
| julong bytes_read_before_reset; |
| julong bytes_written_before_reset; |
| int files_written_before_reset; |
| int classes_written_before_reset; |
| int segments_read_before_reset; |
| |
| // attribute state |
| struct layout_definition { |
| uint idx; // index (0..31...) which identifies this layout |
| const char* name; // name of layout |
| entry* nameEntry; |
| const char* layout; // string of layout (not yet parsed) |
| band** elems; // array of top-level layout elems (or callables) |
| |
| bool hasCallables() { return layout[0] == '['; } |
| band** bands() { assert(elems != null); return elems; } |
| }; |
| struct attr_definitions { |
| unpacker* u; // pointer to self, for U_NEW macro |
| int xxx_flags_hi_bn;// locator for flags, count, indexes, calls bands |
| int attrc; // ATTR_CONTEXT_CLASS, etc. |
| uint flag_limit; // 32 or 63, depending on archive_options bit |
| julong predef; // mask of built-in definitions |
| julong redef; // mask of local flag definitions or redefinitions |
| ptrlist layouts; // local (compressor-defined) defs, in index order |
| int flag_count[X_ATTR_LIMIT_FLAGS_HI]; |
| intlist overflow_count; |
| ptrlist strip_names; // what attribute names are being stripped? |
| ptrlist band_stack; // Temp., used during layout parsing. |
| ptrlist calls_to_link; // (ditto) |
| int bands_made; // (ditto) |
| |
| void free() { |
| layouts.free(); |
| overflow_count.free(); |
| strip_names.free(); |
| band_stack.free(); |
| calls_to_link.free(); |
| } |
| |
| // Locate the five fixed bands. |
| band& xxx_flags_hi(); |
| band& xxx_flags_lo(); |
| band& xxx_attr_count(); |
| band& xxx_attr_indexes(); |
| band& xxx_attr_calls(); |
| band& fixed_band(int e_class_xxx); |
| |
| // Register a new layout, and make bands for it. |
| layout_definition* defineLayout(int idx, const char* name, const char* layout); |
| layout_definition* defineLayout(int idx, entry* nameEntry, const char* layout); |
| band** buildBands(layout_definition* lo); |
| |
| // Parse a layout string or part of one, recursively if necessary. |
| const char* parseLayout(const char* lp, band** &res, int curCble); |
| const char* parseNumeral(const char* lp, int &res); |
| const char* parseIntLayout(const char* lp, band* &res, byte le_kind, |
| bool can_be_signed = false); |
| band** popBody(int band_stack_base); // pops a body off band_stack |
| |
| // Read data into the bands of the idx-th layout. |
| void readBandData(int idx); // parse layout, make bands, read data |
| void readBandData(band** body, uint count); // recursive helper |
| |
| layout_definition* getLayout(uint idx) { |
| if (idx >= (uint)layouts.length()) return null; |
| return (layout_definition*) layouts.get(idx); |
| } |
| |
| void setHaveLongFlags(bool z) { |
| assert(flag_limit == 0); // not set up yet |
| flag_limit = (z? X_ATTR_LIMIT_FLAGS_HI: X_ATTR_LIMIT_NO_FLAGS_HI); |
| } |
| bool haveLongFlags() { |
| assert(flag_limit == X_ATTR_LIMIT_NO_FLAGS_HI || |
| flag_limit == X_ATTR_LIMIT_FLAGS_HI); |
| return flag_limit == X_ATTR_LIMIT_FLAGS_HI; |
| } |
| |
| // Return flag_count if idx is predef and not redef, else zero. |
| int predefCount(uint idx); |
| |
| bool isRedefined(uint idx) { |
| if (idx >= flag_limit) return false; |
| return (bool)((redef >> idx) & 1); |
| } |
| bool isPredefined(uint idx) { |
| if (idx >= flag_limit) return false; |
| return (bool)(((predef & ~redef) >> idx) & 1); |
| } |
| julong flagIndexMask() { |
| return (predef | redef); |
| } |
| bool isIndex(uint idx) { |
| assert(flag_limit != 0); // must be set up already |
| if (idx < flag_limit) |
| return (bool)(((predef | redef) >> idx) & 1); |
| else |
| return (idx - flag_limit < (uint)overflow_count.length()); |
| } |
| int& getCount(uint idx) { |
| assert(isIndex(idx)); |
| if (idx < flag_limit) |
| return flag_count[idx]; |
| else |
| return overflow_count.get(idx - flag_limit); |
| } |
| bool aborting() { return u->aborting(); } |
| void abort(const char* msg) { u->abort(msg); } |
| }; |
| |
| attr_definitions attr_defs[ATTR_CONTEXT_LIMIT]; |
| |
| // Initialization |
| void init(read_input_fn_t input_fn = null); |
| // Resets to a known sane state |
| void reset(); |
| // Deallocates all storage. |
| void free(); |
| // Deallocates temporary storage (volatile after next client call). |
| void free_temps() { tsmallbuf.init(); tmallocs.freeAll(); } |
| |
| // Option management methods |
| bool set_option(const char* option, const char* value); |
| const char* get_option(const char* option); |
| |
| void dump_options(); |
| |
| // Fetching input. |
| bool ensure_input(jlong more); |
| byte* input_scan() { return rp; } |
| size_t input_remaining() { return rplimit - rp; } |
| size_t input_consumed() { return rp - input.base(); } |
| |
| // Entry points to the unpack engine |
| static int run(int argc, char **argv); // Unix-style entry point. |
| void check_options(); |
| void start(void* packptr = null, size_t len = 0); |
| void redirect_stdio(); |
| void write_file_to_jar(file* f); |
| void finish(); |
| |
| // Public post unpack methods |
| int get_files_remaining() { return files_remaining; } |
| int get_segments_remaining() { return archive_next_count; } |
| file* get_next_file(); // returns null on last file |
| |
| // General purpose methods |
| void* alloc(size_t size) { return alloc_heap(size, true); } |
| void* temp_alloc(size_t size) { return alloc_heap(size, true, true); } |
| void* alloc_heap(size_t size, bool smallOK = false, bool temp = false); |
| void saveTo(bytes& b, const char* str) { saveTo(b, (byte*)str, strlen(str)); } |
| void saveTo(bytes& b, bytes& data) { saveTo(b, data.ptr, data.len); } |
| void saveTo(bytes& b, byte* ptr, size_t len); //{ b.ptr = U_NEW...} |
| const char* saveStr(const char* str) { bytes buf; saveTo(buf, str); return buf.strval(); } |
| const char* saveIntStr(int num) { char buf[30]; sprintf(buf, "%d", num); return saveStr(buf); } |
| #ifndef PRODUCT |
| int printcr_if_verbose(int level, const char* fmt,...); |
| #endif |
| const char* get_abort_message(); |
| void abort(const char* s = null); |
| bool aborting() { return abort_message != null; } |
| static unpacker* current(); // find current instance |
| void checkLegacy(const char* name); |
| // Output management |
| void set_output(fillbytes* which) { |
| assert(wp == null); |
| which->ensureSize(1 << 12); // covers the average classfile |
| wpbase = which->base(); |
| wp = which->limit(); |
| wplimit = which->end(); |
| } |
| fillbytes* close_output(fillbytes* which = null); // inverse of set_output |
| |
| // These take an implicit parameter of wp/wplimit, and resize as necessary: |
| byte* put_space(size_t len); // allocates space at wp, returns pointer |
| size_t put_empty(size_t s) { byte* p = put_space(s); return p - wpbase; } |
| void ensure_put_space(size_t len); |
| void put_bytes(bytes& b) { b.writeTo(put_space(b.len)); } |
| void putu1(int n) { putu1_at(put_space(1), n); } |
| void putu1_fast(int n) { putu1_at(wp++, n); } |
| void putu2(int n); // { putu2_at(put_space(2), n); } |
| void putu4(int n); // { putu4_at(put_space(4), n); } |
| void putu8(jlong n); // { putu8_at(put_space(8), n); } |
| void putref(entry* e); // { putu2_at(put_space(2), putref_index(e, 2)); } |
| void putu1ref(entry* e); // { putu1_at(put_space(1), putref_index(e, 1)); } |
| int putref_index(entry* e, int size); // size in [1..2] |
| void put_label(int curIP, int size); // size in {2,4} |
| void putlayout(band** body); |
| void put_stackmap_type(); |
| |
| size_t wpoffset() { return (size_t)(wp - wpbase); } // (unvariant across overflow) |
| byte* wp_at(size_t offset) { return wpbase + offset; } |
| uint to_bci(uint bii); |
| void get_code_header(int& max_stack, |
| int& max_na_locals, |
| int& handler_count, |
| int& cflags); |
| band* ref_band_for_self_op(int bc, bool& isAloadVar, int& origBCVar); |
| band* ref_band_for_op(int bc); |
| |
| // Definitions of standard classfile int formats: |
| static void putu1_at(byte* wp, int n) { assert(n == (n & 0xFF)); wp[0] = n; } |
| static void putu2_at(byte* wp, int n); |
| static void putu4_at(byte* wp, int n); |
| static void putu8_at(byte* wp, jlong n); |
| |
| // Private stuff |
| void reset_cur_classfile(); |
| void write_classfile_tail(); |
| void write_classfile_head(); |
| void write_code(); |
| void write_bc_ops(); |
| void write_members(int num, int attrc); // attrc=ATTR_CONTEXT_FIELD/METHOD |
| int write_attrs(int attrc, julong indexBits); |
| int write_ics(int naOffset, int na); |
| int write_bsms(int naOffset, int na); |
| |
| // The readers |
| void read_bands(); |
| void read_file_header(); |
| void read_cp(); |
| void read_cp_counts(value_stream& hdr); |
| void read_attr_defs(); |
| void read_ics(); |
| void read_attrs(int attrc, int obj_count); |
| void read_classes(); |
| void read_code_headers(); |
| void read_bcs(); |
| void read_bc_ops(); |
| void read_files(); |
| void read_Utf8_values(entry* cpMap, int len); |
| void read_single_words(band& cp_band, entry* cpMap, int len); |
| void read_double_words(band& cp_bands, entry* cpMap, int len); |
| void read_single_refs(band& cp_band, byte refTag, entry* cpMap, int len); |
| void read_double_refs(band& cp_band, byte ref1Tag, byte ref2Tag, entry* cpMap, int len); |
| void read_signature_values(entry* cpMap, int len); |
| void read_method_handle(entry* cpMap, int len); |
| void read_method_type(entry* cpMap, int len); |
| void read_bootstrap_methods(entry* cpMap, int len); |
| }; |
| |
| inline void cpool::abort(const char* msg) { u->abort(msg); } |
| inline bool cpool::aborting() { return u->aborting(); } |