2023-12-06 17:43:39 -05:00
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// This file is part of AsmJit project <https://asmjit.com>
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//
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// See asmjit.h or LICENSE.md for license and copyright information
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// SPDX-License-Identifier: Zlib
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// ----------------------------------------------------------------------------
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// This is a working example that demonstrates how multiple sections can be
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// used in a JIT-based code generator. It shows also the necessary tooling
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// that is expected to be done by the user when the feature is used. It's
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// important to handle the following cases:
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//
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// - Assign offsets to sections when the code generation is finished.
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// - Tell the CodeHolder to resolve unresolved links and check whether
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// all links were resolved.
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// - Relocate the code
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// - Copy the code to the destination address.
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// ----------------------------------------------------------------------------
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#include <asmjit/core.h>
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#if ASMJIT_ARCH_X86 && !defined(ASMJIT_NO_X86) && !defined(ASMJIT_NO_JIT)
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#include <asmjit/x86.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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using namespace asmjit;
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// The generated function is very simple, it only accesses the built-in data
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// (from .data section) at the index as provided by its first argument. This
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// data is inlined into the resulting function so we can use it this array
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// for verification that the function returns correct values.
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static const uint8_t dataArray[] = { 2, 9, 4, 7, 1, 3, 8, 5, 6, 0 };
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static void fail(const char* message, Error err) {
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printf("** FAILURE: %s (%s) **\n", message, DebugUtils::errorAsString(err));
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exit(1);
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}
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int main() {
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printf("AsmJit X86 Sections Test\n\n");
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Environment env = Environment::host();
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JitAllocator allocator;
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#ifndef ASMJIT_NO_LOGGING
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FileLogger logger(stdout);
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logger.setIndentation(FormatIndentationGroup::kCode, 2);
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#endif
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CodeHolder code;
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code.init(env);
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#ifndef ASMJIT_NO_LOGGING
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code.setLogger(&logger);
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#endif
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Section* dataSection;
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Error err = code.newSection(&dataSection, ".data", SIZE_MAX, SectionFlags::kNone, 8);
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if (err) {
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fail("Failed to create a .data section", err);
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}
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else {
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printf("Generating code:\n");
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x86::Assembler a(&code);
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x86::Gp idx = a.zax();
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x86::Gp addr = a.zcx();
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Label data = a.newLabel();
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FuncDetail func;
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2024-06-17 19:04:36 -04:00
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func.init(FuncSignature::build<size_t, size_t>(), code.environment());
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2023-12-06 17:43:39 -05:00
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FuncFrame frame;
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frame.init(func);
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frame.addDirtyRegs(idx, addr);
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FuncArgsAssignment args(&func);
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args.assignAll(idx);
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args.updateFuncFrame(frame);
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frame.finalize();
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a.emitProlog(frame);
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a.emitArgsAssignment(frame, args);
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a.lea(addr, x86::ptr(data));
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a.movzx(idx, x86::byte_ptr(addr, idx));
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a.emitEpilog(frame);
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a.section(dataSection);
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a.bind(data);
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a.embed(dataArray, sizeof(dataArray));
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}
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// Manually change he offsets of each section, start at 0. This code is very
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// similar to what `CodeHolder::flatten()` does, however, it's shown here
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// how to do it explicitly.
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printf("\nCalculating section offsets:\n");
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uint64_t offset = 0;
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for (Section* section : code.sectionsByOrder()) {
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offset = Support::alignUp(offset, section->alignment());
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section->setOffset(offset);
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offset += section->realSize();
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printf(" [0x%08X %s] {Id=%u Size=%u}\n",
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uint32_t(section->offset()),
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section->name(),
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section->id(),
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uint32_t(section->realSize()));
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}
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size_t codeSize = size_t(offset);
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printf(" Final code size: %zu\n", codeSize);
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// Resolve cross-section links (if any). On 32-bit X86 this is not necessary
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// as this is handled through relocations as the addressing is different.
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if (code.hasUnresolvedLinks()) {
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printf("\nResolving cross-section links:\n");
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printf(" Before 'resolveUnresolvedLinks()': %zu\n", code.unresolvedLinkCount());
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err = code.resolveUnresolvedLinks();
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if (err)
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fail("Failed to resolve cross-section links", err);
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printf(" After 'resolveUnresolvedLinks()': %zu\n", code.unresolvedLinkCount());
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}
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// Allocate memory for the function and relocate it there.
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JitAllocator::Span span;
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err = allocator.alloc(span, codeSize);
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if (err)
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fail("Failed to allocate executable memory", err);
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// Relocate to the base-address of the allocated memory.
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code.relocateToBase(uint64_t(uintptr_t(span.rx())));
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allocator.write(span, [&](JitAllocator::Span& span) noexcept -> Error {
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// Copy the flattened code into `mem.rw`. There are two ways. You can either copy
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// everything manually by iterating over all sections or use `copyFlattenedData`.
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// This code is similar to what `copyFlattenedData(p, codeSize, 0)` would do:
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for (Section* section : code.sectionsByOrder())
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memcpy(static_cast<uint8_t*>(span.rw()) + size_t(section->offset()), section->data(), section->bufferSize());
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return kErrorOk;
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});
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// Execute the function and test whether it works.
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typedef size_t (*Func)(size_t idx);
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Func fn = (Func)span.rx();
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printf("\n");
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if (fn(0) != dataArray[0] ||
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fn(3) != dataArray[3] ||
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fn(6) != dataArray[6] ||
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fn(9) != dataArray[9] ) {
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printf("** FAILURE: The generated function returned incorrect result(s) **\n");
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return 1;
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}
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printf("** SUCCESS **\n");
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return 0;
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}
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#else
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int main() {
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printf("AsmJit X86 Sections Test is disabled on non-x86 host or when compiled with ASMJIT_NO_JIT\n\n");
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return 0;
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}
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#endif // ASMJIT_ARCH_X86 && !ASMJIT_NO_X86 && !ASMJIT_NO_JIT
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