Esempio n. 1
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	void _Assert(ARMv7Context& context, vm::psv::ptr<const char> text, vm::psv::ptr<const char> func)
	{
		sceLibc.Error("_Assert(text=*0x%x, func=*0x%x)", text, func);

		LOG_ERROR(TTY, "%s : %s\n", func.get_ptr(), text.get_ptr());
		LOG_NOTICE(ARMv7, context.thread.RegsToString());
		Emu.Pause();
	}
Esempio n. 2
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	void sprintf(ARMv7Context& context, vm::psv::ptr<char> str, vm::psv::ptr<const char> fmt) // va_args...
	{
		sceLibc.Warning("sprintf(str=*0x%x, fmt=*0x%x)", str, fmt);
		sceLibc.Log("*** *fmt = '%s'", fmt.get_ptr());

		const std::string& result = armv7_fmt(context, fmt, 2, 0, 0);
		sceLibc.Log("***     -> '%s'", result);

		::memcpy(str.get_ptr(), result.c_str(), result.size() + 1);
	}
Esempio n. 3
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s32 sceKernelStartThread(s32 threadId, u32 argSize, vm::psv::ptr<const void> pArgBlock)
{
	sceLibKernel.Warning("sceKernelStartThread(threadId=0x%x, argSize=0x%x, pArgBlock=*0x%x)", threadId, argSize, pArgBlock);

	const auto t = Emu.GetCPU().GetThread(threadId, CPU_THREAD_ARMv7);

	if (!t)
	{
		RETURN_ERROR(SCE_KERNEL_ERROR_INVALID_UID);
	}

	// thread should be in DORMANT state, but it's not possible to check it correctly atm

	if (t->IsAlive())
	{
		RETURN_ERROR(SCE_KERNEL_ERROR_NOT_DORMANT);
	}

	ARMv7Thread& thread = static_cast<ARMv7Thread&>(*t);

	// push arg block onto the stack
	const u32 pos = (thread.context.SP -= argSize);
	memcpy(vm::get_ptr<void>(pos), pArgBlock.get_ptr(), argSize);

	// set SceKernelThreadEntry function arguments
	thread.context.GPR[0] = argSize;
	thread.context.GPR[1] = pos;

	thread.Exec();
	return SCE_OK;
}
Esempio n. 4
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	void printf(ARMv7Context& context, vm::psv::ptr<const char> fmt) // va_args...
	{
		sceLibc.Warning("printf(fmt=*0x%x)", fmt);
		sceLibc.Log("*** *fmt = '%s'", fmt.get_ptr());

		const std::string& result = armv7_fmt(context, fmt, 1, 0, 0);
		sceLibc.Log("***     -> '%s'", result);

		LOG_NOTICE(TTY, result);
	}
Esempio n. 5
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s32 sceKernelCreateCond(vm::psv::ptr<const char> pName, u32 attr, s32 mutexId, vm::psv::ptr<const SceKernelCondOptParam> pOptParam)
{
	sceLibKernel.Error("sceKernelCreateCond(pName=*0x%x, attr=0x%x, mutexId=0x%x, pOptParam=*0x%x)", pName, attr, mutexId, pOptParam);

	if (s32 id = g_psv_cond_list.create(pName.get_ptr(), attr, mutexId))
	{
		return id;
	}

	RETURN_ERROR(SCE_KERNEL_ERROR_ERROR);
}
Esempio n. 6
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s32 sceKernelCreateMutex(vm::psv::ptr<const char> pName, u32 attr, s32 initCount, vm::psv::ptr<const SceKernelMutexOptParam> pOptParam)
{
	sceLibKernel.Error("sceKernelCreateMutex(pName=*0x%x, attr=0x%x, initCount=%d, pOptParam=*0x%x)", pName, attr, initCount, pOptParam);

	if (s32 id = g_psv_mutex_list.create(pName.get_ptr(), attr, initCount))
	{
		return id;
	}

	RETURN_ERROR(SCE_KERNEL_ERROR_ERROR);
}
Esempio n. 7
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s32 sceKernelCreateEventFlag(vm::psv::ptr<const char> pName, u32 attr, u32 initPattern, vm::psv::ptr<const SceKernelEventFlagOptParam> pOptParam)
{
	sceLibKernel.Error("sceKernelCreateEventFlag(pName=*0x%x, attr=0x%x, initPattern=0x%x, pOptParam=*0x%x)", pName, attr, initPattern, pOptParam);

	if (s32 id = g_psv_ef_list.create(pName.get_ptr(), attr, initPattern))
	{
		return id;
	}

	RETURN_ERROR(SCE_KERNEL_ERROR_ERROR);
}
Esempio n. 8
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s32 sceKernelCreateThread(
	vm::psv::ptr<const char> pName,
	vm::psv::ptr<SceKernelThreadEntry> entry,
	s32 initPriority,
	u32 stackSize,
	u32 attr,
	s32 cpuAffinityMask,
	vm::psv::ptr<const SceKernelThreadOptParam> pOptParam)
{
	sceLibKernel.Warning("sceKernelCreateThread(pName=*0x%x, entry=*0x%x, initPriority=%d, stackSize=0x%x, attr=0x%x, cpuAffinityMask=0x%x, pOptParam=*0x%x)",
		pName, entry, initPriority, stackSize, attr, cpuAffinityMask, pOptParam);

	auto t = Emu.GetCPU().AddThread(CPU_THREAD_ARMv7);

	auto& armv7 = static_cast<ARMv7Thread&>(*t);

	armv7.SetEntry(entry.addr());
	armv7.SetPrio(initPriority);
	armv7.SetStackSize(stackSize);
	armv7.SetName(pName.get_ptr());
	armv7.Run();

	return armv7.GetId();
}
Esempio n. 9
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	void memset(vm::psv::ptr<void> dst, s32 value, u32 size)
	{
		sceLibc.Warning("memset(dst=*0x%x, value=%d, size=0x%x)", dst, value, size);

		::memset(dst.get_ptr(), value, size);
	}
Esempio n. 10
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	void memcpy(vm::psv::ptr<void> dst, vm::psv::ptr<const void> src, u32 size)
	{
		sceLibc.Warning("memcpy(dst=*0x%x, src=*0x%x, size=0x%x)", dst, src, size);

		::memcpy(dst.get_ptr(), src.get_ptr(), size);
	}
Esempio n. 11
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#include "stdafx.h"
#include "Utilities/Log.h"
#include "Emu/System.h"
#include "Emu/ARMv7/PSVFuncList.h"
#include "Emu/ARMv7/ARMv7Thread.h"
#include "Emu/ARMv7/ARMv7Callback.h"

extern psv_log_base sceLibc;

vm::psv::ptr<void> g_dso;

typedef void(atexit_func_t)(vm::psv::ptr<void>);

std::vector<std::function<void(ARMv7Context&)>> g_atexit;

std::mutex g_atexit_mutex;

std::string armv7_fmt(ARMv7Context& context, vm::psv::ptr<const char> fmt, u32 g_count, u32 f_count, u32 v_count)
{
	std::string result;

	for (char c = *fmt++; c; c = *fmt++)
	{
		switch (c)
		{
		case '%':
		{
			const auto start = fmt - 1;

			// read flags
			const bool plus_sign = *fmt == '+' ? fmt++, true : false;