Adding thread ID to trace lines and cleaning up their formatting.

This commit is contained in:
Ben Vanik 2013-06-30 06:09:08 -07:00
parent 82ee749515
commit 6f602d120a
10 changed files with 84 additions and 49 deletions

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@ -9,6 +9,7 @@
#include <xenia/cpu/global_exports.h>
#include <xenia/logging.h>
#include <xenia/cpu/cpu-private.h>
#include <xenia/cpu/processor.h>
#include <xenia/cpu/sdb.h>
@ -75,7 +76,9 @@ void _cdecl XeAccessViolation(
void _cdecl XeTraceKernelCall(
xe_ppc_state_t* state, uint64_t cia, uint64_t call_ia,
KernelExport* kernel_export) {
XELOGCPU("TRACE: %.8X -> k.%.8X (%s)",
uint32_t thread_id = state->thread_state->thread_id();
xe_log_line("", thread_id, "XeTraceKernelCall", 't',
"KERNEL CALL: %.8X -> k.%.8X (%s)",
(uint32_t)call_ia - 4, (uint32_t)cia,
kernel_export ? kernel_export->name : "unknown");
}
@ -83,7 +86,9 @@ void _cdecl XeTraceKernelCall(
void _cdecl XeTraceUserCall(
xe_ppc_state_t* state, uint64_t cia, uint64_t call_ia,
FunctionSymbol* fn) {
XELOGCPU("TRACE: %.8X -> u.%.8X (%s)",
uint32_t thread_id = state->thread_state->thread_id();
xe_log_line("", thread_id, "XeTraceUserCall", 't',
"USER CALL %.8X -> u.%.8X (%s)",
(uint32_t)call_ia - 4, (uint32_t)cia, fn->name());
}
@ -97,14 +102,43 @@ void _cdecl XeTraceBranch(
target_ia = state->ctr;
break;
}
XELOGCPU("TRACE: %.8X -> b.%.8X",
uint32_t thread_id = state->thread_state->thread_id();
xe_log_line("", thread_id, "XeTraceBranch", 't',
"BRANCH %.8X -> b.%.8X",
(uint32_t)cia, (uint32_t)target_ia);
}
void _cdecl XeTraceInstruction(
xe_ppc_state_t* state, uint64_t cia, uint64_t data) {
char buffer[2048];
buffer[0] = 0;
int offset = 0;
ppc::InstrData i;
i.address = (uint32_t)cia;
i.code = (uint32_t)data;
i.type = ppc::GetInstrType(i.code);
if (i.type && i.type->disassemble) {
ppc::InstrDisasm d;
i.type->disassemble(i, d);
std::string disasm;
d.Dump(disasm);
offset += xesnprintfa(buffer + offset, XECOUNT(buffer) - offset,
"%.8X %.8X %s %s",
i.address, i.code,
i.type && i.type->emit ? " " : "X",
disasm.c_str());
} else {
offset += xesnprintfa(buffer + offset, XECOUNT(buffer) - offset,
"%.8X %.8X %s %s",
i.address, i.code,
i.type && i.type->emit ? " " : "X",
i.type ? i.type->name : "<unknown>");
}
if (FLAGS_trace_registers) {
XELOGCPU(
offset += xesnprintfa(buffer + offset, XECOUNT(buffer) - offset,
"\n"
" lr=%.16llX ctr=%.16llX cr=%.4X xer=%.16llX\n"
" r0=%.16llX r1=%.16llX r2=%.16llX r3=%.16llX\n"
@ -126,25 +160,8 @@ void _cdecl XeTraceInstruction(
state->r[28], state->r[29], state->r[30], state->r[31]);
}
ppc::InstrData i;
i.address = (uint32_t)cia;
i.code = (uint32_t)data;
i.type = ppc::GetInstrType(i.code);
if (i.type && i.type->disassemble) {
ppc::InstrDisasm d;
i.type->disassemble(i, d);
std::string disasm;
d.Dump(disasm);
XELOGCPU("TRACE: %.8X %.8X %s %s",
i.address, i.code,
i.type && i.type->emit ? " " : "X",
disasm.c_str());
} else {
XELOGCPU("TRACE: %.8X %.8X %s %s",
i.address, i.code,
i.type && i.type->emit ? " " : "X",
i.type ? i.type->name : "<unknown>");
}
uint32_t thread_id = state->thread_state->thread_id();
xe_log_line("", thread_id, "XeTraceInstruction", 't', buffer);
// if (cia == 0x82012074) {
// printf("BREAKBREAKBREAK\n");

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@ -13,6 +13,14 @@
#include <stdint.h>
namespace xe {
namespace cpu {
class Processor;
class ThreadState;
} // namespace cpu
} // namespace xe
// namespace FPRF {
// enum FPRF_e {
// QUIET_NAN = 0x00088000,
@ -144,9 +152,8 @@ typedef struct XECACHEALIGN64 xe_ppc_state {
// Runtime-specific data pointer. Used on callbacks to get access to the
// current runtime and its data.
uint8_t* membase;
void* processor;
void* thread_state;
void* runtime;
xe::cpu::Processor* processor;
xe::cpu::ThreadState* thread_state;
void SetRegFromString(const char* name, const char* value);
bool CompareRegWithString(const char* name, const char* value,

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@ -191,9 +191,10 @@ uint32_t Processor::CreateCallback(void (*callback)(void* data), void* data) {
}
ThreadState* Processor::AllocThread(uint32_t stack_size,
uint32_t thread_state_address) {
uint32_t thread_state_address,
uint32_t thread_id) {
ThreadState* thread_state = new ThreadState(
this, stack_size, thread_state_address);
this, stack_size, thread_state_address, thread_id);
return thread_state;
}

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@ -53,7 +53,8 @@ public:
uint32_t CreateCallback(void (*callback)(void* data), void* data);
ThreadState* AllocThread(uint32_t stack_size, uint32_t thread_state_address);
ThreadState* AllocThread(uint32_t stack_size, uint32_t thread_state_address,
uint32_t thread_id);
void DeallocThread(ThreadState* thread_state);
int Execute(ThreadState* thread_state, uint32_t address);
uint64_t Execute(ThreadState* thread_state, uint32_t address, uint64_t arg0);

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@ -19,8 +19,9 @@ using namespace xe::cpu;
ThreadState::ThreadState(
Processor* processor,
uint32_t stack_size, uint32_t thread_state_address) :
stack_size_(stack_size), thread_state_address_(thread_state_address) {
uint32_t stack_size, uint32_t thread_state_address, uint32_t thread_id) :
stack_size_(stack_size), thread_state_address_(thread_state_address),
thread_id_(thread_id) {
memory_ = processor->memory();
stack_address_ = xe_memory_heap_alloc(memory_, 0, stack_size, 0);
@ -42,6 +43,10 @@ ThreadState::~ThreadState() {
xe_memory_release(memory_);
}
uint32_t ThreadState::thread_id() const {
return thread_id_;
}
xe_ppc_state_t* ThreadState::ppc_state() {
return &ppc_state_;
}

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@ -25,9 +25,12 @@ class Processor;
class ThreadState {
public:
ThreadState(Processor* processor,
uint32_t stack_size, uint32_t thread_state_address);
uint32_t stack_size, uint32_t thread_state_address,
uint32_t thread_id);
~ThreadState();
uint32_t thread_id() const;
xe_ppc_state_t* ppc_state();
private:
@ -37,6 +40,7 @@ private:
uint32_t stack_address_;
uint32_t thread_state_address_;
uint32_t thread_id_;
xe_ppc_state_t ppc_state_;
};

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@ -616,8 +616,6 @@ void X64Emitter::GenerateBasicBlock(FunctionBlock* block) {
fflush(stdout);
}
TraceInstruction(i);
if (!i.type) {
XELOGCPU("Invalid instruction %.8X %.8X", ia, i.code);
TraceInvalidInstruction(i);
@ -634,6 +632,8 @@ void X64Emitter::GenerateBasicBlock(FunctionBlock* block) {
ia, i.code, i.type->name);
TraceInvalidInstruction(i);
}
TraceInstruction(i);
}
// If we fall through, create the branch.

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@ -31,7 +31,7 @@ XThread::XThread(KernelState* kernel_state,
thread_id_(++next_xthread_id),
thread_handle_(0),
thread_state_address_(0),
processor_state_(0) {
thread_state_(0) {
creation_params_.stack_size = stack_size;
creation_params_.xapi_thread_startup = xapi_thread_startup;
creation_params_.start_address = start_address;
@ -47,8 +47,8 @@ XThread::XThread(KernelState* kernel_state,
XThread::~XThread() {
PlatformDestroy();
if (processor_state_) {
kernel_state()->processor()->DeallocThread(processor_state_);
if (thread_state_) {
kernel_state()->processor()->DeallocThread(thread_state_);
}
if (tls_address_) {
xe_memory_heap_free(kernel_state()->memory(), tls_address_, 0);
@ -125,9 +125,9 @@ X_STATUS XThread::Create() {
// Allocate processor thread state.
// This is thread safe.
processor_state_ = kernel_state()->processor()->AllocThread(
creation_params_.stack_size, thread_state_address_);
if (!processor_state_) {
thread_state_ = kernel_state()->processor()->AllocThread(
creation_params_.stack_size, thread_state_address_, thread_id_);
if (!thread_state_) {
XELOGW("Unable to allocate processor thread state");
return X_STATUS_NO_MEMORY;
}
@ -261,7 +261,7 @@ void XThread::Execute() {
// Run user code.
int exit_code = (int)kernel_state()->processor()->Execute(
processor_state_,
thread_state_,
creation_params_.start_address, creation_params_.start_context);
// If we got here it means the execute completed without an exit being called.

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@ -57,7 +57,7 @@ private:
void* thread_handle_;
uint32_t tls_address_;
uint32_t thread_state_address_;
cpu::ThreadState* processor_state_;
cpu::ThreadState* thread_state_;
};

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@ -146,7 +146,7 @@ int run_test(string& src_file_path) {
XEEXPECTZERO(processor->LoadRawBinary(bin_file_path_str, 0x82010000));
// Simulate a thread.
thread_state = processor->AllocThread(256 * 1024, 0);
thread_state = processor->AllocThread(256 * 1024, 0, 100);
// Setup test state from annotations.
XEEXPECTZERO(setup_test_state(memory, processor.get(), thread_state,