blob: 4e6e613f470bcd52bb51875bb8c047db3069f001 [file] [log] [blame]
// Copyright 2022 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// A lightweight implementation for storing HTTP headers.
#ifndef QUICHE_BALSA_BALSA_HEADERS_H_
#define QUICHE_BALSA_BALSA_HEADERS_H_
#include <cstddef>
#include <cstring>
#include <functional>
#include <iterator>
#include <memory>
#include <optional>
#include <ostream>
#include <string>
#include <utility>
#include <vector>
#include "absl/container/flat_hash_map.h"
#include "absl/container/flat_hash_set.h"
#include "absl/memory/memory.h"
#include "absl/strings/ascii.h"
#include "absl/strings/match.h"
#include "absl/strings/string_view.h"
#include "quiche/balsa/balsa_enums.h"
#include "quiche/balsa/header_api.h"
#include "quiche/balsa/standard_header_map.h"
#include "quiche/common/platform/api/quiche_bug_tracker.h"
#include "quiche/common/platform/api/quiche_export.h"
#include "quiche/common/platform/api/quiche_logging.h"
#include "quiche/common/quiche_callbacks.h"
namespace gfe2 {
class Http2HeaderValidator;
} // namespace gfe2
namespace quiche {
namespace test {
class BalsaHeadersTestPeer;
} // namespace test
// WARNING:
// Note that -no- char* returned by any function in this
// file is null-terminated.
// This class exists to service the specific needs of BalsaHeaders.
//
// Functional goals:
// 1) provide a backing-store for all of the StringPieces that BalsaHeaders
// returns. Every StringPiece returned from BalsaHeaders should remain
// valid until the BalsaHeader's object is cleared, or the header-line is
// erased.
// 2) provide a backing-store for BalsaFrame, which requires contiguous memory
// for its fast-path parsing functions. Note that the cost of copying is
// less than the cost of requiring the parser to do slow-path parsing, as
// it would have to check for bounds every byte, instead of every 16 bytes.
//
// This class is optimized for the case where headers are stored in one of two
// buffers. It doesn't make a lot of effort to densely pack memory-- in fact,
// it -may- be somewhat memory inefficient. This possible inefficiency allows a
// certain simplicity of implementation and speed which makes it worthwhile.
// If, in the future, better memory density is required, it should be possible
// to reuse the abstraction presented by this object to achieve those goals.
//
// In the most common use-case, this memory inefficiency should be relatively
// small.
//
// Alternate implementations of BalsaBuffer may include:
// - vector of strings, one per header line (similar to HTTPHeaders)
// - densely packed strings:
// - keep a sorted array/map of free-space linked lists or numbers.
// - use the entry that most closely first your needs.
// - at this point, perhaps just use a vector of strings, and let
// the allocator do the right thing.
//
class QUICHE_EXPORT BalsaBuffer {
public:
static constexpr size_t kDefaultBlocksize = 4096;
// The BufferBlock is a structure used internally by the
// BalsaBuffer class to store the base buffer pointers to
// each block, as well as the important metadata for buffer
// sizes and bytes free. It *may* be possible to replace this
// with a vector<char>, but it's unclear whether moving a vector
// can invalidate pointers into it. LWG issue 2321 proposes to fix this.
struct QUICHE_EXPORT BufferBlock {
public:
std::unique_ptr<char[]> buffer;
size_t buffer_size = 0;
size_t bytes_free = 0;
size_t bytes_used() const { return buffer_size - bytes_free; }
char* start_of_unused_bytes() const { return buffer.get() + bytes_used(); }
BufferBlock() {}
BufferBlock(std::unique_ptr<char[]> buf, size_t size, size_t free)
: buffer(std::move(buf)), buffer_size(size), bytes_free(free) {}
BufferBlock(const BufferBlock&) = delete;
BufferBlock& operator=(const BufferBlock&) = delete;
BufferBlock(BufferBlock&&) = default;
BufferBlock& operator=(BufferBlock&&) = default;
// Note: allocating a fresh buffer even if we could reuse an old one may let
// us shed memory, and invalidates old StringPieces (making them easier to
// catch with asan).
void CopyFrom(const BufferBlock& rhs) {
QUICHE_DCHECK(this != &rhs);
buffer_size = rhs.buffer_size;
bytes_free = rhs.bytes_free;
if (rhs.buffer == nullptr) {
buffer = nullptr;
} else {
buffer = std::make_unique<char[]>(buffer_size);
memcpy(buffer.get(), rhs.buffer.get(), rhs.bytes_used());
}
}
};
typedef std::vector<BufferBlock> Blocks;
BalsaBuffer()
: blocksize_(kDefaultBlocksize), can_write_to_contiguous_buffer_(true) {}
explicit BalsaBuffer(size_t blocksize)
: blocksize_(blocksize), can_write_to_contiguous_buffer_(true) {}
BalsaBuffer(const BalsaBuffer&) = delete;
BalsaBuffer& operator=(const BalsaBuffer&) = delete;
BalsaBuffer(BalsaBuffer&&) = default;
BalsaBuffer& operator=(BalsaBuffer&&) = default;
// Returns the total amount of memory reserved by the buffer blocks.
size_t GetTotalBufferBlockSize() const {
size_t buffer_size = 0;
for (Blocks::const_iterator iter = blocks_.begin(); iter != blocks_.end();
++iter) {
buffer_size += iter->buffer_size;
}
return buffer_size;
}
// Returns the total amount of memory used by the buffer blocks.
size_t GetTotalBytesUsed() const {
size_t bytes_used = 0;
for (const auto& b : blocks_) {
bytes_used += b.bytes_used();
}
return bytes_used;
}
const char* GetPtr(Blocks::size_type block_idx) const {
QUICHE_DCHECK_LT(block_idx, blocks_.size())
<< block_idx << ", " << blocks_.size();
return block_idx >= blocks_.size() ? nullptr
: blocks_[block_idx].buffer.get();
}
char* GetPtr(Blocks::size_type block_idx) {
QUICHE_DCHECK_LT(block_idx, blocks_.size())
<< block_idx << ", " << blocks_.size();
return block_idx >= blocks_.size() ? nullptr
: blocks_[block_idx].buffer.get();
}
// This function is different from Reserve(), as it ensures that the data
// stored via subsequent calls to this function are all contiguous (and in
// the order in which these writes happened). This is essentially the same
// as a string append.
//
// You may call this function at any time between object
// construction/Clear(), and the calling of the
// NoMoreWriteToContiguousBuffer() function.
//
// You must not call this function after the NoMoreWriteToContiguousBuffer()
// function is called, unless a Clear() has been called since.
// If you do, the program will abort().
//
// This condition is placed upon this code so that calls to Reserve() can
// append to the buffer in the first block safely, and without invaliding
// the StringPiece which it returns.
//
// This function's main intended user is the BalsaFrame class, which,
// for reasons of efficiency, requires that the buffer from which it parses
// the headers be contiguous.
//
void WriteToContiguousBuffer(absl::string_view sp) {
if (sp.empty()) {
return;
}
QUICHE_CHECK(can_write_to_contiguous_buffer_);
if (blocks_.empty()) {
blocks_.push_back(AllocBlock());
}
QUICHE_DCHECK_GE(blocks_.size(), 1u);
if (blocks_[0].buffer == nullptr && sp.size() <= blocksize_) {
blocks_[0] = AllocBlock();
memcpy(blocks_[0].start_of_unused_bytes(), sp.data(), sp.size());
} else if (blocks_[0].bytes_free < sp.size()) {
// the first block isn't big enough, resize it.
const size_t old_storage_size_used = blocks_[0].bytes_used();
// Increase to at least 2*old_storage_size_used; if sp.size() is larger,
// we'll increase by that amount.
const size_t new_storage_size =
old_storage_size_used + (old_storage_size_used < sp.size()
? sp.size()
: old_storage_size_used);
std::unique_ptr<char[]> new_storage{new char[new_storage_size]};
char* old_storage = blocks_[0].buffer.get();
if (old_storage_size_used != 0u) {
memcpy(new_storage.get(), old_storage, old_storage_size_used);
}
memcpy(new_storage.get() + old_storage_size_used, sp.data(), sp.size());
blocks_[0].buffer = std::move(new_storage);
blocks_[0].bytes_free = new_storage_size - old_storage_size_used;
blocks_[0].buffer_size = new_storage_size;
} else {
memcpy(blocks_[0].start_of_unused_bytes(), sp.data(), sp.size());
}
blocks_[0].bytes_free -= sp.size();
}
void NoMoreWriteToContiguousBuffer() {
can_write_to_contiguous_buffer_ = false;
}
// Reserves "permanent" storage of the size indicated. Returns a pointer to
// the beginning of that storage, and assigns the index of the block used to
// block_buffer_idx. This function uses the first block IFF the
// NoMoreWriteToContiguousBuffer function has been called since the last
// Clear/Construction.
char* Reserve(size_t size, Blocks::size_type* block_buffer_idx) {
if (blocks_.empty()) {
blocks_.push_back(AllocBlock());
}
// There should always be a 'first_block', even if it
// contains nothing.
QUICHE_DCHECK_GE(blocks_.size(), 1u);
BufferBlock* block = nullptr;
Blocks::size_type block_idx = can_write_to_contiguous_buffer_ ? 1 : 0;
for (; block_idx < blocks_.size(); ++block_idx) {
if (blocks_[block_idx].bytes_free >= size) {
block = &blocks_[block_idx];
break;
}
}
if (block == nullptr) {
if (blocksize_ < size) {
blocks_.push_back(AllocCustomBlock(size));
} else {
blocks_.push_back(AllocBlock());
}
block = &blocks_.back();
}
char* storage = block->start_of_unused_bytes();
block->bytes_free -= size;
if (block_buffer_idx != nullptr) {
*block_buffer_idx = block_idx;
}
return storage;
}
void Clear() {
blocks_.clear();
blocks_.shrink_to_fit();
can_write_to_contiguous_buffer_ = true;
}
void CopyFrom(const BalsaBuffer& b) {
blocks_.resize(b.blocks_.size());
for (Blocks::size_type i = 0; i < blocks_.size(); ++i) {
blocks_[i].CopyFrom(b.blocks_[i]);
}
blocksize_ = b.blocksize_;
can_write_to_contiguous_buffer_ = b.can_write_to_contiguous_buffer_;
}
const char* StartOfFirstBlock() const {
QUICHE_BUG_IF(bug_if_1182_1, blocks_.empty())
<< "First block not allocated yet!";
return blocks_.empty() ? nullptr : blocks_[0].buffer.get();
}
const char* EndOfFirstBlock() const {
QUICHE_BUG_IF(bug_if_1182_2, blocks_.empty())
<< "First block not allocated yet!";
return blocks_.empty() ? nullptr : blocks_[0].start_of_unused_bytes();
}
size_t GetReadableBytesOfFirstBlock() const {
return blocks_.empty() ? 0 : blocks_[0].bytes_used();
}
bool can_write_to_contiguous_buffer() const {
return can_write_to_contiguous_buffer_;
}
size_t blocksize() const { return blocksize_; }
Blocks::size_type num_blocks() const { return blocks_.size(); }
size_t buffer_size(size_t idx) const { return blocks_[idx].buffer_size; }
size_t bytes_used(size_t idx) const { return blocks_[idx].bytes_used(); }
private:
BufferBlock AllocBlock() { return AllocCustomBlock(blocksize_); }
BufferBlock AllocCustomBlock(size_t blocksize) {
return BufferBlock{std::make_unique<char[]>(blocksize), blocksize,
blocksize};
}
// A container of BufferBlocks
Blocks blocks_;
// The default allocation size for a block.
// In general, blocksize_ bytes will be allocated for
// each buffer.
size_t blocksize_;
// If set to true, then the first block cannot be used for Reserve() calls as
// the WriteToContiguous... function will modify the base pointer for this
// block, and the Reserve() calls need to be sure that the base pointer will
// not be changing in order to provide the user with StringPieces which
// continue to be valid.
bool can_write_to_contiguous_buffer_;
};
////////////////////////////////////////////////////////////////////////////////
// All of the functions in the BalsaHeaders class use string pieces, by either
// using the StringPiece class, or giving an explicit size and char* (as these
// are the native representation for these string pieces).
// This is done for several reasons.
// 1) This minimizes copying/allocation/deallocation as compared to using
// string parameters
// 2) This reduces the number of strlen() calls done (as the length of any
// string passed in is relatively likely to be known at compile time, and for
// those strings passed back we obviate the need for a strlen() to determine
// the size of new storage allocations if a new allocation is required.
// 3) This class attempts to store all of its data in two linear buffers in
// order to enhance the speed of parsing and writing out to a buffer. As a
// result, many string pieces are -not- terminated by '\0', and are not
// c-strings. Since this is the case, we must delineate the length of the
// string explicitly via a length.
//
// WARNING: The side effect of using StringPiece is that if the underlying
// buffer changes (due to modifying the headers) the StringPieces which point
// to the data which was modified, may now contain "garbage", and should not
// be dereferenced.
// For example, If you fetch some component of the first-line, (request or
// response), and then you modify the first line, the StringPieces you
// originally received from the original first-line may no longer be valid).
//
// StringPieces pointing to pieces of header lines which have not been
// erased() or modified should be valid until the object is cleared or
// destroyed.
//
// Key comparisons are case-insensitive.
class QUICHE_EXPORT BalsaHeaders : public HeaderApi {
public:
// Each header line is parsed into a HeaderLineDescription, which maintains
// pointers into the BalsaBuffer.
//
// Succinctly describes one header line as indices into a buffer.
struct QUICHE_EXPORT HeaderLineDescription {
HeaderLineDescription(size_t first_character_index, size_t key_end_index,
size_t value_begin_index, size_t last_character_index,
size_t buffer_base_index)
: first_char_idx(first_character_index),
key_end_idx(key_end_index),
value_begin_idx(value_begin_index),
last_char_idx(last_character_index),
buffer_base_idx(buffer_base_index),
skip(false) {}
HeaderLineDescription()
: first_char_idx(0),
key_end_idx(0),
value_begin_idx(0),
last_char_idx(0),
buffer_base_idx(0),
skip(false) {}
size_t KeyLength() const {
QUICHE_DCHECK_GE(key_end_idx, first_char_idx);
return key_end_idx - first_char_idx;
}
size_t ValuesLength() const {
QUICHE_DCHECK_GE(last_char_idx, value_begin_idx);
return last_char_idx - value_begin_idx;
}
size_t first_char_idx;
size_t key_end_idx;
size_t value_begin_idx;
size_t last_char_idx;
BalsaBuffer::Blocks::size_type buffer_base_idx;
bool skip;
};
using HeaderTokenList = std::vector<absl::string_view>;
// An iterator for walking through all the header lines.
class const_header_lines_iterator;
// An iterator that only stops at lines with a particular key
// (case-insensitive). See also GetIteratorForKey.
//
// Check against header_lines_key_end() to determine when iteration is
// finished. lines().end() will also work.
class const_header_lines_key_iterator;
// A simple class that can be used in a range-based for loop.
template <typename IteratorType>
class QUICHE_EXPORT iterator_range {
public:
using iterator = IteratorType;
using const_iterator = IteratorType;
using value_type = typename std::iterator_traits<IteratorType>::value_type;
iterator_range(IteratorType begin_iterator, IteratorType end_iterator)
: begin_iterator_(std::move(begin_iterator)),
end_iterator_(std::move(end_iterator)) {}
IteratorType begin() const { return begin_iterator_; }
IteratorType end() const { return end_iterator_; }
private:
IteratorType begin_iterator_, end_iterator_;
};
// Set of names of headers that might have multiple values.
// CoalesceOption::kCoalesce can be used to match Envoy behavior in
// WriteToBuffer().
using MultivaluedHeadersSet =
absl::flat_hash_set<absl::string_view, StringPieceCaseHash,
StringPieceCaseEqual>;
// Map of key => vector<value>, where vector contains ordered list of all
// values for |key| (ignoring the casing).
using MultivaluedHeadersValuesMap =
absl::flat_hash_map<absl::string_view, std::vector<absl::string_view>,
StringPieceCaseHash, StringPieceCaseEqual>;
BalsaHeaders()
: balsa_buffer_(4096),
content_length_(0),
content_length_status_(BalsaHeadersEnums::NO_CONTENT_LENGTH),
parsed_response_code_(0),
firstline_buffer_base_idx_(0),
whitespace_1_idx_(0),
non_whitespace_1_idx_(0),
whitespace_2_idx_(0),
non_whitespace_2_idx_(0),
whitespace_3_idx_(0),
non_whitespace_3_idx_(0),
whitespace_4_idx_(0),
transfer_encoding_is_chunked_(false) {}
explicit BalsaHeaders(size_t bufsize)
: balsa_buffer_(bufsize),
content_length_(0),
content_length_status_(BalsaHeadersEnums::NO_CONTENT_LENGTH),
parsed_response_code_(0),
firstline_buffer_base_idx_(0),
whitespace_1_idx_(0),
non_whitespace_1_idx_(0),
whitespace_2_idx_(0),
non_whitespace_2_idx_(0),
whitespace_3_idx_(0),
non_whitespace_3_idx_(0),
whitespace_4_idx_(0),
transfer_encoding_is_chunked_(false) {}
// Copying BalsaHeaders is expensive, so require that it be visible.
BalsaHeaders(const BalsaHeaders&) = delete;
BalsaHeaders& operator=(const BalsaHeaders&) = delete;
BalsaHeaders(BalsaHeaders&&) = default;
BalsaHeaders& operator=(BalsaHeaders&&) = default;
// Returns a range that represents all of the header lines.
iterator_range<const_header_lines_iterator> lines() const;
// Returns an iterator range consisting of the header lines matching key.
// String backing 'key' must remain valid for lifetime of range.
iterator_range<const_header_lines_key_iterator> lines(
absl::string_view key) const;
// Returns a forward-only iterator that only stops at lines matching key.
// String backing 'key' must remain valid for lifetime of iterator.
//
// Check returned iterator against header_lines_key_end() to determine when
// iteration is finished.
//
// Consider calling lines(key)--it may be more readable.
const_header_lines_key_iterator GetIteratorForKey(
absl::string_view key) const;
const_header_lines_key_iterator header_lines_key_end() const;
void erase(const const_header_lines_iterator& it);
void Clear();
// Explicit copy functions to avoid risk of accidental copies.
BalsaHeaders Copy() const {
BalsaHeaders copy;
copy.CopyFrom(*this);
return copy;
}
void CopyFrom(const BalsaHeaders& other);
// Replaces header entries with key 'key' if they exist, or appends
// a new header if none exist. See 'AppendHeader' below for additional
// comments about ContentLength and TransferEncoding headers. Note that this
// will allocate new storage every time that it is called.
void ReplaceOrAppendHeader(absl::string_view key,
absl::string_view value) override;
// Append a new header entry to the header object. Clients who wish to append
// Content-Length header should use SetContentLength() method instead of
// adding the content length header using AppendHeader (manually adding the
// content length header will not update the content_length_ and
// content_length_status_ values).
// Similarly, clients who wish to add or remove the transfer encoding header
// in order to apply or remove chunked encoding should use
// SetTransferEncodingToChunkedAndClearContentLength() or
// SetNoTransferEncoding() instead.
void AppendHeader(absl::string_view key, absl::string_view value) override;
// Appends ',value' to an existing header named 'key'. If no header with the
// correct key exists, it will call AppendHeader(key, value). Calling this
// function on a key which exists several times in the headers will produce
// unpredictable results.
void AppendToHeader(absl::string_view key, absl::string_view value) override;
// Appends ', value' to an existing header named 'key'. If no header with the
// correct key exists, it will call AppendHeader(key, value). Calling this
// function on a key which exists several times in the headers will produce
// unpredictable results.
void AppendToHeaderWithCommaAndSpace(absl::string_view key,
absl::string_view value) override;
// Returns the value corresponding to the given header key. Returns an empty
// string if the header key does not exist. For headers that may consist of
// multiple lines, use GetAllOfHeader() instead.
// Make the QuicheLowerCaseString overload visible,
// and only override the absl::string_view one.
using HeaderApi::GetHeader;
absl::string_view GetHeader(absl::string_view key) const override;
// Iterates over all currently valid header lines, appending their
// values into the vector 'out', in top-to-bottom order.
// Header-lines which have been erased are not currently valid, and
// will not have their values appended. Empty values will be
// represented as empty string. If 'key' doesn't exist in the headers at
// all, out will not be changed. We do not clear the vector out
// before adding new entries. If there are header lines with matching
// key but empty value then they are also added to the vector out.
// (Basically empty values are not treated in any special manner).
//
// Example:
// Input header:
// "GET / HTTP/1.0\r\n"
// "key1: v1\r\n"
// "key1: \r\n"
// "key1:\r\n"
// "key1: v1\r\n"
// "key1:v2\r\n"
//
// vector out is initially: ["foo"]
// vector out after GetAllOfHeader("key1", &out) is:
// ["foo", "v1", "", "", "v1", "v2"]
//
// See gfe::header_properties::IsMultivaluedHeader() for which headers
// GFE treats as being multivalued.
// Make the QuicheLowerCaseString overload visible,
// and only override the absl::string_view one.
using HeaderApi::GetAllOfHeader;
void GetAllOfHeader(absl::string_view key,
std::vector<absl::string_view>* out) const override;
// Same as above, but iterates over all header lines including removed ones.
// Appends their values into the vector 'out' in top-to-bottom order,
// first all valid headers then all that were removed.
void GetAllOfHeaderIncludeRemoved(absl::string_view key,
std::vector<absl::string_view>* out) const;
// Joins all values for `key` into a comma-separated string.
// Make the QuicheLowerCaseString overload visible,
// and only override the absl::string_view one.
using HeaderApi::GetAllOfHeaderAsString;
std::string GetAllOfHeaderAsString(absl::string_view key) const override;
// Determine if a given header is present. Case-insensitive.
inline bool HasHeader(absl::string_view key) const override {
return GetConstHeaderLinesIterator(key) != header_lines_.end();
}
// Goes through all headers with key 'key' and checks to see if one of the
// values is 'value'. Returns true if there are headers with the desired key
// and value, false otherwise. Case-insensitive for the key; case-sensitive
// for the value.
bool HeaderHasValue(absl::string_view key,
absl::string_view value) const override {
return HeaderHasValueHelper(key, value, true);
}
// Same as above, but also case-insensitive for the value.
bool HeaderHasValueIgnoreCase(absl::string_view key,
absl::string_view value) const override {
return HeaderHasValueHelper(key, value, false);
}
// Returns true iff any header 'key' exists with non-empty value.
bool HasNonEmptyHeader(absl::string_view key) const override;
const_header_lines_iterator GetHeaderPosition(absl::string_view key) const;
// Removes all headers in given set |keys| at once efficiently. Keys
// are case insensitive.
//
// Alternatives considered:
//
// 1. Use string_hash_set<>, the caller (such as ClearHopByHopHeaders) lower
// cases the keys and RemoveAllOfHeaderInList just does lookup. This according
// to microbenchmark gives the best performance because it does not require
// an extra copy of the hash table. However, it is not taken because of the
// possible risk that caller could forget to lowercase the keys.
//
// 2. Use flat_hash_set<StringPiece, StringPieceCaseHash,StringPieceCaseEqual>
// or string_hash_set<StringPieceCaseHash, StringPieceCaseEqual>. Both appear
// to have (much) worse performance with WithoutDupToken and LongHeader case
// in microbenchmark.
void RemoveAllOfHeaderInList(const HeaderTokenList& keys) override;
void RemoveAllOfHeader(absl::string_view key) override;
// Removes all headers starting with 'key' [case insensitive]
void RemoveAllHeadersWithPrefix(absl::string_view prefix) override;
// Returns true if we have at least one header with given prefix
// [case insensitive]. Currently for test use only.
bool HasHeadersWithPrefix(absl::string_view prefix) const override;
// Returns the key value pairs for all headers where the header key begins
// with the specified prefix.
void GetAllOfHeaderWithPrefix(
absl::string_view prefix,
std::vector<std::pair<absl::string_view, absl::string_view>>* out)
const override;
void GetAllHeadersWithLimit(
std::vector<std::pair<absl::string_view, absl::string_view>>* out,
int limit) const override;
// Removes all values equal to a given value from header lines with given key.
// All string operations done here are case-sensitive.
// If a header line has only values matching the given value, the entire
// line is removed.
// If the given value is found in a multi-value header line mixed with other
// values, the line is edited in-place to remove the values.
// Returns the number of occurrences of value that were removed.
// This method runs in linear time.
size_t RemoveValue(absl::string_view key, absl::string_view value);
// Returns the upper bound on the required buffer space to fully write out
// the header object (this include the first line, all header lines, and the
// final line separator that marks the ending of the header).
size_t GetSizeForWriteBuffer() const override;
// Indicates if to serialize headers with lower-case header keys.
enum class CaseOption { kNoModification, kLowercase, kPropercase };
// Indicates if to coalesce headers with multiple values to match Envoy/GFE3.
enum class CoalesceOption { kNoCoalesce, kCoalesce };
// The following WriteHeader* methods are template member functions that
// place one requirement on the Buffer class: it must implement a Write
// method that takes a pointer and a length. The buffer passed in is not
// required to be stretchable. For non-stretchable buffers, the user must
// call GetSizeForWriteBuffer() to find out the upper bound on the output
// buffer space required to make sure that the entire header is serialized.
// BalsaHeaders will not check that there is adequate space in the buffer
// object during the write.
// Writes the entire header and the final line separator that marks the end
// of the HTTP header section to the buffer. After this method returns, no
// more header data should be written to the buffer.
template <typename Buffer>
void WriteHeaderAndEndingToBuffer(Buffer* buffer, CaseOption case_option,
CoalesceOption coalesce_option) const {
WriteToBuffer(buffer, case_option, coalesce_option);
WriteHeaderEndingToBuffer(buffer);
}
template <typename Buffer>
void WriteHeaderAndEndingToBuffer(Buffer* buffer) const {
WriteHeaderAndEndingToBuffer(buffer, CaseOption::kNoModification,
CoalesceOption::kNoCoalesce);
}
// Writes the final line separator to the buffer to terminate the HTTP header
// section. After this method returns, no more header data should be written
// to the buffer.
template <typename Buffer>
static void WriteHeaderEndingToBuffer(Buffer* buffer) {
buffer->WriteString("\r\n");
}
// Writes the entire header to the buffer without the line separator that
// terminates the HTTP header. This lets users append additional header lines
// using WriteHeaderLineToBuffer and then terminate the header with
// WriteHeaderEndingToBuffer as the header is serialized to the buffer,
// without having to first copy the header.
template <typename Buffer>
void WriteToBuffer(Buffer* buffer, CaseOption case_option,
CoalesceOption coalesce_option) const;
template <typename Buffer>
void WriteToBuffer(Buffer* buffer) const {
WriteToBuffer(buffer, CaseOption::kNoModification,
CoalesceOption::kNoCoalesce);
}
// Used by WriteToBuffer to coalesce multiple values of headers listed in
// |multivalued_headers| into a single comma-separated value. Public for test.
template <typename Buffer>
void WriteToBufferCoalescingMultivaluedHeaders(
Buffer* buffer, const MultivaluedHeadersSet& multivalued_headers,
CaseOption case_option) const;
// Populates |multivalues| with values of |header_lines_| with keys present
// in |multivalued_headers| set.
void GetValuesOfMultivaluedHeaders(
const MultivaluedHeadersSet& multivalued_headers,
MultivaluedHeadersValuesMap* multivalues) const;
static std::string ToPropercase(absl::string_view header) {
std::string copy = std::string(header);
bool should_uppercase = true;
for (char& c : copy) {
if (!absl::ascii_isalnum(c)) {
should_uppercase = true;
} else if (should_uppercase) {
c = absl::ascii_toupper(c);
should_uppercase = false;
} else {
c = absl::ascii_tolower(c);
}
}
return copy;
}
template <typename Buffer>
void WriteHeaderKeyToBuffer(Buffer* buffer, absl::string_view key,
CaseOption case_option) const {
if (case_option == CaseOption::kLowercase) {
buffer->WriteString(absl::AsciiStrToLower(key));
} else if (case_option == CaseOption::kPropercase) {
const auto& header_set = quiche::GetStandardHeaderSet();
auto it = header_set.find(key);
if (it != header_set.end()) {
buffer->WriteString(*it);
} else {
buffer->WriteString(ToPropercase(key));
}
} else {
buffer->WriteString(key);
}
}
// Takes a header line in the form of a key/value pair and append it to the
// buffer. This function should be called after WriteToBuffer to
// append additional header lines to the header without copying the header.
// When the user is done with appending to the buffer,
// WriteHeaderEndingToBuffer must be used to terminate the HTTP
// header in the buffer. This method is a no-op if key is empty.
template <typename Buffer>
void WriteHeaderLineToBuffer(Buffer* buffer, absl::string_view key,
absl::string_view value,
CaseOption case_option) const {
// If the key is empty, we don't want to write the rest because it
// will not be a well-formed header line.
if (!key.empty()) {
WriteHeaderKeyToBuffer(buffer, key, case_option);
buffer->WriteString(": ");
buffer->WriteString(value);
buffer->WriteString("\r\n");
}
}
// Takes a header line in the form of a key and vector of values and appends
// it to the buffer. This function should be called after WriteToBuffer to
// append additional header lines to the header without copying the header.
// When the user is done with appending to the buffer,
// WriteHeaderEndingToBuffer must be used to terminate the HTTP
// header in the buffer. This method is a no-op if the |key| is empty.
template <typename Buffer>
void WriteHeaderLineValuesToBuffer(
Buffer* buffer, absl::string_view key,
const std::vector<absl::string_view>& values,
CaseOption case_option) const {
// If the key is empty, we don't want to write the rest because it
// will not be a well-formed header line.
if (!key.empty()) {
WriteHeaderKeyToBuffer(buffer, key, case_option);
buffer->WriteString(": ");
for (auto it = values.begin();;) {
buffer->WriteString(*it);
if (++it == values.end()) {
break;
}
buffer->WriteString(",");
}
buffer->WriteString("\r\n");
}
}
// Dump the textural representation of the header object to a string, which
// is suitable for writing out to logs. All CRLF will be printed out as \n.
// This function can be called on a header object in any state. Raw header
// data will be printed out if the header object is not completely parsed,
// e.g., when there was an error in the middle of parsing.
// The header content is appended to the string; the original content is not
// cleared.
// If used in test cases, WillNotWriteFromFramer() may be of interest.
void DumpToString(std::string* str) const;
std::string DebugString() const override;
bool ForEachHeader(
quiche::UnretainedCallback<bool(const absl::string_view key,
const absl::string_view value)>
fn) const override;
void DumpToPrefixedString(const char* spaces, std::string* str) const;
absl::string_view first_line() const {
QUICHE_DCHECK_GE(whitespace_4_idx_, non_whitespace_1_idx_);
return whitespace_4_idx_ == non_whitespace_1_idx_
? ""
: absl::string_view(
BeginningOfFirstLine() + non_whitespace_1_idx_,
whitespace_4_idx_ - non_whitespace_1_idx_);
}
std::string first_line_of_request() const override {
return std::string(first_line());
}
// Returns the parsed value of the response code if it has been parsed.
// Guaranteed to return 0 when unparsed (though it is a much better idea to
// verify that the BalsaFrame had no errors while parsing).
// This may return response codes which are outside the normal bounds of
// HTTP response codes-- it is up to the user of this class to ensure that
// the response code is one which is interpretable.
size_t parsed_response_code() const override { return parsed_response_code_; }
absl::string_view request_method() const override {
QUICHE_DCHECK_GE(whitespace_2_idx_, non_whitespace_1_idx_);
return whitespace_2_idx_ == non_whitespace_1_idx_
? ""
: absl::string_view(
BeginningOfFirstLine() + non_whitespace_1_idx_,
whitespace_2_idx_ - non_whitespace_1_idx_);
}
absl::string_view response_version() const override {
// Note: There is no difference between request_method() and
// response_version(). They both could be called
// GetFirstTokenFromFirstline()... but that wouldn't be anywhere near as
// descriptive.
return request_method();
}
absl::string_view request_uri() const override {
QUICHE_DCHECK_GE(whitespace_3_idx_, non_whitespace_2_idx_);
return whitespace_3_idx_ == non_whitespace_2_idx_
? ""
: absl::string_view(
BeginningOfFirstLine() + non_whitespace_2_idx_,
whitespace_3_idx_ - non_whitespace_2_idx_);
}
absl::string_view response_code() const override {
// Note: There is no difference between request_uri() and response_code().
// They both could be called GetSecondtTokenFromFirstline(), but, as noted
// in an earlier comment, that wouldn't be as descriptive.
return request_uri();
}
absl::string_view request_version() const override {
QUICHE_DCHECK_GE(whitespace_4_idx_, non_whitespace_3_idx_);
return whitespace_4_idx_ == non_whitespace_3_idx_
? ""
: absl::string_view(
BeginningOfFirstLine() + non_whitespace_3_idx_,
whitespace_4_idx_ - non_whitespace_3_idx_);
}
absl::string_view response_reason_phrase() const override {
// Note: There is no difference between request_version() and
// response_reason_phrase(). They both could be called
// GetThirdTokenFromFirstline(), but, as noted in an earlier comment, that
// wouldn't be as descriptive.
return request_version();
}
void SetRequestFirstlineFromStringPieces(absl::string_view method,
absl::string_view uri,
absl::string_view version) {
SetFirstlineFromStringPieces(method, uri, version);
}
void SetResponseFirstline(absl::string_view version,
size_t parsed_response_code,
absl::string_view reason_phrase);
// These functions are exactly the same, except that their names are
// different. This is done so that the code using this class is more
// expressive.
void SetRequestMethod(absl::string_view method) override;
void SetResponseVersion(absl::string_view version) override;
void SetRequestUri(absl::string_view uri) override;
void SetResponseCode(absl::string_view code) override;
void set_parsed_response_code(size_t parsed_response_code) {
parsed_response_code_ = parsed_response_code;
}
void SetParsedResponseCodeAndUpdateFirstline(
size_t parsed_response_code) override;
// These functions are exactly the same, except that their names are
// different. This is done so that the code using this class is more
// expressive.
void SetRequestVersion(absl::string_view version) override;
void SetResponseReasonPhrase(absl::string_view reason_phrase) override;
// Simple accessors to some of the internal state
bool transfer_encoding_is_chunked() const {
return transfer_encoding_is_chunked_;
}
static bool ResponseCodeImpliesNoBody(size_t code) {
// From HTTP spec section 6.1.1 all 1xx responses must not have a body,
// as well as 204 No Content and 304 Not Modified.
return ((code >= 100) && (code <= 199)) || (code == 204) || (code == 304);
}
// Note: never check this for requests. Nothing bad will happen if you do,
// but spec does not allow requests framed by connection close.
// TODO(vitaliyl): refactor.
bool is_framed_by_connection_close() const {
// We declare that response is framed by connection close if it has no
// content-length, no transfer encoding, and is allowed to have a body by
// the HTTP spec.
// parsed_response_code_ is 0 for requests, so ResponseCodeImpliesNoBody
// will return false.
return (content_length_status_ == BalsaHeadersEnums::NO_CONTENT_LENGTH) &&
!transfer_encoding_is_chunked_ &&
!ResponseCodeImpliesNoBody(parsed_response_code_);
}
size_t content_length() const override { return content_length_; }
BalsaHeadersEnums::ContentLengthStatus content_length_status() const {
return content_length_status_;
}
bool content_length_valid() const override {
return content_length_status_ == BalsaHeadersEnums::VALID_CONTENT_LENGTH;
}
// SetContentLength, SetTransferEncodingToChunkedAndClearContentLength, and
// SetNoTransferEncoding modifies the header object to use
// content-length and transfer-encoding headers in a consistent
// manner. They set all internal flags and status so client can get
// a consistent view from various accessors.
void SetContentLength(size_t length) override;
// Sets transfer-encoding to chunked and updates internal state.
void SetTransferEncodingToChunkedAndClearContentLength() override;
// Removes transfer-encoding headers and updates internal state.
void SetNoTransferEncoding() override;
// If you have a response that needs framing by connection close, use this
// method instead of RemoveAllOfHeader("Content-Length"). Has no effect if
// transfer_encoding_is_chunked().
void ClearContentLength();
// This should be called if balsa headers are created entirely manually (not
// by any of the framer classes) to make sure that function calls like
// DumpToString will work correctly.
void WillNotWriteFromFramer() {
balsa_buffer_.NoMoreWriteToContiguousBuffer();
}
// True if DoneWritingFromFramer or WillNotWriteFromFramer is called.
bool FramerIsDoneWriting() const {
return !balsa_buffer_.can_write_to_contiguous_buffer();
}
bool IsEmpty() const override;
// From HeaderApi and ConstHeaderApi.
absl::string_view Authority() const override;
void ReplaceOrAppendAuthority(absl::string_view value) override;
void RemoveAuthority() override;
void ApplyToCookie(quiche::UnretainedCallback<void(absl::string_view cookie)>
f) const override;
void set_enforce_header_policy(bool enforce) override {
enforce_header_policy_ = enforce;
}
// Removes the last token from the header value. In the presence of multiple
// header lines with given key, will remove the last token of the last line.
// Can be useful if the last encoding has to be removed.
void RemoveLastTokenFromHeaderValue(absl::string_view key);
// Gets the list of names of headers that are multivalued in Envoy.
static const MultivaluedHeadersSet& multivalued_envoy_headers();
// Returns true if HTTP responses with this response code have bodies.
static bool ResponseCanHaveBody(int response_code);
// Given a pointer to the beginning and the end of the header value
// in some buffer, populates tokens list with beginning and end indices
// of all tokens present in the value string.
static void ParseTokenList(absl::string_view header_value,
HeaderTokenList* tokens);
private:
typedef std::vector<HeaderLineDescription> HeaderLines;
class iterator_base;
friend class BalsaFrame;
friend class gfe2::Http2HeaderValidator;
friend class SpdyPayloadFramer;
friend class HTTPMessage;
friend class test::BalsaHeadersTestPeer;
friend bool ParseHTTPFirstLine(const char* begin, const char* end,
bool is_request, BalsaHeaders* headers,
BalsaFrameEnums::ErrorCode* error_code);
// Reverse iterators have been removed for lack of use, refer to
// cl/30618773 in case they are needed.
const char* BeginningOfFirstLine() const {
return GetPtr(firstline_buffer_base_idx_);
}
char* BeginningOfFirstLine() { return GetPtr(firstline_buffer_base_idx_); }
char* GetPtr(BalsaBuffer::Blocks::size_type block_idx) {
return balsa_buffer_.GetPtr(block_idx);
}
const char* GetPtr(BalsaBuffer::Blocks::size_type block_idx) const {
return balsa_buffer_.GetPtr(block_idx);
}
void WriteFromFramer(const char* ptr, size_t size) {
balsa_buffer_.WriteToContiguousBuffer(absl::string_view(ptr, size));
}
void DoneWritingFromFramer() {
balsa_buffer_.NoMoreWriteToContiguousBuffer();
}
const char* OriginalHeaderStreamBegin() const {
return balsa_buffer_.StartOfFirstBlock();
}
const char* OriginalHeaderStreamEnd() const {
return balsa_buffer_.EndOfFirstBlock();
}
size_t GetReadableBytesFromHeaderStream() const {
return balsa_buffer_.GetReadableBytesOfFirstBlock();
}
absl::string_view GetReadablePtrFromHeaderStream() {
return {OriginalHeaderStreamBegin(), GetReadableBytesFromHeaderStream()};
}
absl::string_view GetValueFromHeaderLineDescription(
const HeaderLineDescription& line) const;
void AddAndMakeDescription(absl::string_view key, absl::string_view value,
HeaderLineDescription* d);
void AppendAndMakeDescription(absl::string_view key, absl::string_view value,
HeaderLineDescription* d);
// Removes all header lines with the given key starting at start.
void RemoveAllOfHeaderStartingAt(absl::string_view key,
HeaderLines::iterator start);
HeaderLines::const_iterator GetConstHeaderLinesIterator(
absl::string_view key) const;
HeaderLines::iterator GetHeaderLinesIterator(absl::string_view key,
HeaderLines::iterator start);
HeaderLines::iterator GetHeaderLinesIteratorForLastMultivaluedHeader(
absl::string_view key);
template <typename IteratorType>
const IteratorType HeaderLinesBeginHelper() const;
template <typename IteratorType>
const IteratorType HeaderLinesEndHelper() const;
// Helper function for HeaderHasValue and HeaderHasValueIgnoreCase that
// does most of the work.
bool HeaderHasValueHelper(absl::string_view key, absl::string_view value,
bool case_sensitive) const;
// Called by header removal methods to reset internal values for transfer
// encoding or content length if we're removing the corresponding headers.
void MaybeClearSpecialHeaderValues(absl::string_view key);
void SetFirstlineFromStringPieces(absl::string_view firstline_a,
absl::string_view firstline_b,
absl::string_view firstline_c);
BalsaBuffer balsa_buffer_;
size_t content_length_;
BalsaHeadersEnums::ContentLengthStatus content_length_status_;
size_t parsed_response_code_;
// HTTP firstlines all have the following structure:
// LWS NONWS LWS NONWS LWS NONWS NOTCRLF CRLF
// [\t \r\n]+ [^\t ]+ [\t ]+ [^\t ]+ [\t ]+ [^\t ]+ [^\r\n]+ "\r\n"
// ws1 nws1 ws2 nws2 ws3 nws3 ws4
// | [-------) [-------) [----------------)
// REQ: method request_uri version
// RESP: version statuscode reason
//
// The first NONWS->LWS component we'll call firstline_a.
// The second firstline_b, and the third firstline_c.
//
// firstline_a goes from nws1 to (but not including) ws2
// firstline_b goes from nws2 to (but not including) ws3
// firstline_c goes from nws3 to (but not including) ws4
//
// In the code:
// ws1 == whitespace_1_idx_
// nws1 == non_whitespace_1_idx_
// ws2 == whitespace_2_idx_
// nws2 == non_whitespace_2_idx_
// ws3 == whitespace_3_idx_
// nws3 == non_whitespace_3_idx_
// ws4 == whitespace_4_idx_
BalsaBuffer::Blocks::size_type firstline_buffer_base_idx_;
size_t whitespace_1_idx_;
size_t non_whitespace_1_idx_;
size_t whitespace_2_idx_;
size_t non_whitespace_2_idx_;
size_t whitespace_3_idx_;
size_t non_whitespace_3_idx_;
size_t whitespace_4_idx_;
bool transfer_encoding_is_chunked_;
// If true, QUICHE_BUG if a header that starts with an invalid prefix is
// explicitly set.
bool enforce_header_policy_ = true;
HeaderLines header_lines_;
};
// Base class for iterating the headers in a BalsaHeaders object, returning a
// pair of string_view's for each header.
class QUICHE_EXPORT BalsaHeaders::iterator_base
: public std::iterator<std::forward_iterator_tag,
std::pair<absl::string_view, absl::string_view>> {
public:
iterator_base() : headers_(nullptr), idx_(0) {}
std::pair<absl::string_view, absl::string_view>& operator*() const {
return Lookup(idx_);
}
std::pair<absl::string_view, absl::string_view>* operator->() const {
return &(this->operator*());
}
bool operator==(const BalsaHeaders::iterator_base& it) const {
return idx_ == it.idx_;
}
bool operator<(const BalsaHeaders::iterator_base& it) const {
return idx_ < it.idx_;
}
bool operator<=(const BalsaHeaders::iterator_base& it) const {
return idx_ <= it.idx_;
}
bool operator!=(const BalsaHeaders::iterator_base& it) const {
return !(*this == it);
}
bool operator>(const BalsaHeaders::iterator_base& it) const {
return it < *this;
}
bool operator>=(const BalsaHeaders::iterator_base& it) const {
return it <= *this;
}
// This mainly exists so that we can have interesting output for
// unittesting. The EXPECT_EQ, EXPECT_NE functions require that
// operator<< work for the classes it sees. It would be better if there
// was an additional traits-like system for the gUnit output... but oh
// well.
friend QUICHE_EXPORT std::ostream& operator<<(std::ostream& os,
const iterator_base& it) {
os << "[" << it.headers_ << ", " << it.idx_ << "]";
return os;
}
private:
friend class BalsaHeaders;
iterator_base(const BalsaHeaders* headers, HeaderLines::size_type index)
: headers_(headers), idx_(index) {}
void increment() {
value_.reset();
const HeaderLines& header_lines = headers_->header_lines_;
const HeaderLines::size_type header_lines_size = header_lines.size();
const HeaderLines::size_type original_idx = idx_;
do {
++idx_;
} while (idx_ < header_lines_size && header_lines[idx_].skip == true);
// The condition below exists so that ++(end() - 1) == end(), even
// if there are only 'skip == true' elements between the end() iterator
// and the end of the vector of HeaderLineDescriptions.
if (idx_ == header_lines_size) {
idx_ = original_idx + 1;
}
}
std::pair<absl::string_view, absl::string_view>& Lookup(
HeaderLines::size_type index) const {
QUICHE_DCHECK_LT(index, headers_->header_lines_.size());
if (!value_.has_value()) {
const HeaderLineDescription& line = headers_->header_lines_[index];
const char* stream_begin = headers_->GetPtr(line.buffer_base_idx);
value_ =
std::make_pair(absl::string_view(stream_begin + line.first_char_idx,
line.KeyLength()),
absl::string_view(stream_begin + line.value_begin_idx,
line.ValuesLength()));
}
return *value_;
}
const BalsaHeaders* headers_;
HeaderLines::size_type idx_;
mutable std::optional<std::pair<absl::string_view, absl::string_view>> value_;
};
// A const iterator for all the header lines.
class QUICHE_EXPORT BalsaHeaders::const_header_lines_iterator
: public BalsaHeaders::iterator_base {
public:
const_header_lines_iterator() : iterator_base() {}
const_header_lines_iterator& operator++() {
iterator_base::increment();
return *this;
}
private:
friend class BalsaHeaders;
const_header_lines_iterator(const BalsaHeaders* headers,
HeaderLines::size_type index)
: iterator_base(headers, index) {}
};
// A const iterator that stops only on header lines for a particular key.
class QUICHE_EXPORT BalsaHeaders::const_header_lines_key_iterator
: public BalsaHeaders::iterator_base {
public:
const_header_lines_key_iterator& operator++() {
do {
iterator_base::increment();
} while (!AtEnd() && !absl::EqualsIgnoreCase(key_, (**this).first));
return *this;
}
// Only forward-iteration makes sense, so no operator-- defined.
private:
friend class BalsaHeaders;
const_header_lines_key_iterator(const BalsaHeaders* headers,
HeaderLines::size_type index,
absl::string_view key)
: iterator_base(headers, index), key_(key) {}
// Should only be used for creating an end iterator.
const_header_lines_key_iterator(const BalsaHeaders* headers,
HeaderLines::size_type index)
: iterator_base(headers, index) {}
bool AtEnd() const { return *this >= headers_->lines().end(); }
absl::string_view key_;
};
inline BalsaHeaders::iterator_range<BalsaHeaders::const_header_lines_iterator>
BalsaHeaders::lines() const {
return {HeaderLinesBeginHelper<const_header_lines_iterator>(),
HeaderLinesEndHelper<const_header_lines_iterator>()};
}
inline BalsaHeaders::iterator_range<
BalsaHeaders::const_header_lines_key_iterator>
BalsaHeaders::lines(absl::string_view key) const {
return {GetIteratorForKey(key), header_lines_key_end()};
}
inline BalsaHeaders::const_header_lines_key_iterator
BalsaHeaders::header_lines_key_end() const {
return HeaderLinesEndHelper<const_header_lines_key_iterator>();
}
inline void BalsaHeaders::erase(const const_header_lines_iterator& it) {
QUICHE_DCHECK_EQ(it.headers_, this);
QUICHE_DCHECK_LT(it.idx_, header_lines_.size());
header_lines_[it.idx_].skip = true;
}
template <typename Buffer>
void BalsaHeaders::WriteToBuffer(Buffer* buffer, CaseOption case_option,
CoalesceOption coalesce_option) const {
// write the first line.
const absl::string_view firstline = first_line();
if (!firstline.empty()) {
buffer->WriteString(firstline);
}
buffer->WriteString("\r\n");
if (coalesce_option != CoalesceOption::kCoalesce) {
const HeaderLines::size_type end = header_lines_.size();
for (HeaderLines::size_type i = 0; i < end; ++i) {
const HeaderLineDescription& line = header_lines_[i];
if (line.skip) {
continue;
}
const char* line_ptr = GetPtr(line.buffer_base_idx);
WriteHeaderLineToBuffer(
buffer,
absl::string_view(line_ptr + line.first_char_idx, line.KeyLength()),
absl::string_view(line_ptr + line.value_begin_idx,
line.ValuesLength()),
case_option);
}
} else {
WriteToBufferCoalescingMultivaluedHeaders(
buffer, multivalued_envoy_headers(), case_option);
}
}
inline void BalsaHeaders::GetValuesOfMultivaluedHeaders(
const MultivaluedHeadersSet& multivalued_headers,
MultivaluedHeadersValuesMap* multivalues) const {
multivalues->reserve(header_lines_.capacity());
// Find lines that need to be coalesced and store them in |multivalues|.
for (const auto& line : header_lines_) {
if (line.skip) {
continue;
}
const char* line_ptr = GetPtr(line.buffer_base_idx);
absl::string_view header_key =
absl::string_view(line_ptr + line.first_char_idx, line.KeyLength());
// If this is multivalued header, it may need to be coalesced.
if (multivalued_headers.contains(header_key)) {
absl::string_view header_value = absl::string_view(
line_ptr + line.value_begin_idx, line.ValuesLength());
// Add |header_value| to the vector of values for this |header_key|,
// therefore preserving the order of values for the same key.
(*multivalues)[header_key].push_back(header_value);
}
}
}
template <typename Buffer>
void BalsaHeaders::WriteToBufferCoalescingMultivaluedHeaders(
Buffer* buffer, const MultivaluedHeadersSet& multivalued_headers,
CaseOption case_option) const {
MultivaluedHeadersValuesMap multivalues;
GetValuesOfMultivaluedHeaders(multivalued_headers, &multivalues);
// Write out header lines while coalescing those that need to be coalesced.
for (const auto& line : header_lines_) {
if (line.skip) {
continue;
}
const char* line_ptr = GetPtr(line.buffer_base_idx);
absl::string_view header_key =
absl::string_view(line_ptr + line.first_char_idx, line.KeyLength());
auto header_multivalue = multivalues.find(header_key);
// If current line doesn't need to be coalesced (as it is either not
// multivalue, or has just a single value so it equals to current line),
// then just write it out.
if (header_multivalue == multivalues.end() ||
header_multivalue->second.size() == 1) {
WriteHeaderLineToBuffer(buffer, header_key,
absl::string_view(line_ptr + line.value_begin_idx,
line.ValuesLength()),
case_option);
} else {
// If this line needs to be coalesced, then write all its values and clear
// them, so the subsequent same header keys will not be written.
if (!header_multivalue->second.empty()) {
WriteHeaderLineValuesToBuffer(buffer, header_key,
header_multivalue->second, case_option);
// Clear the multivalue list as it is already written out, so subsequent
// same header keys will not be written.
header_multivalue->second.clear();
}
}
}
}
template <typename IteratorType>
const IteratorType BalsaHeaders::HeaderLinesBeginHelper() const {
if (header_lines_.empty()) {
return IteratorType(this, 0);
}
const HeaderLines::size_type header_lines_size = header_lines_.size();
for (HeaderLines::size_type i = 0; i < header_lines_size; ++i) {
if (header_lines_[i].skip == false) {
return IteratorType(this, i);
}
}
return IteratorType(this, 0);
}
template <typename IteratorType>
const IteratorType BalsaHeaders::HeaderLinesEndHelper() const {
if (header_lines_.empty()) {
return IteratorType(this, 0);
}
const HeaderLines::size_type header_lines_size = header_lines_.size();
HeaderLines::size_type i = header_lines_size;
do {
--i;
if (header_lines_[i].skip == false) {
return IteratorType(this, i + 1);
}
} while (i != 0);
return IteratorType(this, 0);
}
} // namespace quiche
#endif // QUICHE_BALSA_BALSA_HEADERS_H_