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mirror of https://github.com/RPCS3/rpcs3.git synced 2024-11-22 02:32:36 +01:00

Modernize PPU logging (ppu_log variable)

This commit is contained in:
Nekotekina 2020-02-01 11:31:27 +03:00
parent 21f7b0ff0f
commit 327bb2d8f0
11 changed files with 70 additions and 69 deletions

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@ -122,7 +122,6 @@ namespace logs
namespace logs
{
/* Small set of predefined channels */
LOG_CHANNEL(PPU);
LOG_CHANNEL(SPU);
}

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@ -1447,7 +1447,7 @@ bool handle_access_violation(u32 addr, bool is_writing, x64_context* context)
{
if (auto last_func = static_cast<ppu_thread*>(cpu)->current_function)
{
LOG_FATAL(PPU, "Function aborted: %s", last_func);
ppu_log.fatal("Function aborted: %s", last_func);
}
lv2_obj::sleep(*cpu);

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@ -48,7 +48,7 @@ struct syscache_info
cache_id.resize(cache_id.size() - 1);
cache_id = cache_id.substr(cache_id.find_last_of('/') + 1);
LOG_SUCCESS(PPU, "Retained cache from parent process: %s", Emu.hdd1);
cellSysutil.success("Retained cache from parent process: %s", Emu.hdd1);
return;
}

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@ -585,7 +585,7 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
func.addr = addr;
func.toc = toc;
func.name = fmt::format("__0x%x", func.addr);
LOG_TRACE(PPU, "Function 0x%x added (toc=0x%x)", addr, toc);
ppu_log.trace("Function 0x%x added (toc=0x%x)", addr, toc);
return func;
};
@ -605,7 +605,7 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
if (ptr[0] >= start && ptr[0] < end && ptr[0] % 4 == 0 && ptr[1] == toc)
{
// New function
LOG_TRACE(PPU, "OPD*: [0x%x] 0x%x (TOC=0x%x)", ptr, ptr[0], ptr[1]);
ppu_log.trace("OPD*: [0x%x] 0x%x (TOC=0x%x)", ptr, ptr[0], ptr[1]);
add_func(*ptr, addr_heap.count(ptr.addr()) ? toc : 0, 0);
ptr++;
}
@ -684,7 +684,7 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
}
}
if (sec_end) LOG_NOTICE(PPU, "Reading OPD section at 0x%x...", sec.addr);
if (sec_end) ppu_log.notice("Reading OPD section at 0x%x...", sec.addr);
// Mine
for (vm::cptr<u32> ptr = vm::cast(sec.addr); ptr < sec_end; ptr += 2)
@ -695,7 +695,7 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
// Add function and TOC
const u32 addr = ptr[0];
const u32 toc = ptr[1];
LOG_TRACE(PPU, "OPD: [0x%x] 0x%x (TOC=0x%x)", ptr, addr, toc);
ppu_log.trace("OPD: [0x%x] 0x%x (TOC=0x%x)", ptr, addr, toc);
TOCs.emplace(toc);
auto& func = add_func(addr, addr_heap.count(ptr.addr()) ? toc : 0, 0);
@ -767,7 +767,7 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
ptr = vm::cast(ptr.addr() + size);
}
if (sec_end && sec.size > 4) LOG_NOTICE(PPU, "Reading .eh_frame section at 0x%x...", sec.addr);
if (sec_end && sec.size > 4) ppu_log.notice("Reading .eh_frame section at 0x%x...", sec.addr);
// Mine
for (vm::cptr<u32> ptr = vm::cast(sec.addr); ptr < sec_end; ptr = vm::cast(ptr.addr() + ptr[0] + 4))
@ -781,7 +781,7 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
if (ptr[1] == 0)
{
// CIE
LOG_TRACE(PPU, ".eh_frame: [0x%x] CIE 0x%x", ptr, ptr[0]);
ppu_log.trace(".eh_frame: [0x%x] CIE 0x%x", ptr, ptr[0]);
}
else
{
@ -808,7 +808,7 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
}
else
{
LOG_ERROR(PPU, ".eh_frame: [0x%x] 0x%x, 0x%x, 0x%x, 0x%x, 0x%x", ptr, ptr[0], ptr[1], ptr[2], ptr[3], ptr[4]);
ppu_log.error(".eh_frame: [0x%x] 0x%x, 0x%x, 0x%x, 0x%x, 0x%x", ptr, ptr[0], ptr[1], ptr[2], ptr[3], ptr[4]);
continue;
}
@ -818,12 +818,12 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
addr += ptr.addr() + 8;
}
LOG_TRACE(PPU, ".eh_frame: [0x%x] FDE 0x%x (cie=*0x%x, addr=0x%x, size=0x%x)", ptr, ptr[0], cie, addr, size);
ppu_log.trace(".eh_frame: [0x%x] FDE 0x%x (cie=*0x%x, addr=0x%x, size=0x%x)", ptr, ptr[0], cie, addr, size);
// TODO: invalid offsets, zero offsets (removed functions?)
if (addr % 4 || size % 4 || size > (end - start) || addr < start || addr + size > end)
{
if (addr) LOG_ERROR(PPU, ".eh_frame: Invalid function 0x%x", addr);
if (addr) ppu_log.error(".eh_frame: Invalid function 0x%x", addr);
continue;
}
@ -1127,7 +1127,7 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
if (const u32 len = ppu_test(ptr, fend, ppu_patterns::abort))
{
// Function "abort"
LOG_NOTICE(PPU, "Function [0x%x]: 'abort'", func.addr);
ppu_log.notice("Function [0x%x]: 'abort'", func.addr);
func.attr += ppu_attr::no_return;
func.attr += ppu_attr::known_size;
func.size = len;
@ -1209,7 +1209,7 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
if (target < start || target >= end)
{
LOG_WARNING(PPU, "[0x%x] Invalid branch at 0x%x -> 0x%x", func.addr, iaddr, target);
ppu_log.warning("[0x%x] Invalid branch at 0x%x -> 0x%x", func.addr, iaddr, target);
continue;
}
@ -1292,7 +1292,7 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
// Acknowledge jumptable detection failure
if (!(func.attr & ppu_attr::no_size))
{
LOG_WARNING(PPU, "[0x%x] Jump table not found! 0x%x-0x%x", func.addr, jt_addr, jt_end);
ppu_log.warning("[0x%x] Jump table not found! 0x%x-0x%x", func.addr, jt_addr, jt_end);
}
func.attr += ppu_attr::no_size;
@ -1301,7 +1301,7 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
}
else
{
LOG_TRACE(PPU, "[0x%x] Jump table found: 0x%x-0x%x", func.addr, jt_addr, _ptr);
ppu_log.trace("[0x%x] Jump table found: 0x%x-0x%x", func.addr, jt_addr, _ptr);
}
}
@ -1327,7 +1327,7 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
else if (type == ppu_itype::STDU && func.attr & ppu_attr::no_size && (op.opcode == *_ptr || *_ptr == ppu_instructions::BLR()))
{
// Hack
LOG_SUCCESS(PPU, "[0x%x] Instruction repetition: 0x%08x", iaddr, op.opcode);
ppu_log.success("[0x%x] Instruction repetition: 0x%08x", iaddr, op.opcode);
add_block(_ptr.addr());
block.second = _ptr.addr() - block.first;
break;
@ -1433,7 +1433,7 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
// Just ensure that functions don't overlap
if (func.addr + func.size > next)
{
LOG_WARNING(PPU, "Function overlap: [0x%x] 0x%x -> 0x%x", func.addr, func.size, next - func.addr);
ppu_log.warning("Function overlap: [0x%x] 0x%x -> 0x%x", func.addr, func.size, next - func.addr);
continue; //func.size = next - func.addr;
// Also invalidate blocks
@ -1503,7 +1503,7 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
if (_ptr.addr() >= next)
{
LOG_WARNING(PPU, "Function gap: [0x%x] 0x%x bytes at 0x%x", func.addr, next - start, start);
ppu_log.warning("Function gap: [0x%x] 0x%x bytes at 0x%x", func.addr, next - start, start);
break;
}
}
@ -1527,17 +1527,17 @@ void ppu_module::analyse(u32 lib_toc, u32 entry)
for (auto&& pair : fmap)
{
auto& func = pair.second;
LOG_TRACE(PPU, "Function %s (size=0x%x, toc=0x%x, attr %#x)", func.name, func.size, func.toc, func.attr);
ppu_log.trace("Function %s (size=0x%x, toc=0x%x, attr %#x)", func.name, func.size, func.toc, func.attr);
funcs.emplace_back(std::move(func));
}
LOG_NOTICE(PPU, "Function analysis: %zu functions (%zu enqueued)", funcs.size(), func_queue.size());
ppu_log.notice("Function analysis: %zu functions (%zu enqueued)", funcs.size(), func_queue.size());
}
void ppu_acontext::UNK(ppu_opcode_t op)
{
std::fill_n(gpr, 32, spec_gpr{});
LOG_ERROR(PPU, "Unknown/Illegal opcode: 0x%08x at 0x%x" HERE, op.opcode, cia);
ppu_log.error("Unknown/Illegal opcode: 0x%08x at 0x%x" HERE, op.opcode, cia);
}
void ppu_acontext::MFVSCR(ppu_opcode_t op)
@ -3467,7 +3467,7 @@ const bool s_tes = []()
{
auto exp = ppu_acontext::spec_gpr::approx(r1.ones() & r2.ones(), r1.mask() & r2.mask());
LOG_ERROR(PPU, "ppu_acontext failure:"
ppu_log.error("ppu_acontext failure:"
"\n\tr1 = 0x%016x..0x%016x, 0x%016x:0x%016x"
"\n\tr2 = 0x%016x..0x%016x, 0x%016x:0x%016x"
"\n\tr3 = 0x%016x..0x%016x, 0x%016x:0x%016x"
@ -3483,7 +3483,7 @@ const bool s_tes = []()
ppu_acontext::spec_gpr r1;
r1 = ppu_acontext::spec_gpr::range(0x13311, 0x1fe22);
r1 = r1 ^ ppu_acontext::spec_gpr::approx(0x000, 0xf00);
LOG_SUCCESS(PPU, "0x%x..0x%x", r1.imin, r1.imax);
ppu_log.success("0x%x..0x%x", r1.imin, r1.imax);
return true;
}();

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@ -2525,7 +2525,7 @@ std::vector<ppu_function_t>& ppu_function_manager::access()
{
[](ppu_thread& ppu) -> bool
{
LOG_ERROR(PPU, "Unregistered function called (LR=0x%x)", ppu.lr);
ppu_log.error("Unregistered function called (LR=0x%x)", ppu.lr);
ppu.gpr[3] = 0;
ppu.cia = static_cast<u32>(ppu.lr) & ~3;
return false;

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@ -4750,7 +4750,7 @@ bool ppu_interpreter_precise::FNMADDS(ppu_thread& ppu, ppu_opcode_t op)
bool ppu_interpreter::MTFSB1(ppu_thread& ppu, ppu_opcode_t op)
{
const u32 bit = op.crbd;
if (bit < 16 || bit > 19) LOG_WARNING(PPU, "MTFSB1(%d)", bit);
if (bit < 16 || bit > 19) ppu_log.warning("MTFSB1(%d)", bit);
ppu.fpscr.bits[bit] = 1;
if (UNLIKELY(op.rc)) ppu_cr_set(ppu, 1, ppu.fpscr.fg, ppu.fpscr.fl, ppu.fpscr.fe, ppu.fpscr.fu);
return true;
@ -4758,7 +4758,7 @@ bool ppu_interpreter::MTFSB1(ppu_thread& ppu, ppu_opcode_t op)
bool ppu_interpreter::MCRFS(ppu_thread& ppu, ppu_opcode_t op)
{
if (op.crfs != 4) LOG_WARNING(PPU, "MCRFS(%d)", op.crfs);
if (op.crfs != 4) ppu_log.warning("MCRFS(%d)", op.crfs);
ppu.cr.fields[op.crfd] = ppu.fpscr.fields[op.crfs];
return true;
}
@ -4766,7 +4766,7 @@ bool ppu_interpreter::MCRFS(ppu_thread& ppu, ppu_opcode_t op)
bool ppu_interpreter::MTFSB0(ppu_thread& ppu, ppu_opcode_t op)
{
const u32 bit = op.crbd;
if (bit < 16 || bit > 19) LOG_WARNING(PPU, "MTFSB0(%d)", bit);
if (bit < 16 || bit > 19) ppu_log.warning("MTFSB0(%d)", bit);
ppu.fpscr.bits[bit] = 0;
if (UNLIKELY(op.rc)) ppu_cr_set(ppu, 1, ppu.fpscr.fg, ppu.fpscr.fl, ppu.fpscr.fe, ppu.fpscr.fu);
return true;
@ -4779,7 +4779,7 @@ bool ppu_interpreter::MTFSFI(ppu_thread& ppu, ppu_opcode_t op)
if (bf != 4)
{
// Do nothing on non-FPCC field (TODO)
LOG_WARNING(PPU, "MTFSFI(%d)", op.crfd);
ppu_log.warning("MTFSFI(%d)", op.crfd);
}
else
{
@ -4809,7 +4809,7 @@ bool ppu_interpreter::MTFSFI(ppu_thread& ppu, ppu_opcode_t op)
bool ppu_interpreter::MFFS(ppu_thread& ppu, ppu_opcode_t op)
{
LOG_WARNING(PPU, "MFFS");
ppu_log.warning("MFFS");
ppu.fpr[op.frd] = std::bit_cast<f64>(u64{ppu.fpscr.fl} << 15 | u64{ppu.fpscr.fg} << 14 | u64{ppu.fpscr.fe} << 13 | u64{ppu.fpscr.fu} << 12);
if (UNLIKELY(op.rc)) ppu_cr_set(ppu, 1, ppu.fpscr.fg, ppu.fpscr.fl, ppu.fpscr.fe, ppu.fpscr.fu);
return true;
@ -4817,7 +4817,7 @@ bool ppu_interpreter::MFFS(ppu_thread& ppu, ppu_opcode_t op)
bool ppu_interpreter::MTFSF(ppu_thread& ppu, ppu_opcode_t op)
{
LOG_WARNING(PPU, "MTFSF");
ppu_log.warning("MTFSF");
if (UNLIKELY(op.rc)) ppu_cr_set(ppu, 1, ppu.fpscr.fg, ppu.fpscr.fl, ppu.fpscr.fe, ppu.fpscr.fu);
return true;
}

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@ -191,7 +191,7 @@ static bool ppu_fallback(ppu_thread& ppu, ppu_opcode_t op)
{
if (g_cfg.core.ppu_debug)
{
LOG_ERROR(PPU, "Unregistered instruction: 0x%08x", op.opcode);
ppu_log.error("Unregistered instruction: 0x%08x", op.opcode);
}
ppu_ref(ppu.cia) = ppu_cache(ppu.cia);
@ -204,7 +204,7 @@ void ppu_recompiler_fallback(ppu_thread& ppu)
{
if (g_cfg.core.ppu_debug)
{
LOG_ERROR(PPU, "Unregistered PPU Function (LR=0x%llx)", ppu.lr);
ppu_log.error("Unregistered PPU Function (LR=0x%llx)", ppu.lr);
}
const auto& table = g_ppu_interpreter_fast.get_table();
@ -243,7 +243,7 @@ static bool ppu_check_toc(ppu_thread& ppu, ppu_opcode_t op)
if (ppu.gpr[2] != found->second)
{
LOG_ERROR(PPU, "Unexpected TOC (0x%x, expected 0x%x)", ppu.gpr[2], found->second);
ppu_log.error("Unexpected TOC (0x%x, expected 0x%x)", ppu.gpr[2], found->second);
if (!ppu.state.test_and_set(cpu_flag::dbg_pause) && ppu.check_state())
{
@ -264,7 +264,7 @@ extern void ppu_register_range(u32 addr, u32 size)
{
if (!size)
{
LOG_ERROR(PPU, "ppu_register_range(0x%x): empty range", addr);
ppu_log.error("ppu_register_range(0x%x): empty range", addr);
return;
}
@ -297,7 +297,7 @@ extern void ppu_register_function_at(u32 addr, u32 size, ppu_function_t ptr)
{
if (g_cfg.core.ppu_debug)
{
LOG_ERROR(PPU, "ppu_register_function_at(0x%x): empty range", addr);
ppu_log.error("ppu_register_function_at(0x%x): empty range", addr);
}
return;
@ -404,13 +404,13 @@ extern bool ppu_patch(u32 addr, u32 value)
if (g_cfg.core.ppu_decoder == ppu_decoder_type::llvm && Emu.GetStatus() != system_state::ready)
{
// TODO: support recompilers
LOG_FATAL(PPU, "Patch failed at 0x%x: LLVM recompiler is used.", addr);
ppu_log.fatal("Patch failed at 0x%x: LLVM recompiler is used.", addr);
return false;
}
if (!vm::try_access(addr, &value, sizeof(value), true))
{
LOG_FATAL(PPU, "Patch failed at 0x%x: invalid memory address.", addr);
ppu_log.fatal("Patch failed at 0x%x: invalid memory address.", addr);
return false;
}
@ -842,11 +842,11 @@ void ppu_thread::fast_call(u32 addr, u32 rtoc)
{
if (start_time)
{
LOG_WARNING(PPU, "'%s' aborted (%fs)", current_function, (get_guest_system_time() - start_time) / 1000000.);
ppu_log.warning("'%s' aborted (%fs)", current_function, (get_guest_system_time() - start_time) / 1000000.);
}
else
{
LOG_WARNING(PPU, "'%s' aborted", current_function);
ppu_log.warning("'%s' aborted", current_function);
}
}
@ -910,7 +910,7 @@ void ppu_thread::stack_pop_verbose(u32 addr, u32 size) noexcept
if (context.gpr[1] != addr)
{
LOG_ERROR(PPU, "Stack inconsistency (addr=0x%x, SP=0x%llx, size=0x%x)", addr, context.gpr[1], size);
ppu_log.error("Stack inconsistency (addr=0x%x, SP=0x%llx, size=0x%x)", addr, context.gpr[1], size);
return;
}
@ -918,7 +918,7 @@ void ppu_thread::stack_pop_verbose(u32 addr, u32 size) noexcept
return;
}
LOG_ERROR(PPU, "Invalid thread" HERE);
ppu_log.error("Invalid thread" HERE);
}
extern u64 get_timebased_time();
@ -963,7 +963,7 @@ static void ppu_check(ppu_thread& ppu, u64 addr)
static void ppu_trace(u64 addr)
{
LOG_NOTICE(PPU, "Trace: 0x%llx", addr);
ppu_log.notice("Trace: 0x%llx", addr);
}
template <typename T>
@ -987,7 +987,7 @@ static T ppu_load_acquire_reservation(ppu_thread& ppu, u32 addr)
{
if (UNLIKELY(count >= 10))
{
LOG_ERROR(PPU, "%s took too long: %u", sizeof(T) == 4 ? "LWARX" : "LDARX", count);
ppu_log.error("%s took too long: %u", sizeof(T) == 4 ? "LWARX" : "LDARX", count);
}
return static_cast<T>(ppu.rdata << data_off >> size_off);
@ -1618,14 +1618,14 @@ extern void ppu_initialize(const ppu_module& info)
{
if (!jit)
{
LOG_SUCCESS(PPU, "LLVM: Already exists: %s", obj_name);
ppu_log.success("LLVM: Already exists: %s", obj_name);
continue;
}
std::lock_guard lock(jmutex);
jit->add(cache_path + obj_name);
LOG_SUCCESS(PPU, "LLVM: Loaded module %s", obj_name);
ppu_log.success("LLVM: Loaded module %s", obj_name);
continue;
}
@ -1644,7 +1644,7 @@ extern void ppu_initialize(const ppu_module& info)
if (!Emu.IsStopped())
{
LOG_WARNING(PPU, "LLVM: Compiling module %s%s", cache_path, obj_name);
ppu_log.warning("LLVM: Compiling module %s%s", cache_path, obj_name);
// Use another JIT instance
jit_compiler jit2({}, g_cfg.core.llvm_cpu, 0x1);
@ -1663,7 +1663,7 @@ extern void ppu_initialize(const ppu_module& info)
std::lock_guard lock(jmutex);
jit->add(cache_path + obj_name);
LOG_SUCCESS(PPU, "LLVM: Compiled module %s", obj_name);
ppu_log.success("LLVM: Compiled module %s", obj_name);
});
}
@ -1807,7 +1807,7 @@ static void ppu_initialize2(jit_compiler& jit, const ppu_module& module_part, co
{
if (Emu.IsStopped())
{
LOG_SUCCESS(PPU, "LLVM: Translation cancelled");
ppu_log.success("LLVM: Translation cancelled");
return;
}
@ -1848,12 +1848,12 @@ static void ppu_initialize2(jit_compiler& jit, const ppu_module& module_part, co
if (verifyModule(*module, &out))
{
out.flush();
LOG_ERROR(PPU, "LLVM: Verification failed for %s:\n%s", obj_name, result);
ppu_log.error("LLVM: Verification failed for %s:\n%s", obj_name, result);
Emu.CallAfter([]{ Emu.Stop(); });
return;
}
LOG_NOTICE(PPU, "LLVM: %zu functions generated", module->getFunctionList().size());
ppu_log.notice("LLVM: %zu functions generated", module->getFunctionList().size());
}
// Load or compile module

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@ -4,6 +4,8 @@
#include "../Memory/vm_ptr.h"
#include "Utilities/lockless.h"
LOG_CHANNEL(ppu_log, "PPU");
enum class ppu_cmd : u32
{
null,

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@ -90,7 +90,7 @@ PPUTranslator::PPUTranslator(LLVMContext& context, Module* module, const ppu_mod
// case 26:
// case 28:
{
LOG_NOTICE(PPU, "Ignoring relative relocation at 0x%x (%u)", rel.addr, rel.type);
ppu_log.notice("Ignoring relative relocation at 0x%x (%u)", rel.addr, rel.type);
continue;
}
@ -107,7 +107,7 @@ PPUTranslator::PPUTranslator(LLVMContext& context, Module* module, const ppu_mod
case 73:
case 78:
{
LOG_ERROR(PPU, "Ignoring 64-bit relocation at 0x%x (%u)", rel.addr, rel.type);
ppu_log.error("Ignoring 64-bit relocation at 0x%x (%u)", rel.addr, rel.type);
continue;
}
}
@ -115,7 +115,7 @@ PPUTranslator::PPUTranslator(LLVMContext& context, Module* module, const ppu_mod
// Align relocation address (TODO)
if (!m_relocs.emplace(rel.addr & ~3, &rel).second)
{
LOG_ERROR(PPU, "Relocation repeated at 0x%x (%u)", rel.addr, rel.type);
ppu_log.error("Relocation repeated at 0x%x (%u)", rel.addr, rel.type);
}
}
}
@ -200,7 +200,7 @@ Function* PPUTranslator::Translate(const ppu_function& info)
if (m_rel)
{
// This is very bad. m_rel is normally set to nullptr after a relocation is handled (so it wasn't)
LOG_ERROR(PPU, "LLVM: [0x%x] Unsupported relocation(%u) in '%s'. Please report.", rel_found->first, m_rel->type, m_info.name);
ppu_log.error("LLVM: [0x%x] Unsupported relocation(%u) in '%s'. Please report.", rel_found->first, m_rel->type, m_info.name);
return nullptr;
}
}
@ -563,7 +563,7 @@ void PPUTranslator::WriteMemory(Value* addr, Value* value, bool is_be, u32 align
void PPUTranslator::CompilationError(const std::string& error)
{
LOG_ERROR(PPU, "LLVM: [0x%08x] Error: %s", m_addr + (m_reloc ? m_reloc->addr : 0), error);
ppu_log.error("LLVM: [0x%08x] Error: %s", m_addr + (m_reloc ? m_reloc->addr : 0), error);
}
@ -3943,7 +3943,7 @@ void PPUTranslator::MTFSFI(ppu_opcode_t op)
void PPUTranslator::MFFS(ppu_opcode_t op)
{
LOG_WARNING(PPU, "LLVM: [0x%08x] Warning: MFFS", m_addr + (m_reloc ? m_reloc->addr : 0));
ppu_log.warning("LLVM: [0x%08x] Warning: MFFS", m_addr + (m_reloc ? m_reloc->addr : 0));
Value* result = m_ir->getInt64(0);
@ -3959,7 +3959,7 @@ void PPUTranslator::MFFS(ppu_opcode_t op)
void PPUTranslator::MTFSF(ppu_opcode_t op)
{
LOG_WARNING(PPU, "LLVM: [0x%08x] Warning: MTFSF", m_addr + (m_reloc ? m_reloc->addr : 0));
ppu_log.warning("LLVM: [0x%08x] Warning: MTFSF", m_addr + (m_reloc ? m_reloc->addr : 0));
const auto value = GetFpr(op.frb, 32, true);

View File

@ -47,7 +47,7 @@ void fmt_class_string<ppu_syscall_code>::format(std::string& out, u64 arg)
static bool null_func(ppu_thread& ppu)
{
LOG_TODO(PPU, "Unimplemented syscall %s -> CELL_OK", ppu_syscall_code(ppu.gpr[11]));
ppu_log.todo("Unimplemented syscall %s -> CELL_OK", ppu_syscall_code(ppu.gpr[11]));
ppu.gpr[3] = 0;
ppu.cia += 4;
return false;
@ -55,7 +55,7 @@ static bool null_func(ppu_thread& ppu)
static bool uns_func(ppu_thread& ppu)
{
LOG_TRACE(PPU, "Unused syscall %d -> ENOSYS", ppu.gpr[11]);
ppu_log.trace("Unused syscall %d -> ENOSYS", ppu.gpr[11]);
ppu.gpr[3] = CELL_ENOSYS;
ppu.cia += 4;
return false;
@ -981,7 +981,7 @@ extern void ppu_execute_syscall(ppu_thread& ppu, u64 code)
if (auto func = g_ppu_syscall_table[code])
{
func(ppu);
LOG_TRACE(PPU, "Syscall '%s' (%llu) finished, r3=0x%llx", ppu_syscall_code(code), code, ppu.gpr[3]);
ppu_log.trace("Syscall '%s' (%llu) finished, r3=0x%llx", ppu_syscall_code(code), code, ppu.gpr[3]);
return;
}
}
@ -1014,7 +1014,7 @@ void lv2_obj::sleep_unlocked(cpu_thread& thread, u64 timeout)
if (auto ppu = static_cast<ppu_thread*>(thread.id_type() == 1 ? &thread : nullptr))
{
LOG_TRACE(PPU, "sleep() - waiting (%zu)", g_pending.size());
ppu_log.trace("sleep() - waiting (%zu)", g_pending.size());
const auto [_, ok] = ppu->state.fetch_op([&](bs_t<cpu_flag>& val)
{
@ -1029,7 +1029,7 @@ void lv2_obj::sleep_unlocked(cpu_thread& thread, u64 timeout)
if (!ok)
{
LOG_FATAL(PPU, "sleep() failed (signaled) (%s)", ppu->current_function);
ppu_log.fatal("sleep() failed (signaled) (%s)", ppu->current_function);
return;
}
@ -1118,7 +1118,7 @@ void lv2_obj::awake_unlocked(cpu_thread* cpu, s32 prio)
{
if (it != end && *it == cpu)
{
LOG_TRACE(PPU, "sleep() - suspended (p=%zu)", g_pending.size());
ppu_log.trace("sleep() - suspended (p=%zu)", g_pending.size());
return;
}
@ -1140,7 +1140,7 @@ void lv2_obj::awake_unlocked(cpu_thread* cpu, s32 prio)
}
}
LOG_TRACE(PPU, "awake(): %s", cpu->id);
ppu_log.trace("awake(): %s", cpu->id);
};
if (cpu)
@ -1167,7 +1167,7 @@ void lv2_obj::awake_unlocked(cpu_thread* cpu, s32 prio)
if (!target->state.test_and_set(cpu_flag::suspend))
{
LOG_TRACE(PPU, "suspend(): %s", target->id);
ppu_log.trace("suspend(): %s", target->id);
g_pending.emplace_back(target);
}
}
@ -1193,7 +1193,7 @@ void lv2_obj::schedule_all()
if (target->state & cpu_flag::suspend)
{
LOG_TRACE(PPU, "schedule(): %s", target->id);
ppu_log.trace("schedule(): %s", target->id);
target->state ^= (cpu_flag::signal + cpu_flag::suspend);
target->start_time = 0;

View File

@ -595,7 +595,7 @@ std::string Emulator::PPUCache() const
if (!_main || _main->cache.empty())
{
LOG_WARNING(PPU, "PPU Cache location not initialized.");
ppu_log.warning("PPU Cache location not initialized.");
return {};
}
@ -1754,7 +1754,7 @@ void Emulator::Resume()
}
}
LOG_NOTICE(PPU, "[RESUME] Dumping instruction stats:%s", dump);
ppu_log.notice("[RESUME] Dumping instruction stats:%s", dump);
}
// Try to resume