8204965: Fix '--disable-cds' and disable CDS on AIX by default
Reviewed-by: erikj, jiangli, stuefe, dholmes
/*
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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*
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* 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).
*
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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
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#ifndef SHARE_VM_CLASSFILE_COMPACTHASHTABLE_HPP
#define SHARE_VM_CLASSFILE_COMPACTHASHTABLE_HPP
#include "oops/array.hpp"
#include "oops/symbol.hpp"
#include "utilities/hashtable.hpp"
template <class T, class N> class CompactHashtable;
class NumberSeq;
class SimpleCompactHashtable;
class SerializeClosure;
// Stats for symbol tables in the CDS archive
class CompactHashtableStats {
public:
int hashentry_count;
int hashentry_bytes;
int bucket_count;
int bucket_bytes;
};
/////////////////////////////////////////////////////////////////////////
//
// The compact hash table writer. Used at dump time for writing out
// the compact table to the shared archive.
//
// At dump time, the CompactHashtableWriter obtains all entries from the
// symbol/string table and adds them to a new temporary hash table. The hash
// table size (number of buckets) is calculated using
// '(num_entries + bucket_size - 1) / bucket_size'. The default bucket
// size is 4 and can be changed by -XX:SharedSymbolTableBucketSize option.
// 4 is chosen because it produces smaller sized bucket on average for
// faster lookup. It also has relatively small number of empty buckets and
// good distribution of the entries.
//
// We use a simple hash function (hash % num_bucket) for the table.
// The new table is compacted when written out. Please see comments
// above the CompactHashtable class for the table layout detail. The bucket
// offsets are written to the archive as part of the compact table. The
// bucket offset is encoded in the low 30-bit (0-29) and the bucket type
// (regular or compact) are encoded in bit[31, 30]. For buckets with more
// than one entry, both hash and entry offset are written to the
// table. For buckets with only one entry, only the entry offset is written
// to the table and the buckets are tagged as compact in their type bits.
// Buckets without entry are skipped from the table. Their offsets are
// still written out for faster lookup.
//
class CompactHashtableWriter: public StackObj {
public:
class Entry {
unsigned int _hash;
u4 _value;
public:
Entry() {}
Entry(unsigned int hash, u4 val) : _hash(hash), _value(val) {}
u4 value() {
return _value;
}
unsigned int hash() {
return _hash;
}
bool operator==(const CompactHashtableWriter::Entry& other) {
return (_value == other._value && _hash == other._hash);
}
}; // class CompactHashtableWriter::Entry
private:
int _num_entries;
int _num_buckets;
int _num_empty_buckets;
int _num_value_only_buckets;
int _num_other_buckets;
GrowableArray<Entry>** _buckets;
CompactHashtableStats* _stats;
Array<u4>* _compact_buckets;
Array<u4>* _compact_entries;
public:
// This is called at dump-time only
CompactHashtableWriter(int num_buckets, CompactHashtableStats* stats);
~CompactHashtableWriter();
void add(unsigned int hash, u4 value);
void add(u4 value) {
add((unsigned int)value, value);
}
private:
void allocate_table();
void dump_table(NumberSeq* summary);
public:
void dump(SimpleCompactHashtable *cht, const char* table_name);
const char* table_name();
};
class CompactSymbolTableWriter: public CompactHashtableWriter {
public:
CompactSymbolTableWriter(int num_buckets, CompactHashtableStats* stats) :
CompactHashtableWriter(num_buckets, stats) {}
void add(unsigned int hash, Symbol *symbol);
void dump(CompactHashtable<Symbol*, char> *cht);
};
class CompactStringTableWriter: public CompactHashtableWriter {
public:
CompactStringTableWriter(int num_entries, CompactHashtableStats* stats) :
CompactHashtableWriter(num_entries, stats) {}
void add(unsigned int hash, oop string);
void dump(CompactHashtable<oop, char> *cht);
};
#define REGULAR_BUCKET_TYPE 0
#define VALUE_ONLY_BUCKET_TYPE 1
#define TABLEEND_BUCKET_TYPE 3
#define BUCKET_OFFSET_MASK 0x3FFFFFFF
#define BUCKET_OFFSET(info) ((info) & BUCKET_OFFSET_MASK)
#define BUCKET_TYPE_SHIFT 30
#define BUCKET_TYPE(info) (((info) & ~BUCKET_OFFSET_MASK) >> BUCKET_TYPE_SHIFT)
#define BUCKET_INFO(offset, type) (((type) << BUCKET_TYPE_SHIFT) | ((offset) & BUCKET_OFFSET_MASK))
/////////////////////////////////////////////////////////////////////////////
//
// CompactHashtable is used to stored the CDS archive's symbol/string table. Used
// at runtime only to access the compact table from the archive.
//
// Because these tables are read-only (no entries can be added/deleted) at run-time
// and tend to have large number of entries, we try to minimize the footprint
// cost per entry.
//
// The CompactHashtable is split into two arrays
//
// u4 buckets[num_buckets+1]; // bit[31,30]: type; bit[29-0]: offset
// u4 entries[<variable size>]
//
// The size of buckets[] is 'num_buckets + 1'. Each entry of
// buckets[] is a 32-bit encoding of the bucket type and bucket offset,
// with the type in the left-most 2-bit and offset in the remaining 30-bit.
// The last entry is a special type. It contains the end of the last
// bucket.
//
// There are two types of buckets, regular buckets and value_only buckets. The
// value_only buckets have '01' in their highest 2-bit, and regular buckets have
// '00' in their highest 2-bit.
//
// For normal buckets, each entry is 8 bytes in the entries[]:
// u4 hash; /* symbol/string hash */
// union {
// u4 offset; /* Symbol* sym = (Symbol*)(base_address + offset) */
// narrowOop str; /* String narrowOop encoding */
// }
//
//
// For value_only buckets, each entry has only the 4-byte 'offset' in the entries[].
//
// Example -- note that the second bucket is a VALUE_ONLY_BUCKET_TYPE so the hash code
// is skipped.
// buckets[0, 4, 5, ....]
// | | |
// | | +---+
// | | |
// | +----+ |
// v v v
// entries[H,O,H,O,O,H,O,H,O.....]
//
// See CompactHashtable::lookup() for how the table is searched at runtime.
// See CompactHashtableWriter::dump() for how the table is written at CDS
// dump time.
//
class SimpleCompactHashtable {
protected:
address _base_address;
u4 _bucket_count;
u4 _entry_count;
u4* _buckets;
u4* _entries;
public:
SimpleCompactHashtable() {
_entry_count = 0;
_bucket_count = 0;
_buckets = 0;
_entries = 0;
}
void reset() {
_bucket_count = 0;
_entry_count = 0;
_buckets = 0;
_entries = 0;
}
void init(address base_address, u4 entry_count, u4 bucket_count, u4* buckets, u4* entries) {
_base_address = base_address;
_bucket_count = bucket_count;
_entry_count = entry_count;
_buckets = buckets;
_entries = entries;
}
template <class I> inline void iterate(const I& iterator);
bool exists(u4 value);
// For reading from/writing to the CDS archive
void serialize(SerializeClosure* soc);
};
template <class T, class N> class CompactHashtable : public SimpleCompactHashtable {
friend class VMStructs;
public:
enum CompactHashtableType {
_symbol_table = 0,
_string_table = 1
};
private:
u4 _type;
inline Symbol* decode_entry(CompactHashtable<Symbol*, char>* const t,
u4 offset, const char* name, int len);
inline oop decode_entry(CompactHashtable<oop, char>* const t,
u4 offset, const char* name, int len);
public:
CompactHashtable() : SimpleCompactHashtable() {}
void set_type(CompactHashtableType type) {
_type = (u4)type;
}
// Lookup an entry from the compact table
inline T lookup(const N* name, unsigned int hash, int len);
// iterate over symbols
void symbols_do(SymbolClosure *cl);
// iterate over strings
void oops_do(OopClosure* f);
// For reading from/writing to the CDS archive
void serialize(SerializeClosure* soc);
uintx base_address() {
return (uintx) _base_address;
}
};
////////////////////////////////////////////////////////////////////////
//
// Read/Write the contents of a hashtable textual dump (created by
// SymbolTable::dump and StringTable::dump).
// Because the dump file may be big (hundred of MB in extreme cases),
// we use mmap for fast access when reading it.
//
class HashtableTextDump {
int _fd;
const char* _base;
const char* _p;
const char* _end;
const char* _filename;
size_t _size;
int _prefix_type;
int _line_no;
public:
HashtableTextDump(const char* filename);
~HashtableTextDump();
enum {
SymbolPrefix = 1 << 0,
StringPrefix = 1 << 1,
Unknown = 1 << 2
};
void quit(const char* err, const char* msg);
inline int remain() {
return (int)(_end - _p);
}
void corrupted(const char *p, const char *msg);
inline void corrupted_if(bool cond, const char *msg) {
if (cond) {
corrupted(_p, msg);
}
}
bool skip_newline();
int skip(char must_be_char);
void skip_past(char c);
void check_version(const char* ver);
inline void get_num(char delim, int *num) {
const char* p = _p;
const char* end = _end;
u8 n = 0;
while (p < end) {
char c = *p++;
if ('0' <= c && c <= '9') {
n = n * 10 + (c - '0');
if (n > (u8)INT_MAX) {
corrupted(_p, "Num overflow");
}
} else if (c == delim) {
_p = p;
*num = (int)n;
return;
} else {
// Not [0-9], not 'delim'
corrupted(_p, "Unrecognized format");;
}
}
corrupted(_end, "Incorrect format");
ShouldNotReachHere();
}
void scan_prefix_type();
int scan_prefix(int* utf8_length);
int scan_string_prefix();
int scan_symbol_prefix();
jchar unescape(const char* from, const char* end, int count);
void get_utf8(char* utf8_buffer, int utf8_length);
static void put_utf8(outputStream* st, const char* utf8_string, int utf8_length);
};
#endif // SHARE_VM_CLASSFILE_COMPACTHASHTABLE_HPP