net/filter/gzip_header.cc - chromium/src.git - Git at Google

 // Copyright 2014 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.

 #include "net/filter/gzip_header.h"

 #include <algorithm>

 #include "base/logging.h"
 #include "third_party/zlib/zlib.h"

 namespace net {

 const uint8_t GZipHeader::magic[] = {0x1f, 0x8b};

 GZipHeader::GZipHeader() {
   Reset();
 }

 GZipHeader::~GZipHeader() = default;

 void GZipHeader::Reset() {
   state_        = IN_HEADER_ID1;
   flags_        = 0;
   extra_length_ = 0;
 }

 GZipHeader::Status GZipHeader::ReadMore(const char* inbuf, int inbuf_len,
                                         const char** header_end) {
   DCHECK_GE(inbuf_len, 0);
   const uint8_t* pos = reinterpret_cast<const uint8_t*>(inbuf);
   const uint8_t* const end = pos + inbuf_len;

   while ( pos < end ) {
     switch ( state_ ) {
       case IN_HEADER_ID1:
         if ( *pos != magic[0] )  return INVALID_HEADER;
         pos++;
         state_++;
         break;
       case IN_HEADER_ID2:
         if ( *pos != magic[1] )  return INVALID_HEADER;
         pos++;
         state_++;
         break;
       case IN_HEADER_CM:
         if ( *pos != Z_DEFLATED )  return INVALID_HEADER;
         pos++;
         state_++;
         break;
       case IN_HEADER_FLG:
         flags_ = (*pos) & (FLAG_FHCRC | FLAG_FEXTRA |
                            FLAG_FNAME | FLAG_FCOMMENT);
         pos++;
         state_++;
         break;

       case IN_HEADER_MTIME_BYTE_0:
         pos++;
         state_++;
         break;
       case IN_HEADER_MTIME_BYTE_1:
         pos++;
         state_++;
         break;
       case IN_HEADER_MTIME_BYTE_2:
         pos++;
         state_++;
         break;
       case IN_HEADER_MTIME_BYTE_3:
         pos++;
         state_++;
         break;

       case IN_HEADER_XFL:
         pos++;
         state_++;
         break;

       case IN_HEADER_OS:
         pos++;
         state_++;
         break;

       case IN_XLEN_BYTE_0:
         if ( !(flags_ & FLAG_FEXTRA) ) {
           state_ = IN_FNAME;
           break;
         }
         // We have a two-byte little-endian length, followed by a
         // field of that length.
         extra_length_ = *pos;
         pos++;
         state_++;
         break;
       case IN_XLEN_BYTE_1:
         extra_length_ += *pos << 8;
         pos++;
         state_++;
         // We intentionally fall through, because if we have a
         // zero-length FEXTRA, we want to check to notice that we're
         // done reading the FEXTRA before we exit this loop...
         FALLTHROUGH;

       case IN_FEXTRA: {
         // Grab the rest of the bytes in the extra field, or as many
         // of them as are actually present so far.
         const uint16_t num_extra_bytes = static_cast<uint16_t>(
             std::min(static_cast<ptrdiff_t>(extra_length_), (end - pos)));
         pos += num_extra_bytes;
         extra_length_ -= num_extra_bytes;
         if ( extra_length_ == 0 ) {
           state_ = IN_FNAME;   // advance when we've seen extra_length_ bytes
           flags_ &= ~FLAG_FEXTRA;   // we're done with the FEXTRA stuff
         }
         break;
       }

       case IN_FNAME:
         if ( !(flags_ & FLAG_FNAME) ) {
           state_ = IN_FCOMMENT;
           break;
         }
         // See if we can find the end of the \0-terminated FNAME field.
         pos = reinterpret_cast<const uint8_t*>(memchr(pos, '\0', (end - pos)));
         if (pos != nullptr) {
           pos++;  // advance past the '\0'
           flags_ &= ~FLAG_FNAME;   // we're done with the FNAME stuff
           state_ = IN_FCOMMENT;
         } else {
           pos = end;  // everything we have so far is part of the FNAME
         }
         break;

       case IN_FCOMMENT:
         if ( !(flags_ & FLAG_FCOMMENT) ) {
           state_ = IN_FHCRC_BYTE_0;
           break;
         }
         // See if we can find the end of the \0-terminated FCOMMENT field.
         pos = reinterpret_cast<const uint8_t*>(memchr(pos, '\0', (end - pos)));
         if (pos != nullptr) {
           pos++;  // advance past the '\0'
           flags_ &= ~FLAG_FCOMMENT;   // we're done with the FCOMMENT stuff
           state_ = IN_FHCRC_BYTE_0;
         } else {
           pos = end;  // everything we have so far is part of the FNAME
         }
         break;

       case IN_FHCRC_BYTE_0:
         if ( !(flags_ & FLAG_FHCRC) ) {
           state_ = IN_DONE;
           break;
         }
         pos++;
         state_++;
         break;

       case IN_FHCRC_BYTE_1:
         pos++;
         flags_ &= ~FLAG_FHCRC;   // we're done with the FHCRC stuff
         state_++;
         break;

       case IN_DONE:
         *header_end = reinterpret_cast<const char*>(pos);
         return COMPLETE_HEADER;
     }
   }

   if ( (state_ > IN_HEADER_OS) && (flags_ == 0) ) {
     *header_end = reinterpret_cast<const char*>(pos);
     return COMPLETE_HEADER;
   } else {
     return INCOMPLETE_HEADER;
   }
 }

 }  // namespace net
	// Copyright 2014 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.

	#include "net/filter/gzip_header.h"

	#include <algorithm>

	#include "base/logging.h"
	#include "third_party/zlib/zlib.h"

	namespace net {

	const uint8_t GZipHeader::magic[] = {0x1f, 0x8b};

	GZipHeader::GZipHeader() {
	Reset();
	}

	GZipHeader::~GZipHeader() = default;

	void GZipHeader::Reset() {
	state_ = IN_HEADER_ID1;
	flags_ = 0;
	extra_length_ = 0;
	}

	GZipHeader::Status GZipHeader::ReadMore(const char* inbuf, int inbuf_len,
	const char** header_end) {
	DCHECK_GE(inbuf_len, 0);
	const uint8_t* pos = reinterpret_cast<const uint8_t*>(inbuf);
	const uint8_t* const end = pos + inbuf_len;

	while ( pos < end ) {
	switch ( state_ ) {
	case IN_HEADER_ID1:
	if ( *pos != magic[0] ) return INVALID_HEADER;
	pos++;
	state_++;
	break;
	case IN_HEADER_ID2:
	if ( *pos != magic[1] ) return INVALID_HEADER;
	pos++;
	state_++;
	break;
	case IN_HEADER_CM:
	if ( *pos != Z_DEFLATED ) return INVALID_HEADER;
	pos++;
	state_++;
	break;
	case IN_HEADER_FLG:
	flags_ = (*pos) & (FLAG_FHCRC \| FLAG_FEXTRA \|
	FLAG_FNAME \| FLAG_FCOMMENT);
	pos++;
	state_++;
	break;

	case IN_HEADER_MTIME_BYTE_0:
	pos++;
	state_++;
	break;
	case IN_HEADER_MTIME_BYTE_1:
	pos++;
	state_++;
	break;
	case IN_HEADER_MTIME_BYTE_2:
	pos++;
	state_++;
	break;
	case IN_HEADER_MTIME_BYTE_3:
	pos++;
	state_++;
	break;

	case IN_HEADER_XFL:
	pos++;
	state_++;
	break;

	case IN_HEADER_OS:
	pos++;
	state_++;
	break;

	case IN_XLEN_BYTE_0:
	if ( !(flags_ & FLAG_FEXTRA) ) {
	state_ = IN_FNAME;
	break;
	}
	// We have a two-byte little-endian length, followed by a
	// field of that length.
	extra_length_ = *pos;
	pos++;
	state_++;
	break;
	case IN_XLEN_BYTE_1:
	extra_length_ += *pos << 8;
	pos++;
	state_++;
	// We intentionally fall through, because if we have a
	// zero-length FEXTRA, we want to check to notice that we're
	// done reading the FEXTRA before we exit this loop...
	FALLTHROUGH;

	case IN_FEXTRA: {
	// Grab the rest of the bytes in the extra field, or as many
	// of them as are actually present so far.
	const uint16_t num_extra_bytes = static_cast<uint16_t>(
	std::min(static_cast<ptrdiff_t>(extra_length_), (end - pos)));
	pos += num_extra_bytes;
	extra_length_ -= num_extra_bytes;
	if ( extra_length_ == 0 ) {
	state_ = IN_FNAME; // advance when we've seen extra_length_ bytes
	flags_ &= ~FLAG_FEXTRA; // we're done with the FEXTRA stuff
	}
	break;
	}

	case IN_FNAME:
	if ( !(flags_ & FLAG_FNAME) ) {
	state_ = IN_FCOMMENT;
	break;
	}
	// See if we can find the end of the \0-terminated FNAME field.
	pos = reinterpret_cast<const uint8_t*>(memchr(pos, '\0', (end - pos)));
	if (pos != nullptr) {
	pos++; // advance past the '\0'
	flags_ &= ~FLAG_FNAME; // we're done with the FNAME stuff
	state_ = IN_FCOMMENT;
	} else {
	pos = end; // everything we have so far is part of the FNAME
	}
	break;

	case IN_FCOMMENT:
	if ( !(flags_ & FLAG_FCOMMENT) ) {
	state_ = IN_FHCRC_BYTE_0;
	break;
	}
	// See if we can find the end of the \0-terminated FCOMMENT field.
	pos = reinterpret_cast<const uint8_t*>(memchr(pos, '\0', (end - pos)));
	if (pos != nullptr) {
	pos++; // advance past the '\0'
	flags_ &= ~FLAG_FCOMMENT; // we're done with the FCOMMENT stuff
	state_ = IN_FHCRC_BYTE_0;
	} else {
	pos = end; // everything we have so far is part of the FNAME
	}
	break;

	case IN_FHCRC_BYTE_0:
	if ( !(flags_ & FLAG_FHCRC) ) {
	state_ = IN_DONE;
	break;
	}
	pos++;
	state_++;
	break;

	case IN_FHCRC_BYTE_1:
	pos++;
	flags_ &= ~FLAG_FHCRC; // we're done with the FHCRC stuff
	state_++;
	break;

	case IN_DONE:
	header_end = reinterpret_cast<const char>(pos);
	return COMPLETE_HEADER;
	}
	}

	if ( (state_ > IN_HEADER_OS) && (flags_ == 0) ) {
	header_end = reinterpret_cast<const char>(pos);
	return COMPLETE_HEADER;
	} else {
	return INCOMPLETE_HEADER;
	}
	}

	} // namespace net