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corda/src/process.cpp
Joel Dice 5b4f17997f progress towards cross-architecture bootimage builds 
This monster commit is the first step towards supporting
cross-architecture bootimage builds.  The challenge is to build a heap
and code image for the target platform where the word size and
endianess may differ from those of the build architecture.  That means
the memory layout of objects may differ due to alignment and size
differences, so we can't just copy objects into the heap image
unchanged; we must copy field by field, resizing values, reversing
endianess and shifting offsets as necessary.

This commit also removes POD (plain old data) type support from the
type generator because it added a lot of complication and little
value.
2011-08-29 19:00:17 -06:00

299 lines
7.0 KiB
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/* Copyright (c) 2008-2011, Avian Contributors
Permission to use, copy, modify, and/or distribute this software
for any purpose with or without fee is hereby granted, provided
that the above copyright notice and this permission notice appear
in all copies.
There is NO WARRANTY for this software. See license.txt for
details. */
#include "process.h"
using namespace vm;
namespace {
unsigned
mangledSize(int8_t c)
{
switch (c) {
case '_':
case ';':
case '[':
return 2;
case '$':
return 6;
default:
return 1;
}
}
unsigned
mangle(int8_t c, char* dst)
{
switch (c) {
case '/':
dst[0] = '_';
return 1;
case '_':
dst[0] = '_';
dst[1] = '1';
return 2;
case ';':
dst[0] = '_';
dst[1] = '2';
return 2;
case '[':
dst[0] = '_';
dst[1] = '3';
return 2;
case '$':
memcpy(dst, "_00024", 6);
return 6;
default:
dst[0] = c;
return 1;
}
}
unsigned
jniNameLength(Thread* t, object method, bool decorate)
{
unsigned size = 0;
object className = ::className(t, methodClass(t, method));
for (unsigned i = 0; i < byteArrayLength(t, className) - 1; ++i) {
size += mangledSize(byteArrayBody(t, className, i));
}
++ size;
object methodName = ::methodName(t, method);
for (unsigned i = 0; i < byteArrayLength(t, methodName) - 1; ++i) {
size += mangledSize(byteArrayBody(t, methodName, i));
}
if (decorate) {
size += 2;
object methodSpec = ::methodSpec(t, method);
for (unsigned i = 1; i < byteArrayLength(t, methodSpec) - 1
and byteArrayBody(t, methodSpec, i) != ')'; ++i)
{
size += mangledSize(byteArrayBody(t, methodSpec, i));
}
}
return size;
}
void
makeJNIName(Thread* t, const char* prefix, unsigned prefixLength, char* name,
object method, bool decorate)
{
memcpy(name, prefix, prefixLength);
name += prefixLength;
object className = ::className(t, methodClass(t, method));
for (unsigned i = 0; i < byteArrayLength(t, className) - 1; ++i) {
name += mangle(byteArrayBody(t, className, i), name);
}
*(name++) = '_';
object methodName = ::methodName(t, method);
for (unsigned i = 0; i < byteArrayLength(t, methodName) - 1; ++i) {
name += mangle(byteArrayBody(t, methodName, i), name);
}
if (decorate) {
*(name++) = '_';
*(name++) = '_';
object methodSpec = ::methodSpec(t, method);
for (unsigned i = 1; i < byteArrayLength(t, methodSpec) - 1
and byteArrayBody(t, methodSpec, i) != ')'; ++i)
{
name += mangle(byteArrayBody(t, methodSpec, i), name);
}
}
*(name++) = 0;
}
void*
resolveNativeMethod(Thread* t, const char* undecorated, const char* decorated)
{
for (System::Library* lib = t->m->libraries; lib; lib = lib->next()) {
void* p = lib->resolve(undecorated);
if (p) {
return p;
} else {
p = lib->resolve(decorated);
if (p) {
return p;
}
}
}
return 0;
}
void*
resolveNativeMethod(Thread* t, object method, const char* prefix,
unsigned prefixLength, int footprint UNUSED)
{
unsigned undecoratedSize = prefixLength + jniNameLength(t, method, false);
// extra 6 is for code below:
THREAD_RUNTIME_ARRAY(t, char, undecorated, undecoratedSize + 1 + 6);
makeJNIName(t, prefix, prefixLength, RUNTIME_ARRAY_BODY(undecorated) + 1,
method, false);
unsigned decoratedSize = prefixLength + jniNameLength(t, method, true);
// extra 6 is for code below:
THREAD_RUNTIME_ARRAY(t, char, decorated, decoratedSize + 1 + 6);
makeJNIName(t, prefix, prefixLength, RUNTIME_ARRAY_BODY(decorated) + 1,
method, true);
void* p = resolveNativeMethod(t, RUNTIME_ARRAY_BODY(undecorated) + 1,
RUNTIME_ARRAY_BODY(decorated) + 1);
if (p) {
return p;
}
#ifdef PLATFORM_WINDOWS
// on windows, we also try the _%s@%d and %s@%d variants
if (footprint == -1) {
footprint = methodParameterFootprint(t, method) + 1;
if (methodFlags(t, method) & ACC_STATIC) {
++ footprint;
}
}
*RUNTIME_ARRAY_BODY(undecorated) = '_';
vm::snprintf(RUNTIME_ARRAY_BODY(undecorated) + undecoratedSize + 1, 5, "@%d",
footprint * BytesPerWord);
*RUNTIME_ARRAY_BODY(decorated) = '_';
vm::snprintf(RUNTIME_ARRAY_BODY(decorated) + decoratedSize + 1, 5, "@%d",
footprint * BytesPerWord);
p = resolveNativeMethod(t, RUNTIME_ARRAY_BODY(undecorated),
RUNTIME_ARRAY_BODY(decorated));
if (p) {
return p;
}
// one more try without the leading underscore
p = resolveNativeMethod(t, RUNTIME_ARRAY_BODY(undecorated) + 1,
RUNTIME_ARRAY_BODY(decorated) + 1);
if (p) {
return p;
}
#endif
return 0;
}
object
resolveNativeMethod(Thread* t, object method)
{
void* p = resolveNativeMethod(t, method, "Avian_", 6, 3);
if (p) {
return makeNative(t, p, true);
}
p = resolveNativeMethod(t, method, "Java_", 5, -1);
if (p) {
return makeNative(t, p, false);
}
return 0;
}
} // namespace
namespace vm {
void
resolveNative(Thread* t, object method)
{
PROTECT(t, method);
assert(t, methodFlags(t, method) & ACC_NATIVE);
initClass(t, methodClass(t, method));
if (methodRuntimeDataNative(t, getMethodRuntimeData(t, method)) == 0) {
object native = resolveNativeMethod(t, method);
if (UNLIKELY(native == 0)) {
throwNew(t, Machine::UnsatisfiedLinkErrorType, "%s.%s%s",
&byteArrayBody(t, className(t, methodClass(t, method)), 0),
&byteArrayBody(t, methodName(t, method), 0),
&byteArrayBody(t, methodSpec(t, method), 0));
}
PROTECT(t, native);
object runtimeData = getMethodRuntimeData(t, method);
// ensure other threads only see the methodRuntimeDataNative field
// populated once the object it points to has been populated:
storeStoreMemoryBarrier();
set(t, runtimeData, MethodRuntimeDataNative, native);
}
}
int
findLineNumber(Thread* t, object method, unsigned ip)
{
if (methodFlags(t, method) & ACC_NATIVE) {
return NativeLine;
}
// our parameter indicates the instruction following the one we care
// about, so we back up first:
-- ip;
object code = methodCode(t, method);
object lnt = codeLineNumberTable(t, code);
if (lnt) {
unsigned bottom = 0;
unsigned top = lineNumberTableLength(t, lnt);
for (unsigned span = top - bottom; span; span = top - bottom) {
unsigned middle = bottom + (span / 2);
uint64_t ln = lineNumberTableBody(t, lnt, middle);
if (ip >= lineNumberIp(ln)
and (middle + 1 == lineNumberTableLength(t, lnt)
or ip < lineNumberIp(lineNumberTableBody(t, lnt, middle + 1))))
{
return lineNumberLine(ln);
} else if (ip < lineNumberIp(ln)) {
top = middle;
} else if (ip > lineNumberIp(ln)) {
bottom = middle + 1;
}
}
if (top < lineNumberTableLength(t, lnt)) {
return lineNumberLine(lineNumberTableBody(t, lnt, top));
} else {
return UnknownLine;
}
} else {
return UnknownLine;
}
}
} // namespace vm
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