/* Manage different file formats HTFormat.c
** =============================
**
** Bugs:
** Not reentrant.
**
** Assumes the incoming stream is ASCII, rather than a local file
** format, and so ALWAYS converts from ASCII on non-ASCII machines.
** Therefore, non-ASCII machines can't read local files.
**
*/
#include "HTUtils.h"
#include "tcp.h"
#include "HTAccess.h"
/* Implements:
*/
#include "HTFormat.h"
PUBLIC float HTMaxSecs = 1e10; /* No effective limit */
PUBLIC float HTMaxLength = 1e10; /* No effective limit */
PUBLIC long int HTMaxBytes = 0; /* No effective limit */
#ifdef unix
#ifdef NeXT
#define PRESENT_POSTSCRIPT "open %s; /bin/rm -f %s\n"
#else
#define PRESENT_POSTSCRIPT "(ghostview %s ; /bin/rm -f %s)&\n"
/* Full pathname would be better! */
#endif /* NeXT */
#endif /* unix */
#include "HTML.h"
#include "HTMLDTD.h"
#include "HText.h"
#include "HTAlert.h"
#include "HTList.h"
#include "HTInit.h"
#include "HTTCP.h"
/* Streams and structured streams which we use:
*/
#include "HTFWriter.h"
#include "HTPlain.h"
#include "SGML.h"
#include "HTML.h"
#include "HTMLGen.h"
#include "LYexit.h"
#include "LYUtils.h"
#include "LYGlobalDefs.h"
#include "LYLeaks.h"
#define FREE(x) if (x) {free(x); x = NULL;}
extern int HTCheckForInterrupt NOPARAMS;
PUBLIC BOOL HTOutputSource = NO; /* Flag: shortcut parser to stdout */
/* extern BOOL interactive; LJM */
#ifdef ORIGINAL
struct _HTStream {
CONST HTStreamClass* isa;
/* ... */
};
#endif /* ORIGINAL */
/* this version used by the NetToText stream */
struct _HTStream {
CONST HTStreamClass * isa;
BOOL had_cr;
HTStream * sink;
};
/* Presentation methods
** --------------------
*/
PUBLIC HTList * HTPresentations = NULL;
PUBLIC HTPresentation * default_presentation = NULL;
/*
* To free off the presentation list.
*/
PRIVATE void HTFreePresentations NOPARAMS;
/* Define a presentation system command for a content-type
** -------------------------------------------------------
*/
PUBLIC void HTSetPresentation ARGS6(
CONST char *, representation,
CONST char *, command,
float, quality,
float, secs,
float, secs_per_byte,
long int, maxbytes)
{
HTPresentation * pres = (HTPresentation *)malloc(sizeof(HTPresentation));
if (pres == NULL)
outofmem(__FILE__, "HTSetPresentation");
pres->rep = HTAtom_for(representation);
pres->rep_out = WWW_PRESENT; /* Fixed for now ... :-) */
pres->converter = HTSaveAndExecute; /* Fixed for now ... */
pres->quality = quality;
pres->secs = secs;
pres->secs_per_byte = secs_per_byte;
pres->maxbytes = maxbytes;
pres->command = NULL;
StrAllocCopy(pres->command, command);
/*
* Memory leak fixed.
* 05-28-94 Lynx 2-3-1 Garrett Arch Blythe
*/
if (!HTPresentations) {
HTPresentations = HTList_new();
atexit(HTFreePresentations);
}
if (strcmp(representation, "*")==0) {
FREE(default_presentation);
default_presentation = pres;
} else {
HTList_addObject(HTPresentations, pres);
}
}
/* Define a built-in function for a content-type
** ---------------------------------------------
*/
PUBLIC void HTSetConversion ARGS7(
CONST char *, representation_in,
CONST char *, representation_out,
HTConverter*, converter,
float, quality,
float, secs,
float, secs_per_byte,
long int, maxbytes)
{
HTPresentation * pres = (HTPresentation *)malloc(sizeof(HTPresentation));
if (pres == NULL)
outofmem(__FILE__, "HTSetConversion");
pres->rep = HTAtom_for(representation_in);
pres->rep_out = HTAtom_for(representation_out);
pres->converter = converter;
pres->command = NULL; /* Fixed */
pres->quality = quality;
pres->secs = secs;
pres->secs_per_byte = secs_per_byte;
pres->maxbytes = maxbytes;
pres->command = NULL;
/*
* Memory Leak fixed.
* 05-28-94 Lynx 2-3-1 Garrett Arch Blythe
*/
if (!HTPresentations) {
HTPresentations = HTList_new();
atexit(HTFreePresentations);
}
HTList_addObject(HTPresentations, pres);
}
/*
** Purpose: Free the presentation list.
** Arguments: void
** Return Value: void
** Remarks/Portability/Dependencies/Restrictions:
** Made to clean up Lynx's bad leakage.
** Revision History:
** 05-28-94 created Lynx 2-3-1 Garrett Arch Blythe
*/
PRIVATE void HTFreePresentations NOARGS
{
HTPresentation * pres = NULL;
/*
* Loop through the list.
*/
while (!HTList_isEmpty(HTPresentations)) {
/*
* Free off each item.
* May also need to free off it's items, but not sure
* as of yet.
*/
pres = (HTPresentation *)HTList_removeLastObject(HTPresentations);
FREE(pres->command);
FREE(pres);
}
/*
* Free the list itself.
*/
HTList_delete(HTPresentations);
HTPresentations = NULL;
}
/* File buffering
** --------------
**
** The input file is read using the macro which can read from
** a socket or a file.
** The input buffer size, if large will give greater efficiency and
** release the server faster, and if small will save space on PCs etc.
*/
#define INPUT_BUFFER_SIZE 4096 /* Tradeoff */
PRIVATE char input_buffer[INPUT_BUFFER_SIZE];
PRIVATE char * input_pointer;
PRIVATE char * input_limit;
PRIVATE int input_file_number;
/* Set up the buffering
**
** These routines are public because they are in fact needed by
** many parsers, and on PCs and Macs we should not duplicate
** the static buffer area.
*/
PUBLIC void HTInitInput ARGS1 (int,file_number)
{
input_file_number = file_number;
input_pointer = input_limit = input_buffer;
}
PUBLIC int interrupted_in_htgetcharacter = 0;
PUBLIC char HTGetCharacter NOARGS
{
char ch;
interrupted_in_htgetcharacter = 0;
do {
if (input_pointer >= input_limit) {
int status = NETREAD(input_file_number,
input_buffer, INPUT_BUFFER_SIZE);
if (status <= 0) {
if (status == 0)
return (char)EOF;
if (status == HT_INTERRUPTED) {
if (TRACE)
fprintf(stderr,
"HTFormat: Interrupted in HTGetCharacter\n");
interrupted_in_htgetcharacter = 1;
return (char)EOF;
}
if (TRACE)
fprintf(stderr, "HTFormat: File read error %d\n", status);
return (char)EOF; /* -1 is returned by UCX
at end of HTTP link */
}
input_pointer = input_buffer;
input_limit = input_buffer + status;
}
ch = *input_pointer++;
} while (ch == (char) 13); /* Ignore ASCII carriage return */
return FROMASCII(ch);
}
/* Match maintype to any MIME type starting with maintype,
* for example: image/gif should match image
*/
PRIVATE int half_match ARGS2(char *,trial_type, char *,target)
{
char *cp=strchr(trial_type,'/');
/* if no '/' or no '*' */
if (!cp || *(cp+1) != '*')
return 0;
if (TRACE)
fprintf(stderr,"HTFormat: comparing %s and %s for half match\n",
trial_type, target);
/* main type matches */
if (!strncmp(trial_type, target, (cp-trial_type)-1))
return 1;
return 0;
}
/* Look up a presentation
** ----------------------
**
** If fill_in is NULL, only look for an exact match.
** If a wildcard match is made, *fill_in is used to store
** a possibly modified presentation, and a pointer to it is
** returned. For an exact match, a pointer to the presentation
** in the HTPresentations list is returned. Returns NULL if
** nothing found. - kw
**
*/
PRIVATE HTPresentation * HTFindPresentation ARGS3(
HTFormat, rep_in,
HTFormat, rep_out,
HTPresentation*, fill_in)
{
HTAtom * wildcard = HTAtom_for("*");
if (TRACE)
fprintf(stderr,
"HTFormat: Looking up presentation for %s to %s\n",
HTAtom_name(rep_in), HTAtom_name(rep_out));
/* don't do anymore do it in the Lynx code at startup LJM */
/* if (!HTPresentations) HTFormatInit(); */ /* set up the list */
{
int n = HTList_count(HTPresentations);
int i;
HTPresentation * pres, *match,
*strong_wildcard_match=0,
*weak_wildcard_match=0,
*last_default_match=0,
*strong_subtype_wildcard_match=0;
for (i = 0; i < n; i++) {
pres = (HTPresentation *)HTList_objectAt(HTPresentations, i);
if (pres->rep == rep_in) {
if (pres->rep_out == rep_out) {
if (TRACE)
fprintf(stderr,
"FindPresentation: found exact match: %s\n",
HTAtom_name(pres->rep));
return pres;
} else if (!fill_in) {
continue;
} else if (pres->rep_out == wildcard) {
if (!strong_wildcard_match)
strong_wildcard_match = pres;
/* otherwise use the first one */
if (TRACE)
fprintf(stderr,
"StreamStack: found strong wildcard match: %s\n",
HTAtom_name(pres->rep));
}
} else if (!fill_in) {
continue;
} else if (half_match(HTAtom_name(pres->rep),
HTAtom_name(rep_in))) {
if (pres->rep_out == rep_out) {
if (!strong_subtype_wildcard_match)
strong_subtype_wildcard_match = pres;
/* otherwise use the first one */
if (TRACE)
fprintf(stderr,
"StreamStack: found strong subtype wildcard match: %s\n",
HTAtom_name(pres->rep));
}
}
if (pres->rep == WWW_SOURCE) {
if (pres->rep_out == rep_out) {
if (!weak_wildcard_match)
weak_wildcard_match = pres;
/* otherwise use the first one */
if (TRACE)
fprintf(stderr,
"StreamStack: found weak wildcard match: %s\n",
HTAtom_name(pres->rep_out));
}
if (pres->rep_out == wildcard) {
if (!last_default_match)
last_default_match = pres;
/* otherwise use the first one */
}
}
}
match = strong_subtype_wildcard_match ? strong_subtype_wildcard_match :
strong_wildcard_match ? strong_wildcard_match :
weak_wildcard_match ? weak_wildcard_match :
last_default_match;
if (match) {
*fill_in = *match; /* Specific instance */
fill_in->rep = rep_in; /* yuk */
fill_in->rep_out = rep_out; /* yuk */
return fill_in;
}
}
return NULL;
}
/* Create a filter stack
** ---------------------
**
** If a wildcard match is made, a temporary HTPresentation
** structure is made to hold the destination format while the
** new stack is generated. This is just to pass the out format to
** MIME so far. Storing the format of a stream in the stream might
** be a lot neater.
**
*/
PUBLIC HTStream * HTStreamStack ARGS4(
HTFormat, rep_in,
HTFormat, rep_out,
HTStream*, sink,
HTParentAnchor*, anchor)
{
HTPresentation temp;
HTPresentation *match;
if (TRACE)
fprintf(stderr,
"HTFormat: Constructing stream stack for %s to %s\n",
HTAtom_name(rep_in), HTAtom_name(rep_out));
/* don't return on WWW_SOURCE some people might like
* to make use of the source!!!! LJM
*//*
if (rep_out == WWW_SOURCE || rep_out == rep_in)
return sink; LJM */
if (rep_out == rep_in)
return sink;
if ((match = HTFindPresentation(rep_in, rep_out, &temp))) {
if (match == &temp) {
if (TRACE)
fprintf(stderr,
"StreamStack: Using %s\n", HTAtom_name(temp.rep_out));
} else {
if (TRACE)
fprintf(stderr,
"StreamStack: found exact match: %s\n",
HTAtom_name(match->rep));
}
return (*match->converter)(match, anchor, sink);
} else {
return NULL;
}
}
/* Put a presentation near start of list
** -------------------------------------
**
** Look up a presentation (exact match only) and, if found, reorder
** it to the start of the HTPresentations list. - kw
*/
PUBLIC void HTReorderPresentation ARGS2(
HTFormat, rep_in,
HTFormat, rep_out)
{
HTPresentation *match;
if ((match = HTFindPresentation(rep_in, rep_out, NULL))) {
HTList_removeObject(HTPresentations, match);
HTList_addObject(HTPresentations, match);
}
}
/* Find the cost of a filter stack
** -------------------------------
**
** Must return the cost of the same stack which StreamStack would set up.
**
** On entry,
** length The size of the data to be converted
*/
PUBLIC float HTStackValue ARGS4(
HTFormat, rep_in,
HTFormat, rep_out,
float, initial_value,
long int, length)
{
HTAtom * wildcard = HTAtom_for("*");
if (TRACE)
fprintf(stderr,
"HTFormat: Evaluating stream stack for %s worth %.3f to %s\n",
HTAtom_name(rep_in), initial_value, HTAtom_name(rep_out));
if (rep_out == WWW_SOURCE || rep_out == rep_in)
return 0.0;
/* don't do anymore do it in the Lynx code at startup LJM */
/* if (!HTPresentations) HTFormatInit(); */ /* set up the list */
{
int n = HTList_count(HTPresentations);
int i;
HTPresentation * pres;
for (i = 0; i < n; i++) {
pres = (HTPresentation *)HTList_objectAt(HTPresentations, i);
if (pres->rep == rep_in &&
(pres->rep_out == rep_out || pres->rep_out == wildcard)) {
float value = initial_value * pres->quality;
if (HTMaxSecs != 0.0)
value = value - (length*pres->secs_per_byte + pres->secs)
/HTMaxSecs;
return value;
}
}
}
return -1e30; /* Really bad */
}
/* Push data from a socket down a stream
** -------------------------------------
**
** This routine is responsible for creating and PRESENTING any
** graphic (or other) objects described by the file.
**
** The file number given is assumed to be a TELNET stream ie containing
** CRLF at the end of lines which need to be stripped to LF for unix
** when the format is textual.
**
*/
PUBLIC int HTCopy ARGS4(
HTParentAnchor *, anchor,
int, file_number,
void*, handle,
HTStream*, sink)
{
HTStreamClass targetClass;
char line[256];
int bytes = 0;
int rv = 0;
/* Push the data down the stream
*/
targetClass = *(sink->isa); /* Copy pointers to procedures */
/* Push binary from socket down sink
**
** This operation could be put into a main event loop
*/
for (;;) {
int status;
if (LYCancelDownload) {
LYCancelDownload = FALSE;
(*targetClass._abort)(sink, NULL);
rv = -1;
goto finished;
}
if (HTCheckForInterrupt()) {
_HTProgress ("Data transfer interrupted.");
(*targetClass._abort)(sink, NULL);
if (bytes)
rv = HT_INTERRUPTED;
else
rv = -1;
goto finished;
}
status = NETREAD(file_number, input_buffer, INPUT_BUFFER_SIZE);
if (status <= 0) {
if (status == 0) {
break;
} else if (status == HT_INTERRUPTED) {
_HTProgress ("Data transfer interrupted.");
(*targetClass._abort)(sink, NULL);
if (bytes)
rv = HT_INTERRUPTED;
else
rv = -1;
goto finished;
} else if (SOCKET_ERRNO == ENOTCONN ||
SOCKET_ERRNO == ECONNRESET ||
SOCKET_ERRNO == EPIPE) {
/*
* Arrrrgh, HTTP 0/1 compability problem, maybe.
*/
if (bytes <= 0) {
/*
* Don't have any data, so let the calling
* function decide what to do about it. - FM
*/
rv = -2;
goto finished;
} else {
/*
* Treat what we've gotten already
* as the complete transmission. - FM
*/
if (TRACE)
fprintf(stderr,
"HTCopy: Unexpected server disconnect. Treating as completed.\n");
status = 0;
break;
}
}
break;
}
#ifdef NOT_ASCII
{
char * p;
for (p = input_buffer; p < input_buffer+status; p++) {
*p = FROMASCII(*p);
}
}
#endif /* NOT_ASCII */
(*targetClass.put_block)(sink, input_buffer, status);
bytes += status;
if (anchor && anchor->content_length > 0)
sprintf(line, "Read %d of %d bytes of data.",
bytes, anchor->content_length);
else
sprintf(line, "Read %d bytes of data.", bytes);
HTProgress(line);
} /* next bufferload */
_HTProgress("Data transfer complete");
(void)NETCLOSE(file_number);
rv = HT_LOADED;
finished:
return(rv);
}
/* Push data from a file pointer down a stream
** -------------------------------------
**
** This routine is responsible for creating and PRESENTING any
** graphic (or other) objects described by the file.
**
**
*/
PUBLIC int HTFileCopy ARGS2(
FILE *, fp,
HTStream*, sink)
{
HTStreamClass targetClass;
char line[256];
int status, bytes = 0, nreads = 0, nprogr = 0;
int rv = HT_OK;
/* Push the data down the stream
*/
targetClass = *(sink->isa); /* Copy pointers to procedures */
/* Push binary from socket down sink
*/
for (;;) {
status = fread(input_buffer, 1, INPUT_BUFFER_SIZE, fp);
nreads++;
if (status == 0) { /* EOF or error */
if (ferror(fp) == 0) {
rv = HT_LOADED;
break;
}
if (TRACE)
fprintf(stderr,
"HTFormat: Read error, read returns %d\n",
ferror(fp));
if (bytes) {
rv = HT_PARTIAL_CONTENT;
} else {
rv = -1;
}
break;
}
(*targetClass.put_block)(sink, input_buffer, status);
bytes += status;
if (nreads >= 100) {
/*
** Show progress messages for local files, and check for
** user interruption. Start doing so only after a certain
** number of reads have been done, and don't update it on
** every read (normally reading in a local file should be
** speedy). - KW
*/
if (nprogr == 0) {
if (bytes < 1024000) {
sprintf(line, "Read %d bytes of data.", bytes);
} else {
sprintf(line, "Read %d KB of data. %s",
bytes/1024,
"(Press 'z' if you want to abort loading.)");
}
HTProgress(line);
if (HTCheckForInterrupt()) {
_HTProgress ("Data transfer interrupted.");
if (bytes) {
rv = HT_INTERRUPTED;
} else {
rv = -1;
}
break;
}
nprogr++;
} else if (nprogr == 25) {
nprogr = 0;
} else {
nprogr++;
}
}
} /* next bufferload */
return rv;
}
#ifdef USE_ZLIB
/* Push data from a gzip file pointer down a stream
** -------------------------------------
**
** This routine is responsible for creating and PRESENTING any
** graphic (or other) objects described by the file.
**
**
*/
PRIVATE int HTGzFileCopy ARGS2(
gzFile, gzfp,
HTStream*, sink)
{
HTStreamClass targetClass;
char line[256];
int status, bytes = 0, nreads = 0, nprogr = 0;
int gzerrnum;
int rv = HT_OK;
/* Push the data down the stream
*/
targetClass = *(sink->isa); /* Copy pointers to procedures */
/* read and inflate gzipped file, and push binary down sink
*/
for (;;) {
status = gzread(gzfp, input_buffer, INPUT_BUFFER_SIZE);
nreads++;
if (status <= 0) { /* EOF or error */
if (status == 0) {
rv = HT_LOADED;
break;
}
if (TRACE) {
fprintf(stderr,
"HTGzFileCopy: Read error, gzread returns %d\n",
status);
fprintf(stderr,
"gzerror : %s\n",
gzerror(gzfp, &gzerrnum));
if (gzerrnum == Z_ERRNO)
perror("gzerror ");
}
if (bytes) {
rv = HT_PARTIAL_CONTENT;
} else {
rv = -1;
}
break;
}
(*targetClass.put_block)(sink, input_buffer, status);
bytes += status;
if (nreads >= 100) {
/*
** Show progress messages for local files, and check for
** user interruption. Start doing so only after a certain
** number of reads have been done, and don't update it on
** every read (normally reading in a local file should be
** speedy). - KW
*/
if (nprogr == 0) {
if (bytes < 1024000) {
sprintf(line,
"Read %d uncompressed bytes of data.", bytes);
} else {
sprintf(line, "Read %d uncompressed KB of data. %s",
bytes/1024,
"(Press 'z' to abort.)");
}
HTProgress(line);
if (HTCheckForInterrupt()) {
_HTProgress ("Data transfer interrupted.");
if (bytes) {
rv = HT_INTERRUPTED;
} else {
rv = -1;
}
break;
}
nprogr++;
} else if (nprogr == 25) {
nprogr = 0;
} else {
nprogr++;
}
}
} /* next bufferload */
return rv;
}
#endif /* USE_ZLIB */
/* Push data from a socket down a stream STRIPPING CR
** --------------------------------------------------
**
** This routine is responsible for creating and PRESENTING any
** graphic (or other) objects described by the socket.
**
** The file number given is assumed to be a TELNET stream ie containing
** CRLF at the end of lines which need to be stripped to LF for unix
** when the format is textual.
**
*/
PUBLIC void HTCopyNoCR ARGS3(
HTParentAnchor *, anchor,
int, file_number,
HTStream*, sink)
{
HTStreamClass targetClass;
char character;
/* Push the data, ignoring CRLF, down the stream
*/
targetClass = *(sink->isa); /* Copy pointers to procedures */
/* Push text from telnet socket down sink
**
** @@@@@ To push strings could be faster? (especially is we
** cheat and don't ignore CR! :-}
*/
HTInitInput(file_number);
for (;;) {
character = HTGetCharacter();
if (character == (char)EOF)
break;
(*targetClass.put_character)(sink, character);
}
}
/* Parse a socket given format and file number
**
** This routine is responsible for creating and PRESENTING any
** graphic (or other) objects described by the file.
**
** The file number given is assumed to be a TELNET stream ie containing
** CRLF at the end of lines which need to be stripped to LF for unix
** when the format is textual.
**
*/
PUBLIC int HTParseSocket ARGS5(
HTFormat, rep_in,
HTFormat, format_out,
HTParentAnchor *, anchor,
int, file_number,
HTStream*, sink)
{
HTStream * stream;
HTStreamClass targetClass;
int rv;
stream = HTStreamStack(rep_in, format_out, sink, anchor);
if (!stream) {
char buffer[1024]; /* @@@@@@@@ */
if (LYCancelDownload) {
LYCancelDownload = FALSE;
return -1;
}
sprintf(buffer, "Sorry, can't convert from %s to %s.",
HTAtom_name(rep_in), HTAtom_name(format_out));
if (TRACE)
fprintf(stderr, "HTFormat: %s\n", buffer);
return HTLoadError(sink, 501, buffer); /* returns -501 */
}
/*
** Push the data, don't worry about CRLF we can strip them later.
*/
targetClass = *(stream->isa); /* Copy pointers to procedures */
rv = HTCopy(anchor, file_number, NULL, stream);
if (rv != -1 && rv != HT_INTERRUPTED)
(*targetClass._free)(stream);
return rv; /* full: HT_LOADED; partial: HT_INTERRUPTED; no bytes: -1 */
}
/* Parse a file given format and file pointer
**
** This routine is responsible for creating and PRESENTING any
** graphic (or other) objects described by the file.
**
** The file number given is assumed to be a TELNET stream ie containing
** CRLF at the end of lines which need to be stripped to \n for unix
** when the format is textual.
**
*/
PUBLIC int HTParseFile ARGS5(
HTFormat, rep_in,
HTFormat, format_out,
HTParentAnchor *, anchor,
FILE *, fp,
HTStream*, sink)
{
HTStream * stream;
HTStreamClass targetClass;
int rv;
stream = HTStreamStack(rep_in,
format_out,
sink , anchor);
if (!stream) {
char buffer[1024]; /* @@@@@@@@ */
if (LYCancelDownload) {
LYCancelDownload = FALSE;
return -1;
}
sprintf(buffer, "Sorry, can't convert from %s to %s.",
HTAtom_name(rep_in), HTAtom_name(format_out));
if (TRACE)
fprintf(stderr, "HTFormat(in HTParseFile): %s\n", buffer);
return HTLoadError(sink, 501, buffer);
}
/* Push the data down the stream
**
** @@ Bug: This decision ought to be made based on "encoding"
** rather than on content-type. @@@ When we handle encoding.
** The current method smells anyway.
*/
targetClass = *(stream->isa); /* Copy pointers to procedures */
rv = HTFileCopy(fp, stream);
if (rv == -1 || rv == HT_INTERRUPTED) {
(*targetClass._abort)(stream, NULL);
} else {
(*targetClass._free)(stream);
}
if (rv == -1)
return HT_NO_DATA;
else if (rv == HT_INTERRUPTED || (rv > 0 && rv != HT_LOADED))
return HT_PARTIAL_CONTENT;
else
return HT_LOADED;
}
#ifdef USE_ZLIB
PRIVATE int HTCloseGzFile ARGS1(
gzFile, gzfp)
{
int gzres;
if (gzfp == NULL)
return 0;
gzres = gzclose(gzfp);
if (TRACE) {
if (gzres == Z_ERRNO) {
perror("gzclose ");
} else if (gzres != Z_OK) {
fprintf(stderr, "gzclose : error number %d\n", gzres);
}
}
return(gzres);
}
PUBLIC int HTParseGzFile ARGS5(
HTFormat, rep_in,
HTFormat, format_out,
HTParentAnchor *, anchor,
gzFile, gzfp,
HTStream*, sink)
{
HTStream * stream;
HTStreamClass targetClass;
int rv;
stream = HTStreamStack(rep_in,
format_out,
sink , anchor);
if (!stream) {
char buffer[1024]; /* @@@@@@@@ */
extern char LYCancelDownload;
HTCloseGzFile(gzfp);
if (LYCancelDownload) {
LYCancelDownload = FALSE;
return -1;
}
sprintf(buffer, "Sorry, can't convert from %s to %s.",
HTAtom_name(rep_in), HTAtom_name(format_out));
if (TRACE)
fprintf(stderr, "HTFormat(in HTParseGzFile): %s\n", buffer);
return HTLoadError(sink, 501, buffer);
}
/* Push the data down the stream
**
** @@ Bug: This decision ought to be made based on "encoding"
** rather than on content-type. @@@ When we handle encoding.
** The current method smells anyway.
*/
targetClass = *(stream->isa); /* Copy pointers to procedures */
rv = HTGzFileCopy(gzfp, stream);
if (rv == -1 || rv == HT_INTERRUPTED) {
(*targetClass._abort)(stream, NULL);
} else {
(*targetClass._free)(stream);
}
HTCloseGzFile(gzfp);
if (rv == -1)
return HT_NO_DATA;
else if (rv == HT_INTERRUPTED || (rv > 0 && rv != HT_LOADED))
return HT_PARTIAL_CONTENT;
else
return HT_LOADED;
}
#endif /* USE_ZLIB */
/* Converter stream: Network Telnet to internal character text
** -----------------------------------------------------------
**
** The input is assumed to be in ASCII, with lines delimited
** by (13,10) pairs, These pairs are converted into (CR,LF)
** pairs in the local representation. The (CR,LF) sequence
** when found is changed to a '\n' character, the internal
** C representation of a new line.
*/
PRIVATE void NetToText_put_character ARGS2(HTStream *, me, char, net_char)
{
char c = FROMASCII(net_char);
if (me->had_cr) {
if (c == LF) {
me->sink->isa->put_character(me->sink, '\n'); /* Newline */
me->had_cr = NO;
return;
} else {
me->sink->isa->put_character(me->sink, CR); /* leftover */
}
}
me->had_cr = (c == CR);
if (!me->had_cr)
me->sink->isa->put_character(me->sink, c); /* normal */
}
PRIVATE void NetToText_put_string ARGS2(HTStream *, me, CONST char *, s)
{
CONST char * p;
for (p = s; *p; p++)
NetToText_put_character(me, *p);
}
PRIVATE void NetToText_put_block ARGS3(HTStream *, me, CONST char*, s, int, l)
{
CONST char * p;
for (p = s; p < (s+l); p++)
NetToText_put_character(me, *p);
}
PRIVATE void NetToText_free ARGS1(HTStream *, me)
{
(me->sink->isa->_free)(me->sink); /* Close rest of pipe */
FREE(me);
}
PRIVATE void NetToText_abort ARGS2(HTStream *, me, HTError, e)
{
me->sink->isa->_abort(me->sink,e); /* Abort rest of pipe */
FREE(me);
}
/* The class structure
*/
PRIVATE HTStreamClass NetToTextClass = {
"NetToText",
NetToText_free,
NetToText_abort,
NetToText_put_character,
NetToText_put_string,
NetToText_put_block
};
/* The creation method
*/
PUBLIC HTStream * HTNetToText ARGS1(HTStream *, sink)
{
HTStream* me = (HTStream*)malloc(sizeof(*me));
if (me == NULL)
outofmem(__FILE__, "NetToText");
me->isa = &NetToTextClass;
me->had_cr = NO;
me->sink = sink;
return me;
}