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Memory string searcher improvements

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* Search the entire PS3 4GB address space instead of a small area of memory which is meant mostly for PRX/SELF memory aka vm::main segment. This limitation rendered string searcher nearly useless.
* Implement hexadecimal byte-string, hexadecimal integer, float and double value search formats.
* Multi-thread searching.
* Optimize searching algorithm vastly.
* Fix crash on empty string, report an error.
* Implement case-insensitive string search.
This commit is contained in:
Eladash 2021-03-19 17:25:32 +02:00 committed by Ivan
parent 399f20ae54
commit b0a0533a4f
2 changed files with 281 additions and 32 deletions
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306
rpcs3/rpcs3qt/memory_string_searcher.cpp
View File

@ -1,14 +1,33 @@
#include "memory_string_searcher.h"
#include "Emu/Memory/vm.h"
#include "Emu/Memory/vm_reservation.h"
#include "Utilities/Thread.h"
#include "Utilities/StrUtil.h"
#include <QLabel>
#include <QLineEdit>
#include <QPushButton>
#include <QHBoxLayout>
#include <QComboBox>
#include <QCheckBox>
#include <charconv>
#include "util/logs.hpp"
#include "util/sysinfo.hpp"
#include "util/asm.hpp"
LOG_CHANNEL(gui_log, "GUI");
enum : int
{
as_string,
as_hex,
as_f64,
as_f32,
};
memory_string_searcher::memory_string_searcher(QWidget* parent)
: QDialog(parent)
{
@ -19,11 +38,29 @@ memory_string_searcher::memory_string_searcher(QWidget* parent)
m_addr_line = new QLineEdit(this);
m_addr_line->setFixedWidth(QLabel("This is the very length of the lineedit due to hidpi reasons.").sizeHint().width());
m_addr_line->setPlaceholderText(tr("Search..."));
m_addr_line->setMaxLength(4096);
QPushButton* button_search = new QPushButton(tr("&Search"), this);
m_chkbox_case_insensitive = new QCheckBox(tr("Case Insensitive"), this);
m_chkbox_case_insensitive->setCheckable(true);
m_chkbox_case_insensitive->setToolTip(tr("When using string mode, the characters' case will not matter both in string and in memory."
"\nWarning: this may reduce performance of the search."));
m_cbox_input_mode = new QComboBox(this);
m_cbox_input_mode->addItem("String", QVariant::fromValue(+as_string));
m_cbox_input_mode->addItem("HEX bytes/integer", QVariant::fromValue(+as_hex));
m_cbox_input_mode->addItem("Double", QVariant::fromValue(+as_f64));
m_cbox_input_mode->addItem("Float", QVariant::fromValue(+as_f32));
m_cbox_input_mode->setToolTip(tr("String: search the memory for the specified string."
"\nHEX bytes/integer: search the memory for hexadecimal values. Spaces, commas, \"0x\", \"0X\", \"\\x\" ensure separation of bytes but they are not mandatory."
"\nDouble: reinterpret the string as 64-bit precision floating point value. Values are searched for exact representation, meaning -0 != 0."
"\nFloat: reinterpret the string as 32-bit precision floating point value. Values are searched for exact representation, meaning -0 != 0."));
QHBoxLayout* hbox_panel = new QHBoxLayout();
hbox_panel->addWidget(m_addr_line);
hbox_panel->addWidget(m_cbox_input_mode);
hbox_panel->addWidget(m_chkbox_case_insensitive);
hbox_panel->addWidget(button_search);
setLayout(hbox_panel);
@ -35,48 +72,255 @@ memory_string_searcher::memory_string_searcher(QWidget* parent)
void memory_string_searcher::OnSearch()
{
const std::string wstr = m_addr_line->text().toStdString();
const char *str = wstr.c_str();
const u32 len = ::size32(wstr);
std::string wstr = m_addr_line->text().toStdString();
gui_log.notice("Searching for string %s", str);
// Search the address space for the string
u32 strIndex = 0;
u32 numFound = 0;
const auto area = vm::get(vm::main);
for (u32 addr = area->addr; addr < area->addr + area->size; addr++)
if (wstr.empty() || wstr.size() >= 4096u)
{
if (!vm::check_addr(addr))
gui_log.error("String is empty or too long (size=%u)", wstr.size());
return;
}
gui_log.notice("Searching for %s", wstr);
const int mode = std::max(m_cbox_input_mode->currentIndex(), 0);
bool case_insensitive = false;
// First characters for case insensitive search
const char first_chars[2]{ static_cast<char>(::tolower(wstr[0])), static_cast<char>(::toupper(wstr[0])) };
std::string_view insensitive_search{first_chars, 2};
if (insensitive_search[0] == insensitive_search[1])
{
// Optimization
insensitive_search.remove_suffix(1);
}
switch (mode)
{
case as_string:
{
case_insensitive = m_chkbox_case_insensitive->isChecked();
if (case_insensitive)
{
strIndex = 0;
continue;
std::transform(wstr.begin(), wstr.end(), wstr.begin(), ::tolower);
}
u8 byte = vm::read8(addr);
if (byte == str[strIndex])
break;
}
case as_hex:
{
constexpr std::string_view hex_chars = "0123456789ABCDEFabcdef";
// Split
std::vector<std::string> parts = fmt::split(wstr, {" ", ",", "0x", "0X", "\\x"});
// Pad zeroes
for (std::string& part : parts)
{
if (strIndex == len)
if (part.size() % 2)
{
// Found it
gui_log.notice("Found @ %04x", addr - len);
numFound++;
strIndex = 0;
gui_log.warning("Padding string part with '0' at front due to odd hexadeciaml characters count.");
part.insert(part.begin(), '0');
}
}
// Concat strings
wstr.clear();
for (const std::string& part : parts)
{
wstr += part;
}
if (usz pos = wstr.find_first_not_of(hex_chars); pos != umax)
{
gui_log.error("String '%s' cannot be interpreted as hexadecimal byte string due to unknown character '%s'."
, m_addr_line->text().toStdString(), std::string_view{&wstr[pos], 1});
return;
}
std::string dst;
dst.resize(wstr.size() / 2);
for (usz pos = 0; pos < wstr.size() / 2; pos++)
{
uchar value = 0;
std::from_chars(wstr.data() + pos * 2, wstr.data() + (pos + 1) * 2, value, 16);
std::memcpy(dst.data() + pos, &value, 1);
}
wstr = std::move(dst);
break;
}
case as_f64:
{
char* end{};
be_t<f64> value = std::strtod(wstr.data(), &end);
if (end != wstr.data() + wstr.size())
{
gui_log.error("String '%s' cannot be interpreted as double.", wstr);
return;
}
wstr.resize(sizeof(value));
std::memcpy(wstr.data(), &value, sizeof(value));
break;
}
case as_f32:
{
char* end{};
be_t<f32> value = std::strtof(wstr.data(), &end);
if (end != wstr.data() + wstr.size())
{
gui_log.error("String '%s' cannot be interpreted as float.", wstr);
return;
}
wstr.resize(sizeof(value));
std::memcpy(wstr.data(), &value, sizeof(value));
break;
}
default: ensure(false);
}
// Search the address space for the string
atomic_t<u32> found = 0;
atomic_t<u32> avail_addr = 0;
// There's no need for so many threads
const u32 max_threads = utils::aligned_div(utils::get_thread_count(), 2);
static constexpr u32 block_size = 0x2000000;
vm::reader_lock rlock;
named_thread_group workers("String Searcher "sv, max_threads, [&]()
{
u32 local_found = 0;
u32 addr = 0;
bool ok = false;
while (true)
{
if (!(addr % block_size))
{
std::tie(addr, ok) = avail_addr.fetch_op([](u32& val)
{
if (val <= 0 - block_size)
{
// Iterate in 32MB blocks
val += block_size;
if (!val) val = -1; // Overflow detection
return true;
}
return false;
});
}
if (!ok)
{
break;
}
if (![&addr = addr]()
{
// Skip unmapped memory
for (const u32 end = utils::align(addr + 1, block_size) - 0x1000; !vm::check_addr(addr, 0); addr += 0x1000)
{
if (addr == end)
{
return false;
}
}
return true;
}())
{
if (addr == 0u - 0x1000)
{
break;
}
// The entire block is unmapped
addr += 0x1000;
continue;
}
strIndex++;
}
else
{
strIndex = 0;
u64 addr_max = addr;
const u64 end_mem = std::min<u64>(utils::align<u64>(addr + 1, block_size) + 0x1000, UINT32_MAX);
// Determine allocation size quickly
while (addr_max < end_mem && vm::check_addr(static_cast<u32>(addr_max), vm::page_1m_size))
{
addr_max += 0x100000;
}
while (addr_max < end_mem && vm::check_addr(static_cast<u32>(addr_max), vm::page_64k_size))
{
addr_max += 0x10000;
}
while (addr_max < end_mem && vm::check_addr(static_cast<u32>(addr_max), 0))
{
addr_max += 0x1000;
}
std::string_view section{vm::get_super_ptr<const char>(addr), addr_max - addr};
usz first_char = 0;
if (case_insensitive)
{
while (first_char = section.find_first_of(insensitive_search, first_char), first_char != umax)
{
const u32 start = addr + first_char;
std::string_view test_sv{vm::get_super_ptr<const char>(start), addr_max - start};
// Do not use allocating functions such as fmt::to_lower
if (test_sv.size() >= wstr.size() && std::all_of(wstr.begin(), wstr.end(), [&](const char& c) { return c == ::tolower(test_sv[&c - wstr.data()]); }))
{
gui_log.success("Found at 0x%08x", start);
local_found++;
}
// Allow overlapping strings
first_char++;
}
}
else
{
while (first_char = section.find_first_of(wstr[0], first_char), first_char != umax)
{
const u32 start = addr + first_char;
if (std::string_view{vm::get_super_ptr<const char>(start), addr_max - start}.starts_with(wstr))
{
gui_log.success("Found at 0x%08x", start);
local_found++;
}
first_char++;
}
}
addr = static_cast<u32>(std::min<u64>(end_mem - 0x1000, addr_max));
// Check if at last page
if (addr_max >= 0u - 0x1000) break;
}
if (addr % (1024 * 1024 * 64) == 0) // Log every 64mb
{
gui_log.notice("Searching %04x ...", addr);
}
}
found += local_found;
});
gui_log.notice("Search completed (found %d matches)", numFound);
workers.join();
gui_log.success("Search completed (found %u matches)", +found);
}

7
rpcs3/rpcs3qt/memory_string_searcher.h
View File

@ -1,13 +1,18 @@
#pragma once
#include <QDialog>
#include <QLineEdit>
class QLineEdit;
class QCheckBox;
class QComboBox;
class memory_string_searcher : public QDialog
{
Q_OBJECT
QLineEdit* m_addr_line;
QCheckBox* m_chkbox_case_insensitive = nullptr;
QComboBox* m_cbox_input_mode = nullptr;
public:
memory_string_searcher(QWidget* parent);