180814287SRaphael Isemann //===-- DataExtractor.cpp -------------------------------------------------===//
2666cc0b2SZachary Turner //
32946cd70SChandler Carruth // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
42946cd70SChandler Carruth // See https://llvm.org/LICENSE.txt for license information.
52946cd70SChandler Carruth // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6666cc0b2SZachary Turner //
7666cc0b2SZachary Turner //===----------------------------------------------------------------------===//
8666cc0b2SZachary Turner
94479ac15SZachary Turner #include "lldb/Utility/DataExtractor.h"
10666cc0b2SZachary Turner
11672d2c12SJonas Devlieghere #include "lldb/lldb-defines.h"
12672d2c12SJonas Devlieghere #include "lldb/lldb-enumerations.h"
13672d2c12SJonas Devlieghere #include "lldb/lldb-forward.h"
14672d2c12SJonas Devlieghere #include "lldb/lldb-types.h"
154479ac15SZachary Turner
16666cc0b2SZachary Turner #include "lldb/Utility/DataBuffer.h"
17666cc0b2SZachary Turner #include "lldb/Utility/DataBufferHeap.h"
18dbd7c338SPetr Pavlu #include "lldb/Utility/LLDBAssert.h"
19666cc0b2SZachary Turner #include "lldb/Utility/Log.h"
20666cc0b2SZachary Turner #include "lldb/Utility/Stream.h"
21666cc0b2SZachary Turner #include "lldb/Utility/StreamString.h"
22666cc0b2SZachary Turner #include "lldb/Utility/UUID.h"
23666cc0b2SZachary Turner
24666cc0b2SZachary Turner #include "llvm/ADT/ArrayRef.h"
25666cc0b2SZachary Turner #include "llvm/ADT/SmallVector.h"
26*5551657bSElliot Goodrich #include "llvm/ADT/StringExtras.h"
27bb9d93f4SRaphael Isemann #include "llvm/Support/LEB128.h"
28666cc0b2SZachary Turner #include "llvm/Support/MD5.h"
29666cc0b2SZachary Turner #include "llvm/Support/MathExtras.h"
30666cc0b2SZachary Turner
31672d2c12SJonas Devlieghere #include <algorithm>
32672d2c12SJonas Devlieghere #include <array>
334479ac15SZachary Turner #include <cassert>
34672d2c12SJonas Devlieghere #include <cstdint>
354479ac15SZachary Turner #include <string>
364479ac15SZachary Turner
3776e47d48SRaphael Isemann #include <cctype>
3876e47d48SRaphael Isemann #include <cinttypes>
3976e47d48SRaphael Isemann #include <cstring>
404479ac15SZachary Turner
41666cc0b2SZachary Turner using namespace lldb;
42666cc0b2SZachary Turner using namespace lldb_private;
43666cc0b2SZachary Turner
ReadInt16(const unsigned char * ptr,offset_t offset)44666cc0b2SZachary Turner static inline uint16_t ReadInt16(const unsigned char *ptr, offset_t offset) {
45666cc0b2SZachary Turner uint16_t value;
46666cc0b2SZachary Turner memcpy(&value, ptr + offset, 2);
47666cc0b2SZachary Turner return value;
48666cc0b2SZachary Turner }
49666cc0b2SZachary Turner
ReadInt32(const unsigned char * ptr,offset_t offset=0)50666cc0b2SZachary Turner static inline uint32_t ReadInt32(const unsigned char *ptr,
51666cc0b2SZachary Turner offset_t offset = 0) {
52666cc0b2SZachary Turner uint32_t value;
53666cc0b2SZachary Turner memcpy(&value, ptr + offset, 4);
54666cc0b2SZachary Turner return value;
55666cc0b2SZachary Turner }
56666cc0b2SZachary Turner
ReadInt64(const unsigned char * ptr,offset_t offset=0)57666cc0b2SZachary Turner static inline uint64_t ReadInt64(const unsigned char *ptr,
58666cc0b2SZachary Turner offset_t offset = 0) {
59666cc0b2SZachary Turner uint64_t value;
60666cc0b2SZachary Turner memcpy(&value, ptr + offset, 8);
61666cc0b2SZachary Turner return value;
62666cc0b2SZachary Turner }
63666cc0b2SZachary Turner
ReadInt16(const void * ptr)64666cc0b2SZachary Turner static inline uint16_t ReadInt16(const void *ptr) {
65666cc0b2SZachary Turner uint16_t value;
66666cc0b2SZachary Turner memcpy(&value, ptr, 2);
67666cc0b2SZachary Turner return value;
68666cc0b2SZachary Turner }
69666cc0b2SZachary Turner
ReadSwapInt16(const unsigned char * ptr,offset_t offset)70666cc0b2SZachary Turner static inline uint16_t ReadSwapInt16(const unsigned char *ptr,
71666cc0b2SZachary Turner offset_t offset) {
72666cc0b2SZachary Turner uint16_t value;
73666cc0b2SZachary Turner memcpy(&value, ptr + offset, 2);
74f6b8f05bSKazu Hirata return llvm::byteswap<uint16_t>(value);
75666cc0b2SZachary Turner }
76666cc0b2SZachary Turner
ReadSwapInt32(const unsigned char * ptr,offset_t offset)77666cc0b2SZachary Turner static inline uint32_t ReadSwapInt32(const unsigned char *ptr,
78666cc0b2SZachary Turner offset_t offset) {
79666cc0b2SZachary Turner uint32_t value;
80666cc0b2SZachary Turner memcpy(&value, ptr + offset, 4);
81f6b8f05bSKazu Hirata return llvm::byteswap<uint32_t>(value);
82666cc0b2SZachary Turner }
83666cc0b2SZachary Turner
ReadSwapInt64(const unsigned char * ptr,offset_t offset)84666cc0b2SZachary Turner static inline uint64_t ReadSwapInt64(const unsigned char *ptr,
85666cc0b2SZachary Turner offset_t offset) {
86666cc0b2SZachary Turner uint64_t value;
87666cc0b2SZachary Turner memcpy(&value, ptr + offset, 8);
88f6b8f05bSKazu Hirata return llvm::byteswap<uint64_t>(value);
89666cc0b2SZachary Turner }
90666cc0b2SZachary Turner
ReadSwapInt16(const void * ptr)91666cc0b2SZachary Turner static inline uint16_t ReadSwapInt16(const void *ptr) {
92666cc0b2SZachary Turner uint16_t value;
93666cc0b2SZachary Turner memcpy(&value, ptr, 2);
94f6b8f05bSKazu Hirata return llvm::byteswap<uint16_t>(value);
95666cc0b2SZachary Turner }
96666cc0b2SZachary Turner
ReadSwapInt32(const void * ptr)97666cc0b2SZachary Turner static inline uint32_t ReadSwapInt32(const void *ptr) {
98666cc0b2SZachary Turner uint32_t value;
99666cc0b2SZachary Turner memcpy(&value, ptr, 4);
100f6b8f05bSKazu Hirata return llvm::byteswap<uint32_t>(value);
101666cc0b2SZachary Turner }
102666cc0b2SZachary Turner
ReadSwapInt64(const void * ptr)103666cc0b2SZachary Turner static inline uint64_t ReadSwapInt64(const void *ptr) {
104666cc0b2SZachary Turner uint64_t value;
105666cc0b2SZachary Turner memcpy(&value, ptr, 8);
106f6b8f05bSKazu Hirata return llvm::byteswap<uint64_t>(value);
107666cc0b2SZachary Turner }
108666cc0b2SZachary Turner
ReadMaxInt64(const uint8_t * data,size_t byte_size,ByteOrder byte_order)109dbd7c338SPetr Pavlu static inline uint64_t ReadMaxInt64(const uint8_t *data, size_t byte_size,
110dbd7c338SPetr Pavlu ByteOrder byte_order) {
111dbd7c338SPetr Pavlu uint64_t res = 0;
112dbd7c338SPetr Pavlu if (byte_order == eByteOrderBig)
113dbd7c338SPetr Pavlu for (size_t i = 0; i < byte_size; ++i)
114dbd7c338SPetr Pavlu res = (res << 8) | data[i];
115dbd7c338SPetr Pavlu else {
116dbd7c338SPetr Pavlu assert(byte_order == eByteOrderLittle);
117dbd7c338SPetr Pavlu for (size_t i = 0; i < byte_size; ++i)
118dbd7c338SPetr Pavlu res = (res << 8) | data[byte_size - 1 - i];
119dbd7c338SPetr Pavlu }
120dbd7c338SPetr Pavlu return res;
121dbd7c338SPetr Pavlu }
122dbd7c338SPetr Pavlu
DataExtractor()123666cc0b2SZachary Turner DataExtractor::DataExtractor()
1249494c510SJonas Devlieghere : m_byte_order(endian::InlHostByteOrder()), m_addr_size(sizeof(void *)),
1259494c510SJonas Devlieghere m_data_sp() {}
126666cc0b2SZachary Turner
12705097246SAdrian Prantl // This constructor allows us to use data that is owned by someone else. The
12805097246SAdrian Prantl // data must stay around as long as this object is valid.
DataExtractor(const void * data,offset_t length,ByteOrder endian,uint32_t addr_size,uint32_t target_byte_size)129666cc0b2SZachary Turner DataExtractor::DataExtractor(const void *data, offset_t length,
130666cc0b2SZachary Turner ByteOrder endian, uint32_t addr_size,
131666cc0b2SZachary Turner uint32_t target_byte_size /*=1*/)
13265fdb342SRaphael Isemann : m_start(const_cast<uint8_t *>(static_cast<const uint8_t *>(data))),
13365fdb342SRaphael Isemann m_end(const_cast<uint8_t *>(static_cast<const uint8_t *>(data)) + length),
134666cc0b2SZachary Turner m_byte_order(endian), m_addr_size(addr_size), m_data_sp(),
135666cc0b2SZachary Turner m_target_byte_size(target_byte_size) {
136ec1efe71SAyke van Laethem assert(addr_size >= 1 && addr_size <= 8);
137666cc0b2SZachary Turner }
138666cc0b2SZachary Turner
13905097246SAdrian Prantl // Make a shared pointer reference to the shared data in "data_sp" and set the
14005097246SAdrian Prantl // endian swapping setting to "swap", and the address size to "addr_size". The
14105097246SAdrian Prantl // shared data reference will ensure the data lives as long as any
14205097246SAdrian Prantl // DataExtractor objects exist that have a reference to this data.
DataExtractor(const DataBufferSP & data_sp,ByteOrder endian,uint32_t addr_size,uint32_t target_byte_size)143666cc0b2SZachary Turner DataExtractor::DataExtractor(const DataBufferSP &data_sp, ByteOrder endian,
144666cc0b2SZachary Turner uint32_t addr_size,
145666cc0b2SZachary Turner uint32_t target_byte_size /*=1*/)
14628c878aeSShafik Yaghmour : m_byte_order(endian), m_addr_size(addr_size), m_data_sp(),
147666cc0b2SZachary Turner m_target_byte_size(target_byte_size) {
148ec1efe71SAyke van Laethem assert(addr_size >= 1 && addr_size <= 8);
149666cc0b2SZachary Turner SetData(data_sp);
150666cc0b2SZachary Turner }
151666cc0b2SZachary Turner
15205097246SAdrian Prantl // Initialize this object with a subset of the data bytes in "data". If "data"
15305097246SAdrian Prantl // contains shared data, then a reference to this shared data will added and
15405097246SAdrian Prantl // the shared data will stay around as long as any object contains a reference
15505097246SAdrian Prantl // to that data. The endian swap and address size settings are copied from
15605097246SAdrian Prantl // "data".
DataExtractor(const DataExtractor & data,offset_t offset,offset_t length,uint32_t target_byte_size)157666cc0b2SZachary Turner DataExtractor::DataExtractor(const DataExtractor &data, offset_t offset,
158666cc0b2SZachary Turner offset_t length, uint32_t target_byte_size /*=1*/)
15928c878aeSShafik Yaghmour : m_byte_order(data.m_byte_order), m_addr_size(data.m_addr_size),
16028c878aeSShafik Yaghmour m_data_sp(), m_target_byte_size(target_byte_size) {
161ec1efe71SAyke van Laethem assert(m_addr_size >= 1 && m_addr_size <= 8);
162666cc0b2SZachary Turner if (data.ValidOffset(offset)) {
163666cc0b2SZachary Turner offset_t bytes_available = data.GetByteSize() - offset;
164666cc0b2SZachary Turner if (length > bytes_available)
165666cc0b2SZachary Turner length = bytes_available;
166666cc0b2SZachary Turner SetData(data, offset, length);
167666cc0b2SZachary Turner }
168666cc0b2SZachary Turner }
169666cc0b2SZachary Turner
DataExtractor(const DataExtractor & rhs)170666cc0b2SZachary Turner DataExtractor::DataExtractor(const DataExtractor &rhs)
171666cc0b2SZachary Turner : m_start(rhs.m_start), m_end(rhs.m_end), m_byte_order(rhs.m_byte_order),
172666cc0b2SZachary Turner m_addr_size(rhs.m_addr_size), m_data_sp(rhs.m_data_sp),
173666cc0b2SZachary Turner m_target_byte_size(rhs.m_target_byte_size) {
174ec1efe71SAyke van Laethem assert(m_addr_size >= 1 && m_addr_size <= 8);
175666cc0b2SZachary Turner }
176666cc0b2SZachary Turner
177666cc0b2SZachary Turner // Assignment operator
operator =(const DataExtractor & rhs)178666cc0b2SZachary Turner const DataExtractor &DataExtractor::operator=(const DataExtractor &rhs) {
179666cc0b2SZachary Turner if (this != &rhs) {
180666cc0b2SZachary Turner m_start = rhs.m_start;
181666cc0b2SZachary Turner m_end = rhs.m_end;
182666cc0b2SZachary Turner m_byte_order = rhs.m_byte_order;
183666cc0b2SZachary Turner m_addr_size = rhs.m_addr_size;
184666cc0b2SZachary Turner m_data_sp = rhs.m_data_sp;
185666cc0b2SZachary Turner }
186666cc0b2SZachary Turner return *this;
187666cc0b2SZachary Turner }
188666cc0b2SZachary Turner
189666cc0b2SZachary Turner DataExtractor::~DataExtractor() = default;
190666cc0b2SZachary Turner
19105097246SAdrian Prantl // Clears the object contents back to a default invalid state, and release any
19205097246SAdrian Prantl // references to shared data that this object may contain.
Clear()193666cc0b2SZachary Turner void DataExtractor::Clear() {
194666cc0b2SZachary Turner m_start = nullptr;
195666cc0b2SZachary Turner m_end = nullptr;
196666cc0b2SZachary Turner m_byte_order = endian::InlHostByteOrder();
197666cc0b2SZachary Turner m_addr_size = sizeof(void *);
198666cc0b2SZachary Turner m_data_sp.reset();
199666cc0b2SZachary Turner }
200666cc0b2SZachary Turner
20105097246SAdrian Prantl // If this object contains shared data, this function returns the offset into
20205097246SAdrian Prantl // that shared data. Else zero is returned.
GetSharedDataOffset() const203666cc0b2SZachary Turner size_t DataExtractor::GetSharedDataOffset() const {
204666cc0b2SZachary Turner if (m_start != nullptr) {
205666cc0b2SZachary Turner const DataBuffer *data = m_data_sp.get();
206666cc0b2SZachary Turner if (data != nullptr) {
207666cc0b2SZachary Turner const uint8_t *data_bytes = data->GetBytes();
208666cc0b2SZachary Turner if (data_bytes != nullptr) {
209666cc0b2SZachary Turner assert(m_start >= data_bytes);
210666cc0b2SZachary Turner return m_start - data_bytes;
211666cc0b2SZachary Turner }
212666cc0b2SZachary Turner }
213666cc0b2SZachary Turner }
214666cc0b2SZachary Turner return 0;
215666cc0b2SZachary Turner }
216666cc0b2SZachary Turner
21705097246SAdrian Prantl // Set the data with which this object will extract from to data starting at
21805097246SAdrian Prantl // BYTES and set the length of the data to LENGTH bytes long. The data is
21905097246SAdrian Prantl // externally owned must be around at least as long as this object points to
22005097246SAdrian Prantl // the data. No copy of the data is made, this object just refers to this data
22105097246SAdrian Prantl // and can extract from it. If this object refers to any shared data upon
22205097246SAdrian Prantl // entry, the reference to that data will be released. Is SWAP is set to true,
223666cc0b2SZachary Turner // any data extracted will be endian swapped.
SetData(const void * bytes,offset_t length,ByteOrder endian)224666cc0b2SZachary Turner lldb::offset_t DataExtractor::SetData(const void *bytes, offset_t length,
225666cc0b2SZachary Turner ByteOrder endian) {
226666cc0b2SZachary Turner m_byte_order = endian;
227666cc0b2SZachary Turner m_data_sp.reset();
228666cc0b2SZachary Turner if (bytes == nullptr || length == 0) {
229666cc0b2SZachary Turner m_start = nullptr;
230666cc0b2SZachary Turner m_end = nullptr;
231666cc0b2SZachary Turner } else {
23265fdb342SRaphael Isemann m_start = const_cast<uint8_t *>(static_cast<const uint8_t *>(bytes));
233666cc0b2SZachary Turner m_end = m_start + length;
234666cc0b2SZachary Turner }
235666cc0b2SZachary Turner return GetByteSize();
236666cc0b2SZachary Turner }
237666cc0b2SZachary Turner
23805097246SAdrian Prantl // Assign the data for this object to be a subrange in "data" starting
23905097246SAdrian Prantl // "data_offset" bytes into "data" and ending "data_length" bytes later. If
24005097246SAdrian Prantl // "data_offset" is not a valid offset into "data", then this object will
24105097246SAdrian Prantl // contain no bytes. If "data_offset" is within "data" yet "data_length" is too
24205097246SAdrian Prantl // large, the length will be capped at the number of bytes remaining in "data".
24305097246SAdrian Prantl // If "data" contains a shared pointer to other data, then a ref counted
24405097246SAdrian Prantl // pointer to that data will be made in this object. If "data" doesn't contain
24505097246SAdrian Prantl // a shared pointer to data, then the bytes referred to in "data" will need to
24605097246SAdrian Prantl // exist at least as long as this object refers to those bytes. The address
24705097246SAdrian Prantl // size and endian swap settings are copied from the current values in "data".
SetData(const DataExtractor & data,offset_t data_offset,offset_t data_length)248666cc0b2SZachary Turner lldb::offset_t DataExtractor::SetData(const DataExtractor &data,
249666cc0b2SZachary Turner offset_t data_offset,
250666cc0b2SZachary Turner offset_t data_length) {
251666cc0b2SZachary Turner m_addr_size = data.m_addr_size;
252ec1efe71SAyke van Laethem assert(m_addr_size >= 1 && m_addr_size <= 8);
253666cc0b2SZachary Turner // If "data" contains shared pointer to data, then we can use that
254666cc0b2SZachary Turner if (data.m_data_sp) {
255666cc0b2SZachary Turner m_byte_order = data.m_byte_order;
256666cc0b2SZachary Turner return SetData(data.m_data_sp, data.GetSharedDataOffset() + data_offset,
257666cc0b2SZachary Turner data_length);
258666cc0b2SZachary Turner }
259666cc0b2SZachary Turner
260666cc0b2SZachary Turner // We have a DataExtractor object that just has a pointer to bytes
261666cc0b2SZachary Turner if (data.ValidOffset(data_offset)) {
262666cc0b2SZachary Turner if (data_length > data.GetByteSize() - data_offset)
263666cc0b2SZachary Turner data_length = data.GetByteSize() - data_offset;
264666cc0b2SZachary Turner return SetData(data.GetDataStart() + data_offset, data_length,
265666cc0b2SZachary Turner data.GetByteOrder());
266666cc0b2SZachary Turner }
267666cc0b2SZachary Turner return 0;
268666cc0b2SZachary Turner }
269666cc0b2SZachary Turner
27005097246SAdrian Prantl // Assign the data for this object to be a subrange of the shared data in
27105097246SAdrian Prantl // "data_sp" starting "data_offset" bytes into "data_sp" and ending
27205097246SAdrian Prantl // "data_length" bytes later. If "data_offset" is not a valid offset into
27305097246SAdrian Prantl // "data_sp", then this object will contain no bytes. If "data_offset" is
27405097246SAdrian Prantl // within "data_sp" yet "data_length" is too large, the length will be capped
27505097246SAdrian Prantl // at the number of bytes remaining in "data_sp". A ref counted pointer to the
27605097246SAdrian Prantl // data in "data_sp" will be made in this object IF the number of bytes this
27705097246SAdrian Prantl // object refers to in greater than zero (if at least one byte was available
27805097246SAdrian Prantl // starting at "data_offset") to ensure the data stays around as long as it is
27905097246SAdrian Prantl // needed. The address size and endian swap settings will remain unchanged from
28005097246SAdrian Prantl // their current settings.
SetData(const DataBufferSP & data_sp,offset_t data_offset,offset_t data_length)281666cc0b2SZachary Turner lldb::offset_t DataExtractor::SetData(const DataBufferSP &data_sp,
282666cc0b2SZachary Turner offset_t data_offset,
283666cc0b2SZachary Turner offset_t data_length) {
284666cc0b2SZachary Turner m_start = m_end = nullptr;
285666cc0b2SZachary Turner
286666cc0b2SZachary Turner if (data_length > 0) {
287666cc0b2SZachary Turner m_data_sp = data_sp;
288666cc0b2SZachary Turner if (data_sp) {
289666cc0b2SZachary Turner const size_t data_size = data_sp->GetByteSize();
290666cc0b2SZachary Turner if (data_offset < data_size) {
291666cc0b2SZachary Turner m_start = data_sp->GetBytes() + data_offset;
292666cc0b2SZachary Turner const size_t bytes_left = data_size - data_offset;
293666cc0b2SZachary Turner // Cap the length of we asked for too many
294666cc0b2SZachary Turner if (data_length <= bytes_left)
295666cc0b2SZachary Turner m_end = m_start + data_length; // We got all the bytes we wanted
296666cc0b2SZachary Turner else
297666cc0b2SZachary Turner m_end = m_start + bytes_left; // Not all the bytes requested were
298666cc0b2SZachary Turner // available in the shared data
299666cc0b2SZachary Turner }
300666cc0b2SZachary Turner }
301666cc0b2SZachary Turner }
302666cc0b2SZachary Turner
303666cc0b2SZachary Turner size_t new_size = GetByteSize();
304666cc0b2SZachary Turner
30505097246SAdrian Prantl // Don't hold a shared pointer to the data buffer if we don't share any valid
30605097246SAdrian Prantl // bytes in the shared buffer.
307666cc0b2SZachary Turner if (new_size == 0)
308666cc0b2SZachary Turner m_data_sp.reset();
309666cc0b2SZachary Turner
310666cc0b2SZachary Turner return new_size;
311666cc0b2SZachary Turner }
312666cc0b2SZachary Turner
31305097246SAdrian Prantl // Extract a single unsigned char from the binary data and update the offset
31405097246SAdrian Prantl // pointed to by "offset_ptr".
315666cc0b2SZachary Turner //
316666cc0b2SZachary Turner // RETURNS the byte that was extracted, or zero on failure.
GetU8(offset_t * offset_ptr) const317666cc0b2SZachary Turner uint8_t DataExtractor::GetU8(offset_t *offset_ptr) const {
31824374aefSJonas Devlieghere const uint8_t *data = static_cast<const uint8_t *>(GetData(offset_ptr, 1));
319666cc0b2SZachary Turner if (data)
320666cc0b2SZachary Turner return *data;
321666cc0b2SZachary Turner return 0;
322666cc0b2SZachary Turner }
323666cc0b2SZachary Turner
32405097246SAdrian Prantl // Extract "count" unsigned chars from the binary data and update the offset
32505097246SAdrian Prantl // pointed to by "offset_ptr". The extracted data is copied into "dst".
326666cc0b2SZachary Turner //
327666cc0b2SZachary Turner // RETURNS the non-nullptr buffer pointer upon successful extraction of
32805097246SAdrian Prantl // all the requested bytes, or nullptr when the data is not available in the
32905097246SAdrian Prantl // buffer due to being out of bounds, or insufficient data.
GetU8(offset_t * offset_ptr,void * dst,uint32_t count) const330666cc0b2SZachary Turner void *DataExtractor::GetU8(offset_t *offset_ptr, void *dst,
331666cc0b2SZachary Turner uint32_t count) const {
33224374aefSJonas Devlieghere const uint8_t *data =
33324374aefSJonas Devlieghere static_cast<const uint8_t *>(GetData(offset_ptr, count));
334666cc0b2SZachary Turner if (data) {
335666cc0b2SZachary Turner // Copy the data into the buffer
336666cc0b2SZachary Turner memcpy(dst, data, count);
337666cc0b2SZachary Turner // Return a non-nullptr pointer to the converted data as an indicator of
338666cc0b2SZachary Turner // success
339666cc0b2SZachary Turner return dst;
340666cc0b2SZachary Turner }
341666cc0b2SZachary Turner return nullptr;
342666cc0b2SZachary Turner }
343666cc0b2SZachary Turner
34405097246SAdrian Prantl // Extract a single uint16_t from the data and update the offset pointed to by
34505097246SAdrian Prantl // "offset_ptr".
346666cc0b2SZachary Turner //
347666cc0b2SZachary Turner // RETURNS the uint16_t that was extracted, or zero on failure.
GetU16(offset_t * offset_ptr) const348666cc0b2SZachary Turner uint16_t DataExtractor::GetU16(offset_t *offset_ptr) const {
349666cc0b2SZachary Turner uint16_t val = 0;
35024374aefSJonas Devlieghere const uint8_t *data =
35124374aefSJonas Devlieghere static_cast<const uint8_t *>(GetData(offset_ptr, sizeof(val)));
352666cc0b2SZachary Turner if (data) {
353666cc0b2SZachary Turner if (m_byte_order != endian::InlHostByteOrder())
354666cc0b2SZachary Turner val = ReadSwapInt16(data);
355666cc0b2SZachary Turner else
356666cc0b2SZachary Turner val = ReadInt16(data);
357666cc0b2SZachary Turner }
358666cc0b2SZachary Turner return val;
359666cc0b2SZachary Turner }
360666cc0b2SZachary Turner
GetU16_unchecked(offset_t * offset_ptr) const361666cc0b2SZachary Turner uint16_t DataExtractor::GetU16_unchecked(offset_t *offset_ptr) const {
362666cc0b2SZachary Turner uint16_t val;
363666cc0b2SZachary Turner if (m_byte_order == endian::InlHostByteOrder())
364666cc0b2SZachary Turner val = ReadInt16(m_start, *offset_ptr);
365666cc0b2SZachary Turner else
366666cc0b2SZachary Turner val = ReadSwapInt16(m_start, *offset_ptr);
367666cc0b2SZachary Turner *offset_ptr += sizeof(val);
368666cc0b2SZachary Turner return val;
369666cc0b2SZachary Turner }
370666cc0b2SZachary Turner
GetU32_unchecked(offset_t * offset_ptr) const371666cc0b2SZachary Turner uint32_t DataExtractor::GetU32_unchecked(offset_t *offset_ptr) const {
372666cc0b2SZachary Turner uint32_t val;
373666cc0b2SZachary Turner if (m_byte_order == endian::InlHostByteOrder())
374666cc0b2SZachary Turner val = ReadInt32(m_start, *offset_ptr);
375666cc0b2SZachary Turner else
376666cc0b2SZachary Turner val = ReadSwapInt32(m_start, *offset_ptr);
377666cc0b2SZachary Turner *offset_ptr += sizeof(val);
378666cc0b2SZachary Turner return val;
379666cc0b2SZachary Turner }
380666cc0b2SZachary Turner
GetU64_unchecked(offset_t * offset_ptr) const381666cc0b2SZachary Turner uint64_t DataExtractor::GetU64_unchecked(offset_t *offset_ptr) const {
382666cc0b2SZachary Turner uint64_t val;
383666cc0b2SZachary Turner if (m_byte_order == endian::InlHostByteOrder())
384666cc0b2SZachary Turner val = ReadInt64(m_start, *offset_ptr);
385666cc0b2SZachary Turner else
386666cc0b2SZachary Turner val = ReadSwapInt64(m_start, *offset_ptr);
387666cc0b2SZachary Turner *offset_ptr += sizeof(val);
388666cc0b2SZachary Turner return val;
389666cc0b2SZachary Turner }
390666cc0b2SZachary Turner
39105097246SAdrian Prantl // Extract "count" uint16_t values from the binary data and update the offset
39205097246SAdrian Prantl // pointed to by "offset_ptr". The extracted data is copied into "dst".
393666cc0b2SZachary Turner //
394666cc0b2SZachary Turner // RETURNS the non-nullptr buffer pointer upon successful extraction of
39505097246SAdrian Prantl // all the requested bytes, or nullptr when the data is not available in the
39605097246SAdrian Prantl // buffer due to being out of bounds, or insufficient data.
GetU16(offset_t * offset_ptr,void * void_dst,uint32_t count) const397666cc0b2SZachary Turner void *DataExtractor::GetU16(offset_t *offset_ptr, void *void_dst,
398666cc0b2SZachary Turner uint32_t count) const {
399666cc0b2SZachary Turner const size_t src_size = sizeof(uint16_t) * count;
40024374aefSJonas Devlieghere const uint16_t *src =
40124374aefSJonas Devlieghere static_cast<const uint16_t *>(GetData(offset_ptr, src_size));
402666cc0b2SZachary Turner if (src) {
403666cc0b2SZachary Turner if (m_byte_order != endian::InlHostByteOrder()) {
40424374aefSJonas Devlieghere uint16_t *dst_pos = static_cast<uint16_t *>(void_dst);
405666cc0b2SZachary Turner uint16_t *dst_end = dst_pos + count;
406666cc0b2SZachary Turner const uint16_t *src_pos = src;
407666cc0b2SZachary Turner while (dst_pos < dst_end) {
408666cc0b2SZachary Turner *dst_pos = ReadSwapInt16(src_pos);
409666cc0b2SZachary Turner ++dst_pos;
410666cc0b2SZachary Turner ++src_pos;
411666cc0b2SZachary Turner }
412666cc0b2SZachary Turner } else {
413666cc0b2SZachary Turner memcpy(void_dst, src, src_size);
414666cc0b2SZachary Turner }
415666cc0b2SZachary Turner // Return a non-nullptr pointer to the converted data as an indicator of
416666cc0b2SZachary Turner // success
417666cc0b2SZachary Turner return void_dst;
418666cc0b2SZachary Turner }
419666cc0b2SZachary Turner return nullptr;
420666cc0b2SZachary Turner }
421666cc0b2SZachary Turner
42205097246SAdrian Prantl // Extract a single uint32_t from the data and update the offset pointed to by
42305097246SAdrian Prantl // "offset_ptr".
424666cc0b2SZachary Turner //
425666cc0b2SZachary Turner // RETURNS the uint32_t that was extracted, or zero on failure.
GetU32(offset_t * offset_ptr) const426666cc0b2SZachary Turner uint32_t DataExtractor::GetU32(offset_t *offset_ptr) const {
427666cc0b2SZachary Turner uint32_t val = 0;
42824374aefSJonas Devlieghere const uint8_t *data =
42924374aefSJonas Devlieghere static_cast<const uint8_t *>(GetData(offset_ptr, sizeof(val)));
430666cc0b2SZachary Turner if (data) {
431666cc0b2SZachary Turner if (m_byte_order != endian::InlHostByteOrder()) {
432666cc0b2SZachary Turner val = ReadSwapInt32(data);
433666cc0b2SZachary Turner } else {
434666cc0b2SZachary Turner memcpy(&val, data, 4);
435666cc0b2SZachary Turner }
436666cc0b2SZachary Turner }
437666cc0b2SZachary Turner return val;
438666cc0b2SZachary Turner }
439666cc0b2SZachary Turner
44005097246SAdrian Prantl // Extract "count" uint32_t values from the binary data and update the offset
44105097246SAdrian Prantl // pointed to by "offset_ptr". The extracted data is copied into "dst".
442666cc0b2SZachary Turner //
443666cc0b2SZachary Turner // RETURNS the non-nullptr buffer pointer upon successful extraction of
44405097246SAdrian Prantl // all the requested bytes, or nullptr when the data is not available in the
44505097246SAdrian Prantl // buffer due to being out of bounds, or insufficient data.
GetU32(offset_t * offset_ptr,void * void_dst,uint32_t count) const446666cc0b2SZachary Turner void *DataExtractor::GetU32(offset_t *offset_ptr, void *void_dst,
447666cc0b2SZachary Turner uint32_t count) const {
448666cc0b2SZachary Turner const size_t src_size = sizeof(uint32_t) * count;
44924374aefSJonas Devlieghere const uint32_t *src =
45024374aefSJonas Devlieghere static_cast<const uint32_t *>(GetData(offset_ptr, src_size));
451666cc0b2SZachary Turner if (src) {
452666cc0b2SZachary Turner if (m_byte_order != endian::InlHostByteOrder()) {
45324374aefSJonas Devlieghere uint32_t *dst_pos = static_cast<uint32_t *>(void_dst);
454666cc0b2SZachary Turner uint32_t *dst_end = dst_pos + count;
455666cc0b2SZachary Turner const uint32_t *src_pos = src;
456666cc0b2SZachary Turner while (dst_pos < dst_end) {
457666cc0b2SZachary Turner *dst_pos = ReadSwapInt32(src_pos);
458666cc0b2SZachary Turner ++dst_pos;
459666cc0b2SZachary Turner ++src_pos;
460666cc0b2SZachary Turner }
461666cc0b2SZachary Turner } else {
462666cc0b2SZachary Turner memcpy(void_dst, src, src_size);
463666cc0b2SZachary Turner }
464666cc0b2SZachary Turner // Return a non-nullptr pointer to the converted data as an indicator of
465666cc0b2SZachary Turner // success
466666cc0b2SZachary Turner return void_dst;
467666cc0b2SZachary Turner }
468666cc0b2SZachary Turner return nullptr;
469666cc0b2SZachary Turner }
470666cc0b2SZachary Turner
47105097246SAdrian Prantl // Extract a single uint64_t from the data and update the offset pointed to by
47205097246SAdrian Prantl // "offset_ptr".
473666cc0b2SZachary Turner //
474666cc0b2SZachary Turner // RETURNS the uint64_t that was extracted, or zero on failure.
GetU64(offset_t * offset_ptr) const475666cc0b2SZachary Turner uint64_t DataExtractor::GetU64(offset_t *offset_ptr) const {
476666cc0b2SZachary Turner uint64_t val = 0;
47724374aefSJonas Devlieghere const uint8_t *data =
47824374aefSJonas Devlieghere static_cast<const uint8_t *>(GetData(offset_ptr, sizeof(val)));
479666cc0b2SZachary Turner if (data) {
480666cc0b2SZachary Turner if (m_byte_order != endian::InlHostByteOrder()) {
481666cc0b2SZachary Turner val = ReadSwapInt64(data);
482666cc0b2SZachary Turner } else {
483666cc0b2SZachary Turner memcpy(&val, data, 8);
484666cc0b2SZachary Turner }
485666cc0b2SZachary Turner }
486666cc0b2SZachary Turner return val;
487666cc0b2SZachary Turner }
488666cc0b2SZachary Turner
489666cc0b2SZachary Turner // GetU64
490666cc0b2SZachary Turner //
49105097246SAdrian Prantl // Get multiple consecutive 64 bit values. Return true if the entire read
49205097246SAdrian Prantl // succeeds and increment the offset pointed to by offset_ptr, else return
49305097246SAdrian Prantl // false and leave the offset pointed to by offset_ptr unchanged.
GetU64(offset_t * offset_ptr,void * void_dst,uint32_t count) const494666cc0b2SZachary Turner void *DataExtractor::GetU64(offset_t *offset_ptr, void *void_dst,
495666cc0b2SZachary Turner uint32_t count) const {
496666cc0b2SZachary Turner const size_t src_size = sizeof(uint64_t) * count;
49724374aefSJonas Devlieghere const uint64_t *src =
49824374aefSJonas Devlieghere static_cast<const uint64_t *>(GetData(offset_ptr, src_size));
499666cc0b2SZachary Turner if (src) {
500666cc0b2SZachary Turner if (m_byte_order != endian::InlHostByteOrder()) {
50124374aefSJonas Devlieghere uint64_t *dst_pos = static_cast<uint64_t *>(void_dst);
502666cc0b2SZachary Turner uint64_t *dst_end = dst_pos + count;
503666cc0b2SZachary Turner const uint64_t *src_pos = src;
504666cc0b2SZachary Turner while (dst_pos < dst_end) {
505666cc0b2SZachary Turner *dst_pos = ReadSwapInt64(src_pos);
506666cc0b2SZachary Turner ++dst_pos;
507666cc0b2SZachary Turner ++src_pos;
508666cc0b2SZachary Turner }
509666cc0b2SZachary Turner } else {
510666cc0b2SZachary Turner memcpy(void_dst, src, src_size);
511666cc0b2SZachary Turner }
512666cc0b2SZachary Turner // Return a non-nullptr pointer to the converted data as an indicator of
513666cc0b2SZachary Turner // success
514666cc0b2SZachary Turner return void_dst;
515666cc0b2SZachary Turner }
516666cc0b2SZachary Turner return nullptr;
517666cc0b2SZachary Turner }
518666cc0b2SZachary Turner
GetMaxU32(offset_t * offset_ptr,size_t byte_size) const519666cc0b2SZachary Turner uint32_t DataExtractor::GetMaxU32(offset_t *offset_ptr,
520666cc0b2SZachary Turner size_t byte_size) const {
521dbd7c338SPetr Pavlu lldbassert(byte_size > 0 && byte_size <= 4 && "GetMaxU32 invalid byte_size!");
522dbd7c338SPetr Pavlu return GetMaxU64(offset_ptr, byte_size);
523dbd7c338SPetr Pavlu }
524dbd7c338SPetr Pavlu
GetMaxU64(offset_t * offset_ptr,size_t byte_size) const525dbd7c338SPetr Pavlu uint64_t DataExtractor::GetMaxU64(offset_t *offset_ptr,
526dbd7c338SPetr Pavlu size_t byte_size) const {
527dbd7c338SPetr Pavlu lldbassert(byte_size > 0 && byte_size <= 8 && "GetMaxU64 invalid byte_size!");
528666cc0b2SZachary Turner switch (byte_size) {
529666cc0b2SZachary Turner case 1:
530666cc0b2SZachary Turner return GetU8(offset_ptr);
531666cc0b2SZachary Turner case 2:
532666cc0b2SZachary Turner return GetU16(offset_ptr);
533666cc0b2SZachary Turner case 4:
534666cc0b2SZachary Turner return GetU32(offset_ptr);
535666cc0b2SZachary Turner case 8:
536666cc0b2SZachary Turner return GetU64(offset_ptr);
537dbd7c338SPetr Pavlu default: {
538dbd7c338SPetr Pavlu // General case.
539dbd7c338SPetr Pavlu const uint8_t *data =
540dbd7c338SPetr Pavlu static_cast<const uint8_t *>(GetData(offset_ptr, byte_size));
541dbd7c338SPetr Pavlu if (data == nullptr)
542dbd7c338SPetr Pavlu return 0;
543dbd7c338SPetr Pavlu return ReadMaxInt64(data, byte_size, m_byte_order);
544dbd7c338SPetr Pavlu }
545666cc0b2SZachary Turner }
546666cc0b2SZachary Turner return 0;
547666cc0b2SZachary Turner }
548666cc0b2SZachary Turner
GetMaxU64_unchecked(offset_t * offset_ptr,size_t byte_size) const549666cc0b2SZachary Turner uint64_t DataExtractor::GetMaxU64_unchecked(offset_t *offset_ptr,
550dbd7c338SPetr Pavlu size_t byte_size) const {
551dbd7c338SPetr Pavlu switch (byte_size) {
552666cc0b2SZachary Turner case 1:
553666cc0b2SZachary Turner return GetU8_unchecked(offset_ptr);
554666cc0b2SZachary Turner case 2:
555666cc0b2SZachary Turner return GetU16_unchecked(offset_ptr);
556666cc0b2SZachary Turner case 4:
557666cc0b2SZachary Turner return GetU32_unchecked(offset_ptr);
558666cc0b2SZachary Turner case 8:
559666cc0b2SZachary Turner return GetU64_unchecked(offset_ptr);
560dbd7c338SPetr Pavlu default: {
561dbd7c338SPetr Pavlu uint64_t res = ReadMaxInt64(&m_start[*offset_ptr], byte_size, m_byte_order);
562dbd7c338SPetr Pavlu *offset_ptr += byte_size;
563dbd7c338SPetr Pavlu return res;
564dbd7c338SPetr Pavlu }
565666cc0b2SZachary Turner }
566666cc0b2SZachary Turner return 0;
567666cc0b2SZachary Turner }
568666cc0b2SZachary Turner
GetMaxS64(offset_t * offset_ptr,size_t byte_size) const569dbd7c338SPetr Pavlu int64_t DataExtractor::GetMaxS64(offset_t *offset_ptr, size_t byte_size) const {
570dbd7c338SPetr Pavlu uint64_t u64 = GetMaxU64(offset_ptr, byte_size);
571dbd7c338SPetr Pavlu return llvm::SignExtend64(u64, 8 * byte_size);
572666cc0b2SZachary Turner }
573666cc0b2SZachary Turner
GetMaxU64Bitfield(offset_t * offset_ptr,size_t size,uint32_t bitfield_bit_size,uint32_t bitfield_bit_offset) const574666cc0b2SZachary Turner uint64_t DataExtractor::GetMaxU64Bitfield(offset_t *offset_ptr, size_t size,
575666cc0b2SZachary Turner uint32_t bitfield_bit_size,
576666cc0b2SZachary Turner uint32_t bitfield_bit_offset) const {
577fffd7029Sshafik assert(bitfield_bit_size <= 64);
578666cc0b2SZachary Turner uint64_t uval64 = GetMaxU64(offset_ptr, size);
579fffd7029Sshafik
580fffd7029Sshafik if (bitfield_bit_size == 0)
581fffd7029Sshafik return uval64;
582fffd7029Sshafik
583666cc0b2SZachary Turner int32_t lsbcount = bitfield_bit_offset;
584666cc0b2SZachary Turner if (m_byte_order == eByteOrderBig)
585666cc0b2SZachary Turner lsbcount = size * 8 - bitfield_bit_offset - bitfield_bit_size;
586fffd7029Sshafik
587666cc0b2SZachary Turner if (lsbcount > 0)
588666cc0b2SZachary Turner uval64 >>= lsbcount;
589fffd7029Sshafik
590fffd7029Sshafik uint64_t bitfield_mask =
591fffd7029Sshafik (bitfield_bit_size == 64
592fffd7029Sshafik ? std::numeric_limits<uint64_t>::max()
593fffd7029Sshafik : ((static_cast<uint64_t>(1) << bitfield_bit_size) - 1));
594666cc0b2SZachary Turner if (!bitfield_mask && bitfield_bit_offset == 0 && bitfield_bit_size == 64)
595666cc0b2SZachary Turner return uval64;
596fffd7029Sshafik
597666cc0b2SZachary Turner uval64 &= bitfield_mask;
598fffd7029Sshafik
599666cc0b2SZachary Turner return uval64;
600666cc0b2SZachary Turner }
601666cc0b2SZachary Turner
GetMaxS64Bitfield(offset_t * offset_ptr,size_t size,uint32_t bitfield_bit_size,uint32_t bitfield_bit_offset) const602666cc0b2SZachary Turner int64_t DataExtractor::GetMaxS64Bitfield(offset_t *offset_ptr, size_t size,
603666cc0b2SZachary Turner uint32_t bitfield_bit_size,
604666cc0b2SZachary Turner uint32_t bitfield_bit_offset) const {
6057b90cdedSVedant Kumar assert(size >= 1 && "GetMaxS64Bitfield size must be >= 1");
6067b90cdedSVedant Kumar assert(size <= 8 && "GetMaxS64Bitfield size must be <= 8");
607666cc0b2SZachary Turner int64_t sval64 = GetMaxS64(offset_ptr, size);
608bb6646ceSVedant Kumar if (bitfield_bit_size == 0)
609bb6646ceSVedant Kumar return sval64;
610666cc0b2SZachary Turner int32_t lsbcount = bitfield_bit_offset;
611666cc0b2SZachary Turner if (m_byte_order == eByteOrderBig)
612666cc0b2SZachary Turner lsbcount = size * 8 - bitfield_bit_offset - bitfield_bit_size;
613666cc0b2SZachary Turner if (lsbcount > 0)
614666cc0b2SZachary Turner sval64 >>= lsbcount;
615bb6646ceSVedant Kumar uint64_t bitfield_mask = llvm::maskTrailingOnes<uint64_t>(bitfield_bit_size);
616666cc0b2SZachary Turner sval64 &= bitfield_mask;
617666cc0b2SZachary Turner // sign extend if needed
61824374aefSJonas Devlieghere if (sval64 & ((static_cast<uint64_t>(1)) << (bitfield_bit_size - 1)))
619666cc0b2SZachary Turner sval64 |= ~bitfield_mask;
620666cc0b2SZachary Turner return sval64;
621666cc0b2SZachary Turner }
622666cc0b2SZachary Turner
GetFloat(offset_t * offset_ptr) const623666cc0b2SZachary Turner float DataExtractor::GetFloat(offset_t *offset_ptr) const {
6245e9b16b6SJonas Devlieghere return Get<float>(offset_ptr, 0.0f);
625666cc0b2SZachary Turner }
626666cc0b2SZachary Turner
GetDouble(offset_t * offset_ptr) const627666cc0b2SZachary Turner double DataExtractor::GetDouble(offset_t *offset_ptr) const {
6285e9b16b6SJonas Devlieghere return Get<double>(offset_ptr, 0.0);
629666cc0b2SZachary Turner }
630666cc0b2SZachary Turner
GetLongDouble(offset_t * offset_ptr) const631666cc0b2SZachary Turner long double DataExtractor::GetLongDouble(offset_t *offset_ptr) const {
632666cc0b2SZachary Turner long double val = 0.0;
633666cc0b2SZachary Turner #if defined(__i386__) || defined(__amd64__) || defined(__x86_64__) || \
634666cc0b2SZachary Turner defined(_M_IX86) || defined(_M_IA64) || defined(_M_X64)
635666cc0b2SZachary Turner *offset_ptr += CopyByteOrderedData(*offset_ptr, 10, &val, sizeof(val),
636666cc0b2SZachary Turner endian::InlHostByteOrder());
637666cc0b2SZachary Turner #else
638666cc0b2SZachary Turner *offset_ptr += CopyByteOrderedData(*offset_ptr, sizeof(val), &val,
639666cc0b2SZachary Turner sizeof(val), endian::InlHostByteOrder());
640666cc0b2SZachary Turner #endif
641666cc0b2SZachary Turner return val;
642666cc0b2SZachary Turner }
643666cc0b2SZachary Turner
64405097246SAdrian Prantl // Extract a single address from the data and update the offset pointed to by
64505097246SAdrian Prantl // "offset_ptr". The size of the extracted address comes from the
64605097246SAdrian Prantl // "this->m_addr_size" member variable and should be set correctly prior to
64705097246SAdrian Prantl // extracting any address values.
648666cc0b2SZachary Turner //
649666cc0b2SZachary Turner // RETURNS the address that was extracted, or zero on failure.
GetAddress(offset_t * offset_ptr) const650666cc0b2SZachary Turner uint64_t DataExtractor::GetAddress(offset_t *offset_ptr) const {
651ec1efe71SAyke van Laethem assert(m_addr_size >= 1 && m_addr_size <= 8);
652666cc0b2SZachary Turner return GetMaxU64(offset_ptr, m_addr_size);
653666cc0b2SZachary Turner }
654666cc0b2SZachary Turner
GetAddress_unchecked(offset_t * offset_ptr) const655666cc0b2SZachary Turner uint64_t DataExtractor::GetAddress_unchecked(offset_t *offset_ptr) const {
656ec1efe71SAyke van Laethem assert(m_addr_size >= 1 && m_addr_size <= 8);
657666cc0b2SZachary Turner return GetMaxU64_unchecked(offset_ptr, m_addr_size);
658666cc0b2SZachary Turner }
659666cc0b2SZachary Turner
ExtractBytes(offset_t offset,offset_t length,ByteOrder dst_byte_order,void * dst) const660666cc0b2SZachary Turner size_t DataExtractor::ExtractBytes(offset_t offset, offset_t length,
661666cc0b2SZachary Turner ByteOrder dst_byte_order, void *dst) const {
662666cc0b2SZachary Turner const uint8_t *src = PeekData(offset, length);
663666cc0b2SZachary Turner if (src) {
664666cc0b2SZachary Turner if (dst_byte_order != GetByteOrder()) {
665666cc0b2SZachary Turner // Validate that only a word- or register-sized dst is byte swapped
666666cc0b2SZachary Turner assert(length == 1 || length == 2 || length == 4 || length == 8 ||
667666cc0b2SZachary Turner length == 10 || length == 16 || length == 32);
668666cc0b2SZachary Turner
669666cc0b2SZachary Turner for (uint32_t i = 0; i < length; ++i)
67024374aefSJonas Devlieghere (static_cast<uint8_t *>(dst))[i] = src[length - i - 1];
671666cc0b2SZachary Turner } else
672666cc0b2SZachary Turner ::memcpy(dst, src, length);
673666cc0b2SZachary Turner return length;
674666cc0b2SZachary Turner }
675666cc0b2SZachary Turner return 0;
676666cc0b2SZachary Turner }
677666cc0b2SZachary Turner
678666cc0b2SZachary Turner // Extract data as it exists in target memory
CopyData(offset_t offset,offset_t length,void * dst) const679666cc0b2SZachary Turner lldb::offset_t DataExtractor::CopyData(offset_t offset, offset_t length,
680666cc0b2SZachary Turner void *dst) const {
681666cc0b2SZachary Turner const uint8_t *src = PeekData(offset, length);
682666cc0b2SZachary Turner if (src) {
683666cc0b2SZachary Turner ::memcpy(dst, src, length);
684666cc0b2SZachary Turner return length;
685666cc0b2SZachary Turner }
686666cc0b2SZachary Turner return 0;
687666cc0b2SZachary Turner }
688666cc0b2SZachary Turner
689666cc0b2SZachary Turner // Extract data and swap if needed when doing the copy
690666cc0b2SZachary Turner lldb::offset_t
CopyByteOrderedData(offset_t src_offset,offset_t src_len,void * dst_void_ptr,offset_t dst_len,ByteOrder dst_byte_order) const691666cc0b2SZachary Turner DataExtractor::CopyByteOrderedData(offset_t src_offset, offset_t src_len,
692666cc0b2SZachary Turner void *dst_void_ptr, offset_t dst_len,
693666cc0b2SZachary Turner ByteOrder dst_byte_order) const {
694666cc0b2SZachary Turner // Validate the source info
695666cc0b2SZachary Turner if (!ValidOffsetForDataOfSize(src_offset, src_len))
696666cc0b2SZachary Turner assert(ValidOffsetForDataOfSize(src_offset, src_len));
697666cc0b2SZachary Turner assert(src_len > 0);
698666cc0b2SZachary Turner assert(m_byte_order == eByteOrderBig || m_byte_order == eByteOrderLittle);
699666cc0b2SZachary Turner
700666cc0b2SZachary Turner // Validate the destination info
701666cc0b2SZachary Turner assert(dst_void_ptr != nullptr);
702666cc0b2SZachary Turner assert(dst_len > 0);
703666cc0b2SZachary Turner assert(dst_byte_order == eByteOrderBig || dst_byte_order == eByteOrderLittle);
704666cc0b2SZachary Turner
705666cc0b2SZachary Turner // Validate that only a word- or register-sized dst is byte swapped
706666cc0b2SZachary Turner assert(dst_byte_order == m_byte_order || dst_len == 1 || dst_len == 2 ||
707666cc0b2SZachary Turner dst_len == 4 || dst_len == 8 || dst_len == 10 || dst_len == 16 ||
708666cc0b2SZachary Turner dst_len == 32);
709666cc0b2SZachary Turner
710666cc0b2SZachary Turner // Must have valid byte orders set in this object and for destination
711666cc0b2SZachary Turner if (!(dst_byte_order == eByteOrderBig ||
712666cc0b2SZachary Turner dst_byte_order == eByteOrderLittle) ||
713666cc0b2SZachary Turner !(m_byte_order == eByteOrderBig || m_byte_order == eByteOrderLittle))
714666cc0b2SZachary Turner return 0;
715666cc0b2SZachary Turner
71624374aefSJonas Devlieghere uint8_t *dst = static_cast<uint8_t *>(dst_void_ptr);
71724374aefSJonas Devlieghere const uint8_t *src = PeekData(src_offset, src_len);
718666cc0b2SZachary Turner if (src) {
719666cc0b2SZachary Turner if (dst_len >= src_len) {
72005097246SAdrian Prantl // We are copying the entire value from src into dst. Calculate how many,
72105097246SAdrian Prantl // if any, zeroes we need for the most significant bytes if "dst_len" is
72205097246SAdrian Prantl // greater than "src_len"...
723666cc0b2SZachary Turner const size_t num_zeroes = dst_len - src_len;
724666cc0b2SZachary Turner if (dst_byte_order == eByteOrderBig) {
725666cc0b2SZachary Turner // Big endian, so we lead with zeroes...
726666cc0b2SZachary Turner if (num_zeroes > 0)
727666cc0b2SZachary Turner ::memset(dst, 0, num_zeroes);
728666cc0b2SZachary Turner // Then either copy or swap the rest
729666cc0b2SZachary Turner if (m_byte_order == eByteOrderBig) {
730666cc0b2SZachary Turner ::memcpy(dst + num_zeroes, src, src_len);
731666cc0b2SZachary Turner } else {
732666cc0b2SZachary Turner for (uint32_t i = 0; i < src_len; ++i)
733666cc0b2SZachary Turner dst[i + num_zeroes] = src[src_len - 1 - i];
734666cc0b2SZachary Turner }
735666cc0b2SZachary Turner } else {
736666cc0b2SZachary Turner // Little endian destination, so we lead the value bytes
737666cc0b2SZachary Turner if (m_byte_order == eByteOrderBig) {
738666cc0b2SZachary Turner for (uint32_t i = 0; i < src_len; ++i)
739666cc0b2SZachary Turner dst[i] = src[src_len - 1 - i];
740666cc0b2SZachary Turner } else {
741666cc0b2SZachary Turner ::memcpy(dst, src, src_len);
742666cc0b2SZachary Turner }
743666cc0b2SZachary Turner // And zero the rest...
744666cc0b2SZachary Turner if (num_zeroes > 0)
745666cc0b2SZachary Turner ::memset(dst + src_len, 0, num_zeroes);
746666cc0b2SZachary Turner }
747666cc0b2SZachary Turner return src_len;
748666cc0b2SZachary Turner } else {
749666cc0b2SZachary Turner // We are only copying some of the value from src into dst..
750666cc0b2SZachary Turner
751666cc0b2SZachary Turner if (dst_byte_order == eByteOrderBig) {
752666cc0b2SZachary Turner // Big endian dst
753666cc0b2SZachary Turner if (m_byte_order == eByteOrderBig) {
754666cc0b2SZachary Turner // Big endian dst, with big endian src
755666cc0b2SZachary Turner ::memcpy(dst, src + (src_len - dst_len), dst_len);
756666cc0b2SZachary Turner } else {
757666cc0b2SZachary Turner // Big endian dst, with little endian src
758666cc0b2SZachary Turner for (uint32_t i = 0; i < dst_len; ++i)
759666cc0b2SZachary Turner dst[i] = src[dst_len - 1 - i];
760666cc0b2SZachary Turner }
761666cc0b2SZachary Turner } else {
762666cc0b2SZachary Turner // Little endian dst
763666cc0b2SZachary Turner if (m_byte_order == eByteOrderBig) {
764666cc0b2SZachary Turner // Little endian dst, with big endian src
765666cc0b2SZachary Turner for (uint32_t i = 0; i < dst_len; ++i)
766666cc0b2SZachary Turner dst[i] = src[src_len - 1 - i];
767666cc0b2SZachary Turner } else {
768666cc0b2SZachary Turner // Little endian dst, with big endian src
769666cc0b2SZachary Turner ::memcpy(dst, src, dst_len);
770666cc0b2SZachary Turner }
771666cc0b2SZachary Turner }
772666cc0b2SZachary Turner return dst_len;
773666cc0b2SZachary Turner }
774666cc0b2SZachary Turner }
775666cc0b2SZachary Turner return 0;
776666cc0b2SZachary Turner }
777666cc0b2SZachary Turner
77805097246SAdrian Prantl // Extracts a variable length NULL terminated C string from the data at the
77905097246SAdrian Prantl // offset pointed to by "offset_ptr". The "offset_ptr" will be updated with
78005097246SAdrian Prantl // the offset of the byte that follows the NULL terminator byte.
781666cc0b2SZachary Turner //
78205097246SAdrian Prantl // If the offset pointed to by "offset_ptr" is out of bounds, or if "length" is
78305097246SAdrian Prantl // non-zero and there aren't enough available bytes, nullptr will be returned
78405097246SAdrian Prantl // and "offset_ptr" will not be updated.
GetCStr(offset_t * offset_ptr) const785666cc0b2SZachary Turner const char *DataExtractor::GetCStr(offset_t *offset_ptr) const {
786067bb1f5SRaphael Isemann const char *start = reinterpret_cast<const char *>(PeekData(*offset_ptr, 1));
787067bb1f5SRaphael Isemann // Already at the end of the data.
788067bb1f5SRaphael Isemann if (!start)
789666cc0b2SZachary Turner return nullptr;
790067bb1f5SRaphael Isemann
791067bb1f5SRaphael Isemann const char *end = reinterpret_cast<const char *>(m_end);
792067bb1f5SRaphael Isemann
793067bb1f5SRaphael Isemann // Check all bytes for a null terminator that terminates a C string.
794067bb1f5SRaphael Isemann const char *terminator_or_end = std::find(start, end, '\0');
795067bb1f5SRaphael Isemann
796067bb1f5SRaphael Isemann // We didn't find a null terminator, so return nullptr to indicate that there
797067bb1f5SRaphael Isemann // is no valid C string at that offset.
798067bb1f5SRaphael Isemann if (terminator_or_end == end)
799067bb1f5SRaphael Isemann return nullptr;
800067bb1f5SRaphael Isemann
801067bb1f5SRaphael Isemann // Update offset_ptr for the caller to point to the data behind the
802067bb1f5SRaphael Isemann // terminator (which is 1 byte long).
803067bb1f5SRaphael Isemann *offset_ptr += (terminator_or_end - start + 1UL);
804067bb1f5SRaphael Isemann return start;
805666cc0b2SZachary Turner }
806666cc0b2SZachary Turner
80705097246SAdrian Prantl // Extracts a NULL terminated C string from the fixed length field of length
80805097246SAdrian Prantl // "len" at the offset pointed to by "offset_ptr". The "offset_ptr" will be
80905097246SAdrian Prantl // updated with the offset of the byte that follows the fixed length field.
810666cc0b2SZachary Turner //
81105097246SAdrian Prantl // If the offset pointed to by "offset_ptr" is out of bounds, or if the offset
81205097246SAdrian Prantl // plus the length of the field is out of bounds, or if the field does not
81305097246SAdrian Prantl // contain a NULL terminator byte, nullptr will be returned and "offset_ptr"
81405097246SAdrian Prantl // will not be updated.
GetCStr(offset_t * offset_ptr,offset_t len) const815666cc0b2SZachary Turner const char *DataExtractor::GetCStr(offset_t *offset_ptr, offset_t len) const {
81624374aefSJonas Devlieghere const char *cstr = reinterpret_cast<const char *>(PeekData(*offset_ptr, len));
817666cc0b2SZachary Turner if (cstr != nullptr) {
818666cc0b2SZachary Turner if (memchr(cstr, '\0', len) == nullptr) {
819666cc0b2SZachary Turner return nullptr;
820666cc0b2SZachary Turner }
821666cc0b2SZachary Turner *offset_ptr += len;
822666cc0b2SZachary Turner return cstr;
823666cc0b2SZachary Turner }
824666cc0b2SZachary Turner return nullptr;
825666cc0b2SZachary Turner }
826666cc0b2SZachary Turner
82705097246SAdrian Prantl // Peeks at a string in the contained data. No verification is done to make
82805097246SAdrian Prantl // sure the entire string lies within the bounds of this object's data, only
82905097246SAdrian Prantl // "offset" is verified to be a valid offset.
830666cc0b2SZachary Turner //
83105097246SAdrian Prantl // Returns a valid C string pointer if "offset" is a valid offset in this
83205097246SAdrian Prantl // object's data, else nullptr is returned.
PeekCStr(offset_t offset) const833666cc0b2SZachary Turner const char *DataExtractor::PeekCStr(offset_t offset) const {
83424374aefSJonas Devlieghere return reinterpret_cast<const char *>(PeekData(offset, 1));
835666cc0b2SZachary Turner }
836666cc0b2SZachary Turner
83705097246SAdrian Prantl // Extracts an unsigned LEB128 number from this object's data starting at the
83805097246SAdrian Prantl // offset pointed to by "offset_ptr". The offset pointed to by "offset_ptr"
83905097246SAdrian Prantl // will be updated with the offset of the byte following the last extracted
84005097246SAdrian Prantl // byte.
841666cc0b2SZachary Turner //
842666cc0b2SZachary Turner // Returned the extracted integer value.
GetULEB128(offset_t * offset_ptr) const843666cc0b2SZachary Turner uint64_t DataExtractor::GetULEB128(offset_t *offset_ptr) const {
84424374aefSJonas Devlieghere const uint8_t *src = PeekData(*offset_ptr, 1);
845666cc0b2SZachary Turner if (src == nullptr)
846666cc0b2SZachary Turner return 0;
847666cc0b2SZachary Turner
848bb9d93f4SRaphael Isemann unsigned byte_count = 0;
849bb9d93f4SRaphael Isemann uint64_t result = llvm::decodeULEB128(src, &byte_count, m_end);
850bb9d93f4SRaphael Isemann *offset_ptr += byte_count;
851666cc0b2SZachary Turner return result;
852666cc0b2SZachary Turner }
853666cc0b2SZachary Turner
85405097246SAdrian Prantl // Extracts an signed LEB128 number from this object's data starting at the
85505097246SAdrian Prantl // offset pointed to by "offset_ptr". The offset pointed to by "offset_ptr"
85605097246SAdrian Prantl // will be updated with the offset of the byte following the last extracted
85705097246SAdrian Prantl // byte.
858666cc0b2SZachary Turner //
859666cc0b2SZachary Turner // Returned the extracted integer value.
GetSLEB128(offset_t * offset_ptr) const860666cc0b2SZachary Turner int64_t DataExtractor::GetSLEB128(offset_t *offset_ptr) const {
86124374aefSJonas Devlieghere const uint8_t *src = PeekData(*offset_ptr, 1);
862666cc0b2SZachary Turner if (src == nullptr)
863666cc0b2SZachary Turner return 0;
864666cc0b2SZachary Turner
865bb9d93f4SRaphael Isemann unsigned byte_count = 0;
866bb9d93f4SRaphael Isemann int64_t result = llvm::decodeSLEB128(src, &byte_count, m_end);
867bb9d93f4SRaphael Isemann *offset_ptr += byte_count;
868666cc0b2SZachary Turner return result;
869666cc0b2SZachary Turner }
870666cc0b2SZachary Turner
87105097246SAdrian Prantl // Skips a ULEB128 number (signed or unsigned) from this object's data starting
87205097246SAdrian Prantl // at the offset pointed to by "offset_ptr". The offset pointed to by
87305097246SAdrian Prantl // "offset_ptr" will be updated with the offset of the byte following the last
87405097246SAdrian Prantl // extracted byte.
875666cc0b2SZachary Turner //
876666cc0b2SZachary Turner // Returns the number of bytes consumed during the extraction.
Skip_LEB128(offset_t * offset_ptr) const877666cc0b2SZachary Turner uint32_t DataExtractor::Skip_LEB128(offset_t *offset_ptr) const {
878666cc0b2SZachary Turner uint32_t bytes_consumed = 0;
87924374aefSJonas Devlieghere const uint8_t *src = PeekData(*offset_ptr, 1);
880666cc0b2SZachary Turner if (src == nullptr)
881666cc0b2SZachary Turner return 0;
882666cc0b2SZachary Turner
883666cc0b2SZachary Turner const uint8_t *end = m_end;
884666cc0b2SZachary Turner
885666cc0b2SZachary Turner if (src < end) {
886666cc0b2SZachary Turner const uint8_t *src_pos = src;
887666cc0b2SZachary Turner while ((src_pos < end) && (*src_pos++ & 0x80))
888666cc0b2SZachary Turner ++bytes_consumed;
889666cc0b2SZachary Turner *offset_ptr += src_pos - src;
890666cc0b2SZachary Turner }
891666cc0b2SZachary Turner return bytes_consumed;
892666cc0b2SZachary Turner }
893666cc0b2SZachary Turner
894666cc0b2SZachary Turner // Dumps bytes from this object's data to the stream "s" starting
89505097246SAdrian Prantl // "start_offset" bytes into this data, and ending with the byte before
89605097246SAdrian Prantl // "end_offset". "base_addr" will be added to the offset into the dumped data
89705097246SAdrian Prantl // when showing the offset into the data in the output information.
89805097246SAdrian Prantl // "num_per_line" objects of type "type" will be dumped with the option to
89905097246SAdrian Prantl // override the format for each object with "type_format". "type_format" is a
90005097246SAdrian Prantl // printf style formatting string. If "type_format" is nullptr, then an
90105097246SAdrian Prantl // appropriate format string will be used for the supplied "type". If the
90205097246SAdrian Prantl // stream "s" is nullptr, then the output will be send to Log().
PutToLog(Log * log,offset_t start_offset,offset_t length,uint64_t base_addr,uint32_t num_per_line,DataExtractor::Type type) const903666cc0b2SZachary Turner lldb::offset_t DataExtractor::PutToLog(Log *log, offset_t start_offset,
904666cc0b2SZachary Turner offset_t length, uint64_t base_addr,
905666cc0b2SZachary Turner uint32_t num_per_line,
906b6e2cf32SRaphael Isemann DataExtractor::Type type) const {
907666cc0b2SZachary Turner if (log == nullptr)
908666cc0b2SZachary Turner return start_offset;
909666cc0b2SZachary Turner
910666cc0b2SZachary Turner offset_t offset;
911666cc0b2SZachary Turner offset_t end_offset;
912666cc0b2SZachary Turner uint32_t count;
913666cc0b2SZachary Turner StreamString sstr;
914666cc0b2SZachary Turner for (offset = start_offset, end_offset = offset + length, count = 0;
915666cc0b2SZachary Turner ValidOffset(offset) && offset < end_offset; ++count) {
916666cc0b2SZachary Turner if ((count % num_per_line) == 0) {
917666cc0b2SZachary Turner // Print out any previous string
918666cc0b2SZachary Turner if (sstr.GetSize() > 0) {
919666cc0b2SZachary Turner log->PutString(sstr.GetString());
920666cc0b2SZachary Turner sstr.Clear();
921666cc0b2SZachary Turner }
922666cc0b2SZachary Turner // Reset string offset and fill the current line string with address:
923666cc0b2SZachary Turner if (base_addr != LLDB_INVALID_ADDRESS)
924666cc0b2SZachary Turner sstr.Printf("0x%8.8" PRIx64 ":",
92524374aefSJonas Devlieghere static_cast<uint64_t>(base_addr + (offset - start_offset)));
926666cc0b2SZachary Turner }
927666cc0b2SZachary Turner
928666cc0b2SZachary Turner switch (type) {
929666cc0b2SZachary Turner case TypeUInt8:
930b6e2cf32SRaphael Isemann sstr.Printf(" %2.2x", GetU8(&offset));
931666cc0b2SZachary Turner break;
932666cc0b2SZachary Turner case TypeChar: {
933666cc0b2SZachary Turner char ch = GetU8(&offset);
934f5eaa2afSRaphael Isemann sstr.Printf(" %c", llvm::isPrint(ch) ? ch : ' ');
935666cc0b2SZachary Turner } break;
936666cc0b2SZachary Turner case TypeUInt16:
937b6e2cf32SRaphael Isemann sstr.Printf(" %4.4x", GetU16(&offset));
938666cc0b2SZachary Turner break;
939666cc0b2SZachary Turner case TypeUInt32:
940b6e2cf32SRaphael Isemann sstr.Printf(" %8.8x", GetU32(&offset));
941666cc0b2SZachary Turner break;
942666cc0b2SZachary Turner case TypeUInt64:
943b6e2cf32SRaphael Isemann sstr.Printf(" %16.16" PRIx64, GetU64(&offset));
944666cc0b2SZachary Turner break;
945666cc0b2SZachary Turner case TypePointer:
946b6e2cf32SRaphael Isemann sstr.Printf(" 0x%" PRIx64, GetAddress(&offset));
947666cc0b2SZachary Turner break;
948666cc0b2SZachary Turner case TypeULEB128:
949b6e2cf32SRaphael Isemann sstr.Printf(" 0x%" PRIx64, GetULEB128(&offset));
950666cc0b2SZachary Turner break;
951666cc0b2SZachary Turner case TypeSLEB128:
952b6e2cf32SRaphael Isemann sstr.Printf(" %" PRId64, GetSLEB128(&offset));
953666cc0b2SZachary Turner break;
954666cc0b2SZachary Turner }
955666cc0b2SZachary Turner }
956666cc0b2SZachary Turner
957666cc0b2SZachary Turner if (!sstr.Empty())
958666cc0b2SZachary Turner log->PutString(sstr.GetString());
959666cc0b2SZachary Turner
960666cc0b2SZachary Turner return offset; // Return the offset at which we ended up
961666cc0b2SZachary Turner }
962666cc0b2SZachary Turner
Copy(DataExtractor & dest_data) const963666cc0b2SZachary Turner size_t DataExtractor::Copy(DataExtractor &dest_data) const {
964666cc0b2SZachary Turner if (m_data_sp) {
965666cc0b2SZachary Turner // we can pass along the SP to the data
966666cc0b2SZachary Turner dest_data.SetData(m_data_sp);
967666cc0b2SZachary Turner } else {
968666cc0b2SZachary Turner const uint8_t *base_ptr = m_start;
969666cc0b2SZachary Turner size_t data_size = GetByteSize();
970666cc0b2SZachary Turner dest_data.SetData(DataBufferSP(new DataBufferHeap(base_ptr, data_size)));
971666cc0b2SZachary Turner }
972666cc0b2SZachary Turner return GetByteSize();
973666cc0b2SZachary Turner }
974666cc0b2SZachary Turner
Append(DataExtractor & rhs)975666cc0b2SZachary Turner bool DataExtractor::Append(DataExtractor &rhs) {
976666cc0b2SZachary Turner if (rhs.GetByteOrder() != GetByteOrder())
977666cc0b2SZachary Turner return false;
978666cc0b2SZachary Turner
979666cc0b2SZachary Turner if (rhs.GetByteSize() == 0)
980666cc0b2SZachary Turner return true;
981666cc0b2SZachary Turner
982666cc0b2SZachary Turner if (GetByteSize() == 0)
983666cc0b2SZachary Turner return (rhs.Copy(*this) > 0);
984666cc0b2SZachary Turner
985666cc0b2SZachary Turner size_t bytes = GetByteSize() + rhs.GetByteSize();
986666cc0b2SZachary Turner
987666cc0b2SZachary Turner DataBufferHeap *buffer_heap_ptr = nullptr;
988666cc0b2SZachary Turner DataBufferSP buffer_sp(buffer_heap_ptr = new DataBufferHeap(bytes, 0));
989666cc0b2SZachary Turner
990666cc0b2SZachary Turner if (!buffer_sp || buffer_heap_ptr == nullptr)
991666cc0b2SZachary Turner return false;
992666cc0b2SZachary Turner
993666cc0b2SZachary Turner uint8_t *bytes_ptr = buffer_heap_ptr->GetBytes();
994666cc0b2SZachary Turner
995666cc0b2SZachary Turner memcpy(bytes_ptr, GetDataStart(), GetByteSize());
996666cc0b2SZachary Turner memcpy(bytes_ptr + GetByteSize(), rhs.GetDataStart(), rhs.GetByteSize());
997666cc0b2SZachary Turner
998666cc0b2SZachary Turner SetData(buffer_sp);
999666cc0b2SZachary Turner
1000666cc0b2SZachary Turner return true;
1001666cc0b2SZachary Turner }
1002666cc0b2SZachary Turner
Append(void * buf,offset_t length)1003666cc0b2SZachary Turner bool DataExtractor::Append(void *buf, offset_t length) {
1004666cc0b2SZachary Turner if (buf == nullptr)
1005666cc0b2SZachary Turner return false;
1006666cc0b2SZachary Turner
1007666cc0b2SZachary Turner if (length == 0)
1008666cc0b2SZachary Turner return true;
1009666cc0b2SZachary Turner
1010666cc0b2SZachary Turner size_t bytes = GetByteSize() + length;
1011666cc0b2SZachary Turner
1012666cc0b2SZachary Turner DataBufferHeap *buffer_heap_ptr = nullptr;
1013666cc0b2SZachary Turner DataBufferSP buffer_sp(buffer_heap_ptr = new DataBufferHeap(bytes, 0));
1014666cc0b2SZachary Turner
1015666cc0b2SZachary Turner if (!buffer_sp || buffer_heap_ptr == nullptr)
1016666cc0b2SZachary Turner return false;
1017666cc0b2SZachary Turner
1018666cc0b2SZachary Turner uint8_t *bytes_ptr = buffer_heap_ptr->GetBytes();
1019666cc0b2SZachary Turner
1020666cc0b2SZachary Turner if (GetByteSize() > 0)
1021666cc0b2SZachary Turner memcpy(bytes_ptr, GetDataStart(), GetByteSize());
1022666cc0b2SZachary Turner
1023666cc0b2SZachary Turner memcpy(bytes_ptr + GetByteSize(), buf, length);
1024666cc0b2SZachary Turner
1025666cc0b2SZachary Turner SetData(buffer_sp);
1026666cc0b2SZachary Turner
1027666cc0b2SZachary Turner return true;
1028666cc0b2SZachary Turner }
1029666cc0b2SZachary Turner
Checksum(llvm::SmallVectorImpl<uint8_t> & dest,uint64_t max_data)1030666cc0b2SZachary Turner void DataExtractor::Checksum(llvm::SmallVectorImpl<uint8_t> &dest,
1031666cc0b2SZachary Turner uint64_t max_data) {
1032666cc0b2SZachary Turner if (max_data == 0)
1033666cc0b2SZachary Turner max_data = GetByteSize();
1034666cc0b2SZachary Turner else
1035666cc0b2SZachary Turner max_data = std::min(max_data, GetByteSize());
1036666cc0b2SZachary Turner
1037666cc0b2SZachary Turner llvm::MD5 md5;
1038666cc0b2SZachary Turner
1039666cc0b2SZachary Turner const llvm::ArrayRef<uint8_t> data(GetDataStart(), max_data);
1040666cc0b2SZachary Turner md5.update(data);
1041666cc0b2SZachary Turner
1042666cc0b2SZachary Turner llvm::MD5::MD5Result result;
1043666cc0b2SZachary Turner md5.final(result);
1044666cc0b2SZachary Turner
104582a0c97bSZachary Turner dest.clear();
10460cf21a7eSArgyrios Kyrtzidis dest.append(result.begin(), result.end());
1047666cc0b2SZachary Turner }
1048