xref: /freebsd/contrib/llvm-project/llvm/include/llvm/Support/DataExtractor.h (revision dc318a4ffabcbfa23bb56a33403aad36e6de30af)
1 //===-- DataExtractor.h -----------------------------------------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 
9 #ifndef LLVM_SUPPORT_DATAEXTRACTOR_H
10 #define LLVM_SUPPORT_DATAEXTRACTOR_H
11 
12 #include "llvm/ADT/StringRef.h"
13 #include "llvm/Support/DataTypes.h"
14 #include "llvm/Support/Error.h"
15 
16 namespace llvm {
17 
18 /// An auxiliary type to facilitate extraction of 3-byte entities.
19 struct Uint24 {
20   uint8_t Bytes[3];
21   Uint24(uint8_t U) {
22     Bytes[0] = Bytes[1] = Bytes[2] = U;
23   }
24   Uint24(uint8_t U0, uint8_t U1, uint8_t U2) {
25     Bytes[0] = U0; Bytes[1] = U1; Bytes[2] = U2;
26   }
27   uint32_t getAsUint32(bool IsLittleEndian) const {
28     int LoIx = IsLittleEndian ? 0 : 2;
29     return Bytes[LoIx] + (Bytes[1] << 8) + (Bytes[2-LoIx] << 16);
30   }
31 };
32 
33 using uint24_t = Uint24;
34 static_assert(sizeof(uint24_t) == 3, "sizeof(uint24_t) != 3");
35 
36 /// Needed by swapByteOrder().
37 inline uint24_t getSwappedBytes(uint24_t C) {
38   return uint24_t(C.Bytes[2], C.Bytes[1], C.Bytes[0]);
39 }
40 
41 class DataExtractor {
42   StringRef Data;
43   uint8_t IsLittleEndian;
44   uint8_t AddressSize;
45 public:
46   /// A class representing a position in a DataExtractor, as well as any error
47   /// encountered during extraction. It enables one to extract a sequence of
48   /// values without error-checking and then checking for errors in bulk at the
49   /// end. The class holds an Error object, so failing to check the result of
50   /// the parse will result in a runtime error. The error flag is sticky and
51   /// will cause all subsequent extraction functions to fail without even
52   /// attempting to parse and without updating the Cursor offset. After clearing
53   /// the error flag, one can again use the Cursor object for parsing.
54   class Cursor {
55     uint64_t Offset;
56     Error Err;
57 
58     friend class DataExtractor;
59 
60   public:
61     /// Construct a cursor for extraction from the given offset.
62     explicit Cursor(uint64_t Offset) : Offset(Offset), Err(Error::success()) {}
63 
64     /// Checks whether the cursor is valid (i.e. no errors were encountered). In
65     /// case of errors, this does not clear the error flag -- one must call
66     /// takeError() instead.
67     explicit operator bool() { return !Err; }
68 
69     /// Return the current position of this Cursor. In the error state this is
70     /// the position of the Cursor before the first error was encountered.
71     uint64_t tell() const { return Offset; }
72 
73     /// Return error contained inside this Cursor, if any. Clears the internal
74     /// Cursor state.
75     Error takeError() { return std::move(Err); }
76   };
77 
78   /// Construct with a buffer that is owned by the caller.
79   ///
80   /// This constructor allows us to use data that is owned by the
81   /// caller. The data must stay around as long as this object is
82   /// valid.
83   DataExtractor(StringRef Data, bool IsLittleEndian, uint8_t AddressSize)
84     : Data(Data), IsLittleEndian(IsLittleEndian), AddressSize(AddressSize) {}
85   DataExtractor(ArrayRef<uint8_t> Data, bool IsLittleEndian,
86                 uint8_t AddressSize)
87       : Data(StringRef(reinterpret_cast<const char *>(Data.data()),
88                        Data.size())),
89         IsLittleEndian(IsLittleEndian), AddressSize(AddressSize) {}
90 
91   /// Get the data pointed to by this extractor.
92   StringRef getData() const { return Data; }
93   /// Get the endianness for this extractor.
94   bool isLittleEndian() const { return IsLittleEndian; }
95   /// Get the address size for this extractor.
96   uint8_t getAddressSize() const { return AddressSize; }
97   /// Set the address size for this extractor.
98   void setAddressSize(uint8_t Size) { AddressSize = Size; }
99 
100   /// Extract a C string from \a *offset_ptr.
101   ///
102   /// Returns a pointer to a C String from the data at the offset
103   /// pointed to by \a offset_ptr. A variable length NULL terminated C
104   /// string will be extracted and the \a offset_ptr will be
105   /// updated with the offset of the byte that follows the NULL
106   /// terminator byte.
107   ///
108   /// @param[in,out] OffsetPtr
109   ///     A pointer to an offset within the data that will be advanced
110   ///     by the appropriate number of bytes if the value is extracted
111   ///     correctly. If the offset is out of bounds or there are not
112   ///     enough bytes to extract this value, the offset will be left
113   ///     unmodified.
114   ///
115   /// @param[in,out] Err
116   ///     A pointer to an Error object. Upon return the Error object is set to
117   ///     indicate the result (success/failure) of the function. If the Error
118   ///     object is already set when calling this function, no extraction is
119   ///     performed.
120   ///
121   /// @return
122   ///     A pointer to the C string value in the data. If the offset
123   ///     pointed to by \a offset_ptr is out of bounds, or if the
124   ///     offset plus the length of the C string is out of bounds,
125   ///     NULL will be returned.
126   const char *getCStr(uint64_t *OffsetPtr, Error *Err = nullptr) const {
127     return getCStrRef(OffsetPtr, Err).data();
128   }
129 
130   /// Extract a C string from the location given by the cursor. In case of an
131   /// extraction error, or if the cursor is already in an error state, a
132   /// nullptr is returned.
133   const char *getCStr(Cursor &C) const { return getCStrRef(C).data(); }
134 
135   /// Extract a C string from \a *offset_ptr.
136   ///
137   /// Returns a StringRef for the C String from the data at the offset
138   /// pointed to by \a offset_ptr. A variable length NULL terminated C
139   /// string will be extracted and the \a offset_ptr will be
140   /// updated with the offset of the byte that follows the NULL
141   /// terminator byte.
142   ///
143   /// \param[in,out] OffsetPtr
144   ///     A pointer to an offset within the data that will be advanced
145   ///     by the appropriate number of bytes if the value is extracted
146   ///     correctly. If the offset is out of bounds or there are not
147   ///     enough bytes to extract this value, the offset will be left
148   ///     unmodified.
149   ///
150   /// @param[in,out] Err
151   ///     A pointer to an Error object. Upon return the Error object is set to
152   ///     indicate the result (success/failure) of the function. If the Error
153   ///     object is already set when calling this function, no extraction is
154   ///     performed.
155   ///
156   /// \return
157   ///     A StringRef for the C string value in the data. If the offset
158   ///     pointed to by \a offset_ptr is out of bounds, or if the
159   ///     offset plus the length of the C string is out of bounds,
160   ///     a default-initialized StringRef will be returned.
161   StringRef getCStrRef(uint64_t *OffsetPtr, Error *Err = nullptr) const;
162 
163   /// Extract a C string (as a StringRef) from the location given by the cursor.
164   /// In case of an extraction error, or if the cursor is already in an error
165   /// state, a default-initialized StringRef is returned.
166   StringRef getCStrRef(Cursor &C) const {
167     return getCStrRef(&C.Offset, &C.Err);
168   }
169 
170   /// Extract a fixed length string from \a *OffsetPtr and consume \a Length
171   /// bytes.
172   ///
173   /// Returns a StringRef for the string from the data at the offset
174   /// pointed to by \a OffsetPtr. A fixed length C string will be extracted
175   /// and the \a OffsetPtr will be advanced by \a Length bytes.
176   ///
177   /// \param[in,out] OffsetPtr
178   ///     A pointer to an offset within the data that will be advanced
179   ///     by the appropriate number of bytes if the value is extracted
180   ///     correctly. If the offset is out of bounds or there are not
181   ///     enough bytes to extract this value, the offset will be left
182   ///     unmodified.
183   ///
184   /// \param[in] Length
185   ///     The length of the fixed length string to extract. If there are not
186   ///     enough bytes in the data to extract the full string, the offset will
187   ///     be left unmodified.
188   ///
189   /// \param[in] TrimChars
190   ///     A set of characters to trim from the end of the string. Fixed length
191   ///     strings are commonly either NULL terminated by one or more zero
192   ///     bytes. Some clients have one or more spaces at the end of the string,
193   ///     but a good default is to trim the NULL characters.
194   ///
195   /// \return
196   ///     A StringRef for the C string value in the data. If the offset
197   ///     pointed to by \a OffsetPtr is out of bounds, or if the
198   ///     offset plus the length of the C string is out of bounds,
199   ///     a default-initialized StringRef will be returned.
200   StringRef getFixedLengthString(uint64_t *OffsetPtr,
201       uint64_t Length, StringRef TrimChars = {"\0", 1}) const;
202 
203   /// Extract a fixed number of bytes from the specified offset.
204   ///
205   /// Returns a StringRef for the bytes from the data at the offset
206   /// pointed to by \a OffsetPtr. A fixed length C string will be extracted
207   /// and the \a OffsetPtr will be advanced by \a Length bytes.
208   ///
209   /// \param[in,out] OffsetPtr
210   ///     A pointer to an offset within the data that will be advanced
211   ///     by the appropriate number of bytes if the value is extracted
212   ///     correctly. If the offset is out of bounds or there are not
213   ///     enough bytes to extract this value, the offset will be left
214   ///     unmodified.
215   ///
216   /// \param[in] Length
217   ///     The number of bytes to extract. If there are not enough bytes in the
218   ///     data to extract all of the bytes, the offset will be left unmodified.
219   ///
220   /// @param[in,out] Err
221   ///     A pointer to an Error object. Upon return the Error object is set to
222   ///     indicate the result (success/failure) of the function. If the Error
223   ///     object is already set when calling this function, no extraction is
224   ///     performed.
225   ///
226   /// \return
227   ///     A StringRef for the extracted bytes. If the offset pointed to by
228   ///     \a OffsetPtr is out of bounds, or if the offset plus the length
229   ///     is out of bounds, a default-initialized StringRef will be returned.
230   StringRef getBytes(uint64_t *OffsetPtr, uint64_t Length,
231                      Error *Err = nullptr) const;
232 
233   /// Extract a fixed number of bytes from the location given by the cursor. In
234   /// case of an extraction error, or if the cursor is already in an error
235   /// state, a default-initialized StringRef is returned.
236   StringRef getBytes(Cursor &C, uint64_t Length) {
237     return getBytes(&C.Offset, Length, &C.Err);
238   }
239 
240   /// Extract an unsigned integer of size \a byte_size from \a
241   /// *offset_ptr.
242   ///
243   /// Extract a single unsigned integer value and update the offset
244   /// pointed to by \a offset_ptr. The size of the extracted integer
245   /// is specified by the \a byte_size argument. \a byte_size should
246   /// have a value greater than or equal to one and less than or equal
247   /// to eight since the return value is 64 bits wide. Any
248   /// \a byte_size values less than 1 or greater than 8 will result in
249   /// nothing being extracted, and zero being returned.
250   ///
251   /// @param[in,out] offset_ptr
252   ///     A pointer to an offset within the data that will be advanced
253   ///     by the appropriate number of bytes if the value is extracted
254   ///     correctly. If the offset is out of bounds or there are not
255   ///     enough bytes to extract this value, the offset will be left
256   ///     unmodified.
257   ///
258   /// @param[in] byte_size
259   ///     The size in byte of the integer to extract.
260   ///
261   /// @param[in,out] Err
262   ///     A pointer to an Error object. Upon return the Error object is set to
263   ///     indicate the result (success/failure) of the function. If the Error
264   ///     object is already set when calling this function, no extraction is
265   ///     performed.
266   ///
267   /// @return
268   ///     The unsigned integer value that was extracted, or zero on
269   ///     failure.
270   uint64_t getUnsigned(uint64_t *offset_ptr, uint32_t byte_size,
271                        Error *Err = nullptr) const;
272 
273   /// Extract an unsigned integer of the given size from the location given by
274   /// the cursor. In case of an extraction error, or if the cursor is already in
275   /// an error state, zero is returned.
276   uint64_t getUnsigned(Cursor &C, uint32_t Size) const {
277     return getUnsigned(&C.Offset, Size, &C.Err);
278   }
279 
280   /// Extract an signed integer of size \a byte_size from \a *offset_ptr.
281   ///
282   /// Extract a single signed integer value (sign extending if required)
283   /// and update the offset pointed to by \a offset_ptr. The size of
284   /// the extracted integer is specified by the \a byte_size argument.
285   /// \a byte_size should have a value greater than or equal to one
286   /// and less than or equal to eight since the return value is 64
287   /// bits wide. Any \a byte_size values less than 1 or greater than
288   /// 8 will result in nothing being extracted, and zero being returned.
289   ///
290   /// @param[in,out] offset_ptr
291   ///     A pointer to an offset within the data that will be advanced
292   ///     by the appropriate number of bytes if the value is extracted
293   ///     correctly. If the offset is out of bounds or there are not
294   ///     enough bytes to extract this value, the offset will be left
295   ///     unmodified.
296   ///
297   /// @param[in] size
298   ///     The size in bytes of the integer to extract.
299   ///
300   /// @return
301   ///     The sign extended signed integer value that was extracted,
302   ///     or zero on failure.
303   int64_t getSigned(uint64_t *offset_ptr, uint32_t size) const;
304 
305   //------------------------------------------------------------------
306   /// Extract an pointer from \a *offset_ptr.
307   ///
308   /// Extract a single pointer from the data and update the offset
309   /// pointed to by \a offset_ptr. The size of the extracted pointer
310   /// is \a getAddressSize(), so the address size has to be
311   /// set correctly prior to extracting any pointer values.
312   ///
313   /// @param[in,out] offset_ptr
314   ///     A pointer to an offset within the data that will be advanced
315   ///     by the appropriate number of bytes if the value is extracted
316   ///     correctly. If the offset is out of bounds or there are not
317   ///     enough bytes to extract this value, the offset will be left
318   ///     unmodified.
319   ///
320   /// @return
321   ///     The extracted pointer value as a 64 integer.
322   uint64_t getAddress(uint64_t *offset_ptr) const {
323     return getUnsigned(offset_ptr, AddressSize);
324   }
325 
326   /// Extract a pointer-sized unsigned integer from the location given by the
327   /// cursor. In case of an extraction error, or if the cursor is already in
328   /// an error state, zero is returned.
329   uint64_t getAddress(Cursor &C) const { return getUnsigned(C, AddressSize); }
330 
331   /// Extract a uint8_t value from \a *offset_ptr.
332   ///
333   /// Extract a single uint8_t from the binary data at the offset
334   /// pointed to by \a offset_ptr, and advance the offset on success.
335   ///
336   /// @param[in,out] offset_ptr
337   ///     A pointer to an offset within the data that will be advanced
338   ///     by the appropriate number of bytes if the value is extracted
339   ///     correctly. If the offset is out of bounds or there are not
340   ///     enough bytes to extract this value, the offset will be left
341   ///     unmodified.
342   ///
343   /// @param[in,out] Err
344   ///     A pointer to an Error object. Upon return the Error object is set to
345   ///     indicate the result (success/failure) of the function. If the Error
346   ///     object is already set when calling this function, no extraction is
347   ///     performed.
348   ///
349   /// @return
350   ///     The extracted uint8_t value.
351   uint8_t getU8(uint64_t *offset_ptr, Error *Err = nullptr) const;
352 
353   /// Extract a single uint8_t value from the location given by the cursor. In
354   /// case of an extraction error, or if the cursor is already in an error
355   /// state, zero is returned.
356   uint8_t getU8(Cursor &C) const { return getU8(&C.Offset, &C.Err); }
357 
358   /// Extract \a count uint8_t values from \a *offset_ptr.
359   ///
360   /// Extract \a count uint8_t values from the binary data at the
361   /// offset pointed to by \a offset_ptr, and advance the offset on
362   /// success. The extracted values are copied into \a dst.
363   ///
364   /// @param[in,out] offset_ptr
365   ///     A pointer to an offset within the data that will be advanced
366   ///     by the appropriate number of bytes if the value is extracted
367   ///     correctly. If the offset is out of bounds or there are not
368   ///     enough bytes to extract this value, the offset will be left
369   ///     unmodified.
370   ///
371   /// @param[out] dst
372   ///     A buffer to copy \a count uint8_t values into. \a dst must
373   ///     be large enough to hold all requested data.
374   ///
375   /// @param[in] count
376   ///     The number of uint8_t values to extract.
377   ///
378   /// @return
379   ///     \a dst if all values were properly extracted and copied,
380   ///     NULL otherise.
381   uint8_t *getU8(uint64_t *offset_ptr, uint8_t *dst, uint32_t count) const;
382 
383   /// Extract \a Count uint8_t values from the location given by the cursor and
384   /// store them into the destination buffer. In case of an extraction error, or
385   /// if the cursor is already in an error state, a nullptr is returned and the
386   /// destination buffer is left unchanged.
387   uint8_t *getU8(Cursor &C, uint8_t *Dst, uint32_t Count) const;
388 
389   /// Extract \a Count uint8_t values from the location given by the cursor and
390   /// store them into the destination vector. The vector is resized to fit the
391   /// extracted data. In case of an extraction error, or if the cursor is
392   /// already in an error state, the destination vector is left unchanged and
393   /// cursor is placed into an error state.
394   void getU8(Cursor &C, SmallVectorImpl<uint8_t> &Dst, uint32_t Count) const {
395     if (isValidOffsetForDataOfSize(C.Offset, Count))
396       Dst.resize(Count);
397 
398     // This relies on the fact that getU8 will not attempt to write to the
399     // buffer if isValidOffsetForDataOfSize(C.Offset, Count) is false.
400     getU8(C, Dst.data(), Count);
401   }
402 
403   //------------------------------------------------------------------
404   /// Extract a uint16_t value from \a *offset_ptr.
405   ///
406   /// Extract a single uint16_t from the binary data at the offset
407   /// pointed to by \a offset_ptr, and update the offset on success.
408   ///
409   /// @param[in,out] offset_ptr
410   ///     A pointer to an offset within the data that will be advanced
411   ///     by the appropriate number of bytes if the value is extracted
412   ///     correctly. If the offset is out of bounds or there are not
413   ///     enough bytes to extract this value, the offset will be left
414   ///     unmodified.
415   ///
416   /// @param[in,out] Err
417   ///     A pointer to an Error object. Upon return the Error object is set to
418   ///     indicate the result (success/failure) of the function. If the Error
419   ///     object is already set when calling this function, no extraction is
420   ///     performed.
421   ///
422   /// @return
423   ///     The extracted uint16_t value.
424   //------------------------------------------------------------------
425   uint16_t getU16(uint64_t *offset_ptr, Error *Err = nullptr) const;
426 
427   /// Extract a single uint16_t value from the location given by the cursor. In
428   /// case of an extraction error, or if the cursor is already in an error
429   /// state, zero is returned.
430   uint16_t getU16(Cursor &C) const { return getU16(&C.Offset, &C.Err); }
431 
432   /// Extract \a count uint16_t values from \a *offset_ptr.
433   ///
434   /// Extract \a count uint16_t values from the binary data at the
435   /// offset pointed to by \a offset_ptr, and advance the offset on
436   /// success. The extracted values are copied into \a dst.
437   ///
438   /// @param[in,out] offset_ptr
439   ///     A pointer to an offset within the data that will be advanced
440   ///     by the appropriate number of bytes if the value is extracted
441   ///     correctly. If the offset is out of bounds or there are not
442   ///     enough bytes to extract this value, the offset will be left
443   ///     unmodified.
444   ///
445   /// @param[out] dst
446   ///     A buffer to copy \a count uint16_t values into. \a dst must
447   ///     be large enough to hold all requested data.
448   ///
449   /// @param[in] count
450   ///     The number of uint16_t values to extract.
451   ///
452   /// @return
453   ///     \a dst if all values were properly extracted and copied,
454   ///     NULL otherise.
455   uint16_t *getU16(uint64_t *offset_ptr, uint16_t *dst, uint32_t count) const;
456 
457   /// Extract a 24-bit unsigned value from \a *offset_ptr and return it
458   /// in a uint32_t.
459   ///
460   /// Extract 3 bytes from the binary data at the offset pointed to by
461   /// \a offset_ptr, construct a uint32_t from them and update the offset
462   /// on success.
463   ///
464   /// @param[in,out] OffsetPtr
465   ///     A pointer to an offset within the data that will be advanced
466   ///     by the 3 bytes if the value is extracted correctly. If the offset
467   ///     is out of bounds or there are not enough bytes to extract this value,
468   ///     the offset will be left unmodified.
469   ///
470   /// @param[in,out] Err
471   ///     A pointer to an Error object. Upon return the Error object is set to
472   ///     indicate the result (success/failure) of the function. If the Error
473   ///     object is already set when calling this function, no extraction is
474   ///     performed.
475   ///
476   /// @return
477   ///     The extracted 24-bit value represented in a uint32_t.
478   uint32_t getU24(uint64_t *OffsetPtr, Error *Err = nullptr) const;
479 
480   /// Extract a single 24-bit unsigned value from the location given by the
481   /// cursor. In case of an extraction error, or if the cursor is already in an
482   /// error state, zero is returned.
483   uint32_t getU24(Cursor &C) const { return getU24(&C.Offset, &C.Err); }
484 
485   /// Extract a uint32_t value from \a *offset_ptr.
486   ///
487   /// Extract a single uint32_t from the binary data at the offset
488   /// pointed to by \a offset_ptr, and update the offset on success.
489   ///
490   /// @param[in,out] offset_ptr
491   ///     A pointer to an offset within the data that will be advanced
492   ///     by the appropriate number of bytes if the value is extracted
493   ///     correctly. If the offset is out of bounds or there are not
494   ///     enough bytes to extract this value, the offset will be left
495   ///     unmodified.
496   ///
497   /// @param[in,out] Err
498   ///     A pointer to an Error object. Upon return the Error object is set to
499   ///     indicate the result (success/failure) of the function. If the Error
500   ///     object is already set when calling this function, no extraction is
501   ///     performed.
502   ///
503   /// @return
504   ///     The extracted uint32_t value.
505   uint32_t getU32(uint64_t *offset_ptr, Error *Err = nullptr) const;
506 
507   /// Extract a single uint32_t value from the location given by the cursor. In
508   /// case of an extraction error, or if the cursor is already in an error
509   /// state, zero is returned.
510   uint32_t getU32(Cursor &C) const { return getU32(&C.Offset, &C.Err); }
511 
512   /// Extract \a count uint32_t values from \a *offset_ptr.
513   ///
514   /// Extract \a count uint32_t values from the binary data at the
515   /// offset pointed to by \a offset_ptr, and advance the offset on
516   /// success. The extracted values are copied into \a dst.
517   ///
518   /// @param[in,out] offset_ptr
519   ///     A pointer to an offset within the data that will be advanced
520   ///     by the appropriate number of bytes if the value is extracted
521   ///     correctly. If the offset is out of bounds or there are not
522   ///     enough bytes to extract this value, the offset will be left
523   ///     unmodified.
524   ///
525   /// @param[out] dst
526   ///     A buffer to copy \a count uint32_t values into. \a dst must
527   ///     be large enough to hold all requested data.
528   ///
529   /// @param[in] count
530   ///     The number of uint32_t values to extract.
531   ///
532   /// @return
533   ///     \a dst if all values were properly extracted and copied,
534   ///     NULL otherise.
535   uint32_t *getU32(uint64_t *offset_ptr, uint32_t *dst, uint32_t count) const;
536 
537   /// Extract a uint64_t value from \a *offset_ptr.
538   ///
539   /// Extract a single uint64_t from the binary data at the offset
540   /// pointed to by \a offset_ptr, and update the offset on success.
541   ///
542   /// @param[in,out] offset_ptr
543   ///     A pointer to an offset within the data that will be advanced
544   ///     by the appropriate number of bytes if the value is extracted
545   ///     correctly. If the offset is out of bounds or there are not
546   ///     enough bytes to extract this value, the offset will be left
547   ///     unmodified.
548   ///
549   /// @param[in,out] Err
550   ///     A pointer to an Error object. Upon return the Error object is set to
551   ///     indicate the result (success/failure) of the function. If the Error
552   ///     object is already set when calling this function, no extraction is
553   ///     performed.
554   ///
555   /// @return
556   ///     The extracted uint64_t value.
557   uint64_t getU64(uint64_t *offset_ptr, Error *Err = nullptr) const;
558 
559   /// Extract a single uint64_t value from the location given by the cursor. In
560   /// case of an extraction error, or if the cursor is already in an error
561   /// state, zero is returned.
562   uint64_t getU64(Cursor &C) const { return getU64(&C.Offset, &C.Err); }
563 
564   /// Extract \a count uint64_t values from \a *offset_ptr.
565   ///
566   /// Extract \a count uint64_t values from the binary data at the
567   /// offset pointed to by \a offset_ptr, and advance the offset on
568   /// success. The extracted values are copied into \a dst.
569   ///
570   /// @param[in,out] offset_ptr
571   ///     A pointer to an offset within the data that will be advanced
572   ///     by the appropriate number of bytes if the value is extracted
573   ///     correctly. If the offset is out of bounds or there are not
574   ///     enough bytes to extract this value, the offset will be left
575   ///     unmodified.
576   ///
577   /// @param[out] dst
578   ///     A buffer to copy \a count uint64_t values into. \a dst must
579   ///     be large enough to hold all requested data.
580   ///
581   /// @param[in] count
582   ///     The number of uint64_t values to extract.
583   ///
584   /// @return
585   ///     \a dst if all values were properly extracted and copied,
586   ///     NULL otherise.
587   uint64_t *getU64(uint64_t *offset_ptr, uint64_t *dst, uint32_t count) const;
588 
589   /// Extract a signed LEB128 value from \a *offset_ptr.
590   ///
591   /// Extracts an signed LEB128 number from this object's data
592   /// starting at the offset pointed to by \a offset_ptr. The offset
593   /// pointed to by \a offset_ptr will be updated with the offset of
594   /// the byte following the last extracted byte.
595   ///
596   /// @param[in,out] OffsetPtr
597   ///     A pointer to an offset within the data that will be advanced
598   ///     by the appropriate number of bytes if the value is extracted
599   ///     correctly. If the offset is out of bounds or there are not
600   ///     enough bytes to extract this value, the offset will be left
601   ///     unmodified.
602   ///
603   /// @param[in,out] Err
604   ///     A pointer to an Error object. Upon return the Error object is set to
605   ///     indicate the result (success/failure) of the function. If the Error
606   ///     object is already set when calling this function, no extraction is
607   ///     performed.
608   ///
609   /// @return
610   ///     The extracted signed integer value.
611   int64_t getSLEB128(uint64_t *OffsetPtr, Error *Err = nullptr) const;
612 
613   /// Extract an signed LEB128 value from the location given by the cursor.
614   /// In case of an extraction error, or if the cursor is already in an error
615   /// state, zero is returned.
616   int64_t getSLEB128(Cursor &C) const { return getSLEB128(&C.Offset, &C.Err); }
617 
618   /// Extract a unsigned LEB128 value from \a *offset_ptr.
619   ///
620   /// Extracts an unsigned LEB128 number from this object's data
621   /// starting at the offset pointed to by \a offset_ptr. The offset
622   /// pointed to by \a offset_ptr will be updated with the offset of
623   /// the byte following the last extracted byte.
624   ///
625   /// @param[in,out] offset_ptr
626   ///     A pointer to an offset within the data that will be advanced
627   ///     by the appropriate number of bytes if the value is extracted
628   ///     correctly. If the offset is out of bounds or there are not
629   ///     enough bytes to extract this value, the offset will be left
630   ///     unmodified.
631   ///
632   /// @param[in,out] Err
633   ///     A pointer to an Error object. Upon return the Error object is set to
634   ///     indicate the result (success/failure) of the function. If the Error
635   ///     object is already set when calling this function, no extraction is
636   ///     performed.
637   ///
638   /// @return
639   ///     The extracted unsigned integer value.
640   uint64_t getULEB128(uint64_t *offset_ptr, llvm::Error *Err = nullptr) const;
641 
642   /// Extract an unsigned LEB128 value from the location given by the cursor.
643   /// In case of an extraction error, or if the cursor is already in an error
644   /// state, zero is returned.
645   uint64_t getULEB128(Cursor &C) const { return getULEB128(&C.Offset, &C.Err); }
646 
647   /// Advance the Cursor position by the given number of bytes. No-op if the
648   /// cursor is in an error state.
649   void skip(Cursor &C, uint64_t Length) const;
650 
651   /// Return true iff the cursor is at the end of the buffer, regardless of the
652   /// error state of the cursor. The only way both eof and error states can be
653   /// true is if one attempts a read while the cursor is at the very end of the
654   /// data buffer.
655   bool eof(const Cursor &C) const { return size() == C.Offset; }
656 
657   /// Test the validity of \a offset.
658   ///
659   /// @return
660   ///     \b true if \a offset is a valid offset into the data in this
661   ///     object, \b false otherwise.
662   bool isValidOffset(uint64_t offset) const { return size() > offset; }
663 
664   /// Test the availability of \a length bytes of data from \a offset.
665   ///
666   /// @return
667   ///     \b true if \a offset is a valid offset and there are \a
668   ///     length bytes available at that offset, \b false otherwise.
669   bool isValidOffsetForDataOfSize(uint64_t offset, uint64_t length) const {
670     return offset + length >= offset && isValidOffset(offset + length - 1);
671   }
672 
673   /// Test the availability of enough bytes of data for a pointer from
674   /// \a offset. The size of a pointer is \a getAddressSize().
675   ///
676   /// @return
677   ///     \b true if \a offset is a valid offset and there are enough
678   ///     bytes for a pointer available at that offset, \b false
679   ///     otherwise.
680   bool isValidOffsetForAddress(uint64_t offset) const {
681     return isValidOffsetForDataOfSize(offset, AddressSize);
682   }
683 
684   /// Return the number of bytes in the underlying buffer.
685   size_t size() const { return Data.size(); }
686 
687 protected:
688   // Make it possible for subclasses to access these fields without making them
689   // public.
690   static uint64_t &getOffset(Cursor &C) { return C.Offset; }
691   static Error &getError(Cursor &C) { return C.Err; }
692 
693 private:
694   /// If it is possible to read \a Size bytes at offset \a Offset, returns \b
695   /// true. Otherwise, returns \b false. If \a E is not nullptr, also sets the
696   /// error object to indicate an error.
697   bool prepareRead(uint64_t Offset, uint64_t Size, Error *E) const;
698 
699   template <typename T> T getU(uint64_t *OffsetPtr, Error *Err) const;
700   template <typename T>
701   T *getUs(uint64_t *OffsetPtr, T *Dst, uint32_t Count, Error *Err) const;
702 };
703 
704 } // namespace llvm
705 
706 #endif
707