1f678e45dSDimitry Andric //===-- DataExtractor.cpp ---------------------------------------*- C++ -*-===//
2f678e45dSDimitry Andric //
3f678e45dSDimitry Andric // The LLVM Compiler Infrastructure
4f678e45dSDimitry Andric //
5f678e45dSDimitry Andric // This file is distributed under the University of Illinois Open Source
6f678e45dSDimitry Andric // License. See LICENSE.TXT for details.
7f678e45dSDimitry Andric //
8f678e45dSDimitry Andric //===----------------------------------------------------------------------===//
9f678e45dSDimitry Andric
10f678e45dSDimitry Andric #include "lldb/Utility/DataExtractor.h"
11f678e45dSDimitry Andric
12*b5893f02SDimitry Andric #include "lldb/lldb-defines.h"
13*b5893f02SDimitry Andric #include "lldb/lldb-enumerations.h"
14*b5893f02SDimitry Andric #include "lldb/lldb-forward.h"
15*b5893f02SDimitry Andric #include "lldb/lldb-types.h"
16f678e45dSDimitry Andric
17f678e45dSDimitry Andric #include "lldb/Utility/DataBuffer.h"
18f678e45dSDimitry Andric #include "lldb/Utility/DataBufferHeap.h"
19f678e45dSDimitry Andric #include "lldb/Utility/Endian.h"
20acac075bSDimitry Andric #include "lldb/Utility/LLDBAssert.h"
21f678e45dSDimitry Andric #include "lldb/Utility/Log.h"
22f678e45dSDimitry Andric #include "lldb/Utility/Stream.h"
23f678e45dSDimitry Andric #include "lldb/Utility/StreamString.h"
24f678e45dSDimitry Andric #include "lldb/Utility/UUID.h"
25f678e45dSDimitry Andric
26f678e45dSDimitry Andric #include "llvm/ADT/ArrayRef.h"
27f678e45dSDimitry Andric #include "llvm/ADT/SmallVector.h"
28f678e45dSDimitry Andric #include "llvm/Support/MD5.h"
29f678e45dSDimitry Andric #include "llvm/Support/MathExtras.h"
30f678e45dSDimitry Andric
31*b5893f02SDimitry Andric #include <algorithm>
32*b5893f02SDimitry Andric #include <array>
33f678e45dSDimitry Andric #include <cassert>
34*b5893f02SDimitry Andric #include <cstdint>
35f678e45dSDimitry Andric #include <string>
36f678e45dSDimitry Andric
37*b5893f02SDimitry Andric #include <ctype.h>
38*b5893f02SDimitry Andric #include <inttypes.h>
39*b5893f02SDimitry Andric #include <string.h>
40f678e45dSDimitry Andric
41f678e45dSDimitry Andric using namespace lldb;
42f678e45dSDimitry Andric using namespace lldb_private;
43f678e45dSDimitry Andric
ReadInt16(const unsigned char * ptr,offset_t offset)44f678e45dSDimitry Andric static inline uint16_t ReadInt16(const unsigned char *ptr, offset_t offset) {
45f678e45dSDimitry Andric uint16_t value;
46f678e45dSDimitry Andric memcpy(&value, ptr + offset, 2);
47f678e45dSDimitry Andric return value;
48f678e45dSDimitry Andric }
49f678e45dSDimitry Andric
ReadInt32(const unsigned char * ptr,offset_t offset=0)50f678e45dSDimitry Andric static inline uint32_t ReadInt32(const unsigned char *ptr,
51f678e45dSDimitry Andric offset_t offset = 0) {
52f678e45dSDimitry Andric uint32_t value;
53f678e45dSDimitry Andric memcpy(&value, ptr + offset, 4);
54f678e45dSDimitry Andric return value;
55f678e45dSDimitry Andric }
56f678e45dSDimitry Andric
ReadInt64(const unsigned char * ptr,offset_t offset=0)57f678e45dSDimitry Andric static inline uint64_t ReadInt64(const unsigned char *ptr,
58f678e45dSDimitry Andric offset_t offset = 0) {
59f678e45dSDimitry Andric uint64_t value;
60f678e45dSDimitry Andric memcpy(&value, ptr + offset, 8);
61f678e45dSDimitry Andric return value;
62f678e45dSDimitry Andric }
63f678e45dSDimitry Andric
ReadInt16(const void * ptr)64f678e45dSDimitry Andric static inline uint16_t ReadInt16(const void *ptr) {
65f678e45dSDimitry Andric uint16_t value;
66f678e45dSDimitry Andric memcpy(&value, ptr, 2);
67f678e45dSDimitry Andric return value;
68f678e45dSDimitry Andric }
69f678e45dSDimitry Andric
ReadSwapInt16(const unsigned char * ptr,offset_t offset)70f678e45dSDimitry Andric static inline uint16_t ReadSwapInt16(const unsigned char *ptr,
71f678e45dSDimitry Andric offset_t offset) {
72f678e45dSDimitry Andric uint16_t value;
73f678e45dSDimitry Andric memcpy(&value, ptr + offset, 2);
74f678e45dSDimitry Andric return llvm::ByteSwap_16(value);
75f678e45dSDimitry Andric }
76f678e45dSDimitry Andric
ReadSwapInt32(const unsigned char * ptr,offset_t offset)77f678e45dSDimitry Andric static inline uint32_t ReadSwapInt32(const unsigned char *ptr,
78f678e45dSDimitry Andric offset_t offset) {
79f678e45dSDimitry Andric uint32_t value;
80f678e45dSDimitry Andric memcpy(&value, ptr + offset, 4);
81f678e45dSDimitry Andric return llvm::ByteSwap_32(value);
82f678e45dSDimitry Andric }
83f678e45dSDimitry Andric
ReadSwapInt64(const unsigned char * ptr,offset_t offset)84f678e45dSDimitry Andric static inline uint64_t ReadSwapInt64(const unsigned char *ptr,
85f678e45dSDimitry Andric offset_t offset) {
86f678e45dSDimitry Andric uint64_t value;
87f678e45dSDimitry Andric memcpy(&value, ptr + offset, 8);
88f678e45dSDimitry Andric return llvm::ByteSwap_64(value);
89f678e45dSDimitry Andric }
90f678e45dSDimitry Andric
ReadSwapInt16(const void * ptr)91f678e45dSDimitry Andric static inline uint16_t ReadSwapInt16(const void *ptr) {
92f678e45dSDimitry Andric uint16_t value;
93f678e45dSDimitry Andric memcpy(&value, ptr, 2);
94f678e45dSDimitry Andric return llvm::ByteSwap_16(value);
95f678e45dSDimitry Andric }
96f678e45dSDimitry Andric
ReadSwapInt32(const void * ptr)97f678e45dSDimitry Andric static inline uint32_t ReadSwapInt32(const void *ptr) {
98f678e45dSDimitry Andric uint32_t value;
99f678e45dSDimitry Andric memcpy(&value, ptr, 4);
100f678e45dSDimitry Andric return llvm::ByteSwap_32(value);
101f678e45dSDimitry Andric }
102f678e45dSDimitry Andric
ReadSwapInt64(const void * ptr)103f678e45dSDimitry Andric static inline uint64_t ReadSwapInt64(const void *ptr) {
104f678e45dSDimitry Andric uint64_t value;
105f678e45dSDimitry Andric memcpy(&value, ptr, 8);
106f678e45dSDimitry Andric return llvm::ByteSwap_64(value);
107f678e45dSDimitry Andric }
108f678e45dSDimitry Andric
ReadMaxInt64(const uint8_t * data,size_t byte_size,ByteOrder byte_order)109acac075bSDimitry Andric static inline uint64_t ReadMaxInt64(const uint8_t *data, size_t byte_size,
110acac075bSDimitry Andric ByteOrder byte_order) {
111acac075bSDimitry Andric uint64_t res = 0;
112acac075bSDimitry Andric if (byte_order == eByteOrderBig)
113acac075bSDimitry Andric for (size_t i = 0; i < byte_size; ++i)
114acac075bSDimitry Andric res = (res << 8) | data[i];
115acac075bSDimitry Andric else {
116acac075bSDimitry Andric assert(byte_order == eByteOrderLittle);
117acac075bSDimitry Andric for (size_t i = 0; i < byte_size; ++i)
118acac075bSDimitry Andric res = (res << 8) | data[byte_size - 1 - i];
119acac075bSDimitry Andric }
120acac075bSDimitry Andric return res;
121acac075bSDimitry Andric }
122acac075bSDimitry Andric
DataExtractor()123f678e45dSDimitry Andric DataExtractor::DataExtractor()
124f678e45dSDimitry Andric : m_start(nullptr), m_end(nullptr),
125f678e45dSDimitry Andric m_byte_order(endian::InlHostByteOrder()), m_addr_size(sizeof(void *)),
126f678e45dSDimitry Andric m_data_sp(), m_target_byte_size(1) {}
127f678e45dSDimitry Andric
128f678e45dSDimitry Andric //----------------------------------------------------------------------
1294ba319b5SDimitry Andric // This constructor allows us to use data that is owned by someone else. The
1304ba319b5SDimitry Andric // data must stay around as long as this object is valid.
131f678e45dSDimitry Andric //----------------------------------------------------------------------
DataExtractor(const void * data,offset_t length,ByteOrder endian,uint32_t addr_size,uint32_t target_byte_size)132f678e45dSDimitry Andric DataExtractor::DataExtractor(const void *data, offset_t length,
133f678e45dSDimitry Andric ByteOrder endian, uint32_t addr_size,
134f678e45dSDimitry Andric uint32_t target_byte_size /*=1*/)
135f678e45dSDimitry Andric : m_start(const_cast<uint8_t *>(reinterpret_cast<const uint8_t *>(data))),
136f678e45dSDimitry Andric m_end(const_cast<uint8_t *>(reinterpret_cast<const uint8_t *>(data)) +
137f678e45dSDimitry Andric length),
138f678e45dSDimitry Andric m_byte_order(endian), m_addr_size(addr_size), m_data_sp(),
139f678e45dSDimitry Andric m_target_byte_size(target_byte_size) {
140f678e45dSDimitry Andric #ifdef LLDB_CONFIGURATION_DEBUG
141f678e45dSDimitry Andric assert(addr_size == 4 || addr_size == 8);
142f678e45dSDimitry Andric #endif
143f678e45dSDimitry Andric }
144f678e45dSDimitry Andric
145f678e45dSDimitry Andric //----------------------------------------------------------------------
1464ba319b5SDimitry Andric // Make a shared pointer reference to the shared data in "data_sp" and set the
1474ba319b5SDimitry Andric // endian swapping setting to "swap", and the address size to "addr_size". The
1484ba319b5SDimitry Andric // shared data reference will ensure the data lives as long as any
1494ba319b5SDimitry Andric // DataExtractor objects exist that have a reference to this data.
150f678e45dSDimitry Andric //----------------------------------------------------------------------
DataExtractor(const DataBufferSP & data_sp,ByteOrder endian,uint32_t addr_size,uint32_t target_byte_size)151f678e45dSDimitry Andric DataExtractor::DataExtractor(const DataBufferSP &data_sp, ByteOrder endian,
152f678e45dSDimitry Andric uint32_t addr_size,
153f678e45dSDimitry Andric uint32_t target_byte_size /*=1*/)
154f678e45dSDimitry Andric : m_start(nullptr), m_end(nullptr), m_byte_order(endian),
155f678e45dSDimitry Andric m_addr_size(addr_size), m_data_sp(),
156f678e45dSDimitry Andric m_target_byte_size(target_byte_size) {
157f678e45dSDimitry Andric #ifdef LLDB_CONFIGURATION_DEBUG
158f678e45dSDimitry Andric assert(addr_size == 4 || addr_size == 8);
159f678e45dSDimitry Andric #endif
160f678e45dSDimitry Andric SetData(data_sp);
161f678e45dSDimitry Andric }
162f678e45dSDimitry Andric
163f678e45dSDimitry Andric //----------------------------------------------------------------------
1644ba319b5SDimitry Andric // Initialize this object with a subset of the data bytes in "data". If "data"
1654ba319b5SDimitry Andric // contains shared data, then a reference to this shared data will added and
1664ba319b5SDimitry Andric // the shared data will stay around as long as any object contains a reference
1674ba319b5SDimitry Andric // to that data. The endian swap and address size settings are copied from
1684ba319b5SDimitry Andric // "data".
169f678e45dSDimitry Andric //----------------------------------------------------------------------
DataExtractor(const DataExtractor & data,offset_t offset,offset_t length,uint32_t target_byte_size)170f678e45dSDimitry Andric DataExtractor::DataExtractor(const DataExtractor &data, offset_t offset,
171f678e45dSDimitry Andric offset_t length, uint32_t target_byte_size /*=1*/)
172f678e45dSDimitry Andric : m_start(nullptr), m_end(nullptr), m_byte_order(data.m_byte_order),
173f678e45dSDimitry Andric m_addr_size(data.m_addr_size), m_data_sp(),
174f678e45dSDimitry Andric m_target_byte_size(target_byte_size) {
175f678e45dSDimitry Andric #ifdef LLDB_CONFIGURATION_DEBUG
176f678e45dSDimitry Andric assert(m_addr_size == 4 || m_addr_size == 8);
177f678e45dSDimitry Andric #endif
178f678e45dSDimitry Andric if (data.ValidOffset(offset)) {
179f678e45dSDimitry Andric offset_t bytes_available = data.GetByteSize() - offset;
180f678e45dSDimitry Andric if (length > bytes_available)
181f678e45dSDimitry Andric length = bytes_available;
182f678e45dSDimitry Andric SetData(data, offset, length);
183f678e45dSDimitry Andric }
184f678e45dSDimitry Andric }
185f678e45dSDimitry Andric
DataExtractor(const DataExtractor & rhs)186f678e45dSDimitry Andric DataExtractor::DataExtractor(const DataExtractor &rhs)
187f678e45dSDimitry Andric : m_start(rhs.m_start), m_end(rhs.m_end), m_byte_order(rhs.m_byte_order),
188f678e45dSDimitry Andric m_addr_size(rhs.m_addr_size), m_data_sp(rhs.m_data_sp),
189f678e45dSDimitry Andric m_target_byte_size(rhs.m_target_byte_size) {
190f678e45dSDimitry Andric #ifdef LLDB_CONFIGURATION_DEBUG
191f678e45dSDimitry Andric assert(m_addr_size == 4 || m_addr_size == 8);
192f678e45dSDimitry Andric #endif
193f678e45dSDimitry Andric }
194f678e45dSDimitry Andric
195f678e45dSDimitry Andric //----------------------------------------------------------------------
196f678e45dSDimitry Andric // Assignment operator
197f678e45dSDimitry Andric //----------------------------------------------------------------------
operator =(const DataExtractor & rhs)198f678e45dSDimitry Andric const DataExtractor &DataExtractor::operator=(const DataExtractor &rhs) {
199f678e45dSDimitry Andric if (this != &rhs) {
200f678e45dSDimitry Andric m_start = rhs.m_start;
201f678e45dSDimitry Andric m_end = rhs.m_end;
202f678e45dSDimitry Andric m_byte_order = rhs.m_byte_order;
203f678e45dSDimitry Andric m_addr_size = rhs.m_addr_size;
204f678e45dSDimitry Andric m_data_sp = rhs.m_data_sp;
205f678e45dSDimitry Andric }
206f678e45dSDimitry Andric return *this;
207f678e45dSDimitry Andric }
208f678e45dSDimitry Andric
209f678e45dSDimitry Andric DataExtractor::~DataExtractor() = default;
210f678e45dSDimitry Andric
211f678e45dSDimitry Andric //------------------------------------------------------------------
2124ba319b5SDimitry Andric // Clears the object contents back to a default invalid state, and release any
2134ba319b5SDimitry Andric // references to shared data that this object may contain.
214f678e45dSDimitry Andric //------------------------------------------------------------------
Clear()215f678e45dSDimitry Andric void DataExtractor::Clear() {
216f678e45dSDimitry Andric m_start = nullptr;
217f678e45dSDimitry Andric m_end = nullptr;
218f678e45dSDimitry Andric m_byte_order = endian::InlHostByteOrder();
219f678e45dSDimitry Andric m_addr_size = sizeof(void *);
220f678e45dSDimitry Andric m_data_sp.reset();
221f678e45dSDimitry Andric }
222f678e45dSDimitry Andric
223f678e45dSDimitry Andric //------------------------------------------------------------------
2244ba319b5SDimitry Andric // If this object contains shared data, this function returns the offset into
2254ba319b5SDimitry Andric // that shared data. Else zero is returned.
226f678e45dSDimitry Andric //------------------------------------------------------------------
GetSharedDataOffset() const227f678e45dSDimitry Andric size_t DataExtractor::GetSharedDataOffset() const {
228f678e45dSDimitry Andric if (m_start != nullptr) {
229f678e45dSDimitry Andric const DataBuffer *data = m_data_sp.get();
230f678e45dSDimitry Andric if (data != nullptr) {
231f678e45dSDimitry Andric const uint8_t *data_bytes = data->GetBytes();
232f678e45dSDimitry Andric if (data_bytes != nullptr) {
233f678e45dSDimitry Andric assert(m_start >= data_bytes);
234f678e45dSDimitry Andric return m_start - data_bytes;
235f678e45dSDimitry Andric }
236f678e45dSDimitry Andric }
237f678e45dSDimitry Andric }
238f678e45dSDimitry Andric return 0;
239f678e45dSDimitry Andric }
240f678e45dSDimitry Andric
241f678e45dSDimitry Andric //----------------------------------------------------------------------
2424ba319b5SDimitry Andric // Set the data with which this object will extract from to data starting at
2434ba319b5SDimitry Andric // BYTES and set the length of the data to LENGTH bytes long. The data is
2444ba319b5SDimitry Andric // externally owned must be around at least as long as this object points to
2454ba319b5SDimitry Andric // the data. No copy of the data is made, this object just refers to this data
2464ba319b5SDimitry Andric // and can extract from it. If this object refers to any shared data upon
2474ba319b5SDimitry Andric // entry, the reference to that data will be released. Is SWAP is set to true,
248f678e45dSDimitry Andric // any data extracted will be endian swapped.
249f678e45dSDimitry Andric //----------------------------------------------------------------------
SetData(const void * bytes,offset_t length,ByteOrder endian)250f678e45dSDimitry Andric lldb::offset_t DataExtractor::SetData(const void *bytes, offset_t length,
251f678e45dSDimitry Andric ByteOrder endian) {
252f678e45dSDimitry Andric m_byte_order = endian;
253f678e45dSDimitry Andric m_data_sp.reset();
254f678e45dSDimitry Andric if (bytes == nullptr || length == 0) {
255f678e45dSDimitry Andric m_start = nullptr;
256f678e45dSDimitry Andric m_end = nullptr;
257f678e45dSDimitry Andric } else {
258f678e45dSDimitry Andric m_start = const_cast<uint8_t *>(reinterpret_cast<const uint8_t *>(bytes));
259f678e45dSDimitry Andric m_end = m_start + length;
260f678e45dSDimitry Andric }
261f678e45dSDimitry Andric return GetByteSize();
262f678e45dSDimitry Andric }
263f678e45dSDimitry Andric
264f678e45dSDimitry Andric //----------------------------------------------------------------------
2654ba319b5SDimitry Andric // Assign the data for this object to be a subrange in "data" starting
2664ba319b5SDimitry Andric // "data_offset" bytes into "data" and ending "data_length" bytes later. If
2674ba319b5SDimitry Andric // "data_offset" is not a valid offset into "data", then this object will
2684ba319b5SDimitry Andric // contain no bytes. If "data_offset" is within "data" yet "data_length" is too
2694ba319b5SDimitry Andric // large, the length will be capped at the number of bytes remaining in "data".
2704ba319b5SDimitry Andric // If "data" contains a shared pointer to other data, then a ref counted
2714ba319b5SDimitry Andric // pointer to that data will be made in this object. If "data" doesn't contain
2724ba319b5SDimitry Andric // a shared pointer to data, then the bytes referred to in "data" will need to
2734ba319b5SDimitry Andric // exist at least as long as this object refers to those bytes. The address
2744ba319b5SDimitry Andric // size and endian swap settings are copied from the current values in "data".
275f678e45dSDimitry Andric //----------------------------------------------------------------------
SetData(const DataExtractor & data,offset_t data_offset,offset_t data_length)276f678e45dSDimitry Andric lldb::offset_t DataExtractor::SetData(const DataExtractor &data,
277f678e45dSDimitry Andric offset_t data_offset,
278f678e45dSDimitry Andric offset_t data_length) {
279f678e45dSDimitry Andric m_addr_size = data.m_addr_size;
280f678e45dSDimitry Andric #ifdef LLDB_CONFIGURATION_DEBUG
281f678e45dSDimitry Andric assert(m_addr_size == 4 || m_addr_size == 8);
282f678e45dSDimitry Andric #endif
283f678e45dSDimitry Andric // If "data" contains shared pointer to data, then we can use that
284f678e45dSDimitry Andric if (data.m_data_sp) {
285f678e45dSDimitry Andric m_byte_order = data.m_byte_order;
286f678e45dSDimitry Andric return SetData(data.m_data_sp, data.GetSharedDataOffset() + data_offset,
287f678e45dSDimitry Andric data_length);
288f678e45dSDimitry Andric }
289f678e45dSDimitry Andric
290f678e45dSDimitry Andric // We have a DataExtractor object that just has a pointer to bytes
291f678e45dSDimitry Andric if (data.ValidOffset(data_offset)) {
292f678e45dSDimitry Andric if (data_length > data.GetByteSize() - data_offset)
293f678e45dSDimitry Andric data_length = data.GetByteSize() - data_offset;
294f678e45dSDimitry Andric return SetData(data.GetDataStart() + data_offset, data_length,
295f678e45dSDimitry Andric data.GetByteOrder());
296f678e45dSDimitry Andric }
297f678e45dSDimitry Andric return 0;
298f678e45dSDimitry Andric }
299f678e45dSDimitry Andric
300f678e45dSDimitry Andric //----------------------------------------------------------------------
3014ba319b5SDimitry Andric // Assign the data for this object to be a subrange of the shared data in
3024ba319b5SDimitry Andric // "data_sp" starting "data_offset" bytes into "data_sp" and ending
3034ba319b5SDimitry Andric // "data_length" bytes later. If "data_offset" is not a valid offset into
3044ba319b5SDimitry Andric // "data_sp", then this object will contain no bytes. If "data_offset" is
3054ba319b5SDimitry Andric // within "data_sp" yet "data_length" is too large, the length will be capped
3064ba319b5SDimitry Andric // at the number of bytes remaining in "data_sp". A ref counted pointer to the
3074ba319b5SDimitry Andric // data in "data_sp" will be made in this object IF the number of bytes this
3084ba319b5SDimitry Andric // object refers to in greater than zero (if at least one byte was available
3094ba319b5SDimitry Andric // starting at "data_offset") to ensure the data stays around as long as it is
3104ba319b5SDimitry Andric // needed. The address size and endian swap settings will remain unchanged from
3114ba319b5SDimitry Andric // their current settings.
312f678e45dSDimitry Andric //----------------------------------------------------------------------
SetData(const DataBufferSP & data_sp,offset_t data_offset,offset_t data_length)313f678e45dSDimitry Andric lldb::offset_t DataExtractor::SetData(const DataBufferSP &data_sp,
314f678e45dSDimitry Andric offset_t data_offset,
315f678e45dSDimitry Andric offset_t data_length) {
316f678e45dSDimitry Andric m_start = m_end = nullptr;
317f678e45dSDimitry Andric
318f678e45dSDimitry Andric if (data_length > 0) {
319f678e45dSDimitry Andric m_data_sp = data_sp;
320f678e45dSDimitry Andric if (data_sp) {
321f678e45dSDimitry Andric const size_t data_size = data_sp->GetByteSize();
322f678e45dSDimitry Andric if (data_offset < data_size) {
323f678e45dSDimitry Andric m_start = data_sp->GetBytes() + data_offset;
324f678e45dSDimitry Andric const size_t bytes_left = data_size - data_offset;
325f678e45dSDimitry Andric // Cap the length of we asked for too many
326f678e45dSDimitry Andric if (data_length <= bytes_left)
327f678e45dSDimitry Andric m_end = m_start + data_length; // We got all the bytes we wanted
328f678e45dSDimitry Andric else
329f678e45dSDimitry Andric m_end = m_start + bytes_left; // Not all the bytes requested were
330f678e45dSDimitry Andric // available in the shared data
331f678e45dSDimitry Andric }
332f678e45dSDimitry Andric }
333f678e45dSDimitry Andric }
334f678e45dSDimitry Andric
335f678e45dSDimitry Andric size_t new_size = GetByteSize();
336f678e45dSDimitry Andric
3374ba319b5SDimitry Andric // Don't hold a shared pointer to the data buffer if we don't share any valid
3384ba319b5SDimitry Andric // bytes in the shared buffer.
339f678e45dSDimitry Andric if (new_size == 0)
340f678e45dSDimitry Andric m_data_sp.reset();
341f678e45dSDimitry Andric
342f678e45dSDimitry Andric return new_size;
343f678e45dSDimitry Andric }
344f678e45dSDimitry Andric
345f678e45dSDimitry Andric //----------------------------------------------------------------------
3464ba319b5SDimitry Andric // Extract a single unsigned char from the binary data and update the offset
3474ba319b5SDimitry Andric // pointed to by "offset_ptr".
348f678e45dSDimitry Andric //
349f678e45dSDimitry Andric // RETURNS the byte that was extracted, or zero on failure.
350f678e45dSDimitry Andric //----------------------------------------------------------------------
GetU8(offset_t * offset_ptr) const351f678e45dSDimitry Andric uint8_t DataExtractor::GetU8(offset_t *offset_ptr) const {
352f678e45dSDimitry Andric const uint8_t *data = (const uint8_t *)GetData(offset_ptr, 1);
353f678e45dSDimitry Andric if (data)
354f678e45dSDimitry Andric return *data;
355f678e45dSDimitry Andric return 0;
356f678e45dSDimitry Andric }
357f678e45dSDimitry Andric
358f678e45dSDimitry Andric //----------------------------------------------------------------------
3594ba319b5SDimitry Andric // Extract "count" unsigned chars from the binary data and update the offset
3604ba319b5SDimitry Andric // pointed to by "offset_ptr". The extracted data is copied into "dst".
361f678e45dSDimitry Andric //
362f678e45dSDimitry Andric // RETURNS the non-nullptr buffer pointer upon successful extraction of
3634ba319b5SDimitry Andric // all the requested bytes, or nullptr when the data is not available in the
3644ba319b5SDimitry Andric // buffer due to being out of bounds, or insufficient data.
365f678e45dSDimitry Andric //----------------------------------------------------------------------
GetU8(offset_t * offset_ptr,void * dst,uint32_t count) const366f678e45dSDimitry Andric void *DataExtractor::GetU8(offset_t *offset_ptr, void *dst,
367f678e45dSDimitry Andric uint32_t count) const {
368f678e45dSDimitry Andric const uint8_t *data = (const uint8_t *)GetData(offset_ptr, count);
369f678e45dSDimitry Andric if (data) {
370f678e45dSDimitry Andric // Copy the data into the buffer
371f678e45dSDimitry Andric memcpy(dst, data, count);
372f678e45dSDimitry Andric // Return a non-nullptr pointer to the converted data as an indicator of
373f678e45dSDimitry Andric // success
374f678e45dSDimitry Andric return dst;
375f678e45dSDimitry Andric }
376f678e45dSDimitry Andric return nullptr;
377f678e45dSDimitry Andric }
378f678e45dSDimitry Andric
379f678e45dSDimitry Andric //----------------------------------------------------------------------
3804ba319b5SDimitry Andric // Extract a single uint16_t from the data and update the offset pointed to by
3814ba319b5SDimitry Andric // "offset_ptr".
382f678e45dSDimitry Andric //
383f678e45dSDimitry Andric // RETURNS the uint16_t that was extracted, or zero on failure.
384f678e45dSDimitry Andric //----------------------------------------------------------------------
GetU16(offset_t * offset_ptr) const385f678e45dSDimitry Andric uint16_t DataExtractor::GetU16(offset_t *offset_ptr) const {
386f678e45dSDimitry Andric uint16_t val = 0;
387f678e45dSDimitry Andric const uint8_t *data = (const uint8_t *)GetData(offset_ptr, sizeof(val));
388f678e45dSDimitry Andric if (data) {
389f678e45dSDimitry Andric if (m_byte_order != endian::InlHostByteOrder())
390f678e45dSDimitry Andric val = ReadSwapInt16(data);
391f678e45dSDimitry Andric else
392f678e45dSDimitry Andric val = ReadInt16(data);
393f678e45dSDimitry Andric }
394f678e45dSDimitry Andric return val;
395f678e45dSDimitry Andric }
396f678e45dSDimitry Andric
GetU16_unchecked(offset_t * offset_ptr) const397f678e45dSDimitry Andric uint16_t DataExtractor::GetU16_unchecked(offset_t *offset_ptr) const {
398f678e45dSDimitry Andric uint16_t val;
399f678e45dSDimitry Andric if (m_byte_order == endian::InlHostByteOrder())
400f678e45dSDimitry Andric val = ReadInt16(m_start, *offset_ptr);
401f678e45dSDimitry Andric else
402f678e45dSDimitry Andric val = ReadSwapInt16(m_start, *offset_ptr);
403f678e45dSDimitry Andric *offset_ptr += sizeof(val);
404f678e45dSDimitry Andric return val;
405f678e45dSDimitry Andric }
406f678e45dSDimitry Andric
GetU32_unchecked(offset_t * offset_ptr) const407f678e45dSDimitry Andric uint32_t DataExtractor::GetU32_unchecked(offset_t *offset_ptr) const {
408f678e45dSDimitry Andric uint32_t val;
409f678e45dSDimitry Andric if (m_byte_order == endian::InlHostByteOrder())
410f678e45dSDimitry Andric val = ReadInt32(m_start, *offset_ptr);
411f678e45dSDimitry Andric else
412f678e45dSDimitry Andric val = ReadSwapInt32(m_start, *offset_ptr);
413f678e45dSDimitry Andric *offset_ptr += sizeof(val);
414f678e45dSDimitry Andric return val;
415f678e45dSDimitry Andric }
416f678e45dSDimitry Andric
GetU64_unchecked(offset_t * offset_ptr) const417f678e45dSDimitry Andric uint64_t DataExtractor::GetU64_unchecked(offset_t *offset_ptr) const {
418f678e45dSDimitry Andric uint64_t val;
419f678e45dSDimitry Andric if (m_byte_order == endian::InlHostByteOrder())
420f678e45dSDimitry Andric val = ReadInt64(m_start, *offset_ptr);
421f678e45dSDimitry Andric else
422f678e45dSDimitry Andric val = ReadSwapInt64(m_start, *offset_ptr);
423f678e45dSDimitry Andric *offset_ptr += sizeof(val);
424f678e45dSDimitry Andric return val;
425f678e45dSDimitry Andric }
426f678e45dSDimitry Andric
427f678e45dSDimitry Andric //----------------------------------------------------------------------
4284ba319b5SDimitry Andric // Extract "count" uint16_t values from the binary data and update the offset
4294ba319b5SDimitry Andric // pointed to by "offset_ptr". The extracted data is copied into "dst".
430f678e45dSDimitry Andric //
431f678e45dSDimitry Andric // RETURNS the non-nullptr buffer pointer upon successful extraction of
4324ba319b5SDimitry Andric // all the requested bytes, or nullptr when the data is not available in the
4334ba319b5SDimitry Andric // buffer due to being out of bounds, or insufficient data.
434f678e45dSDimitry Andric //----------------------------------------------------------------------
GetU16(offset_t * offset_ptr,void * void_dst,uint32_t count) const435f678e45dSDimitry Andric void *DataExtractor::GetU16(offset_t *offset_ptr, void *void_dst,
436f678e45dSDimitry Andric uint32_t count) const {
437f678e45dSDimitry Andric const size_t src_size = sizeof(uint16_t) * count;
438f678e45dSDimitry Andric const uint16_t *src = (const uint16_t *)GetData(offset_ptr, src_size);
439f678e45dSDimitry Andric if (src) {
440f678e45dSDimitry Andric if (m_byte_order != endian::InlHostByteOrder()) {
441f678e45dSDimitry Andric uint16_t *dst_pos = (uint16_t *)void_dst;
442f678e45dSDimitry Andric uint16_t *dst_end = dst_pos + count;
443f678e45dSDimitry Andric const uint16_t *src_pos = src;
444f678e45dSDimitry Andric while (dst_pos < dst_end) {
445f678e45dSDimitry Andric *dst_pos = ReadSwapInt16(src_pos);
446f678e45dSDimitry Andric ++dst_pos;
447f678e45dSDimitry Andric ++src_pos;
448f678e45dSDimitry Andric }
449f678e45dSDimitry Andric } else {
450f678e45dSDimitry Andric memcpy(void_dst, src, src_size);
451f678e45dSDimitry Andric }
452f678e45dSDimitry Andric // Return a non-nullptr pointer to the converted data as an indicator of
453f678e45dSDimitry Andric // success
454f678e45dSDimitry Andric return void_dst;
455f678e45dSDimitry Andric }
456f678e45dSDimitry Andric return nullptr;
457f678e45dSDimitry Andric }
458f678e45dSDimitry Andric
459f678e45dSDimitry Andric //----------------------------------------------------------------------
4604ba319b5SDimitry Andric // Extract a single uint32_t from the data and update the offset pointed to by
4614ba319b5SDimitry Andric // "offset_ptr".
462f678e45dSDimitry Andric //
463f678e45dSDimitry Andric // RETURNS the uint32_t that was extracted, or zero on failure.
464f678e45dSDimitry Andric //----------------------------------------------------------------------
GetU32(offset_t * offset_ptr) const465f678e45dSDimitry Andric uint32_t DataExtractor::GetU32(offset_t *offset_ptr) const {
466f678e45dSDimitry Andric uint32_t val = 0;
467f678e45dSDimitry Andric const uint8_t *data = (const uint8_t *)GetData(offset_ptr, sizeof(val));
468f678e45dSDimitry Andric if (data) {
469f678e45dSDimitry Andric if (m_byte_order != endian::InlHostByteOrder()) {
470f678e45dSDimitry Andric val = ReadSwapInt32(data);
471f678e45dSDimitry Andric } else {
472f678e45dSDimitry Andric memcpy(&val, data, 4);
473f678e45dSDimitry Andric }
474f678e45dSDimitry Andric }
475f678e45dSDimitry Andric return val;
476f678e45dSDimitry Andric }
477f678e45dSDimitry Andric
478f678e45dSDimitry Andric //----------------------------------------------------------------------
4794ba319b5SDimitry Andric // Extract "count" uint32_t values from the binary data and update the offset
4804ba319b5SDimitry Andric // pointed to by "offset_ptr". The extracted data is copied into "dst".
481f678e45dSDimitry Andric //
482f678e45dSDimitry Andric // RETURNS the non-nullptr buffer pointer upon successful extraction of
4834ba319b5SDimitry Andric // all the requested bytes, or nullptr when the data is not available in the
4844ba319b5SDimitry Andric // buffer due to being out of bounds, or insufficient data.
485f678e45dSDimitry Andric //----------------------------------------------------------------------
GetU32(offset_t * offset_ptr,void * void_dst,uint32_t count) const486f678e45dSDimitry Andric void *DataExtractor::GetU32(offset_t *offset_ptr, void *void_dst,
487f678e45dSDimitry Andric uint32_t count) const {
488f678e45dSDimitry Andric const size_t src_size = sizeof(uint32_t) * count;
489f678e45dSDimitry Andric const uint32_t *src = (const uint32_t *)GetData(offset_ptr, src_size);
490f678e45dSDimitry Andric if (src) {
491f678e45dSDimitry Andric if (m_byte_order != endian::InlHostByteOrder()) {
492f678e45dSDimitry Andric uint32_t *dst_pos = (uint32_t *)void_dst;
493f678e45dSDimitry Andric uint32_t *dst_end = dst_pos + count;
494f678e45dSDimitry Andric const uint32_t *src_pos = src;
495f678e45dSDimitry Andric while (dst_pos < dst_end) {
496f678e45dSDimitry Andric *dst_pos = ReadSwapInt32(src_pos);
497f678e45dSDimitry Andric ++dst_pos;
498f678e45dSDimitry Andric ++src_pos;
499f678e45dSDimitry Andric }
500f678e45dSDimitry Andric } else {
501f678e45dSDimitry Andric memcpy(void_dst, src, src_size);
502f678e45dSDimitry Andric }
503f678e45dSDimitry Andric // Return a non-nullptr pointer to the converted data as an indicator of
504f678e45dSDimitry Andric // success
505f678e45dSDimitry Andric return void_dst;
506f678e45dSDimitry Andric }
507f678e45dSDimitry Andric return nullptr;
508f678e45dSDimitry Andric }
509f678e45dSDimitry Andric
510f678e45dSDimitry Andric //----------------------------------------------------------------------
5114ba319b5SDimitry Andric // Extract a single uint64_t from the data and update the offset pointed to by
5124ba319b5SDimitry Andric // "offset_ptr".
513f678e45dSDimitry Andric //
514f678e45dSDimitry Andric // RETURNS the uint64_t that was extracted, or zero on failure.
515f678e45dSDimitry Andric //----------------------------------------------------------------------
GetU64(offset_t * offset_ptr) const516f678e45dSDimitry Andric uint64_t DataExtractor::GetU64(offset_t *offset_ptr) const {
517f678e45dSDimitry Andric uint64_t val = 0;
518f678e45dSDimitry Andric const uint8_t *data = (const uint8_t *)GetData(offset_ptr, sizeof(val));
519f678e45dSDimitry Andric if (data) {
520f678e45dSDimitry Andric if (m_byte_order != endian::InlHostByteOrder()) {
521f678e45dSDimitry Andric val = ReadSwapInt64(data);
522f678e45dSDimitry Andric } else {
523f678e45dSDimitry Andric memcpy(&val, data, 8);
524f678e45dSDimitry Andric }
525f678e45dSDimitry Andric }
526f678e45dSDimitry Andric return val;
527f678e45dSDimitry Andric }
528f678e45dSDimitry Andric
529f678e45dSDimitry Andric //----------------------------------------------------------------------
530f678e45dSDimitry Andric // GetU64
531f678e45dSDimitry Andric //
5324ba319b5SDimitry Andric // Get multiple consecutive 64 bit values. Return true if the entire read
5334ba319b5SDimitry Andric // succeeds and increment the offset pointed to by offset_ptr, else return
5344ba319b5SDimitry Andric // false and leave the offset pointed to by offset_ptr unchanged.
535f678e45dSDimitry Andric //----------------------------------------------------------------------
GetU64(offset_t * offset_ptr,void * void_dst,uint32_t count) const536f678e45dSDimitry Andric void *DataExtractor::GetU64(offset_t *offset_ptr, void *void_dst,
537f678e45dSDimitry Andric uint32_t count) const {
538f678e45dSDimitry Andric const size_t src_size = sizeof(uint64_t) * count;
539f678e45dSDimitry Andric const uint64_t *src = (const uint64_t *)GetData(offset_ptr, src_size);
540f678e45dSDimitry Andric if (src) {
541f678e45dSDimitry Andric if (m_byte_order != endian::InlHostByteOrder()) {
542f678e45dSDimitry Andric uint64_t *dst_pos = (uint64_t *)void_dst;
543f678e45dSDimitry Andric uint64_t *dst_end = dst_pos + count;
544f678e45dSDimitry Andric const uint64_t *src_pos = src;
545f678e45dSDimitry Andric while (dst_pos < dst_end) {
546f678e45dSDimitry Andric *dst_pos = ReadSwapInt64(src_pos);
547f678e45dSDimitry Andric ++dst_pos;
548f678e45dSDimitry Andric ++src_pos;
549f678e45dSDimitry Andric }
550f678e45dSDimitry Andric } else {
551f678e45dSDimitry Andric memcpy(void_dst, src, src_size);
552f678e45dSDimitry Andric }
553f678e45dSDimitry Andric // Return a non-nullptr pointer to the converted data as an indicator of
554f678e45dSDimitry Andric // success
555f678e45dSDimitry Andric return void_dst;
556f678e45dSDimitry Andric }
557f678e45dSDimitry Andric return nullptr;
558f678e45dSDimitry Andric }
559f678e45dSDimitry Andric
GetMaxU32(offset_t * offset_ptr,size_t byte_size) const560f678e45dSDimitry Andric uint32_t DataExtractor::GetMaxU32(offset_t *offset_ptr,
561f678e45dSDimitry Andric size_t byte_size) const {
562acac075bSDimitry Andric lldbassert(byte_size > 0 && byte_size <= 4 && "GetMaxU32 invalid byte_size!");
563acac075bSDimitry Andric return GetMaxU64(offset_ptr, byte_size);
564acac075bSDimitry Andric }
565acac075bSDimitry Andric
GetMaxU64(offset_t * offset_ptr,size_t byte_size) const566acac075bSDimitry Andric uint64_t DataExtractor::GetMaxU64(offset_t *offset_ptr,
567acac075bSDimitry Andric size_t byte_size) const {
568acac075bSDimitry Andric lldbassert(byte_size > 0 && byte_size <= 8 && "GetMaxU64 invalid byte_size!");
569f678e45dSDimitry Andric switch (byte_size) {
570f678e45dSDimitry Andric case 1:
571f678e45dSDimitry Andric return GetU8(offset_ptr);
572f678e45dSDimitry Andric case 2:
573f678e45dSDimitry Andric return GetU16(offset_ptr);
574f678e45dSDimitry Andric case 4:
575f678e45dSDimitry Andric return GetU32(offset_ptr);
576f678e45dSDimitry Andric case 8:
577f678e45dSDimitry Andric return GetU64(offset_ptr);
578acac075bSDimitry Andric default: {
579acac075bSDimitry Andric // General case.
580acac075bSDimitry Andric const uint8_t *data =
581acac075bSDimitry Andric static_cast<const uint8_t *>(GetData(offset_ptr, byte_size));
582acac075bSDimitry Andric if (data == nullptr)
583acac075bSDimitry Andric return 0;
584acac075bSDimitry Andric return ReadMaxInt64(data, byte_size, m_byte_order);
585acac075bSDimitry Andric }
586f678e45dSDimitry Andric }
587f678e45dSDimitry Andric return 0;
588f678e45dSDimitry Andric }
589f678e45dSDimitry Andric
GetMaxU64_unchecked(offset_t * offset_ptr,size_t byte_size) const590f678e45dSDimitry Andric uint64_t DataExtractor::GetMaxU64_unchecked(offset_t *offset_ptr,
591acac075bSDimitry Andric size_t byte_size) const {
592acac075bSDimitry Andric switch (byte_size) {
593f678e45dSDimitry Andric case 1:
594f678e45dSDimitry Andric return GetU8_unchecked(offset_ptr);
595f678e45dSDimitry Andric case 2:
596f678e45dSDimitry Andric return GetU16_unchecked(offset_ptr);
597f678e45dSDimitry Andric case 4:
598f678e45dSDimitry Andric return GetU32_unchecked(offset_ptr);
599f678e45dSDimitry Andric case 8:
600f678e45dSDimitry Andric return GetU64_unchecked(offset_ptr);
601acac075bSDimitry Andric default: {
602acac075bSDimitry Andric uint64_t res = ReadMaxInt64(&m_start[*offset_ptr], byte_size, m_byte_order);
603acac075bSDimitry Andric *offset_ptr += byte_size;
604acac075bSDimitry Andric return res;
605acac075bSDimitry Andric }
606f678e45dSDimitry Andric }
607f678e45dSDimitry Andric return 0;
608f678e45dSDimitry Andric }
609f678e45dSDimitry Andric
GetMaxS64(offset_t * offset_ptr,size_t byte_size) const610acac075bSDimitry Andric int64_t DataExtractor::GetMaxS64(offset_t *offset_ptr, size_t byte_size) const {
611acac075bSDimitry Andric uint64_t u64 = GetMaxU64(offset_ptr, byte_size);
612acac075bSDimitry Andric return llvm::SignExtend64(u64, 8 * byte_size);
613f678e45dSDimitry Andric }
614f678e45dSDimitry Andric
GetMaxU64Bitfield(offset_t * offset_ptr,size_t size,uint32_t bitfield_bit_size,uint32_t bitfield_bit_offset) const615f678e45dSDimitry Andric uint64_t DataExtractor::GetMaxU64Bitfield(offset_t *offset_ptr, size_t size,
616f678e45dSDimitry Andric uint32_t bitfield_bit_size,
617f678e45dSDimitry Andric uint32_t bitfield_bit_offset) const {
618f678e45dSDimitry Andric uint64_t uval64 = GetMaxU64(offset_ptr, size);
619f678e45dSDimitry Andric if (bitfield_bit_size > 0) {
620f678e45dSDimitry Andric int32_t lsbcount = bitfield_bit_offset;
621f678e45dSDimitry Andric if (m_byte_order == eByteOrderBig)
622f678e45dSDimitry Andric lsbcount = size * 8 - bitfield_bit_offset - bitfield_bit_size;
623f678e45dSDimitry Andric if (lsbcount > 0)
624f678e45dSDimitry Andric uval64 >>= lsbcount;
625f678e45dSDimitry Andric uint64_t bitfield_mask = ((1ul << bitfield_bit_size) - 1);
626f678e45dSDimitry Andric if (!bitfield_mask && bitfield_bit_offset == 0 && bitfield_bit_size == 64)
627f678e45dSDimitry Andric return uval64;
628f678e45dSDimitry Andric uval64 &= bitfield_mask;
629f678e45dSDimitry Andric }
630f678e45dSDimitry Andric return uval64;
631f678e45dSDimitry Andric }
632f678e45dSDimitry Andric
GetMaxS64Bitfield(offset_t * offset_ptr,size_t size,uint32_t bitfield_bit_size,uint32_t bitfield_bit_offset) const633f678e45dSDimitry Andric int64_t DataExtractor::GetMaxS64Bitfield(offset_t *offset_ptr, size_t size,
634f678e45dSDimitry Andric uint32_t bitfield_bit_size,
635f678e45dSDimitry Andric uint32_t bitfield_bit_offset) const {
636f678e45dSDimitry Andric int64_t sval64 = GetMaxS64(offset_ptr, size);
637f678e45dSDimitry Andric if (bitfield_bit_size > 0) {
638f678e45dSDimitry Andric int32_t lsbcount = bitfield_bit_offset;
639f678e45dSDimitry Andric if (m_byte_order == eByteOrderBig)
640f678e45dSDimitry Andric lsbcount = size * 8 - bitfield_bit_offset - bitfield_bit_size;
641f678e45dSDimitry Andric if (lsbcount > 0)
642f678e45dSDimitry Andric sval64 >>= lsbcount;
643f678e45dSDimitry Andric uint64_t bitfield_mask = (((uint64_t)1) << bitfield_bit_size) - 1;
644f678e45dSDimitry Andric sval64 &= bitfield_mask;
645f678e45dSDimitry Andric // sign extend if needed
646f678e45dSDimitry Andric if (sval64 & (((uint64_t)1) << (bitfield_bit_size - 1)))
647f678e45dSDimitry Andric sval64 |= ~bitfield_mask;
648f678e45dSDimitry Andric }
649f678e45dSDimitry Andric return sval64;
650f678e45dSDimitry Andric }
651f678e45dSDimitry Andric
GetFloat(offset_t * offset_ptr) const652f678e45dSDimitry Andric float DataExtractor::GetFloat(offset_t *offset_ptr) const {
653f678e45dSDimitry Andric typedef float float_type;
654f678e45dSDimitry Andric float_type val = 0.0;
655f678e45dSDimitry Andric const size_t src_size = sizeof(float_type);
656f678e45dSDimitry Andric const float_type *src = (const float_type *)GetData(offset_ptr, src_size);
657f678e45dSDimitry Andric if (src) {
658f678e45dSDimitry Andric if (m_byte_order != endian::InlHostByteOrder()) {
659f678e45dSDimitry Andric const uint8_t *src_data = (const uint8_t *)src;
660f678e45dSDimitry Andric uint8_t *dst_data = (uint8_t *)&val;
661f678e45dSDimitry Andric for (size_t i = 0; i < sizeof(float_type); ++i)
662f678e45dSDimitry Andric dst_data[sizeof(float_type) - 1 - i] = src_data[i];
663f678e45dSDimitry Andric } else {
664f678e45dSDimitry Andric val = *src;
665f678e45dSDimitry Andric }
666f678e45dSDimitry Andric }
667f678e45dSDimitry Andric return val;
668f678e45dSDimitry Andric }
669f678e45dSDimitry Andric
GetDouble(offset_t * offset_ptr) const670f678e45dSDimitry Andric double DataExtractor::GetDouble(offset_t *offset_ptr) const {
671f678e45dSDimitry Andric typedef double float_type;
672f678e45dSDimitry Andric float_type val = 0.0;
673f678e45dSDimitry Andric const size_t src_size = sizeof(float_type);
674f678e45dSDimitry Andric const float_type *src = (const float_type *)GetData(offset_ptr, src_size);
675f678e45dSDimitry Andric if (src) {
676f678e45dSDimitry Andric if (m_byte_order != endian::InlHostByteOrder()) {
677f678e45dSDimitry Andric const uint8_t *src_data = (const uint8_t *)src;
678f678e45dSDimitry Andric uint8_t *dst_data = (uint8_t *)&val;
679f678e45dSDimitry Andric for (size_t i = 0; i < sizeof(float_type); ++i)
680f678e45dSDimitry Andric dst_data[sizeof(float_type) - 1 - i] = src_data[i];
681f678e45dSDimitry Andric } else {
682f678e45dSDimitry Andric val = *src;
683f678e45dSDimitry Andric }
684f678e45dSDimitry Andric }
685f678e45dSDimitry Andric return val;
686f678e45dSDimitry Andric }
687f678e45dSDimitry Andric
GetLongDouble(offset_t * offset_ptr) const688f678e45dSDimitry Andric long double DataExtractor::GetLongDouble(offset_t *offset_ptr) const {
689f678e45dSDimitry Andric long double val = 0.0;
690f678e45dSDimitry Andric #if defined(__i386__) || defined(__amd64__) || defined(__x86_64__) || \
691f678e45dSDimitry Andric defined(_M_IX86) || defined(_M_IA64) || defined(_M_X64)
692f678e45dSDimitry Andric *offset_ptr += CopyByteOrderedData(*offset_ptr, 10, &val, sizeof(val),
693f678e45dSDimitry Andric endian::InlHostByteOrder());
694f678e45dSDimitry Andric #else
695f678e45dSDimitry Andric *offset_ptr += CopyByteOrderedData(*offset_ptr, sizeof(val), &val,
696f678e45dSDimitry Andric sizeof(val), endian::InlHostByteOrder());
697f678e45dSDimitry Andric #endif
698f678e45dSDimitry Andric return val;
699f678e45dSDimitry Andric }
700f678e45dSDimitry Andric
701f678e45dSDimitry Andric //------------------------------------------------------------------
7024ba319b5SDimitry Andric // Extract a single address from the data and update the offset pointed to by
7034ba319b5SDimitry Andric // "offset_ptr". The size of the extracted address comes from the
7044ba319b5SDimitry Andric // "this->m_addr_size" member variable and should be set correctly prior to
7054ba319b5SDimitry Andric // extracting any address values.
706f678e45dSDimitry Andric //
707f678e45dSDimitry Andric // RETURNS the address that was extracted, or zero on failure.
708f678e45dSDimitry Andric //------------------------------------------------------------------
GetAddress(offset_t * offset_ptr) const709f678e45dSDimitry Andric uint64_t DataExtractor::GetAddress(offset_t *offset_ptr) const {
710f678e45dSDimitry Andric #ifdef LLDB_CONFIGURATION_DEBUG
711f678e45dSDimitry Andric assert(m_addr_size == 4 || m_addr_size == 8);
712f678e45dSDimitry Andric #endif
713f678e45dSDimitry Andric return GetMaxU64(offset_ptr, m_addr_size);
714f678e45dSDimitry Andric }
715f678e45dSDimitry Andric
GetAddress_unchecked(offset_t * offset_ptr) const716f678e45dSDimitry Andric uint64_t DataExtractor::GetAddress_unchecked(offset_t *offset_ptr) const {
717f678e45dSDimitry Andric #ifdef LLDB_CONFIGURATION_DEBUG
718f678e45dSDimitry Andric assert(m_addr_size == 4 || m_addr_size == 8);
719f678e45dSDimitry Andric #endif
720f678e45dSDimitry Andric return GetMaxU64_unchecked(offset_ptr, m_addr_size);
721f678e45dSDimitry Andric }
722f678e45dSDimitry Andric
723f678e45dSDimitry Andric //------------------------------------------------------------------
7244ba319b5SDimitry Andric // Extract a single pointer from the data and update the offset pointed to by
7254ba319b5SDimitry Andric // "offset_ptr". The size of the extracted pointer comes from the
7264ba319b5SDimitry Andric // "this->m_addr_size" member variable and should be set correctly prior to
7274ba319b5SDimitry Andric // extracting any pointer values.
728f678e45dSDimitry Andric //
729f678e45dSDimitry Andric // RETURNS the pointer that was extracted, or zero on failure.
730f678e45dSDimitry Andric //------------------------------------------------------------------
GetPointer(offset_t * offset_ptr) const731f678e45dSDimitry Andric uint64_t DataExtractor::GetPointer(offset_t *offset_ptr) const {
732f678e45dSDimitry Andric #ifdef LLDB_CONFIGURATION_DEBUG
733f678e45dSDimitry Andric assert(m_addr_size == 4 || m_addr_size == 8);
734f678e45dSDimitry Andric #endif
735f678e45dSDimitry Andric return GetMaxU64(offset_ptr, m_addr_size);
736f678e45dSDimitry Andric }
737f678e45dSDimitry Andric
ExtractBytes(offset_t offset,offset_t length,ByteOrder dst_byte_order,void * dst) const738f678e45dSDimitry Andric size_t DataExtractor::ExtractBytes(offset_t offset, offset_t length,
739f678e45dSDimitry Andric ByteOrder dst_byte_order, void *dst) const {
740f678e45dSDimitry Andric const uint8_t *src = PeekData(offset, length);
741f678e45dSDimitry Andric if (src) {
742f678e45dSDimitry Andric if (dst_byte_order != GetByteOrder()) {
743f678e45dSDimitry Andric // Validate that only a word- or register-sized dst is byte swapped
744f678e45dSDimitry Andric assert(length == 1 || length == 2 || length == 4 || length == 8 ||
745f678e45dSDimitry Andric length == 10 || length == 16 || length == 32);
746f678e45dSDimitry Andric
747f678e45dSDimitry Andric for (uint32_t i = 0; i < length; ++i)
748f678e45dSDimitry Andric ((uint8_t *)dst)[i] = src[length - i - 1];
749f678e45dSDimitry Andric } else
750f678e45dSDimitry Andric ::memcpy(dst, src, length);
751f678e45dSDimitry Andric return length;
752f678e45dSDimitry Andric }
753f678e45dSDimitry Andric return 0;
754f678e45dSDimitry Andric }
755f678e45dSDimitry Andric
756f678e45dSDimitry Andric // Extract data as it exists in target memory
CopyData(offset_t offset,offset_t length,void * dst) const757f678e45dSDimitry Andric lldb::offset_t DataExtractor::CopyData(offset_t offset, offset_t length,
758f678e45dSDimitry Andric void *dst) const {
759f678e45dSDimitry Andric const uint8_t *src = PeekData(offset, length);
760f678e45dSDimitry Andric if (src) {
761f678e45dSDimitry Andric ::memcpy(dst, src, length);
762f678e45dSDimitry Andric return length;
763f678e45dSDimitry Andric }
764f678e45dSDimitry Andric return 0;
765f678e45dSDimitry Andric }
766f678e45dSDimitry Andric
767f678e45dSDimitry Andric // Extract data and swap if needed when doing the copy
768f678e45dSDimitry Andric lldb::offset_t
CopyByteOrderedData(offset_t src_offset,offset_t src_len,void * dst_void_ptr,offset_t dst_len,ByteOrder dst_byte_order) const769f678e45dSDimitry Andric DataExtractor::CopyByteOrderedData(offset_t src_offset, offset_t src_len,
770f678e45dSDimitry Andric void *dst_void_ptr, offset_t dst_len,
771f678e45dSDimitry Andric ByteOrder dst_byte_order) const {
772f678e45dSDimitry Andric // Validate the source info
773f678e45dSDimitry Andric if (!ValidOffsetForDataOfSize(src_offset, src_len))
774f678e45dSDimitry Andric assert(ValidOffsetForDataOfSize(src_offset, src_len));
775f678e45dSDimitry Andric assert(src_len > 0);
776f678e45dSDimitry Andric assert(m_byte_order == eByteOrderBig || m_byte_order == eByteOrderLittle);
777f678e45dSDimitry Andric
778f678e45dSDimitry Andric // Validate the destination info
779f678e45dSDimitry Andric assert(dst_void_ptr != nullptr);
780f678e45dSDimitry Andric assert(dst_len > 0);
781f678e45dSDimitry Andric assert(dst_byte_order == eByteOrderBig || dst_byte_order == eByteOrderLittle);
782f678e45dSDimitry Andric
783f678e45dSDimitry Andric // Validate that only a word- or register-sized dst is byte swapped
784f678e45dSDimitry Andric assert(dst_byte_order == m_byte_order || dst_len == 1 || dst_len == 2 ||
785f678e45dSDimitry Andric dst_len == 4 || dst_len == 8 || dst_len == 10 || dst_len == 16 ||
786f678e45dSDimitry Andric dst_len == 32);
787f678e45dSDimitry Andric
788f678e45dSDimitry Andric // Must have valid byte orders set in this object and for destination
789f678e45dSDimitry Andric if (!(dst_byte_order == eByteOrderBig ||
790f678e45dSDimitry Andric dst_byte_order == eByteOrderLittle) ||
791f678e45dSDimitry Andric !(m_byte_order == eByteOrderBig || m_byte_order == eByteOrderLittle))
792f678e45dSDimitry Andric return 0;
793f678e45dSDimitry Andric
794f678e45dSDimitry Andric uint8_t *dst = (uint8_t *)dst_void_ptr;
795f678e45dSDimitry Andric const uint8_t *src = (const uint8_t *)PeekData(src_offset, src_len);
796f678e45dSDimitry Andric if (src) {
797f678e45dSDimitry Andric if (dst_len >= src_len) {
7984ba319b5SDimitry Andric // We are copying the entire value from src into dst. Calculate how many,
7994ba319b5SDimitry Andric // if any, zeroes we need for the most significant bytes if "dst_len" is
8004ba319b5SDimitry Andric // greater than "src_len"...
801f678e45dSDimitry Andric const size_t num_zeroes = dst_len - src_len;
802f678e45dSDimitry Andric if (dst_byte_order == eByteOrderBig) {
803f678e45dSDimitry Andric // Big endian, so we lead with zeroes...
804f678e45dSDimitry Andric if (num_zeroes > 0)
805f678e45dSDimitry Andric ::memset(dst, 0, num_zeroes);
806f678e45dSDimitry Andric // Then either copy or swap the rest
807f678e45dSDimitry Andric if (m_byte_order == eByteOrderBig) {
808f678e45dSDimitry Andric ::memcpy(dst + num_zeroes, src, src_len);
809f678e45dSDimitry Andric } else {
810f678e45dSDimitry Andric for (uint32_t i = 0; i < src_len; ++i)
811f678e45dSDimitry Andric dst[i + num_zeroes] = src[src_len - 1 - i];
812f678e45dSDimitry Andric }
813f678e45dSDimitry Andric } else {
814f678e45dSDimitry Andric // Little endian destination, so we lead the value bytes
815f678e45dSDimitry Andric if (m_byte_order == eByteOrderBig) {
816f678e45dSDimitry Andric for (uint32_t i = 0; i < src_len; ++i)
817f678e45dSDimitry Andric dst[i] = src[src_len - 1 - i];
818f678e45dSDimitry Andric } else {
819f678e45dSDimitry Andric ::memcpy(dst, src, src_len);
820f678e45dSDimitry Andric }
821f678e45dSDimitry Andric // And zero the rest...
822f678e45dSDimitry Andric if (num_zeroes > 0)
823f678e45dSDimitry Andric ::memset(dst + src_len, 0, num_zeroes);
824f678e45dSDimitry Andric }
825f678e45dSDimitry Andric return src_len;
826f678e45dSDimitry Andric } else {
827f678e45dSDimitry Andric // We are only copying some of the value from src into dst..
828f678e45dSDimitry Andric
829f678e45dSDimitry Andric if (dst_byte_order == eByteOrderBig) {
830f678e45dSDimitry Andric // Big endian dst
831f678e45dSDimitry Andric if (m_byte_order == eByteOrderBig) {
832f678e45dSDimitry Andric // Big endian dst, with big endian src
833f678e45dSDimitry Andric ::memcpy(dst, src + (src_len - dst_len), dst_len);
834f678e45dSDimitry Andric } else {
835f678e45dSDimitry Andric // Big endian dst, with little endian src
836f678e45dSDimitry Andric for (uint32_t i = 0; i < dst_len; ++i)
837f678e45dSDimitry Andric dst[i] = src[dst_len - 1 - i];
838f678e45dSDimitry Andric }
839f678e45dSDimitry Andric } else {
840f678e45dSDimitry Andric // Little endian dst
841f678e45dSDimitry Andric if (m_byte_order == eByteOrderBig) {
842f678e45dSDimitry Andric // Little endian dst, with big endian src
843f678e45dSDimitry Andric for (uint32_t i = 0; i < dst_len; ++i)
844f678e45dSDimitry Andric dst[i] = src[src_len - 1 - i];
845f678e45dSDimitry Andric } else {
846f678e45dSDimitry Andric // Little endian dst, with big endian src
847f678e45dSDimitry Andric ::memcpy(dst, src, dst_len);
848f678e45dSDimitry Andric }
849f678e45dSDimitry Andric }
850f678e45dSDimitry Andric return dst_len;
851f678e45dSDimitry Andric }
852f678e45dSDimitry Andric }
853f678e45dSDimitry Andric return 0;
854f678e45dSDimitry Andric }
855f678e45dSDimitry Andric
856f678e45dSDimitry Andric //----------------------------------------------------------------------
8574ba319b5SDimitry Andric // Extracts a variable length NULL terminated C string from the data at the
8584ba319b5SDimitry Andric // offset pointed to by "offset_ptr". The "offset_ptr" will be updated with
8594ba319b5SDimitry Andric // the offset of the byte that follows the NULL terminator byte.
860f678e45dSDimitry Andric //
8614ba319b5SDimitry Andric // If the offset pointed to by "offset_ptr" is out of bounds, or if "length" is
8624ba319b5SDimitry Andric // non-zero and there aren't enough available bytes, nullptr will be returned
8634ba319b5SDimitry Andric // and "offset_ptr" will not be updated.
864f678e45dSDimitry Andric //----------------------------------------------------------------------
GetCStr(offset_t * offset_ptr) const865f678e45dSDimitry Andric const char *DataExtractor::GetCStr(offset_t *offset_ptr) const {
866f678e45dSDimitry Andric const char *cstr = (const char *)PeekData(*offset_ptr, 1);
867f678e45dSDimitry Andric if (cstr) {
868f678e45dSDimitry Andric const char *cstr_end = cstr;
869f678e45dSDimitry Andric const char *end = (const char *)m_end;
870f678e45dSDimitry Andric while (cstr_end < end && *cstr_end)
871f678e45dSDimitry Andric ++cstr_end;
872f678e45dSDimitry Andric
873f678e45dSDimitry Andric // Now we are either at the end of the data or we point to the
874f678e45dSDimitry Andric // NULL C string terminator with cstr_end...
875f678e45dSDimitry Andric if (*cstr_end == '\0') {
876f678e45dSDimitry Andric // Advance the offset with one extra byte for the NULL terminator
877f678e45dSDimitry Andric *offset_ptr += (cstr_end - cstr + 1);
878f678e45dSDimitry Andric return cstr;
879f678e45dSDimitry Andric }
880f678e45dSDimitry Andric
881f678e45dSDimitry Andric // We reached the end of the data without finding a NULL C string
8824ba319b5SDimitry Andric // terminator. Fall through and return nullptr otherwise anyone that would
8834ba319b5SDimitry Andric // have used the result as a C string can wander into unknown memory...
884f678e45dSDimitry Andric }
885f678e45dSDimitry Andric return nullptr;
886f678e45dSDimitry Andric }
887f678e45dSDimitry Andric
888f678e45dSDimitry Andric //----------------------------------------------------------------------
8894ba319b5SDimitry Andric // Extracts a NULL terminated C string from the fixed length field of length
8904ba319b5SDimitry Andric // "len" at the offset pointed to by "offset_ptr". The "offset_ptr" will be
8914ba319b5SDimitry Andric // updated with the offset of the byte that follows the fixed length field.
892f678e45dSDimitry Andric //
8934ba319b5SDimitry Andric // If the offset pointed to by "offset_ptr" is out of bounds, or if the offset
8944ba319b5SDimitry Andric // plus the length of the field is out of bounds, or if the field does not
8954ba319b5SDimitry Andric // contain a NULL terminator byte, nullptr will be returned and "offset_ptr"
8964ba319b5SDimitry Andric // will not be updated.
897f678e45dSDimitry Andric //----------------------------------------------------------------------
GetCStr(offset_t * offset_ptr,offset_t len) const898f678e45dSDimitry Andric const char *DataExtractor::GetCStr(offset_t *offset_ptr, offset_t len) const {
899f678e45dSDimitry Andric const char *cstr = (const char *)PeekData(*offset_ptr, len);
900f678e45dSDimitry Andric if (cstr != nullptr) {
901f678e45dSDimitry Andric if (memchr(cstr, '\0', len) == nullptr) {
902f678e45dSDimitry Andric return nullptr;
903f678e45dSDimitry Andric }
904f678e45dSDimitry Andric *offset_ptr += len;
905f678e45dSDimitry Andric return cstr;
906f678e45dSDimitry Andric }
907f678e45dSDimitry Andric return nullptr;
908f678e45dSDimitry Andric }
909f678e45dSDimitry Andric
910f678e45dSDimitry Andric //------------------------------------------------------------------
9114ba319b5SDimitry Andric // Peeks at a string in the contained data. No verification is done to make
9124ba319b5SDimitry Andric // sure the entire string lies within the bounds of this object's data, only
9134ba319b5SDimitry Andric // "offset" is verified to be a valid offset.
914f678e45dSDimitry Andric //
9154ba319b5SDimitry Andric // Returns a valid C string pointer if "offset" is a valid offset in this
9164ba319b5SDimitry Andric // object's data, else nullptr is returned.
917f678e45dSDimitry Andric //------------------------------------------------------------------
PeekCStr(offset_t offset) const918f678e45dSDimitry Andric const char *DataExtractor::PeekCStr(offset_t offset) const {
919f678e45dSDimitry Andric return (const char *)PeekData(offset, 1);
920f678e45dSDimitry Andric }
921f678e45dSDimitry Andric
922f678e45dSDimitry Andric //----------------------------------------------------------------------
9234ba319b5SDimitry Andric // Extracts an unsigned LEB128 number from this object's data starting at the
9244ba319b5SDimitry Andric // offset pointed to by "offset_ptr". The offset pointed to by "offset_ptr"
9254ba319b5SDimitry Andric // will be updated with the offset of the byte following the last extracted
9264ba319b5SDimitry Andric // byte.
927f678e45dSDimitry Andric //
928f678e45dSDimitry Andric // Returned the extracted integer value.
929f678e45dSDimitry Andric //----------------------------------------------------------------------
GetULEB128(offset_t * offset_ptr) const930f678e45dSDimitry Andric uint64_t DataExtractor::GetULEB128(offset_t *offset_ptr) const {
931f678e45dSDimitry Andric const uint8_t *src = (const uint8_t *)PeekData(*offset_ptr, 1);
932f678e45dSDimitry Andric if (src == nullptr)
933f678e45dSDimitry Andric return 0;
934f678e45dSDimitry Andric
935f678e45dSDimitry Andric const uint8_t *end = m_end;
936f678e45dSDimitry Andric
937f678e45dSDimitry Andric if (src < end) {
938f678e45dSDimitry Andric uint64_t result = *src++;
939f678e45dSDimitry Andric if (result >= 0x80) {
940f678e45dSDimitry Andric result &= 0x7f;
941f678e45dSDimitry Andric int shift = 7;
942f678e45dSDimitry Andric while (src < end) {
943f678e45dSDimitry Andric uint8_t byte = *src++;
944f678e45dSDimitry Andric result |= (uint64_t)(byte & 0x7f) << shift;
945f678e45dSDimitry Andric if ((byte & 0x80) == 0)
946f678e45dSDimitry Andric break;
947f678e45dSDimitry Andric shift += 7;
948f678e45dSDimitry Andric }
949f678e45dSDimitry Andric }
950f678e45dSDimitry Andric *offset_ptr = src - m_start;
951f678e45dSDimitry Andric return result;
952f678e45dSDimitry Andric }
953f678e45dSDimitry Andric
954f678e45dSDimitry Andric return 0;
955f678e45dSDimitry Andric }
956f678e45dSDimitry Andric
957f678e45dSDimitry Andric //----------------------------------------------------------------------
9584ba319b5SDimitry Andric // Extracts an signed LEB128 number from this object's data starting at the
9594ba319b5SDimitry Andric // offset pointed to by "offset_ptr". The offset pointed to by "offset_ptr"
9604ba319b5SDimitry Andric // will be updated with the offset of the byte following the last extracted
9614ba319b5SDimitry Andric // byte.
962f678e45dSDimitry Andric //
963f678e45dSDimitry Andric // Returned the extracted integer value.
964f678e45dSDimitry Andric //----------------------------------------------------------------------
GetSLEB128(offset_t * offset_ptr) const965f678e45dSDimitry Andric int64_t DataExtractor::GetSLEB128(offset_t *offset_ptr) const {
966f678e45dSDimitry Andric const uint8_t *src = (const uint8_t *)PeekData(*offset_ptr, 1);
967f678e45dSDimitry Andric if (src == nullptr)
968f678e45dSDimitry Andric return 0;
969f678e45dSDimitry Andric
970f678e45dSDimitry Andric const uint8_t *end = m_end;
971f678e45dSDimitry Andric
972f678e45dSDimitry Andric if (src < end) {
973f678e45dSDimitry Andric int64_t result = 0;
974f678e45dSDimitry Andric int shift = 0;
975f678e45dSDimitry Andric int size = sizeof(int64_t) * 8;
976f678e45dSDimitry Andric
977f678e45dSDimitry Andric uint8_t byte = 0;
978f678e45dSDimitry Andric int bytecount = 0;
979f678e45dSDimitry Andric
980f678e45dSDimitry Andric while (src < end) {
981f678e45dSDimitry Andric bytecount++;
982f678e45dSDimitry Andric byte = *src++;
983f678e45dSDimitry Andric result |= (int64_t)(byte & 0x7f) << shift;
984f678e45dSDimitry Andric shift += 7;
985f678e45dSDimitry Andric if ((byte & 0x80) == 0)
986f678e45dSDimitry Andric break;
987f678e45dSDimitry Andric }
988f678e45dSDimitry Andric
989f678e45dSDimitry Andric // Sign bit of byte is 2nd high order bit (0x40)
990f678e45dSDimitry Andric if (shift < size && (byte & 0x40))
991f678e45dSDimitry Andric result |= -(1 << shift);
992f678e45dSDimitry Andric
993f678e45dSDimitry Andric *offset_ptr += bytecount;
994f678e45dSDimitry Andric return result;
995f678e45dSDimitry Andric }
996f678e45dSDimitry Andric return 0;
997f678e45dSDimitry Andric }
998f678e45dSDimitry Andric
999f678e45dSDimitry Andric //----------------------------------------------------------------------
10004ba319b5SDimitry Andric // Skips a ULEB128 number (signed or unsigned) from this object's data starting
10014ba319b5SDimitry Andric // at the offset pointed to by "offset_ptr". The offset pointed to by
10024ba319b5SDimitry Andric // "offset_ptr" will be updated with the offset of the byte following the last
10034ba319b5SDimitry Andric // extracted byte.
1004f678e45dSDimitry Andric //
1005f678e45dSDimitry Andric // Returns the number of bytes consumed during the extraction.
1006f678e45dSDimitry Andric //----------------------------------------------------------------------
Skip_LEB128(offset_t * offset_ptr) const1007f678e45dSDimitry Andric uint32_t DataExtractor::Skip_LEB128(offset_t *offset_ptr) const {
1008f678e45dSDimitry Andric uint32_t bytes_consumed = 0;
1009f678e45dSDimitry Andric const uint8_t *src = (const uint8_t *)PeekData(*offset_ptr, 1);
1010f678e45dSDimitry Andric if (src == nullptr)
1011f678e45dSDimitry Andric return 0;
1012f678e45dSDimitry Andric
1013f678e45dSDimitry Andric const uint8_t *end = m_end;
1014f678e45dSDimitry Andric
1015f678e45dSDimitry Andric if (src < end) {
1016f678e45dSDimitry Andric const uint8_t *src_pos = src;
1017f678e45dSDimitry Andric while ((src_pos < end) && (*src_pos++ & 0x80))
1018f678e45dSDimitry Andric ++bytes_consumed;
1019f678e45dSDimitry Andric *offset_ptr += src_pos - src;
1020f678e45dSDimitry Andric }
1021f678e45dSDimitry Andric return bytes_consumed;
1022f678e45dSDimitry Andric }
1023f678e45dSDimitry Andric
1024f678e45dSDimitry Andric //----------------------------------------------------------------------
1025f678e45dSDimitry Andric // Dumps bytes from this object's data to the stream "s" starting
10264ba319b5SDimitry Andric // "start_offset" bytes into this data, and ending with the byte before
10274ba319b5SDimitry Andric // "end_offset". "base_addr" will be added to the offset into the dumped data
10284ba319b5SDimitry Andric // when showing the offset into the data in the output information.
10294ba319b5SDimitry Andric // "num_per_line" objects of type "type" will be dumped with the option to
10304ba319b5SDimitry Andric // override the format for each object with "type_format". "type_format" is a
10314ba319b5SDimitry Andric // printf style formatting string. If "type_format" is nullptr, then an
10324ba319b5SDimitry Andric // appropriate format string will be used for the supplied "type". If the
10334ba319b5SDimitry Andric // stream "s" is nullptr, then the output will be send to Log().
1034f678e45dSDimitry Andric //----------------------------------------------------------------------
PutToLog(Log * log,offset_t start_offset,offset_t length,uint64_t base_addr,uint32_t num_per_line,DataExtractor::Type type,const char * format) const1035f678e45dSDimitry Andric lldb::offset_t DataExtractor::PutToLog(Log *log, offset_t start_offset,
1036f678e45dSDimitry Andric offset_t length, uint64_t base_addr,
1037f678e45dSDimitry Andric uint32_t num_per_line,
1038f678e45dSDimitry Andric DataExtractor::Type type,
1039f678e45dSDimitry Andric const char *format) const {
1040f678e45dSDimitry Andric if (log == nullptr)
1041f678e45dSDimitry Andric return start_offset;
1042f678e45dSDimitry Andric
1043f678e45dSDimitry Andric offset_t offset;
1044f678e45dSDimitry Andric offset_t end_offset;
1045f678e45dSDimitry Andric uint32_t count;
1046f678e45dSDimitry Andric StreamString sstr;
1047f678e45dSDimitry Andric for (offset = start_offset, end_offset = offset + length, count = 0;
1048f678e45dSDimitry Andric ValidOffset(offset) && offset < end_offset; ++count) {
1049f678e45dSDimitry Andric if ((count % num_per_line) == 0) {
1050f678e45dSDimitry Andric // Print out any previous string
1051f678e45dSDimitry Andric if (sstr.GetSize() > 0) {
1052f678e45dSDimitry Andric log->PutString(sstr.GetString());
1053f678e45dSDimitry Andric sstr.Clear();
1054f678e45dSDimitry Andric }
1055f678e45dSDimitry Andric // Reset string offset and fill the current line string with address:
1056f678e45dSDimitry Andric if (base_addr != LLDB_INVALID_ADDRESS)
1057f678e45dSDimitry Andric sstr.Printf("0x%8.8" PRIx64 ":",
1058f678e45dSDimitry Andric (uint64_t)(base_addr + (offset - start_offset)));
1059f678e45dSDimitry Andric }
1060f678e45dSDimitry Andric
1061f678e45dSDimitry Andric switch (type) {
1062f678e45dSDimitry Andric case TypeUInt8:
1063f678e45dSDimitry Andric sstr.Printf(format ? format : " %2.2x", GetU8(&offset));
1064f678e45dSDimitry Andric break;
1065f678e45dSDimitry Andric case TypeChar: {
1066f678e45dSDimitry Andric char ch = GetU8(&offset);
1067f678e45dSDimitry Andric sstr.Printf(format ? format : " %c", isprint(ch) ? ch : ' ');
1068f678e45dSDimitry Andric } break;
1069f678e45dSDimitry Andric case TypeUInt16:
1070f678e45dSDimitry Andric sstr.Printf(format ? format : " %4.4x", GetU16(&offset));
1071f678e45dSDimitry Andric break;
1072f678e45dSDimitry Andric case TypeUInt32:
1073f678e45dSDimitry Andric sstr.Printf(format ? format : " %8.8x", GetU32(&offset));
1074f678e45dSDimitry Andric break;
1075f678e45dSDimitry Andric case TypeUInt64:
1076f678e45dSDimitry Andric sstr.Printf(format ? format : " %16.16" PRIx64, GetU64(&offset));
1077f678e45dSDimitry Andric break;
1078f678e45dSDimitry Andric case TypePointer:
1079f678e45dSDimitry Andric sstr.Printf(format ? format : " 0x%" PRIx64, GetAddress(&offset));
1080f678e45dSDimitry Andric break;
1081f678e45dSDimitry Andric case TypeULEB128:
1082f678e45dSDimitry Andric sstr.Printf(format ? format : " 0x%" PRIx64, GetULEB128(&offset));
1083f678e45dSDimitry Andric break;
1084f678e45dSDimitry Andric case TypeSLEB128:
1085f678e45dSDimitry Andric sstr.Printf(format ? format : " %" PRId64, GetSLEB128(&offset));
1086f678e45dSDimitry Andric break;
1087f678e45dSDimitry Andric }
1088f678e45dSDimitry Andric }
1089f678e45dSDimitry Andric
1090f678e45dSDimitry Andric if (!sstr.Empty())
1091f678e45dSDimitry Andric log->PutString(sstr.GetString());
1092f678e45dSDimitry Andric
1093f678e45dSDimitry Andric return offset; // Return the offset at which we ended up
1094f678e45dSDimitry Andric }
1095f678e45dSDimitry Andric
Copy(DataExtractor & dest_data) const1096f678e45dSDimitry Andric size_t DataExtractor::Copy(DataExtractor &dest_data) const {
1097f678e45dSDimitry Andric if (m_data_sp) {
1098f678e45dSDimitry Andric // we can pass along the SP to the data
1099f678e45dSDimitry Andric dest_data.SetData(m_data_sp);
1100f678e45dSDimitry Andric } else {
1101f678e45dSDimitry Andric const uint8_t *base_ptr = m_start;
1102f678e45dSDimitry Andric size_t data_size = GetByteSize();
1103f678e45dSDimitry Andric dest_data.SetData(DataBufferSP(new DataBufferHeap(base_ptr, data_size)));
1104f678e45dSDimitry Andric }
1105f678e45dSDimitry Andric return GetByteSize();
1106f678e45dSDimitry Andric }
1107f678e45dSDimitry Andric
Append(DataExtractor & rhs)1108f678e45dSDimitry Andric bool DataExtractor::Append(DataExtractor &rhs) {
1109f678e45dSDimitry Andric if (rhs.GetByteOrder() != GetByteOrder())
1110f678e45dSDimitry Andric return false;
1111f678e45dSDimitry Andric
1112f678e45dSDimitry Andric if (rhs.GetByteSize() == 0)
1113f678e45dSDimitry Andric return true;
1114f678e45dSDimitry Andric
1115f678e45dSDimitry Andric if (GetByteSize() == 0)
1116f678e45dSDimitry Andric return (rhs.Copy(*this) > 0);
1117f678e45dSDimitry Andric
1118f678e45dSDimitry Andric size_t bytes = GetByteSize() + rhs.GetByteSize();
1119f678e45dSDimitry Andric
1120f678e45dSDimitry Andric DataBufferHeap *buffer_heap_ptr = nullptr;
1121f678e45dSDimitry Andric DataBufferSP buffer_sp(buffer_heap_ptr = new DataBufferHeap(bytes, 0));
1122f678e45dSDimitry Andric
1123f678e45dSDimitry Andric if (!buffer_sp || buffer_heap_ptr == nullptr)
1124f678e45dSDimitry Andric return false;
1125f678e45dSDimitry Andric
1126f678e45dSDimitry Andric uint8_t *bytes_ptr = buffer_heap_ptr->GetBytes();
1127f678e45dSDimitry Andric
1128f678e45dSDimitry Andric memcpy(bytes_ptr, GetDataStart(), GetByteSize());
1129f678e45dSDimitry Andric memcpy(bytes_ptr + GetByteSize(), rhs.GetDataStart(), rhs.GetByteSize());
1130f678e45dSDimitry Andric
1131f678e45dSDimitry Andric SetData(buffer_sp);
1132f678e45dSDimitry Andric
1133f678e45dSDimitry Andric return true;
1134f678e45dSDimitry Andric }
1135f678e45dSDimitry Andric
Append(void * buf,offset_t length)1136f678e45dSDimitry Andric bool DataExtractor::Append(void *buf, offset_t length) {
1137f678e45dSDimitry Andric if (buf == nullptr)
1138f678e45dSDimitry Andric return false;
1139f678e45dSDimitry Andric
1140f678e45dSDimitry Andric if (length == 0)
1141f678e45dSDimitry Andric return true;
1142f678e45dSDimitry Andric
1143f678e45dSDimitry Andric size_t bytes = GetByteSize() + length;
1144f678e45dSDimitry Andric
1145f678e45dSDimitry Andric DataBufferHeap *buffer_heap_ptr = nullptr;
1146f678e45dSDimitry Andric DataBufferSP buffer_sp(buffer_heap_ptr = new DataBufferHeap(bytes, 0));
1147f678e45dSDimitry Andric
1148f678e45dSDimitry Andric if (!buffer_sp || buffer_heap_ptr == nullptr)
1149f678e45dSDimitry Andric return false;
1150f678e45dSDimitry Andric
1151f678e45dSDimitry Andric uint8_t *bytes_ptr = buffer_heap_ptr->GetBytes();
1152f678e45dSDimitry Andric
1153f678e45dSDimitry Andric if (GetByteSize() > 0)
1154f678e45dSDimitry Andric memcpy(bytes_ptr, GetDataStart(), GetByteSize());
1155f678e45dSDimitry Andric
1156f678e45dSDimitry Andric memcpy(bytes_ptr + GetByteSize(), buf, length);
1157f678e45dSDimitry Andric
1158f678e45dSDimitry Andric SetData(buffer_sp);
1159f678e45dSDimitry Andric
1160f678e45dSDimitry Andric return true;
1161f678e45dSDimitry Andric }
1162f678e45dSDimitry Andric
Checksum(llvm::SmallVectorImpl<uint8_t> & dest,uint64_t max_data)1163f678e45dSDimitry Andric void DataExtractor::Checksum(llvm::SmallVectorImpl<uint8_t> &dest,
1164f678e45dSDimitry Andric uint64_t max_data) {
1165f678e45dSDimitry Andric if (max_data == 0)
1166f678e45dSDimitry Andric max_data = GetByteSize();
1167f678e45dSDimitry Andric else
1168f678e45dSDimitry Andric max_data = std::min(max_data, GetByteSize());
1169f678e45dSDimitry Andric
1170f678e45dSDimitry Andric llvm::MD5 md5;
1171f678e45dSDimitry Andric
1172f678e45dSDimitry Andric const llvm::ArrayRef<uint8_t> data(GetDataStart(), max_data);
1173f678e45dSDimitry Andric md5.update(data);
1174f678e45dSDimitry Andric
1175f678e45dSDimitry Andric llvm::MD5::MD5Result result;
1176f678e45dSDimitry Andric md5.final(result);
1177f678e45dSDimitry Andric
1178f678e45dSDimitry Andric dest.clear();
1179f678e45dSDimitry Andric dest.append(result.Bytes.begin(), result.Bytes.end());
1180f678e45dSDimitry Andric }
1181