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|
/* Utility functions for writing WARC files.
Copyright (C) 2011-2012, 2015, 2018-2024 Free Software Foundation,
Inc.
This file is part of GNU Wget.
GNU Wget is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or (at
your option) any later version.
GNU Wget is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Wget. If not, see <http://www.gnu.org/licenses/>.
Additional permission under GNU GPL version 3 section 7
If you modify this program, or any covered work, by linking or
combining it with the OpenSSL project's OpenSSL library (or a
modified version of that library), containing parts covered by the
terms of the OpenSSL or SSLeay licenses, the Free Software Foundation
grants you additional permission to convey the resulting work.
Corresponding Source for a non-source form of such a combination
shall include the source code for the parts of OpenSSL used as well
as that of the covered work. */
#include "wget.h"
#include "hash.h"
#include "utils.h"
#include "version.h"
#include "dirname.h"
#include "url.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <tmpdir.h>
#include <sha1.h>
#include <base32.h>
#include <unistd.h>
#ifdef HAVE_LIBZ
#include <zlib.h>
#endif
#ifdef HAVE_LIBUUID
#include <uuid/uuid.h>
#elif HAVE_UUID_CREATE
#include <uuid.h>
#endif
#include "warc.h"
#include "exits.h"
#ifdef WINDOWS
/* we need this on Windows to have O_TEMPORARY defined */
# include <fcntl.h>
# include <rpc.h>
#endif
#ifndef O_TEMPORARY
#define O_TEMPORARY 0
#endif
#include "warc.h"
#include "exits.h"
/* The log file (a temporary file that contains a copy
of the wget log). */
static FILE *warc_log_fp;
/* The manifest file (a temporary file that contains the
warcinfo uuid of every file in this crawl). */
static FILE *warc_manifest_fp;
/* The current WARC file (or NULL, if WARC is disabled). */
static FILE *warc_current_file;
#ifdef HAVE_LIBZ
/* The gzip stream for the current WARC file
(or NULL, if WARC or gzip is disabled). */
static gzFile warc_current_gzfile;
/* The offset of the current gzip record in the WARC file. */
static off_t warc_current_gzfile_offset;
/* The uncompressed size (so far) of the current record. */
static off_t warc_current_gzfile_uncompressed_size;
# endif
/* This is true until a warc_write_* method fails. */
static bool warc_write_ok;
/* The current CDX file (or NULL, if CDX is disabled). */
static FILE *warc_current_cdx_file;
/* The record id of the warcinfo record of the current WARC file. */
static char warc_current_warcinfo_uuid_str[48];
/* The file name of the current WARC file. */
static char *warc_current_filename;
/* The serial number of the current WARC file. This number is
incremented each time a new file is opened and is used in the
WARC file's filename. */
static int warc_current_file_number;
/* The table of CDX records, if deduplication is enabled. */
static struct hash_table * warc_cdx_dedup_table;
static bool warc_start_new_file (bool meta);
struct warc_cdx_record
{
char *url;
char *uuid;
char digest[SHA1_DIGEST_SIZE];
};
static unsigned long
warc_hash_sha1_digest (const void *key)
{
/* We just use some of the first bytes of the digest. */
unsigned long v = 0;
memcpy (&v, key, sizeof (unsigned long));
return v;
}
static int
warc_cmp_sha1_digest (const void *digest1, const void *digest2)
{
return !memcmp (digest1, digest2, SHA1_DIGEST_SIZE);
}
/* Writes SIZE bytes from BUFFER to the current WARC file,
through gzwrite if compression is enabled.
Returns the number of uncompressed bytes written. */
static size_t
warc_write_buffer (const char *buffer, size_t size)
{
#ifdef HAVE_LIBZ
if (warc_current_gzfile)
{
warc_current_gzfile_uncompressed_size += size;
return gzwrite (warc_current_gzfile, buffer, size);
}
else
#endif
return fwrite (buffer, 1, size, warc_current_file);
}
/* Writes STR to the current WARC file.
Returns false and set warc_write_ok to false if there
is an error. */
static bool
warc_write_string (const char *str)
{
size_t n;
if (!warc_write_ok)
return false;
n = strlen (str);
if (n != warc_write_buffer (str, n))
warc_write_ok = false;
return warc_write_ok;
}
#define EXTRA_GZIP_HEADER_SIZE 14
#define GZIP_STATIC_HEADER_SIZE 10
#define FLG_FEXTRA 0x04
#define OFF_FLG 3
/* Starts a new WARC record. Writes the version header.
If opt.warc_maxsize is set and the current file is becoming
too large, this will open a new WARC file.
If compression is enabled, this will start a new
gzip stream in the current WARC file.
Returns false and set warc_write_ok to false if there
is an error. */
static bool
warc_write_start_record (void)
{
if (!warc_write_ok)
return false;
fflush (warc_current_file);
if (opt.warc_maxsize > 0 && ftello (warc_current_file) >= opt.warc_maxsize)
warc_start_new_file (false);
#ifdef HAVE_LIBZ
/* Start a GZIP stream, if required. */
if (opt.warc_compression_enabled)
{
int dup_fd;
/* Record the starting offset of the new record. */
warc_current_gzfile_offset = ftello (warc_current_file);
/* Reserve space for the extra GZIP header field.
In warc_write_end_record we will fill this space
with information about the uncompressed and
compressed size of the record. */
if (fseek (warc_current_file, EXTRA_GZIP_HEADER_SIZE, SEEK_CUR) < 0)
{
logprintf (LOG_NOTQUIET, _("Error setting WARC file position.\n"));
warc_write_ok = false;
return false;
}
if (fflush (warc_current_file) != 0)
{
logprintf (LOG_NOTQUIET, _("Error flushing WARC file to disk.\n"));
warc_write_ok = false;
return false;
}
/* Start a new GZIP stream. */
dup_fd = dup (fileno (warc_current_file));
if (dup_fd < 0)
{
logprintf (LOG_NOTQUIET,
_("Error duplicating WARC file file descriptor.\n"));
warc_write_ok = false;
return false;
}
warc_current_gzfile = gzdopen (dup_fd, "wb9");
warc_current_gzfile_uncompressed_size = 0;
if (warc_current_gzfile == NULL)
{
logprintf (LOG_NOTQUIET,
_("Error opening GZIP stream to WARC file.\n"));
close (dup_fd);
warc_write_ok = false;
return false;
}
}
#endif
warc_write_string ("WARC/1.0\r\n");
return warc_write_ok;
}
/* Writes a WARC header to the current WARC record.
This method may be run after warc_write_start_record and
before warc_write_block_from_file. */
static bool
warc_write_header (const char *name, const char *value)
{
if (value)
{
warc_write_string (name);
warc_write_string (": ");
warc_write_string (value);
warc_write_string ("\r\n");
}
return warc_write_ok;
}
/* Writes a WARC header with a URI as value to the current WARC record.
This method may be run after warc_write_start_record and
before warc_write_block_from_file. */
static bool
warc_write_header_uri (const char *name, const char *value)
{
if (value)
{
warc_write_string (name);
warc_write_string (": <");
warc_write_string (value);
warc_write_string (">\r\n");
}
return warc_write_ok;
}
/* Copies the contents of DATA_IN to the WARC record.
Adds a Content-Length header to the WARC record.
Run this method after warc_write_header,
then run warc_write_end_record. */
static bool
warc_write_block_from_file (FILE *data_in)
{
/* Add the Content-Length header. */
char content_length[MAX_INT_TO_STRING_LEN(off_t)];
char buffer[BUFSIZ];
size_t s;
fseeko (data_in, 0L, SEEK_END);
number_to_string (content_length, ftello (data_in));
warc_write_header ("Content-Length", content_length);
/* End of the WARC header section. */
warc_write_string ("\r\n");
if (fseeko (data_in, 0L, SEEK_SET) != 0)
warc_write_ok = false;
/* Copy the data in the file to the WARC record. */
while (warc_write_ok && (s = fread (buffer, 1, BUFSIZ, data_in)) > 0)
{
if (warc_write_buffer (buffer, s) < s)
warc_write_ok = false;
}
return warc_write_ok;
}
/* Run this method to close the current WARC record.
If compression is enabled, this method closes the
current GZIP stream and fills the extra GZIP header
with the uncompressed and compressed length of the
record. */
static bool
warc_write_end_record (void)
{
if (warc_write_buffer ("\r\n\r\n", 4) != 4)
{
warc_write_ok = false;
return false;
}
#ifdef HAVE_LIBZ
/* We start a new gzip stream for each record. */
if (warc_write_ok && warc_current_gzfile)
{
char extra_header[EXTRA_GZIP_HEADER_SIZE];
char static_header[GZIP_STATIC_HEADER_SIZE];
off_t current_offset, uncompressed_size, compressed_size;
size_t result;
if (gzclose (warc_current_gzfile) != Z_OK)
{
warc_write_ok = false;
return false;
}
fflush (warc_current_file);
fseeko (warc_current_file, 0, SEEK_END);
/* The WARC standard suggests that we add 'skip length' data in the
extra header field of the GZIP stream.
In warc_write_start_record we reserved space for this extra header.
This extra space starts at warc_current_gzfile_offset and fills
EXTRA_GZIP_HEADER_SIZE bytes. The static GZIP header starts at
warc_current_gzfile_offset + EXTRA_GZIP_HEADER_SIZE.
We need to do three things:
1. Move the static GZIP header to warc_current_gzfile_offset;
2. Set the FEXTRA flag in the GZIP header;
3. Write the extra GZIP header after the static header, that is,
starting at warc_current_gzfile_offset + GZIP_STATIC_HEADER_SIZE.
*/
/* Calculate the uncompressed and compressed sizes. */
current_offset = ftello (warc_current_file);
uncompressed_size = current_offset - warc_current_gzfile_offset;
compressed_size = warc_current_gzfile_uncompressed_size;
/* Go back to the static GZIP header. */
result = fseeko (warc_current_file, warc_current_gzfile_offset
+ EXTRA_GZIP_HEADER_SIZE, SEEK_SET);
if (result != 0)
{
warc_write_ok = false;
return false;
}
/* Read the header. */
result = fread (static_header, 1, GZIP_STATIC_HEADER_SIZE,
warc_current_file);
if (result != GZIP_STATIC_HEADER_SIZE)
{
warc_write_ok = false;
return false;
}
/* Set the FEXTRA flag in the flags byte of the header. */
static_header[OFF_FLG] = static_header[OFF_FLG] | FLG_FEXTRA;
/* Write the header back to the file, but starting at
warc_current_gzfile_offset. */
fseeko (warc_current_file, warc_current_gzfile_offset, SEEK_SET);
fwrite (static_header, 1, GZIP_STATIC_HEADER_SIZE, warc_current_file);
/* Prepare the extra GZIP header. */
/* XLEN, the length of the extra header fields. */
extra_header[0] = ((EXTRA_GZIP_HEADER_SIZE - 2) & 255);
extra_header[1] = ((EXTRA_GZIP_HEADER_SIZE - 2) >> 8) & 255;
/* The extra header field identifier for the WARC skip length. */
extra_header[2] = 's';
extra_header[3] = 'l';
/* The size of the field value (8 bytes). */
extra_header[4] = (8 & 255);
extra_header[5] = ((8 >> 8) & 255);
/* The size of the uncompressed record. */
extra_header[6] = (uncompressed_size & 255);
extra_header[7] = (uncompressed_size >> 8) & 255;
extra_header[8] = (uncompressed_size >> 16) & 255;
extra_header[9] = (uncompressed_size >> 24) & 255;
/* The size of the compressed record. */
extra_header[10] = (compressed_size & 255);
extra_header[11] = (compressed_size >> 8) & 255;
extra_header[12] = (compressed_size >> 16) & 255;
extra_header[13] = (compressed_size >> 24) & 255;
/* Write the extra header after the static header. */
fseeko (warc_current_file, warc_current_gzfile_offset
+ GZIP_STATIC_HEADER_SIZE, SEEK_SET);
fwrite (extra_header, 1, EXTRA_GZIP_HEADER_SIZE, warc_current_file);
/* Done, move back to the end of the file. */
fflush (warc_current_file);
fseeko (warc_current_file, 0, SEEK_END);
}
#endif /* HAVE_LIBZ */
return warc_write_ok;
}
/* Writes the WARC-Date header for the given timestamp to
the current WARC record.
If timestamp is NULL, the current time will be used. */
static bool
warc_write_date_header (const char *timestamp)
{
char current_timestamp[21];
return warc_write_header ("WARC-Date", timestamp ? timestamp :
warc_timestamp (current_timestamp, sizeof(current_timestamp)));
}
/* Writes the WARC-IP-Address header for the given IP to
the current WARC record. If IP is NULL, no header will
be written. */
static bool
warc_write_ip_header (const ip_address *ip)
{
if (ip != NULL)
return warc_write_header ("WARC-IP-Address", print_address (ip));
else
return warc_write_ok;
}
/* warc_sha1_stream_with_payload is a modified copy of sha1_stream
from gnulib/sha1.c. This version calculates two digests in one go.
Compute SHA1 message digests for bytes read from STREAM. The
digest of the complete file will be written into the 16 bytes
beginning at RES_BLOCK.
If payload_offset >= 0, a second digest will be calculated of the
portion of the file starting at payload_offset and continuing to
the end of the file. The digest number will be written into the
16 bytes beginning ad RES_PAYLOAD. */
static int
warc_sha1_stream_with_payload (FILE *stream, void *res_block, void *res_payload,
off_t payload_offset)
{
#define BLOCKSIZE 32768
struct sha1_ctx ctx_block;
struct sha1_ctx ctx_payload;
off_t pos;
off_t sum;
char *buffer = xmalloc (BLOCKSIZE + 72);
/* Initialize the computation context. */
sha1_init_ctx (&ctx_block);
if (payload_offset >= 0)
sha1_init_ctx (&ctx_payload);
pos = 0;
/* Iterate over full file contents. */
while (1)
{
/* We read the file in blocks of BLOCKSIZE bytes. One call of the
computation function processes the whole buffer so that with the
next round of the loop another block can be read. */
off_t n;
sum = 0;
/* Read block. Take care for partial reads. */
while (1)
{
n = fread (buffer + sum, 1, BLOCKSIZE - sum, stream);
sum += n;
pos += n;
if (sum == BLOCKSIZE)
break;
if (n == 0)
{
/* Check for the error flag IF N == 0, so that we don't
exit the loop after a partial read due to e.g., EAGAIN
or EWOULDBLOCK. */
if (ferror (stream))
{
xfree (buffer);
return 1;
}
goto process_partial_block;
}
/* We've read at least one byte, so ignore errors. But always
check for EOF, since feof may be true even though N > 0.
Otherwise, we could end up calling fread after EOF. */
if (feof (stream))
goto process_partial_block;
}
/* Process buffer with BLOCKSIZE bytes. Note that
BLOCKSIZE % 64 == 0
*/
sha1_process_block (buffer, BLOCKSIZE, &ctx_block);
if (payload_offset >= 0 && payload_offset < pos)
{
/* At least part of the buffer contains data from payload. */
off_t start_of_payload = payload_offset - (pos - BLOCKSIZE);
if (start_of_payload <= 0)
/* All bytes in the buffer belong to the payload. */
start_of_payload = 0;
/* Process the payload part of the buffer.
Note: we can't use sha1_process_block here even if we
process the complete buffer. Because the payload doesn't
have to start with a full block, there may still be some
bytes left from the previous buffer. Therefore, we need
to continue with sha1_process_bytes. */
sha1_process_bytes (buffer + start_of_payload,
BLOCKSIZE - start_of_payload, &ctx_payload);
}
}
process_partial_block:;
/* Process any remaining bytes. */
if (sum > 0)
{
sha1_process_bytes (buffer, sum, &ctx_block);
if (payload_offset >= 0 && payload_offset < pos)
{
/* At least part of the buffer contains data from payload. */
off_t start_of_payload = payload_offset - (pos - sum);
if (start_of_payload <= 0)
/* All bytes in the buffer belong to the payload. */
start_of_payload = 0;
/* Process the payload part of the buffer. */
sha1_process_bytes (buffer + start_of_payload,
sum - start_of_payload, &ctx_payload);
}
}
/* Construct result in desired memory. */
sha1_finish_ctx (&ctx_block, res_block);
if (payload_offset >= 0)
sha1_finish_ctx (&ctx_payload, res_payload);
xfree (buffer);
return 0;
#undef BLOCKSIZE
}
/* Converts the SHA1 digest to a base32-encoded string.
"sha1:DIGEST\0" (Allocates a new string for the response.) */
static char *
warc_base32_sha1_digest (const char *sha1_digest, char *sha1_base32, size_t sha1_base32_size)
{
if (sha1_base32_size >= BASE32_LENGTH(SHA1_DIGEST_SIZE) + 5 + 1)
{
memcpy (sha1_base32, "sha1:", 5);
base32_encode (sha1_digest, SHA1_DIGEST_SIZE, sha1_base32 + 5,
sha1_base32_size - 5);
}
else
*sha1_base32 = 0;
return sha1_base32;
}
/* Sets the digest headers of the record.
This method will calculate the block digest and, if payload_offset >= 0,
will also calculate the payload digest of the payload starting at the
provided offset. */
static void
warc_write_digest_headers (FILE *file, long payload_offset)
{
if (opt.warc_digests_enabled)
{
/* Calculate the block and payload digests. */
char sha1_res_block[SHA1_DIGEST_SIZE];
char sha1_res_payload[SHA1_DIGEST_SIZE];
rewind (file);
if (warc_sha1_stream_with_payload (file, sha1_res_block,
sha1_res_payload, payload_offset) == 0)
{
char digest[BASE32_LENGTH(SHA1_DIGEST_SIZE) + 1 + 5];
warc_write_header ("WARC-Block-Digest",
warc_base32_sha1_digest (sha1_res_block, digest, sizeof(digest)));
if (payload_offset >= 0)
warc_write_header ("WARC-Payload-Digest",
warc_base32_sha1_digest (sha1_res_payload, digest, sizeof(digest)));
}
}
}
/* Fills timestamp with the current time and date.
The UTC time is formatted following ISO 8601, as required
for use in the WARC-Date header.
The timestamp will be 21 characters long. */
char *
warc_timestamp (char *timestamp, size_t timestamp_size)
{
time_t rawtime = time (NULL);
struct tm * timeinfo = gmtime (&rawtime);
if (strftime (timestamp, timestamp_size, "%Y-%m-%dT%H:%M:%SZ", timeinfo) == 0 && timestamp_size > 0)
*timestamp = 0;
return timestamp;
}
/* Fills urn_str with a UUID in the format required
for the WARC-Record-Id header.
The string will be 47 characters long. */
#if HAVE_LIBUUID
void
warc_uuid_str (char *urn_str, size_t urn_size)
{
char uuid_str[37];
uuid_t record_id;
uuid_generate (record_id);
uuid_unparse (record_id, uuid_str);
snprintf (urn_str, urn_size, "<urn:uuid:%s>", uuid_str);
}
#elif HAVE_UUID_CREATE
void
warc_uuid_str (char *urn_str, size_t urn_size)
{
char *uuid_str;
uuid_t record_id;
uuid_create (&record_id, NULL);
uuid_to_string (&record_id, &uuid_str, NULL);
snprintf (urn_str, urn_size, "<urn:uuid:%s>", uuid_str);
xfree (uuid_str);
}
#else
# ifdef WINDOWS
typedef RPC_STATUS (RPC_ENTRY * UuidCreate_proc) (UUID *);
typedef RPC_STATUS (RPC_ENTRY * UuidToString_proc) (UUID *, unsigned char **);
typedef RPC_STATUS (RPC_ENTRY * RpcStringFree_proc) (unsigned char **);
static int
windows_uuid_str (char *urn_str, size_t urn_size)
{
static UuidCreate_proc pfn_UuidCreate = NULL;
static UuidToString_proc pfn_UuidToString = NULL;
static RpcStringFree_proc pfn_RpcStringFree = NULL;
static int rpc_uuid_avail = -1;
/* Rpcrt4.dll is not available on older versions of Windows, so we
need to test its availability at run time. */
if (rpc_uuid_avail == -1)
{
HMODULE hm_rpcrt4 = LoadLibrary ("Rpcrt4.dll");
if (hm_rpcrt4)
{
pfn_UuidCreate =
(UuidCreate_proc) GetProcAddress (hm_rpcrt4, "UuidCreate");
pfn_UuidToString =
(UuidToString_proc) GetProcAddress (hm_rpcrt4, "UuidToStringA");
pfn_RpcStringFree =
(RpcStringFree_proc) GetProcAddress (hm_rpcrt4, "RpcStringFreeA");
if (pfn_UuidCreate && pfn_UuidToString && pfn_RpcStringFree)
rpc_uuid_avail = 1;
else
rpc_uuid_avail = 0;
}
else
rpc_uuid_avail = 0;
}
if (rpc_uuid_avail)
{
BYTE *uuid_str;
UUID uuid;
if (pfn_UuidCreate (&uuid) == RPC_S_OK)
{
if (pfn_UuidToString (&uuid, &uuid_str) == RPC_S_OK)
{
snprintf (urn_str, urn_size, "<urn:uuid:%s>", uuid_str);
pfn_RpcStringFree (&uuid_str);
return 1;
}
}
}
return 0;
}
#endif
/* Fills urn_str with a UUID based on random numbers in the format
required for the WARC-Record-Id header.
(See RFC 4122, UUID version 4.)
Note: this is a fallback method, it is much better to use the
methods provided by libuuid.
The string will be 47 characters long. */
void
warc_uuid_str (char *urn_str, size_t urn_size)
{
/* RFC 4122, a version 4 UUID with only random numbers */
unsigned char uuid_data[16];
int i;
#ifdef WINDOWS
/* If the native method fails (expected on older Windows versions),
use the fallback below. */
if (windows_uuid_str (urn_str, urn_size))
return;
#endif
for (i=0; i<16; i++)
uuid_data[i] = random_number (255);
/* Set the four most significant bits (bits 12 through 15) of the
* time_hi_and_version field to the 4-bit version number */
uuid_data[6] = (uuid_data[6] & 0x0F) | 0x40;
/* Set the two most significant bits (bits 6 and 7) of the
* clock_seq_hi_and_reserved to zero and one, respectively. */
uuid_data[8] = (uuid_data[8] & 0xBF) | 0x80;
snprintf (urn_str, urn_size,
"<urn:uuid:%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x>",
uuid_data[0], uuid_data[1], uuid_data[2], uuid_data[3], uuid_data[4],
uuid_data[5], uuid_data[6], uuid_data[7], uuid_data[8], uuid_data[9],
uuid_data[10], uuid_data[11], uuid_data[12], uuid_data[13], uuid_data[14],
uuid_data[15]);
}
#endif
/* Write a warcinfo record to the current file.
Updates warc_current_warcinfo_uuid_str. */
static bool
warc_write_warcinfo_record (const char *filename)
{
FILE *warc_tmp;
char timestamp[22];
char *filename_basename;
/* Write warc-info record as the first record of the file. */
/* We add the record id of this info record to the other records in the
file. */
warc_uuid_str (warc_current_warcinfo_uuid_str, sizeof (warc_current_warcinfo_uuid_str));
warc_timestamp (timestamp, sizeof(timestamp));
filename_basename = base_name (filename);
warc_write_start_record ();
warc_write_header ("WARC-Type", "warcinfo");
warc_write_header ("Content-Type", "application/warc-fields");
warc_write_header ("WARC-Date", timestamp);
warc_write_header ("WARC-Record-ID", warc_current_warcinfo_uuid_str);
warc_write_header ("WARC-Filename", filename_basename);
xfree (filename_basename);
/* Create content. */
warc_tmp = warc_tempfile ();
if (warc_tmp == NULL)
{
return false;
}
fprintf (warc_tmp, "software: Wget/%s (%s)\r\n", version_string, OS_TYPE);
fprintf (warc_tmp, "format: WARC File Format 1.0\r\n");
fprintf (warc_tmp,
"conformsTo: http://bibnum.bnf.fr/WARC/WARC_ISO_28500_version1_latestdraft.pdf\r\n");
fprintf (warc_tmp, "robots: %s\r\n", (opt.use_robots ? "classic" : "off"));
fprintf (warc_tmp, "wget-arguments: %s\r\n", program_argstring);
/* Add the user headers, if any. */
if (opt.warc_user_headers)
{
int i;
for (i = 0; opt.warc_user_headers[i]; i++)
fprintf (warc_tmp, "%s\r\n", opt.warc_user_headers[i]);
}
fprintf(warc_tmp, "\r\n");
warc_write_digest_headers (warc_tmp, -1);
warc_write_block_from_file (warc_tmp);
warc_write_end_record ();
if (! warc_write_ok)
logprintf (LOG_NOTQUIET, _("Error writing warcinfo record to WARC file.\n"));
fclose (warc_tmp);
return warc_write_ok;
}
/* Opens a new WARC file.
If META is true, generates a filename ending with 'meta.warc.gz'.
This method will:
1. close the current WARC file (if there is one);
2. increment warc_current_file_number;
3. open a new WARC file;
4. write the initial warcinfo record.
Returns true on success, false otherwise.
*/
static bool
warc_start_new_file (bool meta)
{
#ifdef __VMS
# define WARC_GZ "warc-gz"
#else /* def __VMS */
# define WARC_GZ "warc.gz"
#endif /* def __VMS [else] */
#ifdef HAVE_LIBZ
const char *extension = (opt.warc_compression_enabled ? WARC_GZ : "warc");
#else
const char *extension = "warc";
#endif
int base_filename_length;
char *new_filename;
if (opt.warc_filename == NULL)
return false;
if (warc_current_file != NULL)
fclose (warc_current_file);
*warc_current_warcinfo_uuid_str = 0;
xfree (warc_current_filename);
warc_current_file_number++;
base_filename_length = strlen (opt.warc_filename);
/* filename format: base + "-" + 5 digit serial number + ".warc.gz" */
new_filename = xmalloc (base_filename_length + 1 + 5 + 8 + 1);
warc_current_filename = new_filename;
/* If max size is enabled, we add a serial number to the file names. */
if (meta)
sprintf (new_filename, "%s-meta.%s", opt.warc_filename, extension);
else if (opt.warc_maxsize > 0)
{
sprintf (new_filename, "%s-%05d.%s", opt.warc_filename,
warc_current_file_number, extension);
}
else
sprintf (new_filename, "%s.%s", opt.warc_filename, extension);
logprintf (LOG_VERBOSE, _("Opening WARC file %s.\n\n"), quote (new_filename));
/* Open the WARC file. */
warc_current_file = fopen (new_filename, "wb+");
if (warc_current_file == NULL)
{
logprintf (LOG_NOTQUIET, _("Error opening WARC file %s.\n"),
quote (new_filename));
return false;
}
if (! warc_write_warcinfo_record (new_filename))
return false;
/* Add warcinfo uuid to manifest. */
if (warc_manifest_fp)
fprintf (warc_manifest_fp, "%s\n", warc_current_warcinfo_uuid_str);
return true;
}
/* Opens the CDX file for output. */
static bool
warc_start_cdx_file (void)
{
char *cdx_filename = aprintf("%s.cdx", opt.warc_filename);
warc_current_cdx_file = fopen (cdx_filename, "a+");
free(cdx_filename);
if (warc_current_cdx_file == NULL)
return false;
/* Print the CDX header.
*
* a - original url
* b - date
* m - mime type
* s - response code
* k - new style checksum
* r - redirect
* M - meta tags
* V - compressed arc file offset
* g - file name
* u - record-id
*/
fprintf (warc_current_cdx_file, " CDX a b a m s k r M V g u\n");
fflush (warc_current_cdx_file);
return true;
}
#define CDX_FIELDSEP " \t\r\n"
/* Parse the CDX header and find the field numbers of the original url,
checksum and record ID fields. */
static bool
warc_parse_cdx_header (char *lineptr, int *field_num_original_url,
int *field_num_checksum, int *field_num_record_id)
{
char *token;
char *save_ptr;
*field_num_original_url = -1;
*field_num_checksum = -1;
*field_num_record_id = -1;
token = strtok_r (lineptr, CDX_FIELDSEP, &save_ptr);
if (token != NULL && strcmp (token, "CDX") == 0)
{
int field_num = 0;
while (token != NULL)
{
token = strtok_r (NULL, CDX_FIELDSEP, &save_ptr);
if (token != NULL)
{
switch (token[0])
{
case 'a':
*field_num_original_url = field_num;
break;
case 'k':
*field_num_checksum = field_num;
break;
case 'u':
*field_num_record_id = field_num;
break;
}
}
field_num++;
}
}
return *field_num_original_url != -1
&& *field_num_checksum != -1
&& *field_num_record_id != -1;
}
/* Parse the CDX record and add it to the warc_cdx_dedup_table hash table. */
static void
warc_process_cdx_line (char *lineptr, int field_num_original_url,
int field_num_checksum, int field_num_record_id)
{
char *original_url = NULL;
char *checksum = NULL;
char *record_id = NULL;
char *token;
char *save_ptr;
int field_num = 0;
/* Read this line to get the fields we need. */
token = strtok_r (lineptr, CDX_FIELDSEP, &save_ptr);
while (token != NULL)
{
char **val;
if (field_num == field_num_original_url)
val = &original_url;
else if (field_num == field_num_checksum)
val = &checksum;
else if (field_num == field_num_record_id)
val = &record_id;
else
val = NULL;
if (val != NULL)
*val = strdup (token);
token = strtok_r (NULL, CDX_FIELDSEP, &save_ptr);
field_num++;
}
if (original_url != NULL && checksum != NULL && record_id != NULL)
{
/* For some extra efficiency, we decode the base32 encoded
checksum value. This should produce exactly SHA1_DIGEST_SIZE
bytes. */
idx_t checksum_l;
char * checksum_v;
base32_decode_alloc (checksum, strlen (checksum), &checksum_v,
&checksum_l);
xfree (checksum);
if (checksum_v != NULL && checksum_l == SHA1_DIGEST_SIZE)
{
/* This is a valid line with a valid checksum. */
struct warc_cdx_record *rec;
rec = xmalloc (sizeof (struct warc_cdx_record));
rec->url = original_url;
rec->uuid = record_id;
memcpy (rec->digest, checksum_v, SHA1_DIGEST_SIZE);
hash_table_put (warc_cdx_dedup_table, rec->digest, rec);
xfree (checksum_v);
}
else
{
xfree (original_url);
xfree (checksum_v);
xfree (record_id);
}
}
else
{
xfree(checksum);
xfree(original_url);
xfree(record_id);
}
}
/* Loads the CDX file from opt.warc_cdx_dedup_filename and fills
the warc_cdx_dedup_table. */
static bool
warc_load_cdx_dedup_file (void)
{
FILE *f;
char *lineptr = NULL;
size_t n = 0;
ssize_t line_length;
int field_num_original_url = -1;
int field_num_checksum = -1;
int field_num_record_id = -1;
f = fopen (opt.warc_cdx_dedup_filename, "r");
if (f == NULL)
return false;
/* The first line should contain the CDX header.
Format: " CDX x x x x x"
where x are field type indicators. For our purposes, we only
need 'a' (the original url), 'k' (the SHA1 checksum) and
'u' (the WARC record id). */
line_length = getline (&lineptr, &n, f);
if (line_length != -1)
warc_parse_cdx_header (lineptr, &field_num_original_url,
&field_num_checksum, &field_num_record_id);
/* If the file contains all three fields, read the complete file. */
if (field_num_original_url == -1
|| field_num_checksum == -1
|| field_num_record_id == -1)
{
if (field_num_original_url == -1)
logprintf (LOG_NOTQUIET,
_("CDX file does not list original urls. (Missing column 'a'.)\n"));
if (field_num_checksum == -1)
logprintf (LOG_NOTQUIET,
_("CDX file does not list checksums. (Missing column 'k'.)\n"));
if (field_num_record_id == -1)
logprintf (LOG_NOTQUIET,
_("CDX file does not list record ids. (Missing column 'u'.)\n"));
}
else
{
int nrecords;
/* Initialize the table. */
warc_cdx_dedup_table = hash_table_new (1000, warc_hash_sha1_digest,
warc_cmp_sha1_digest);
do
{
line_length = getline (&lineptr, &n, f);
if (line_length != -1)
{
warc_process_cdx_line (lineptr, field_num_original_url,
field_num_checksum, field_num_record_id);
}
}
while (line_length != -1);
/* Print results. */
nrecords = hash_table_count (warc_cdx_dedup_table);
logprintf (LOG_VERBOSE, ngettext ("Loaded %d record from CDX.\n\n",
"Loaded %d records from CDX.\n\n",
nrecords),
nrecords);
}
xfree (lineptr);
fclose (f);
return true;
}
#undef CDX_FIELDSEP
/* Returns the existing duplicate CDX record for the given url and payload
digest. Returns NULL if the url is not found or if the payload digest
does not match, or if CDX deduplication is disabled. */
static struct warc_cdx_record *
warc_find_duplicate_cdx_record (const char *url, char *sha1_digest_payload)
{
struct warc_cdx_record *rec_existing;
if (warc_cdx_dedup_table == NULL)
return NULL;
rec_existing = hash_table_get (warc_cdx_dedup_table, sha1_digest_payload);
if (rec_existing && strcmp (rec_existing->url, url) == 0)
return rec_existing;
else
return NULL;
}
/* Initializes the WARC writer (if opt.warc_filename is set).
This should be called before any WARC record is written. */
void
warc_init (void)
{
warc_write_ok = true;
if (opt.warc_filename != NULL)
{
if (opt.warc_cdx_dedup_filename != NULL)
{
if (! warc_load_cdx_dedup_file ())
{
logprintf (LOG_NOTQUIET,
_("Could not read CDX file %s for deduplication.\n"),
quote (opt.warc_cdx_dedup_filename));
exit (WGET_EXIT_GENERIC_ERROR);
}
}
warc_manifest_fp = warc_tempfile ();
if (warc_manifest_fp == NULL)
{
logprintf (LOG_NOTQUIET,
_("Could not open temporary WARC manifest file.\n"));
exit (WGET_EXIT_GENERIC_ERROR);
}
if (opt.warc_keep_log)
{
warc_log_fp = warc_tempfile ();
if (warc_log_fp == NULL)
{
logprintf (LOG_NOTQUIET,
_("Could not open temporary WARC log file.\n"));
exit (WGET_EXIT_GENERIC_ERROR);
}
log_set_warc_log_fp (warc_log_fp);
}
warc_current_file_number = -1;
if (! warc_start_new_file (false))
{
logprintf (LOG_NOTQUIET, _("Could not open WARC file.\n"));
exit (WGET_EXIT_GENERIC_ERROR);
}
if (opt.warc_cdx_enabled)
{
if (! warc_start_cdx_file ())
{
logprintf (LOG_NOTQUIET,
_("Could not open CDX file for output.\n"));
exit (WGET_EXIT_GENERIC_ERROR);
}
}
}
}
/* Writes metadata (manifest, configuration, log file) to the WARC file. */
static void
warc_write_metadata (void)
{
char manifest_uuid[48];
FILE *warc_tmp_fp;
/* If there are multiple WARC files, the metadata should be written to a separate file. */
if (opt.warc_maxsize > 0)
warc_start_new_file (true);
warc_uuid_str (manifest_uuid, sizeof (manifest_uuid));
fflush (warc_manifest_fp);
warc_write_metadata_record (manifest_uuid,
"metadata://gnu.org/software/wget/warc/MANIFEST.txt",
NULL, NULL, NULL, "text/plain",
warc_manifest_fp, -1);
/* warc_write_resource_record has closed warc_manifest_fp. */
warc_tmp_fp = warc_tempfile ();
if (warc_tmp_fp == NULL)
{
logprintf (LOG_NOTQUIET, _("Could not open temporary WARC file.\n"));
exit (WGET_EXIT_GENERIC_ERROR);
}
fflush (warc_tmp_fp);
fprintf (warc_tmp_fp, "%s\n", program_argstring);
warc_write_resource_record (NULL,
"metadata://gnu.org/software/wget/warc/wget_arguments.txt",
NULL, manifest_uuid, NULL, "text/plain",
warc_tmp_fp, -1);
/* warc_write_resource_record has closed warc_tmp_fp. */
if (warc_log_fp != NULL)
{
warc_write_resource_record (NULL,
"metadata://gnu.org/software/wget/warc/wget.log",
NULL, manifest_uuid, NULL, "text/plain",
warc_log_fp, -1);
/* warc_write_resource_record has closed warc_log_fp. */
warc_log_fp = NULL;
log_set_warc_log_fp (NULL);
}
}
/* Finishes the WARC writing.
This should be called at the end of the program. */
void
warc_close (void)
{
if (warc_current_file != NULL)
{
warc_write_metadata ();
*warc_current_warcinfo_uuid_str = 0;
fclose (warc_current_file);
warc_current_file = NULL;
}
if (warc_current_cdx_file != NULL)
{
fclose (warc_current_cdx_file);
warc_current_cdx_file = NULL;
}
if (warc_log_fp != NULL)
{
fclose (warc_log_fp);
log_set_warc_log_fp (NULL);
}
}
/* Creates a temporary file for writing WARC output.
The temporary file will be created in opt.warc_tempdir.
Returns the pointer to the temporary file, or NULL. */
FILE *
warc_tempfile (void)
{
char filename[100];
int fd;
if (path_search (filename, 100, opt.warc_tempdir, "wget", true) == -1)
return NULL;
#ifdef __VMS
/* 2013-07-12 SMS.
* mkostemp()+unlink()+fdopen() scheme causes trouble on VMS, so use
* mktemp() to uniquify the (VMS-style) name, and then use a normal
* fopen() with a "create temp file marked for delete" option.
*/
{
char *tfn;
tfn = mktemp (filename); /* Get unique name from template. */
if (tfn == NULL)
return NULL;
return fopen (tfn, "w+", "fop=tmd"); /* Create auto-delete temp file. */
}
#else /* def __VMS */
fd = mkostemp (filename, O_TEMPORARY);
if (fd < 0)
return NULL;
#if !O_TEMPORARY
if (unlink (filename) < 0)
{
close(fd);
return NULL;
}
#endif
return fdopen (fd, "wb+");
#endif /* def __VMS [else] */
}
/* Writes a request record to the WARC file.
url is the target uri of the request,
timestamp_str is the timestamp of the request (generated with warc_timestamp),
record_uuid is the uuid of the request (generated with warc_uuid_str),
body is a pointer to a file containing the request headers and body.
ip is the ip address of the server (or NULL),
Calling this function will close body.
Returns true on success, false on error. */
bool
warc_write_request_record (const char *url, const char *timestamp_str,
const char *record_uuid, const ip_address *ip,
FILE *body, off_t payload_offset)
{
warc_write_start_record ();
warc_write_header ("WARC-Type", "request");
warc_write_header_uri ("WARC-Target-URI", url);
warc_write_header ("Content-Type", "application/http;msgtype=request");
warc_write_date_header (timestamp_str);
warc_write_header ("WARC-Record-ID", record_uuid);
warc_write_ip_header (ip);
warc_write_header ("WARC-Warcinfo-ID", warc_current_warcinfo_uuid_str);
warc_write_digest_headers (body, payload_offset);
warc_write_block_from_file (body);
warc_write_end_record ();
fclose (body);
return warc_write_ok;
}
/* Writes a response record to the CDX file.
url is the target uri of the request/response,
timestamp_str is the timestamp of the request that generated this response,
(generated with warc_timestamp),
mime_type is the mime type of the response body (will be printed to CDX),
response_code is the HTTP response code (will be printed to CDX),
payload_digest is the sha1 digest of the payload,
redirect_location is the contents of the Location: header, or NULL (will be printed to CDX),
offset is the position of the WARC record in the WARC file,
warc_filename is the filename of the WARC,
response_uuid is the uuid of the response.
Returns true on success, false on error. */
static bool
warc_write_cdx_record (const char *url, const char *timestamp_str,
const char *mime_type, int response_code,
const char *payload_digest, const char *redirect_location,
off_t offset, const char *warc_filename _GL_UNUSED,
const char *response_uuid)
{
/* Transform the timestamp. */
char timestamp_str_cdx[15];
char offset_string[MAX_INT_TO_STRING_LEN(off_t)];
const char *checksum;
char *tmp_location = NULL;
memcpy (timestamp_str_cdx , timestamp_str , 4); /* "YYYY" "-" */
memcpy (timestamp_str_cdx + 4, timestamp_str + 5, 2); /* "mm" "-" */
memcpy (timestamp_str_cdx + 6, timestamp_str + 8, 2); /* "dd" "T" */
memcpy (timestamp_str_cdx + 8, timestamp_str + 11, 2); /* "HH" ":" */
memcpy (timestamp_str_cdx + 10, timestamp_str + 14, 2); /* "MM" ":" */
memcpy (timestamp_str_cdx + 12, timestamp_str + 17, 2); /* "SS" "Z" */
timestamp_str_cdx[14] = '\0';
/* Rewrite the checksum. */
if (payload_digest != NULL)
checksum = payload_digest + 5; /* Skip the "sha1:" */
else
checksum = "-";
if (mime_type == NULL || strlen(mime_type) == 0)
mime_type = "-";
if (redirect_location == NULL || strlen(redirect_location) == 0)
tmp_location = strdup ("-");
else
tmp_location = url_escape(redirect_location);
number_to_string (offset_string, offset);
/* Print the CDX line. */
fprintf (warc_current_cdx_file, "%s %s %s %s %d %s %s - %s %s %s\n", url,
timestamp_str_cdx, url, mime_type, response_code, checksum,
tmp_location, offset_string, warc_current_filename,
response_uuid);
fflush (warc_current_cdx_file);
free (tmp_location);
return true;
}
/* Writes a revisit record to the WARC file.
url is the target uri of the request/response,
timestamp_str is the timestamp of the request that generated this response
(generated with warc_timestamp),
concurrent_to_uuid is the uuid of the request for that generated this response
(generated with warc_uuid_str),
refers_to_uuid is the uuid of the original response
(generated with warc_uuid_str),
payload_digest is the sha1 digest of the payload,
ip is the ip address of the server (or NULL),
body is a pointer to a file containing the response headers (without payload).
Calling this function will close body.
Returns true on success, false on error. */
static bool
warc_write_revisit_record (const char *url, const char *timestamp_str,
const char *concurrent_to_uuid, const char *payload_digest,
const char *refers_to, const ip_address *ip, FILE *body)
{
char revisit_uuid [48];
char block_digest[BASE32_LENGTH(SHA1_DIGEST_SIZE) + 1 + 5];
char sha1_res_block[SHA1_DIGEST_SIZE];
warc_uuid_str (revisit_uuid, sizeof (revisit_uuid));
sha1_stream (body, sha1_res_block);
warc_base32_sha1_digest (sha1_res_block, block_digest, sizeof(block_digest));
warc_write_start_record ();
warc_write_header ("WARC-Type", "revisit");
warc_write_header ("WARC-Record-ID", revisit_uuid);
warc_write_header ("WARC-Warcinfo-ID", warc_current_warcinfo_uuid_str);
warc_write_header ("WARC-Concurrent-To", concurrent_to_uuid);
warc_write_header ("WARC-Refers-To", refers_to);
warc_write_header ("WARC-Profile", "http://netpreserve.org/warc/1.0/revisit/identical-payload-digest");
warc_write_header ("WARC-Truncated", "length");
warc_write_header_uri ("WARC-Target-URI", url);
warc_write_date_header (timestamp_str);
warc_write_ip_header (ip);
warc_write_header ("Content-Type", "application/http;msgtype=response");
warc_write_header ("WARC-Block-Digest", block_digest);
warc_write_header ("WARC-Payload-Digest", payload_digest);
warc_write_block_from_file (body);
warc_write_end_record ();
fclose (body);
return warc_write_ok;
}
/* Writes a response record to the WARC file.
url is the target uri of the request/response,
timestamp_str is the timestamp of the request that generated this response
(generated with warc_timestamp),
concurrent_to_uuid is the uuid of the request for that generated this response
(generated with warc_uuid_str),
ip is the ip address of the server (or NULL),
body is a pointer to a file containing the response headers and body.
mime_type is the mime type of the response body (will be printed to CDX),
response_code is the HTTP response code (will be printed to CDX),
redirect_location is the contents of the Location: header, or NULL (will be printed to CDX),
Calling this function will close body.
Returns true on success, false on error. */
bool
warc_write_response_record (const char *url, const char *timestamp_str,
const char *concurrent_to_uuid, const ip_address *ip,
FILE *body, off_t payload_offset, const char *mime_type,
int response_code, const char *redirect_location)
{
char block_digest[BASE32_LENGTH(SHA1_DIGEST_SIZE) + 1 + 5];
char payload_digest[BASE32_LENGTH(SHA1_DIGEST_SIZE) + 1 + 5];
char sha1_res_block[SHA1_DIGEST_SIZE];
char sha1_res_payload[SHA1_DIGEST_SIZE];
char response_uuid [48];
off_t offset;
if (opt.warc_digests_enabled)
{
/* Calculate the block and payload digests. */
rewind (body);
if (warc_sha1_stream_with_payload (body, sha1_res_block, sha1_res_payload,
payload_offset) == 0)
{
/* Decide (based on url + payload digest) if we have seen this
data before. */
struct warc_cdx_record *rec_existing;
rec_existing = warc_find_duplicate_cdx_record (url, sha1_res_payload);
if (rec_existing != NULL)
{
bool result;
/* Found an existing record. */
logprintf (LOG_VERBOSE,
_("Found exact match in CDX file. Saving revisit record to WARC.\n"));
/* Remove the payload from the file. */
if (payload_offset > 0)
{
if (ftruncate (fileno (body), payload_offset) == -1)
return false;
}
/* Send the original payload digest. */
warc_base32_sha1_digest (sha1_res_payload, payload_digest, sizeof(payload_digest));
result = warc_write_revisit_record (url, timestamp_str,
concurrent_to_uuid, payload_digest, rec_existing->uuid,
ip, body);
return result;
}
warc_base32_sha1_digest (sha1_res_block, block_digest, sizeof(block_digest));
warc_base32_sha1_digest (sha1_res_payload, payload_digest, sizeof(payload_digest));
}
}
/* Not a revisit, just store the record. */
warc_uuid_str (response_uuid, sizeof (response_uuid));
fseeko (warc_current_file, 0L, SEEK_END);
offset = ftello (warc_current_file);
warc_write_start_record ();
warc_write_header ("WARC-Type", "response");
warc_write_header ("WARC-Record-ID", response_uuid);
warc_write_header ("WARC-Warcinfo-ID", warc_current_warcinfo_uuid_str);
warc_write_header ("WARC-Concurrent-To", concurrent_to_uuid);
warc_write_header_uri ("WARC-Target-URI", url);
warc_write_date_header (timestamp_str);
warc_write_ip_header (ip);
warc_write_header ("WARC-Block-Digest", block_digest);
warc_write_header ("WARC-Payload-Digest", payload_digest);
warc_write_header ("Content-Type", "application/http;msgtype=response");
warc_write_block_from_file (body);
warc_write_end_record ();
fclose (body);
if (warc_write_ok && opt.warc_cdx_enabled)
{
/* Add this record to the CDX. */
warc_write_cdx_record (url, timestamp_str, mime_type, response_code,
payload_digest, redirect_location, offset, warc_current_filename,
response_uuid);
}
return warc_write_ok;
}
/* Writes a resource or metadata record to the WARC file.
warc_type is either "resource" or "metadata",
resource_uuid is the uuid of the resource (or NULL),
url is the target uri of the resource,
timestamp_str is the timestamp (generated with warc_timestamp),
concurrent_to_uuid is the uuid of the record that generated this,
resource (generated with warc_uuid_str) or NULL,
ip is the ip address of the server (or NULL),
content_type is the mime type of the body (or NULL),
body is a pointer to a file containing the resource data.
Calling this function will close body.
Returns true on success, false on error. */
static bool
warc_write_record (const char *record_type, const char *resource_uuid,
const char *url, const char *timestamp_str,
const char *concurrent_to_uuid,
const ip_address *ip, const char *content_type, FILE *body,
off_t payload_offset)
{
char uuid_buf[48];
if (resource_uuid == NULL)
{
warc_uuid_str (uuid_buf, sizeof (uuid_buf));
resource_uuid = uuid_buf;
}
if (content_type == NULL)
content_type = "application/octet-stream";
warc_write_start_record ();
warc_write_header ("WARC-Type", record_type);
warc_write_header ("WARC-Record-ID", resource_uuid);
warc_write_header ("WARC-Warcinfo-ID", warc_current_warcinfo_uuid_str);
warc_write_header ("WARC-Concurrent-To", concurrent_to_uuid);
warc_write_header_uri ("WARC-Target-URI", url);
warc_write_date_header (timestamp_str);
warc_write_ip_header (ip);
warc_write_digest_headers (body, payload_offset);
warc_write_header ("Content-Type", content_type);
warc_write_block_from_file (body);
warc_write_end_record ();
fclose (body);
return warc_write_ok;
}
/* Writes a resource record to the WARC file.
resource_uuid is the uuid of the resource (or NULL),
url is the target uri of the resource,
timestamp_str is the timestamp (generated with warc_timestamp),
concurrent_to_uuid is the uuid of the record that generated this,
resource (generated with warc_uuid_str) or NULL,
ip is the ip address of the server (or NULL),
content_type is the mime type of the body (or NULL),
body is a pointer to a file containing the resource data.
Calling this function will close body.
Returns true on success, false on error. */
bool
warc_write_resource_record (const char *resource_uuid, const char *url,
const char *timestamp_str, const char *concurrent_to_uuid,
const ip_address *ip, const char *content_type, FILE *body,
off_t payload_offset)
{
return warc_write_record ("resource",
resource_uuid, url, timestamp_str, concurrent_to_uuid,
ip, content_type, body, payload_offset);
}
/* Writes a metadata record to the WARC file.
record_uuid is the uuid of the record (or NULL),
url is the target uri of the record,
timestamp_str is the timestamp (generated with warc_timestamp),
concurrent_to_uuid is the uuid of the record that generated this,
record (generated with warc_uuid_str) or NULL,
ip is the ip address of the server (or NULL),
content_type is the mime type of the body (or NULL),
body is a pointer to a file containing the record data.
Calling this function will close body.
Returns true on success, false on error. */
bool
warc_write_metadata_record (const char *record_uuid, const char *url,
const char *timestamp_str, const char *concurrent_to_uuid,
ip_address *ip, const char *content_type, FILE *body,
off_t payload_offset)
{
return warc_write_record ("metadata",
record_uuid, url, timestamp_str, concurrent_to_uuid,
ip, content_type, body, payload_offset);
}
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