llvm-project/lldb/source/Utility/DataEncoder.cpp

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//===-- DataEncoder.cpp -----------------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "lldb/Utility/DataEncoder.h"
#include "lldb/Utility/DataBuffer.h"
#include "lldb/Utility/Endian.h"
#include "llvm/Support/ErrorHandling.h" // for llvm_unreachable
#include "llvm/Support/MathExtras.h"
#include <cassert>
#include <cstddef>
#include <string.h>
using namespace lldb;
using namespace lldb_private;
static inline void WriteInt16(unsigned char *ptr, unsigned offset,
uint16_t value) {
*(uint16_t *)(ptr + offset) = value;
}
static inline void WriteInt32(unsigned char *ptr, unsigned offset,
uint32_t value) {
*(uint32_t *)(ptr + offset) = value;
}
static inline void WriteInt64(unsigned char *ptr, unsigned offset,
uint64_t value) {
*(uint64_t *)(ptr + offset) = value;
}
static inline void WriteSwappedInt16(unsigned char *ptr, unsigned offset,
uint16_t value) {
*(uint16_t *)(ptr + offset) = llvm::ByteSwap_16(value);
}
static inline void WriteSwappedInt32(unsigned char *ptr, unsigned offset,
uint32_t value) {
*(uint32_t *)(ptr + offset) = llvm::ByteSwap_32(value);
}
static inline void WriteSwappedInt64(unsigned char *ptr, unsigned offset,
uint64_t value) {
*(uint64_t *)(ptr + offset) = llvm::ByteSwap_64(value);
}
//----------------------------------------------------------------------
// Default constructor.
//----------------------------------------------------------------------
DataEncoder::DataEncoder()
: m_start(nullptr), m_end(nullptr),
m_byte_order(endian::InlHostByteOrder()), m_addr_size(sizeof(void *)),
m_data_sp() {}
//----------------------------------------------------------------------
// This constructor allows us to use data that is owned by someone else.
// The data must stay around as long as this object is valid.
//----------------------------------------------------------------------
DataEncoder::DataEncoder(void *data, uint32_t length, ByteOrder endian,
uint8_t addr_size)
: m_start((uint8_t *)data), m_end((uint8_t *)data + length),
m_byte_order(endian), m_addr_size(addr_size), m_data_sp() {}
//----------------------------------------------------------------------
// Make a shared pointer reference to the shared data in "data_sp" and
// set the endian swapping setting to "swap", and the address size to
// "addr_size". The shared data reference will ensure the data lives
// as long as any DataEncoder objects exist that have a reference to
// this data.
//----------------------------------------------------------------------
DataEncoder::DataEncoder(const DataBufferSP &data_sp, ByteOrder endian,
uint8_t addr_size)
: m_start(nullptr), m_end(nullptr), m_byte_order(endian),
m_addr_size(addr_size), m_data_sp() {
SetData(data_sp);
}
DataEncoder::~DataEncoder() = default;
//------------------------------------------------------------------
// Clears the object contents back to a default invalid state, and
// release any references to shared data that this object may
// contain.
//------------------------------------------------------------------
void DataEncoder::Clear() {
m_start = nullptr;
m_end = nullptr;
m_byte_order = endian::InlHostByteOrder();
m_addr_size = sizeof(void *);
m_data_sp.reset();
}
//------------------------------------------------------------------
// If this object contains shared data, this function returns the
// offset into that shared data. Else zero is returned.
//------------------------------------------------------------------
size_t DataEncoder::GetSharedDataOffset() const {
if (m_start != nullptr) {
const DataBuffer *data = m_data_sp.get();
if (data != nullptr) {
const uint8_t *data_bytes = data->GetBytes();
if (data_bytes != nullptr) {
assert(m_start >= data_bytes);
return m_start - data_bytes;
}
}
}
return 0;
}
//----------------------------------------------------------------------
// Set the data with which this object will extract from to data
// starting at BYTES and set the length of the data to LENGTH bytes
// long. The data is externally owned must be around at least as
// long as this object points to the data. No copy of the data is
// made, this object just refers to this data and can extract from
// it. If this object refers to any shared data upon entry, the
// reference to that data will be released. Is SWAP is set to true,
// any data extracted will be endian swapped.
//----------------------------------------------------------------------
uint32_t DataEncoder::SetData(void *bytes, uint32_t length, ByteOrder endian) {
m_byte_order = endian;
m_data_sp.reset();
if (bytes == nullptr || length == 0) {
m_start = nullptr;
m_end = nullptr;
} else {
m_start = (uint8_t *)bytes;
m_end = m_start + length;
}
return GetByteSize();
}
//----------------------------------------------------------------------
// Assign the data for this object to be a subrange of the shared
// data in "data_sp" starting "data_offset" bytes into "data_sp"
// and ending "data_length" bytes later. If "data_offset" is not
// a valid offset into "data_sp", then this object will contain no
// bytes. If "data_offset" is within "data_sp" yet "data_length" is
// too large, the length will be capped at the number of bytes
// remaining in "data_sp". A ref counted pointer to the data in
// "data_sp" will be made in this object IF the number of bytes this
// object refers to in greater than zero (if at least one byte was
// available starting at "data_offset") to ensure the data stays
// around as long as it is needed. The address size and endian swap
// settings will remain unchanged from their current settings.
//----------------------------------------------------------------------
uint32_t DataEncoder::SetData(const DataBufferSP &data_sp, uint32_t data_offset,
uint32_t data_length) {
m_start = m_end = nullptr;
if (data_length > 0) {
m_data_sp = data_sp;
if (data_sp) {
const size_t data_size = data_sp->GetByteSize();
if (data_offset < data_size) {
m_start = data_sp->GetBytes() + data_offset;
const size_t bytes_left = data_size - data_offset;
// Cap the length of we asked for too many
if (data_length <= bytes_left)
m_end = m_start + data_length; // We got all the bytes we wanted
else
m_end = m_start + bytes_left; // Not all the bytes requested were
// available in the shared data
}
}
}
uint32_t new_size = GetByteSize();
// Don't hold a shared pointer to the data buffer if we don't share
// any valid bytes in the shared buffer.
if (new_size == 0)
m_data_sp.reset();
return new_size;
}
//----------------------------------------------------------------------
// Extract a single unsigned char from the binary data and update
// the offset pointed to by "offset_ptr".
//
// RETURNS the byte that was extracted, or zero on failure.
//----------------------------------------------------------------------
uint32_t DataEncoder::PutU8(uint32_t offset, uint8_t value) {
if (ValidOffset(offset)) {
m_start[offset] = value;
return offset + 1;
}
return UINT32_MAX;
}
uint32_t DataEncoder::PutU16(uint32_t offset, uint16_t value) {
if (ValidOffsetForDataOfSize(offset, sizeof(value))) {
if (m_byte_order != endian::InlHostByteOrder())
WriteSwappedInt16(m_start, offset, value);
else
WriteInt16(m_start, offset, value);
return offset + sizeof(value);
}
return UINT32_MAX;
}
uint32_t DataEncoder::PutU32(uint32_t offset, uint32_t value) {
if (ValidOffsetForDataOfSize(offset, sizeof(value))) {
if (m_byte_order != endian::InlHostByteOrder())
WriteSwappedInt32(m_start, offset, value);
else
WriteInt32(m_start, offset, value);
return offset + sizeof(value);
}
return UINT32_MAX;
}
uint32_t DataEncoder::PutU64(uint32_t offset, uint64_t value) {
if (ValidOffsetForDataOfSize(offset, sizeof(value))) {
if (m_byte_order != endian::InlHostByteOrder())
WriteSwappedInt64(m_start, offset, value);
else
WriteInt64(m_start, offset, value);
return offset + sizeof(value);
}
return UINT32_MAX;
}
//----------------------------------------------------------------------
// Extract a single integer value from the data and update the offset
// pointed to by "offset_ptr". The size of the extracted integer
// is specified by the "byte_size" argument. "byte_size" should have
// a value >= 1 and <= 8 since the return value is only 64 bits
// wide. Any "byte_size" values less than 1 or greater than 8 will
// result in nothing being extracted, and zero being returned.
//
// RETURNS the integer value that was extracted, or zero on failure.
//----------------------------------------------------------------------
uint32_t DataEncoder::PutMaxU64(uint32_t offset, uint32_t byte_size,
uint64_t value) {
switch (byte_size) {
case 1:
return PutU8(offset, value);
case 2:
return PutU16(offset, value);
case 4:
return PutU32(offset, value);
case 8:
return PutU64(offset, value);
default:
llvm_unreachable("GetMax64 unhandled case!");
}
return UINT32_MAX;
}
uint32_t DataEncoder::PutData(uint32_t offset, const void *src,
uint32_t src_len) {
if (src == nullptr || src_len == 0)
return offset;
if (ValidOffsetForDataOfSize(offset, src_len)) {
memcpy(m_start + offset, src, src_len);
return offset + src_len;
}
return UINT32_MAX;
}
uint32_t DataEncoder::PutAddress(uint32_t offset, lldb::addr_t addr) {
return PutMaxU64(offset, GetAddressByteSize(), addr);
}
uint32_t DataEncoder::PutCString(uint32_t offset, const char *cstr) {
if (cstr != nullptr)
return PutData(offset, cstr, strlen(cstr) + 1);
return UINT32_MAX;
}