upb/wire/eps_copy_input_stream.h - third_party/github/protocolbuffers/protobuf - Git at Google

 // Protocol Buffers - Google's data interchange format
 // Copyright 2023 Google LLC.  All rights reserved.
 //
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file or at
 // https://developers.google.com/open-source/licenses/bsd

 #ifndef UPB_WIRE_EPS_COPY_INPUT_STREAM_H_
 #define UPB_WIRE_EPS_COPY_INPUT_STREAM_H_

 #include <string.h>

 #include "upb/mem/arena.h"

 // Must be last.
 #include "upb/port/def.inc"

 #ifdef __cplusplus
 extern "C" {
 #endif

 // The maximum number of bytes a single protobuf field can take up in the
 // wire format.  We only want to do one bounds check per field, so the input
 // stream guarantees that after upb_EpsCopyInputStream_IsDone() is called,
 // the decoder can read this many bytes without performing another bounds
 // check.  The stream will copy into a patch buffer as necessary to guarantee
 // this invariant.
 #define kUpb_EpsCopyInputStream_SlopBytes 16

 typedef struct {
   const char* end;        // Can read up to SlopBytes bytes beyond this.
   const char* limit_ptr;  // For bounds checks, = end + UPB_MIN(limit, 0)
   uintptr_t input_delta;  // Diff between the original input pointer and patch
   int limit;   // Submessage limit relative to end
   bool error;  // To distinguish between EOF and error.
   bool aliasing;
   char patch[kUpb_EpsCopyInputStream_SlopBytes * 2];
 } upb_EpsCopyInputStream;

 // Returns true if the stream is in the error state. A stream enters the error
 // state when the user reads past a limit (caught in IsDone()) or the
 // ZeroCopyInputStream returns an error.
 UPB_INLINE bool upb_EpsCopyInputStream_IsError(upb_EpsCopyInputStream* e) {
   return e->error;
 }

 typedef const char* upb_EpsCopyInputStream_BufferFlipCallback(
     upb_EpsCopyInputStream* e, const char* old_end, const char* new_start);

 typedef const char* upb_EpsCopyInputStream_IsDoneFallbackFunc(
     upb_EpsCopyInputStream* e, const char* ptr, int overrun);

 // Initializes a upb_EpsCopyInputStream using the contents of the buffer
 // [*ptr, size].  Updates `*ptr` as necessary to guarantee that at least
 // kUpb_EpsCopyInputStream_SlopBytes are available to read.
 UPB_INLINE void upb_EpsCopyInputStream_Init(upb_EpsCopyInputStream* e,
                                             const char** ptr, size_t size,
                                             bool enable_aliasing) {
   if (size <= kUpb_EpsCopyInputStream_SlopBytes) {
     memset(&e->patch, 0, 32);
     if (size) memcpy(&e->patch, *ptr, size);
     e->input_delta = (uintptr_t)*ptr - (uintptr_t)e->patch;
     *ptr = e->patch;
     e->end = *ptr + size;
     e->limit = 0;
   } else {
     e->end = *ptr + size - kUpb_EpsCopyInputStream_SlopBytes;
     e->limit = kUpb_EpsCopyInputStream_SlopBytes;
     e->input_delta = 0;
   }
   e->aliasing = enable_aliasing;
   e->limit_ptr = e->end;
   e->error = false;
 }

 typedef enum {
   // The current stream position is at a limit.
   kUpb_IsDoneStatus_Done,

   // The current stream position is not at a limit.
   kUpb_IsDoneStatus_NotDone,

   // The current stream position is not at a limit, and the stream needs to
   // be flipped to a new buffer before more data can be read.
   kUpb_IsDoneStatus_NeedFallback,
 } upb_IsDoneStatus;

 // Returns the status of the current stream position.  This is a low-level
 // function, it is simpler to call upb_EpsCopyInputStream_IsDone() if possible.
 UPB_INLINE upb_IsDoneStatus upb_EpsCopyInputStream_IsDoneStatus(
     upb_EpsCopyInputStream* e, const char* ptr, int* overrun) {
   *overrun = ptr - e->end;
   if (UPB_LIKELY(ptr < e->limit_ptr)) {
     return kUpb_IsDoneStatus_NotDone;
   } else if (UPB_LIKELY(*overrun == e->limit)) {
     return kUpb_IsDoneStatus_Done;
   } else {
     return kUpb_IsDoneStatus_NeedFallback;
   }
 }

 // Returns true if the stream has hit a limit, either the current delimited
 // limit or the overall end-of-stream. As a side effect, this function may flip
 // the pointer to a new buffer if there are less than
 // kUpb_EpsCopyInputStream_SlopBytes of data to be read in the current buffer.
 //
 // Postcondition: if the function returns false, there are at least
 // kUpb_EpsCopyInputStream_SlopBytes of data available to read at *ptr.
 UPB_INLINE bool upb_EpsCopyInputStream_IsDoneWithCallback(
     upb_EpsCopyInputStream* e, const char** ptr,
     upb_EpsCopyInputStream_IsDoneFallbackFunc* func) {
   int overrun;
   switch (upb_EpsCopyInputStream_IsDoneStatus(e, *ptr, &overrun)) {
     case kUpb_IsDoneStatus_Done:
       return true;
     case kUpb_IsDoneStatus_NotDone:
       return false;
     case kUpb_IsDoneStatus_NeedFallback:
       *ptr = func(e, *ptr, overrun);
       return *ptr == NULL;
   }
   UPB_UNREACHABLE();
 }

 const char* _upb_EpsCopyInputStream_IsDoneFallbackNoCallback(
     upb_EpsCopyInputStream* e, const char* ptr, int overrun);

 // A simpler version of IsDoneWithCallback() that does not support a buffer flip
 // callback. Useful in cases where we do not need to insert custom logic at
 // every buffer flip.
 //
 // If this returns true, the user must call upb_EpsCopyInputStream_IsError()
 // to distinguish between EOF and error.
 UPB_INLINE bool upb_EpsCopyInputStream_IsDone(upb_EpsCopyInputStream* e,
                                               const char** ptr) {
   return upb_EpsCopyInputStream_IsDoneWithCallback(
       e, ptr, _upb_EpsCopyInputStream_IsDoneFallbackNoCallback);
 }

 // Returns the total number of bytes that are safe to read from the current
 // buffer without reading uninitialized or unallocated memory.
 //
 // Note that this check does not respect any semantic limits on the stream,
 // either limits from PushLimit() or the overall stream end, so some of these
 // bytes may have unpredictable, nonsense values in them. The guarantee is only
 // that the bytes are valid to read from the perspective of the C language
 // (ie. you can read without triggering UBSAN or ASAN).
 UPB_INLINE size_t upb_EpsCopyInputStream_BytesAvailable(
     upb_EpsCopyInputStream* e, const char* ptr) {
   return (e->end - ptr) + kUpb_EpsCopyInputStream_SlopBytes;
 }

 // Returns true if the given delimited field size is valid (it does not extend
 // beyond any previously-pushed limits).  `ptr` should point to the beginning
 // of the field data, after the delimited size.
 //
 // Note that this does *not* guarantee that all of the data for this field is in
 // the current buffer.
 UPB_INLINE bool upb_EpsCopyInputStream_CheckSize(
     const upb_EpsCopyInputStream* e, const char* ptr, int size) {
   UPB_ASSERT(size >= 0);
   return ptr - e->end + size <= e->limit;
 }

 UPB_INLINE bool _upb_EpsCopyInputStream_CheckSizeAvailable(
     upb_EpsCopyInputStream* e, const char* ptr, int size, bool submessage) {
   // This is one extra branch compared to the more normal:
   //   return (size_t)(end - ptr) < size;
   // However it is one less computation if we are just about to use "ptr + len":
   //   https://godbolt.org/z/35YGPz
   // In microbenchmarks this shows a small improvement.
   uintptr_t uptr = (uintptr_t)ptr;
   uintptr_t uend = (uintptr_t)e->limit_ptr;
   uintptr_t res = uptr + (size_t)size;
   if (!submessage) uend += kUpb_EpsCopyInputStream_SlopBytes;
   // NOTE: this check depends on having a linear address space.  This is not
   // technically guaranteed by uintptr_t.
   bool ret = res >= uptr && res <= uend;
   if (size < 0) UPB_ASSERT(!ret);
   return ret;
 }

 // Returns true if the given delimited field size is valid (it does not extend
 // beyond any previously-pushed limited) *and* all of the data for this field is
 // available to be read in the current buffer.
 //
 // If the size is negative, this function will always return false. This
 // property can be useful in some cases.
 UPB_INLINE bool upb_EpsCopyInputStream_CheckDataSizeAvailable(
     upb_EpsCopyInputStream* e, const char* ptr, int size) {
   return _upb_EpsCopyInputStream_CheckSizeAvailable(e, ptr, size, false);
 }

 // Returns true if the given sub-message size is valid (it does not extend
 // beyond any previously-pushed limited) *and* all of the data for this
 // sub-message is available to be parsed in the current buffer.
 //
 // This implies that all fields from the sub-message can be parsed from the
 // current buffer while maintaining the invariant that we always have at least
 // kUpb_EpsCopyInputStream_SlopBytes of data available past the beginning of
 // any individual field start.
 //
 // If the size is negative, this function will always return false. This
 // property can be useful in some cases.
 UPB_INLINE bool upb_EpsCopyInputStream_CheckSubMessageSizeAvailable(
     upb_EpsCopyInputStream* e, const char* ptr, int size) {
   return _upb_EpsCopyInputStream_CheckSizeAvailable(e, ptr, size, true);
 }

 // Returns true if aliasing_enabled=true was passed to
 // upb_EpsCopyInputStream_Init() when this stream was initialized.
 UPB_INLINE bool upb_EpsCopyInputStream_AliasingEnabled(
     upb_EpsCopyInputStream* e) {
   return e->aliasing;
 }

 // Returns true if aliasing_enabled=true was passed to
 // upb_EpsCopyInputStream_Init() when this stream was initialized *and* we can
 // alias into the region [ptr, size] in an input buffer.
 UPB_INLINE bool upb_EpsCopyInputStream_AliasingAvailable(
     upb_EpsCopyInputStream* e, const char* ptr, size_t size) {
   // When EpsCopyInputStream supports streaming, this will need to become a
   // runtime check.
   return e->aliasing &&
          upb_EpsCopyInputStream_CheckDataSizeAvailable(e, ptr, size);
 }

 // Returns a pointer into an input buffer that corresponds to the parsing
 // pointer `ptr`.  The returned pointer may be the same as `ptr`, but also may
 // be different if we are currently parsing out of the patch buffer.
 UPB_INLINE const char* upb_EpsCopyInputStream_GetInputPtr(
     upb_EpsCopyInputStream* e, const char* ptr) {
   return (const char*)(((uintptr_t)ptr) + e->input_delta);
 }

 // Returns a pointer into an input buffer that corresponds to the parsing
 // pointer `ptr`.  The returned pointer may be the same as `ptr`, but also may
 // be different if we are currently parsing out of the patch buffer.
 //
 // REQUIRES: Aliasing must be available for the given pointer. If the input is a
 // flat buffer and aliasing is enabled, then aliasing will always be available.
 UPB_INLINE const char* upb_EpsCopyInputStream_GetAliasedPtr(
     upb_EpsCopyInputStream* e, const char* ptr) {
   UPB_ASSUME(upb_EpsCopyInputStream_AliasingAvailable(e, ptr, 0));
   return upb_EpsCopyInputStream_GetInputPtr(e, ptr);
 }

 // Reads string data from the input, aliasing into the input buffer instead of
 // copying. The parsing pointer is passed in `*ptr`, and will be updated if
 // necessary to point to the actual input buffer. Returns the new parsing
 // pointer, which will be advanced past the string data.
 //
 // REQUIRES: Aliasing must be available for this data region (test with
 // upb_EpsCopyInputStream_AliasingAvailable().
 UPB_INLINE const char* upb_EpsCopyInputStream_ReadStringAliased(
     upb_EpsCopyInputStream* e, const char** ptr, size_t size) {
   UPB_ASSUME(upb_EpsCopyInputStream_AliasingAvailable(e, *ptr, size));
   const char* ret = *ptr + size;
   *ptr = upb_EpsCopyInputStream_GetAliasedPtr(e, *ptr);
   UPB_ASSUME(ret != NULL);
   return ret;
 }

 // Skips `size` bytes of data from the input and returns a pointer past the end.
 // Returns NULL on end of stream or error.
 UPB_INLINE const char* upb_EpsCopyInputStream_Skip(upb_EpsCopyInputStream* e,
                                                    const char* ptr, int size) {
   if (!upb_EpsCopyInputStream_CheckDataSizeAvailable(e, ptr, size)) return NULL;
   return ptr + size;
 }

 // Copies `size` bytes of data from the input `ptr` into the buffer `to`, and
 // returns a pointer past the end. Returns NULL on end of stream or error.
 UPB_INLINE const char* upb_EpsCopyInputStream_Copy(upb_EpsCopyInputStream* e,
                                                    const char* ptr, void* to,
                                                    int size) {
   if (!upb_EpsCopyInputStream_CheckDataSizeAvailable(e, ptr, size)) return NULL;
   memcpy(to, ptr, size);
   return ptr + size;
 }

 // Reads string data from the stream and advances the pointer accordingly.
 // If aliasing was enabled when the stream was initialized, then the returned
 // pointer will point into the input buffer if possible, otherwise new data
 // will be allocated from arena and copied into. We may be forced to copy even
 // if aliasing was enabled if the input data spans input buffers.
 //
 // Returns NULL if memory allocation failed, or we reached a premature EOF.
 UPB_INLINE const char* upb_EpsCopyInputStream_ReadString(
     upb_EpsCopyInputStream* e, const char** ptr, size_t size,
     upb_Arena* arena) {
   if (upb_EpsCopyInputStream_AliasingAvailable(e, *ptr, size)) {
     return upb_EpsCopyInputStream_ReadStringAliased(e, ptr, size);
   } else {
     // We need to allocate and copy.
     if (!upb_EpsCopyInputStream_CheckDataSizeAvailable(e, *ptr, size)) {
       return NULL;
     }
     UPB_ASSERT(arena);
     char* data = (char*)upb_Arena_Malloc(arena, size);
     if (!data) return NULL;
     const char* ret = upb_EpsCopyInputStream_Copy(e, *ptr, data, size);
     *ptr = data;
     return ret;
   }
 }

 UPB_INLINE void _upb_EpsCopyInputStream_CheckLimit(upb_EpsCopyInputStream* e) {
   UPB_ASSERT(e->limit_ptr == e->end + UPB_MIN(0, e->limit));
 }

 // Pushes a limit onto the stack of limits for the current stream.  The limit
 // will extend for `size` bytes beyond the position in `ptr`.  Future calls to
 // upb_EpsCopyInputStream_IsDone() will return `true` when the stream position
 // reaches this limit.
 //
 // Returns a delta that the caller must store and supply to PopLimit() below.
 UPB_INLINE int upb_EpsCopyInputStream_PushLimit(upb_EpsCopyInputStream* e,
                                                 const char* ptr, int size) {
   int limit = size + (int)(ptr - e->end);
   int delta = e->limit - limit;
   _upb_EpsCopyInputStream_CheckLimit(e);
   UPB_ASSERT(limit <= e->limit);
   e->limit = limit;
   e->limit_ptr = e->end + UPB_MIN(0, limit);
   _upb_EpsCopyInputStream_CheckLimit(e);
   return delta;
 }

 // Pops the last limit that was pushed on this stream.  This may only be called
 // once IsDone() returns true.  The user must pass the delta that was returned
 // from PushLimit().
 UPB_INLINE void upb_EpsCopyInputStream_PopLimit(upb_EpsCopyInputStream* e,
                                                 const char* ptr,
                                                 int saved_delta) {
   UPB_ASSERT(ptr - e->end == e->limit);
   _upb_EpsCopyInputStream_CheckLimit(e);
   e->limit += saved_delta;
   e->limit_ptr = e->end + UPB_MIN(0, e->limit);
   _upb_EpsCopyInputStream_CheckLimit(e);
 }

 UPB_INLINE const char* _upb_EpsCopyInputStream_IsDoneFallbackInline(
     upb_EpsCopyInputStream* e, const char* ptr, int overrun,
     upb_EpsCopyInputStream_BufferFlipCallback* callback) {
   if (overrun < e->limit) {
     // Need to copy remaining data into patch buffer.
     UPB_ASSERT(overrun < kUpb_EpsCopyInputStream_SlopBytes);
     const char* old_end = ptr;
     const char* new_start = &e->patch[0] + overrun;
     memset(e->patch + kUpb_EpsCopyInputStream_SlopBytes, 0,
            kUpb_EpsCopyInputStream_SlopBytes);
     memcpy(e->patch, e->end, kUpb_EpsCopyInputStream_SlopBytes);
     ptr = new_start;
     e->end = &e->patch[kUpb_EpsCopyInputStream_SlopBytes];
     e->limit -= kUpb_EpsCopyInputStream_SlopBytes;
     e->limit_ptr = e->end + e->limit;
     UPB_ASSERT(ptr < e->limit_ptr);
     e->input_delta = (uintptr_t)old_end - (uintptr_t)new_start;
     return callback(e, old_end, new_start);
   } else {
     UPB_ASSERT(overrun > e->limit);
     e->error = true;
     return callback(e, NULL, NULL);
   }
 }

 typedef const char* upb_EpsCopyInputStream_ParseDelimitedFunc(
     upb_EpsCopyInputStream* e, const char* ptr, void* ctx);

 // Tries to perform a fast-path handling of the given delimited message data.
 // If the sub-message beginning at `*ptr` and extending for `len` is short and
 // fits within this buffer, calls `func` with `ctx` as a parameter, where the
 // pushing and popping of limits is handled automatically and with lower cost
 // than the normal PushLimit()/PopLimit() sequence.
 UPB_FORCEINLINE bool upb_EpsCopyInputStream_TryParseDelimitedFast(
     upb_EpsCopyInputStream* e, const char** ptr, int len,
     upb_EpsCopyInputStream_ParseDelimitedFunc* func, void* ctx) {
   if (!upb_EpsCopyInputStream_CheckSubMessageSizeAvailable(e, *ptr, len)) {
     return false;
   }

   // Fast case: Sub-message is <128 bytes and fits in the current buffer.
   // This means we can preserve limit/limit_ptr verbatim.
   const char* saved_limit_ptr = e->limit_ptr;
   int saved_limit = e->limit;
   e->limit_ptr = *ptr + len;
   e->limit = e->limit_ptr - e->end;
   UPB_ASSERT(e->limit_ptr == e->end + UPB_MIN(0, e->limit));
   *ptr = func(e, *ptr, ctx);
   e->limit_ptr = saved_limit_ptr;
   e->limit = saved_limit;
   UPB_ASSERT(e->limit_ptr == e->end + UPB_MIN(0, e->limit));
   return true;
 }

 #ifdef __cplusplus
 } /* extern "C" */
 #endif

 #include "upb/port/undef.inc"

 #endif  // UPB_WIRE_EPS_COPY_INPUT_STREAM_H_
	// Protocol Buffers - Google's data interchange format
	// Copyright 2023 Google LLC. All rights reserved.
	//
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file or at
	// https://developers.google.com/open-source/licenses/bsd

	#ifndef UPB_WIRE_EPS_COPY_INPUT_STREAM_H_
	#define UPB_WIRE_EPS_COPY_INPUT_STREAM_H_

	#include <string.h>

	#include "upb/mem/arena.h"

	// Must be last.
	#include "upb/port/def.inc"

	#ifdef __cplusplus
	extern "C" {
	#endif

	// The maximum number of bytes a single protobuf field can take up in the
	// wire format. We only want to do one bounds check per field, so the input
	// stream guarantees that after upb_EpsCopyInputStream_IsDone() is called,
	// the decoder can read this many bytes without performing another bounds
	// check. The stream will copy into a patch buffer as necessary to guarantee
	// this invariant.
	#define kUpb_EpsCopyInputStream_SlopBytes 16

	typedef struct {
	const char* end; // Can read up to SlopBytes bytes beyond this.
	const char* limit_ptr; // For bounds checks, = end + UPB_MIN(limit, 0)
	uintptr_t input_delta; // Diff between the original input pointer and patch
	int limit; // Submessage limit relative to end
	bool error; // To distinguish between EOF and error.
	bool aliasing;
	char patch[kUpb_EpsCopyInputStream_SlopBytes * 2];
	} upb_EpsCopyInputStream;

	// Returns true if the stream is in the error state. A stream enters the error
	// state when the user reads past a limit (caught in IsDone()) or the
	// ZeroCopyInputStream returns an error.
	UPB_INLINE bool upb_EpsCopyInputStream_IsError(upb_EpsCopyInputStream* e) {
	return e->error;
	}

	typedef const char* upb_EpsCopyInputStream_BufferFlipCallback(
	upb_EpsCopyInputStream* e, const char* old_end, const char* new_start);

	typedef const char* upb_EpsCopyInputStream_IsDoneFallbackFunc(
	upb_EpsCopyInputStream* e, const char* ptr, int overrun);

	// Initializes a upb_EpsCopyInputStream using the contents of the buffer
	// [ptr, size]. Updates `ptr` as necessary to guarantee that at least
	// kUpb_EpsCopyInputStream_SlopBytes are available to read.
	UPB_INLINE void upb_EpsCopyInputStream_Init(upb_EpsCopyInputStream* e,
	const char** ptr, size_t size,
	bool enable_aliasing) {
	if (size <= kUpb_EpsCopyInputStream_SlopBytes) {
	memset(&e->patch, 0, 32);
	if (size) memcpy(&e->patch, *ptr, size);
	e->input_delta = (uintptr_t)*ptr - (uintptr_t)e->patch;
	*ptr = e->patch;
	e->end = *ptr + size;
	e->limit = 0;
	} else {
	e->end = *ptr + size - kUpb_EpsCopyInputStream_SlopBytes;
	e->limit = kUpb_EpsCopyInputStream_SlopBytes;
	e->input_delta = 0;
	}
	e->aliasing = enable_aliasing;
	e->limit_ptr = e->end;
	e->error = false;
	}

	typedef enum {
	// The current stream position is at a limit.
	kUpb_IsDoneStatus_Done,

	// The current stream position is not at a limit.
	kUpb_IsDoneStatus_NotDone,

	// The current stream position is not at a limit, and the stream needs to
	// be flipped to a new buffer before more data can be read.
	kUpb_IsDoneStatus_NeedFallback,
	} upb_IsDoneStatus;

	// Returns the status of the current stream position. This is a low-level
	// function, it is simpler to call upb_EpsCopyInputStream_IsDone() if possible.
	UPB_INLINE upb_IsDoneStatus upb_EpsCopyInputStream_IsDoneStatus(
	upb_EpsCopyInputStream* e, const char* ptr, int* overrun) {
	*overrun = ptr - e->end;
	if (UPB_LIKELY(ptr < e->limit_ptr)) {
	return kUpb_IsDoneStatus_NotDone;
	} else if (UPB_LIKELY(*overrun == e->limit)) {
	return kUpb_IsDoneStatus_Done;
	} else {
	return kUpb_IsDoneStatus_NeedFallback;
	}
	}

	// Returns true if the stream has hit a limit, either the current delimited
	// limit or the overall end-of-stream. As a side effect, this function may flip
	// the pointer to a new buffer if there are less than
	// kUpb_EpsCopyInputStream_SlopBytes of data to be read in the current buffer.
	//
	// Postcondition: if the function returns false, there are at least
	// kUpb_EpsCopyInputStream_SlopBytes of data available to read at *ptr.
	UPB_INLINE bool upb_EpsCopyInputStream_IsDoneWithCallback(
	upb_EpsCopyInputStream* e, const char** ptr,
	upb_EpsCopyInputStream_IsDoneFallbackFunc* func) {
	int overrun;
	switch (upb_EpsCopyInputStream_IsDoneStatus(e, *ptr, &overrun)) {
	case kUpb_IsDoneStatus_Done:
	return true;
	case kUpb_IsDoneStatus_NotDone:
	return false;
	case kUpb_IsDoneStatus_NeedFallback:
	ptr = func(e, ptr, overrun);
	return *ptr == NULL;
	}
	UPB_UNREACHABLE();
	}

	const char* _upb_EpsCopyInputStream_IsDoneFallbackNoCallback(
	upb_EpsCopyInputStream* e, const char* ptr, int overrun);

	// A simpler version of IsDoneWithCallback() that does not support a buffer flip
	// callback. Useful in cases where we do not need to insert custom logic at
	// every buffer flip.
	//
	// If this returns true, the user must call upb_EpsCopyInputStream_IsError()
	// to distinguish between EOF and error.
	UPB_INLINE bool upb_EpsCopyInputStream_IsDone(upb_EpsCopyInputStream* e,
	const char** ptr) {
	return upb_EpsCopyInputStream_IsDoneWithCallback(
	e, ptr, _upb_EpsCopyInputStream_IsDoneFallbackNoCallback);
	}

	// Returns the total number of bytes that are safe to read from the current
	// buffer without reading uninitialized or unallocated memory.
	//
	// Note that this check does not respect any semantic limits on the stream,
	// either limits from PushLimit() or the overall stream end, so some of these
	// bytes may have unpredictable, nonsense values in them. The guarantee is only
	// that the bytes are valid to read from the perspective of the C language
	// (ie. you can read without triggering UBSAN or ASAN).
	UPB_INLINE size_t upb_EpsCopyInputStream_BytesAvailable(
	upb_EpsCopyInputStream* e, const char* ptr) {
	return (e->end - ptr) + kUpb_EpsCopyInputStream_SlopBytes;
	}

	// Returns true if the given delimited field size is valid (it does not extend
	// beyond any previously-pushed limits). `ptr` should point to the beginning
	// of the field data, after the delimited size.
	//
	// Note that this does not guarantee that all of the data for this field is in
	// the current buffer.
	UPB_INLINE bool upb_EpsCopyInputStream_CheckSize(
	const upb_EpsCopyInputStream* e, const char* ptr, int size) {
	UPB_ASSERT(size >= 0);
	return ptr - e->end + size <= e->limit;
	}

	UPB_INLINE bool _upb_EpsCopyInputStream_CheckSizeAvailable(
	upb_EpsCopyInputStream* e, const char* ptr, int size, bool submessage) {
	// This is one extra branch compared to the more normal:
	// return (size_t)(end - ptr) < size;
	// However it is one less computation if we are just about to use "ptr + len":
	// https://godbolt.org/z/35YGPz
	// In microbenchmarks this shows a small improvement.
	uintptr_t uptr = (uintptr_t)ptr;
	uintptr_t uend = (uintptr_t)e->limit_ptr;
	uintptr_t res = uptr + (size_t)size;
	if (!submessage) uend += kUpb_EpsCopyInputStream_SlopBytes;
	// NOTE: this check depends on having a linear address space. This is not
	// technically guaranteed by uintptr_t.
	bool ret = res >= uptr && res <= uend;
	if (size < 0) UPB_ASSERT(!ret);
	return ret;
	}

	// Returns true if the given delimited field size is valid (it does not extend
	// beyond any previously-pushed limited) and all of the data for this field is
	// available to be read in the current buffer.
	//
	// If the size is negative, this function will always return false. This
	// property can be useful in some cases.
	UPB_INLINE bool upb_EpsCopyInputStream_CheckDataSizeAvailable(
	upb_EpsCopyInputStream* e, const char* ptr, int size) {
	return _upb_EpsCopyInputStream_CheckSizeAvailable(e, ptr, size, false);
	}

	// Returns true if the given sub-message size is valid (it does not extend
	// beyond any previously-pushed limited) and all of the data for this
	// sub-message is available to be parsed in the current buffer.
	//
	// This implies that all fields from the sub-message can be parsed from the
	// current buffer while maintaining the invariant that we always have at least
	// kUpb_EpsCopyInputStream_SlopBytes of data available past the beginning of
	// any individual field start.
	//
	// If the size is negative, this function will always return false. This
	// property can be useful in some cases.
	UPB_INLINE bool upb_EpsCopyInputStream_CheckSubMessageSizeAvailable(
	upb_EpsCopyInputStream* e, const char* ptr, int size) {
	return _upb_EpsCopyInputStream_CheckSizeAvailable(e, ptr, size, true);
	}

	// Returns true if aliasing_enabled=true was passed to
	// upb_EpsCopyInputStream_Init() when this stream was initialized.
	UPB_INLINE bool upb_EpsCopyInputStream_AliasingEnabled(
	upb_EpsCopyInputStream* e) {
	return e->aliasing;
	}

	// Returns true if aliasing_enabled=true was passed to
	// upb_EpsCopyInputStream_Init() when this stream was initialized and we can
	// alias into the region [ptr, size] in an input buffer.
	UPB_INLINE bool upb_EpsCopyInputStream_AliasingAvailable(
	upb_EpsCopyInputStream* e, const char* ptr, size_t size) {
	// When EpsCopyInputStream supports streaming, this will need to become a
	// runtime check.
	return e->aliasing &&
	upb_EpsCopyInputStream_CheckDataSizeAvailable(e, ptr, size);
	}

	// Returns a pointer into an input buffer that corresponds to the parsing
	// pointer `ptr`. The returned pointer may be the same as `ptr`, but also may
	// be different if we are currently parsing out of the patch buffer.
	UPB_INLINE const char* upb_EpsCopyInputStream_GetInputPtr(
	upb_EpsCopyInputStream* e, const char* ptr) {
	return (const char*)(((uintptr_t)ptr) + e->input_delta);
	}

	// Returns a pointer into an input buffer that corresponds to the parsing
	// pointer `ptr`. The returned pointer may be the same as `ptr`, but also may
	// be different if we are currently parsing out of the patch buffer.
	//
	// REQUIRES: Aliasing must be available for the given pointer. If the input is a
	// flat buffer and aliasing is enabled, then aliasing will always be available.
	UPB_INLINE const char* upb_EpsCopyInputStream_GetAliasedPtr(
	upb_EpsCopyInputStream* e, const char* ptr) {
	UPB_ASSUME(upb_EpsCopyInputStream_AliasingAvailable(e, ptr, 0));
	return upb_EpsCopyInputStream_GetInputPtr(e, ptr);
	}

	// Reads string data from the input, aliasing into the input buffer instead of
	// copying. The parsing pointer is passed in `*ptr`, and will be updated if
	// necessary to point to the actual input buffer. Returns the new parsing
	// pointer, which will be advanced past the string data.
	//
	// REQUIRES: Aliasing must be available for this data region (test with
	// upb_EpsCopyInputStream_AliasingAvailable().
	UPB_INLINE const char* upb_EpsCopyInputStream_ReadStringAliased(
	upb_EpsCopyInputStream* e, const char** ptr, size_t size) {
	UPB_ASSUME(upb_EpsCopyInputStream_AliasingAvailable(e, *ptr, size));
	const char* ret = *ptr + size;
	ptr = upb_EpsCopyInputStream_GetAliasedPtr(e, ptr);
	UPB_ASSUME(ret != NULL);
	return ret;
	}

	// Skips `size` bytes of data from the input and returns a pointer past the end.
	// Returns NULL on end of stream or error.
	UPB_INLINE const char* upb_EpsCopyInputStream_Skip(upb_EpsCopyInputStream* e,
	const char* ptr, int size) {
	if (!upb_EpsCopyInputStream_CheckDataSizeAvailable(e, ptr, size)) return NULL;
	return ptr + size;
	}

	// Copies `size` bytes of data from the input `ptr` into the buffer `to`, and
	// returns a pointer past the end. Returns NULL on end of stream or error.
	UPB_INLINE const char* upb_EpsCopyInputStream_Copy(upb_EpsCopyInputStream* e,
	const char* ptr, void* to,
	int size) {
	if (!upb_EpsCopyInputStream_CheckDataSizeAvailable(e, ptr, size)) return NULL;
	memcpy(to, ptr, size);
	return ptr + size;
	}

	// Reads string data from the stream and advances the pointer accordingly.
	// If aliasing was enabled when the stream was initialized, then the returned
	// pointer will point into the input buffer if possible, otherwise new data
	// will be allocated from arena and copied into. We may be forced to copy even
	// if aliasing was enabled if the input data spans input buffers.
	//
	// Returns NULL if memory allocation failed, or we reached a premature EOF.
	UPB_INLINE const char* upb_EpsCopyInputStream_ReadString(
	upb_EpsCopyInputStream* e, const char** ptr, size_t size,
	upb_Arena* arena) {
	if (upb_EpsCopyInputStream_AliasingAvailable(e, *ptr, size)) {
	return upb_EpsCopyInputStream_ReadStringAliased(e, ptr, size);
	} else {
	// We need to allocate and copy.
	if (!upb_EpsCopyInputStream_CheckDataSizeAvailable(e, *ptr, size)) {
	return NULL;
	}
	UPB_ASSERT(arena);
	char* data = (char*)upb_Arena_Malloc(arena, size);
	if (!data) return NULL;
	const char* ret = upb_EpsCopyInputStream_Copy(e, *ptr, data, size);
	*ptr = data;
	return ret;
	}
	}

	UPB_INLINE void _upb_EpsCopyInputStream_CheckLimit(upb_EpsCopyInputStream* e) {
	UPB_ASSERT(e->limit_ptr == e->end + UPB_MIN(0, e->limit));
	}

	// Pushes a limit onto the stack of limits for the current stream. The limit
	// will extend for `size` bytes beyond the position in `ptr`. Future calls to
	// upb_EpsCopyInputStream_IsDone() will return `true` when the stream position
	// reaches this limit.
	//
	// Returns a delta that the caller must store and supply to PopLimit() below.
	UPB_INLINE int upb_EpsCopyInputStream_PushLimit(upb_EpsCopyInputStream* e,
	const char* ptr, int size) {
	int limit = size + (int)(ptr - e->end);
	int delta = e->limit - limit;
	_upb_EpsCopyInputStream_CheckLimit(e);
	UPB_ASSERT(limit <= e->limit);
	e->limit = limit;
	e->limit_ptr = e->end + UPB_MIN(0, limit);
	_upb_EpsCopyInputStream_CheckLimit(e);
	return delta;
	}

	// Pops the last limit that was pushed on this stream. This may only be called
	// once IsDone() returns true. The user must pass the delta that was returned
	// from PushLimit().
	UPB_INLINE void upb_EpsCopyInputStream_PopLimit(upb_EpsCopyInputStream* e,
	const char* ptr,
	int saved_delta) {
	UPB_ASSERT(ptr - e->end == e->limit);
	_upb_EpsCopyInputStream_CheckLimit(e);
	e->limit += saved_delta;
	e->limit_ptr = e->end + UPB_MIN(0, e->limit);
	_upb_EpsCopyInputStream_CheckLimit(e);
	}

	UPB_INLINE const char* _upb_EpsCopyInputStream_IsDoneFallbackInline(
	upb_EpsCopyInputStream* e, const char* ptr, int overrun,
	upb_EpsCopyInputStream_BufferFlipCallback* callback) {
	if (overrun < e->limit) {
	// Need to copy remaining data into patch buffer.
	UPB_ASSERT(overrun < kUpb_EpsCopyInputStream_SlopBytes);
	const char* old_end = ptr;
	const char* new_start = &e->patch[0] + overrun;
	memset(e->patch + kUpb_EpsCopyInputStream_SlopBytes, 0,
	kUpb_EpsCopyInputStream_SlopBytes);
	memcpy(e->patch, e->end, kUpb_EpsCopyInputStream_SlopBytes);
	ptr = new_start;
	e->end = &e->patch[kUpb_EpsCopyInputStream_SlopBytes];
	e->limit -= kUpb_EpsCopyInputStream_SlopBytes;
	e->limit_ptr = e->end + e->limit;
	UPB_ASSERT(ptr < e->limit_ptr);
	e->input_delta = (uintptr_t)old_end - (uintptr_t)new_start;
	return callback(e, old_end, new_start);
	} else {
	UPB_ASSERT(overrun > e->limit);
	e->error = true;
	return callback(e, NULL, NULL);
	}
	}

	typedef const char* upb_EpsCopyInputStream_ParseDelimitedFunc(
	upb_EpsCopyInputStream* e, const char* ptr, void* ctx);

	// Tries to perform a fast-path handling of the given delimited message data.
	// If the sub-message beginning at `*ptr` and extending for `len` is short and
	// fits within this buffer, calls `func` with `ctx` as a parameter, where the
	// pushing and popping of limits is handled automatically and with lower cost
	// than the normal PushLimit()/PopLimit() sequence.
	UPB_FORCEINLINE bool upb_EpsCopyInputStream_TryParseDelimitedFast(
	upb_EpsCopyInputStream* e, const char** ptr, int len,
	upb_EpsCopyInputStream_ParseDelimitedFunc* func, void* ctx) {
	if (!upb_EpsCopyInputStream_CheckSubMessageSizeAvailable(e, *ptr, len)) {
	return false;
	}

	// Fast case: Sub-message is <128 bytes and fits in the current buffer.
	// This means we can preserve limit/limit_ptr verbatim.
	const char* saved_limit_ptr = e->limit_ptr;
	int saved_limit = e->limit;
	e->limit_ptr = *ptr + len;
	e->limit = e->limit_ptr - e->end;
	UPB_ASSERT(e->limit_ptr == e->end + UPB_MIN(0, e->limit));
	ptr = func(e, ptr, ctx);
	e->limit_ptr = saved_limit_ptr;
	e->limit = saved_limit;
	UPB_ASSERT(e->limit_ptr == e->end + UPB_MIN(0, e->limit));
	return true;
	}

	#ifdef __cplusplus
	} /* extern "C" */
	#endif

	#include "upb/port/undef.inc"

	#endif // UPB_WIRE_EPS_COPY_INPUT_STREAM_H_