/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
* This Original Code has been modified by IBM Corporation. Modifications made by IBM
* described herein are Copyright (c) International Business Machines Corporation, 2000.
* Modifications to Mozilla code or documentation identified per MPL Section 3.3
*
* Date Modified by Description of modification
* 04/20/2000 IBM Corp. OS/2 VisualAge build.
*/
/* Thoughts on how to implement this:
= if the type of this multipart/related is not text/html, then treat
it the same as multipart/mixed.
= For each part in this multipart/related
= if this part is not the "top" part
= then save this part to a tmp file or a memory object,
kind-of like what we do for multipart/alternative sub-parts.
If this is an object we're blocked on (see below) send its data along.
= else
= emit this part (remember, it's of type text/html)
= at some point, layout may load a URL for .
we intercept that.
= if one of our cached parts has that cid, return the data for it.
= else, "block", the same way the image library blocks layout when it
doesn't yet have the size of the image.
= at some point, layout may load a URL for .
we need to intercept that too.
= expand the URL, and compare it to our cached objects.
if it matches, return it.
= else block on it.
= once we get to the end, if we have any sub-part references that we're
still blocked on, map over them:
= if they're cid: references, close them ("broken image" results.)
= if they're URLs, then load them in the normal way.
--------------------------------------------------
Ok, that's fairly complicated. How about an approach where we go through
all the parts first, and don't emit until the end?
= if the type of this multipart/related is not text/html, then treat
it the same as multipart/mixed.
= For each part in this multipart/related
= save this part to a tmp file or a memory object,
like what we do for multipart/alternative sub-parts.
= Emit the "top" part (the text/html one)
= intercept all calls to NET_GetURL, to allow us to rewrite the URL.
(hook into netlib, or only into imglib's calls to GetURL?)
(make sure we're behaving in a context-local way.)
= when a URL is loaded, look through our cached parts for a match.
= if we find one, map that URL to a "cid:" URL
= else, let it load normally
= at some point, layout may load a URL for .
it will do this either because that's what was in the HTML, or because
that's how we "rewrote" the URLs when we intercepted NET_GetURL.
= if one of our cached parts has the requested cid, return the data
for it.
= else, generate a "broken image"
= free all the cached data
--------------------------------------------------
How hard would be an approach where we rewrite the HTML?
(Looks like it's not much easier, and might be more error-prone.)
= if the type of this multipart/related is not text/html, then treat
it the same as multipart/mixed.
= For each part in this multipart/related
= save this part to a tmp file or a memory object,
like what we do for multipart/alternative sub-parts.
= Parse the "top" part, and emit slightly different HTML:
= for each , , ? Any others?
= look through our cached parts for a matching URL
= if we find one, map that URL to a "cid:" URL
= else, let it load normally
= at some point, layout may load a URL for .
= if one of our cached parts has the requested cid, return the data
for it.
= else, generate a "broken image"
= free all the cached data
*/
#include "nsCOMPtr.h"
#include "mimemrel.h"
#include "mimemapl.h"
#include "prmem.h"
#include "prprf.h"
#include "prlog.h"
#include "plstr.h"
#include "mimemoz2.h"
#include "nsStringGlue.h"
#include "nsIURL.h"
#include "msgCore.h"
#include "nsMimeStringResources.h"
#include "nsMimeTypes.h"
#include "mimebuf.h"
#include "nsMsgUtils.h"
#include
//
// External Defines...
//
extern nsresult
nsMsgCreateTempFile(const char *tFileName, nsIFile **tFile);
#define MIME_SUPERCLASS mimeMultipartClass
MimeDefClass(MimeMultipartRelated, MimeMultipartRelatedClass,
mimeMultipartRelatedClass, &MIME_SUPERCLASS);
class MimeHashValue
{
public:
MimeHashValue(MimeObject *obj, char *url) {
m_obj = obj;
m_url = strdup(url);
}
virtual ~MimeHashValue() {
if (m_url)
PR_Free((void *)m_url);
}
MimeObject *m_obj;
char *m_url;
};
static int
MimeMultipartRelated_initialize(MimeObject* obj)
{
MimeMultipartRelated* relobj = (MimeMultipartRelated*) obj;
relobj->base_url = MimeHeaders_get(obj->headers, HEADER_CONTENT_BASE,
false, false);
/* rhp: need this for supporting Content-Location */
if (!relobj->base_url)
{
relobj->base_url = MimeHeaders_get(obj->headers, HEADER_CONTENT_LOCATION,
false, false);
}
/* rhp: need this for supporting Content-Location */
/* I used to have code here to test if the type was text/html. Then I
added multipart/alternative as being OK, too. Then I found that the
VCard spec seems to talk about having the first part of a
multipart/related be an application/directory. At that point, I decided
to punt. We handle anything as the first part, and stomp on the HTML it
generates to adjust tags to point into the other parts. This probably
works out to something reasonable in most cases. */
relobj->hash = PL_NewHashTable(20, PL_HashString, PL_CompareStrings, PL_CompareValues,
(PLHashAllocOps *)NULL, NULL);
if (!relobj->hash) return MIME_OUT_OF_MEMORY;
relobj->input_file_stream = nullptr;
relobj->output_file_stream = nullptr;
return ((MimeObjectClass*)&MIME_SUPERCLASS)->initialize(obj);
}
static int
mime_multipart_related_nukehash(PLHashEntry *table,
int indx, void *arg)
{
if (table->key)
PR_Free((char*) table->key);
if (table->value)
delete (MimeHashValue *)table->value;
return HT_ENUMERATE_NEXT; /* XP_Maphash will continue traversing the hash */
}
static void
MimeMultipartRelated_finalize (MimeObject *obj)
{
MimeMultipartRelated* relobj = (MimeMultipartRelated*) obj;
PR_FREEIF(relobj->base_url);
PR_FREEIF(relobj->curtag);
if (relobj->buffered_hdrs) {
PR_FREEIF(relobj->buffered_hdrs->all_headers);
PR_FREEIF(relobj->buffered_hdrs->heads);
PR_FREEIF(relobj->buffered_hdrs);
}
PR_FREEIF(relobj->head_buffer);
relobj->head_buffer_fp = 0;
relobj->head_buffer_size = 0;
if (relobj->hash) {
PL_HashTableEnumerateEntries(relobj->hash, mime_multipart_related_nukehash, NULL);
PL_HashTableDestroy(relobj->hash);
relobj->hash = NULL;
}
if (relobj->input_file_stream)
{
relobj->input_file_stream->Close();
relobj->input_file_stream = nullptr;
}
if (relobj->output_file_stream)
{
relobj->output_file_stream->Close();
relobj->output_file_stream = nullptr;
}
if (relobj->file_buffer)
{
relobj->file_buffer->Remove(false);
relobj->file_buffer = nullptr;
}
if (relobj->headobj) {
// In some error conditions when MimeMultipartRelated_parse_eof() isn't run
// (for example, no temp disk space available to extract message parts),
// the head object is also referenced as a child.
// If we free it, we remove the child reference first ... or crash later :-(
MimeContainer *cont = (MimeContainer *)relobj;
for (int i = 0; i < cont->nchildren; i++) {
if (cont->children[i] == relobj->headobj) {
// Shift remaining children down.
for (int j = i+1; j < cont->nchildren; j++) {
cont->children[j-1] = cont->children[j];
}
cont->children[--cont->nchildren] = nullptr;
break;
}
}
mime_free(relobj->headobj);
relobj->headobj = nullptr;
}
((MimeObjectClass*)&MIME_SUPERCLASS)->finalize(obj);
}
#define ISHEX(c) ( ((c) >= '0' && (c) <= '9') || ((c) >= 'a' && (c) <= 'f') || ((c) >= 'A' && (c) <= 'F') )
#define NONHEX(c) (!ISHEX(c))
extern "C" char *
escape_unescaped_percents(const char *incomingURL)
{
const char *inC;
char *outC;
char *result = (char *) PR_Malloc(strlen(incomingURL)*3+1);
if (result)
{
for(inC = incomingURL, outC = result; *inC != '\0'; inC++)
{
if (*inC == '%')
{
/* Check if either of the next two characters are non-hex. */
if ( !*(inC+1) || NONHEX(*(inC+1)) || !*(inC+2) || NONHEX(*(inC+2)) )
{
/* Hex characters don't follow, escape the
percent char */
*outC++ = '%'; *outC++ = '2'; *outC++ = '5';
}
else
{
/* Hex characters follow, so assume the percent
is escaping something else */
*outC++ = *inC;
}
}
else
*outC++ = *inC;
}
*outC = '\0';
}
return result;
}
/* This routine is only necessary because the mailbox URL fed to us
by the winfe can contain spaces and '>'s in it. It's a hack. */
static char *
escape_for_mrel_subst(char *inURL)
{
char *output, *inC, *outC, *temp;
int size = strlen(inURL) + 1;
for(inC = inURL; *inC; inC++)
if ((*inC == ' ') || (*inC == '>'))
size += 2; /* space -> '%20', '>' -> '%3E', etc. */
output = (char *)PR_MALLOC(size);
if (output)
{
/* Walk through the source string, copying all chars
except for spaces, which get escaped. */
inC = inURL;
outC = output;
while(*inC)
{
if (*inC == ' ')
{
*outC++ = '%'; *outC++ = '2'; *outC++ = '0';
}
else if (*inC == '>')
{
*outC++ = '%'; *outC++ = '3'; *outC++ = 'E';
}
else
*outC++ = *inC;
inC++;
}
*outC = '\0';
temp = escape_unescaped_percents(output);
if (temp)
{
PR_FREEIF(output);
output = temp;
}
}
return output;
}
static bool
MimeStartParamExists(MimeObject *obj, MimeObject* child)
{
char *ct = MimeHeaders_get (obj->headers, HEADER_CONTENT_TYPE, false, false);
char *st = (ct
? MimeHeaders_get_parameter(ct, HEADER_PARM_START, NULL, NULL)
: 0);
PR_FREEIF(ct);
if (!st)
return false;
PR_FREEIF(st);
return true;
}
static bool
MimeThisIsStartPart(MimeObject *obj, MimeObject* child)
{
bool rval = false;
char *ct, *st, *cst;
ct = MimeHeaders_get (obj->headers, HEADER_CONTENT_TYPE, false, false);
st = (ct
? MimeHeaders_get_parameter(ct, HEADER_PARM_START, NULL, NULL)
: 0);
PR_FREEIF(ct);
if (!st)
return false;
cst = MimeHeaders_get(child->headers, HEADER_CONTENT_ID, false, false);
if (!cst)
rval = false;
else
{
char *tmp = cst;
if (*tmp == '<')
{
int length;
tmp++;
length = strlen(tmp);
if (length > 0 && tmp[length - 1] == '>')
{
tmp[length - 1] = '\0';
}
}
rval = (!strcmp(st, tmp));
}
PR_FREEIF(st);
PR_FREEIF(cst);
return rval;
}
/* rhp - gotta support the "start" parameter */
char *
MakeAbsoluteURL(char *base_url, char *relative_url)
{
char *retString = nullptr;
nsIURI *base = nullptr;
// if either is NULL, just return the relative if safe...
if (!base_url || !relative_url)
{
if (!relative_url)
return nullptr;
NS_MsgSACopy(&retString, relative_url);
return retString;
}
nsresult err = nsMimeNewURI(&base, base_url, nullptr);
if (NS_FAILED(err))
return nullptr;
nsAutoCString spec;
nsIURI *url = nullptr;
err = nsMimeNewURI(&url, relative_url, base);
if (NS_FAILED(err))
goto done;
err = url->GetSpec(spec);
if (NS_FAILED(err))
{
retString = nullptr;
goto done;
}
retString = ToNewCString(spec);
done:
NS_IF_RELEASE(url);
NS_IF_RELEASE(base);
return retString;
}
static bool
MimeMultipartRelated_output_child_p(MimeObject *obj, MimeObject* child)
{
MimeMultipartRelated *relobj = (MimeMultipartRelated *) obj;
/* rhp - Changed from "if (relobj->head_loaded)" alone to support the
start parameter
*/
if (
(relobj->head_loaded) ||
(MimeStartParamExists(obj, child) && !MimeThisIsStartPart(obj, child))
)
{
/* This is a child part. Just remember the mapping between the URL
it represents and the part-URL to get it back. */
char* location = MimeHeaders_get(child->headers, HEADER_CONTENT_LOCATION,
false, false);
if (!location) {
char* tmp = MimeHeaders_get(child->headers, HEADER_CONTENT_ID,
false, false);
if (tmp) {
char* tmp2 = tmp;
if (*tmp2 == '<') {
int length;
tmp2++;
length = strlen(tmp2);
if (length > 0 && tmp2[length - 1] == '>') {
tmp2[length - 1] = '\0';
}
}
location = PR_smprintf("cid:%s", tmp2);
PR_Free(tmp);
}
}
if (location) {
char *absolute;
char *base_url = MimeHeaders_get(child->headers, HEADER_CONTENT_BASE,
false, false);
absolute = MakeAbsoluteURL(base_url ? base_url : relobj->base_url, location);
PR_FREEIF(base_url);
PR_Free(location);
if (absolute) {
nsAutoCString partnum;
nsAutoCString imappartnum;
partnum.Adopt(mime_part_address(child));
if (!partnum.IsEmpty()) {
if (obj->options->missing_parts)
{
char * imappart = mime_imap_part_address(child);
if (imappart)
imappartnum.Adopt(imappart);
}
/*
AppleDouble part need special care: we need to output only the data fork part of it.
The problem at this point is that we haven't yet decoded the children of the AppleDouble
part therfore we will have to hope the datafork is the second one!
*/
if (mime_typep(child, (MimeObjectClass *) &mimeMultipartAppleDoubleClass))
partnum.Append(".2");
char* part;
if (!imappartnum.IsEmpty())
part = mime_set_url_imap_part(obj->options->url, imappartnum.get(), partnum.get());
else
{
char *no_part_url = nullptr;
if (obj->options->part_to_load && obj->options->format_out == nsMimeOutput::nsMimeMessageBodyDisplay)
no_part_url = mime_get_base_url(obj->options->url);
if (no_part_url)
{
part = mime_set_url_part(no_part_url, partnum.get(), false);
PR_Free(no_part_url);
}
else
part = mime_set_url_part(obj->options->url, partnum.get(), false);
}
if (part)
{
char *name = MimeHeaders_get_name(child->headers, child->options);
// let's stick the filename in the part so save as will work.
if (name)
{
char *savePart = part;
part = PR_smprintf("%s&filename=%s", savePart, name);
PR_Free(savePart);
PR_Free(name);
}
char *temp = part;
/* If there's a space in the url, escape the url.
(This happens primarily on Windows and Unix.) */
if (PL_strchr(part, ' ') || PL_strchr(part, '>') || PL_strchr(part, '%'))
temp = escape_for_mrel_subst(part);
MimeHashValue * value = new MimeHashValue(child, temp);
PL_HashTableAdd(relobj->hash, absolute, value);
/* rhp - If this part ALSO has a Content-ID we need to put that into
the hash table and this is what this code does
*/
{
char *tloc;
char *tmp = MimeHeaders_get(child->headers, HEADER_CONTENT_ID, false, false);
if (tmp)
{
char* tmp2 = tmp;
if (*tmp2 == '<')
{
int length;
tmp2++;
length = strlen(tmp2);
if (length > 0 && tmp2[length - 1] == '>')
{
tmp2[length - 1] = '\0';
}
}
tloc = PR_smprintf("cid:%s", tmp2);
PR_Free(tmp);
if (tloc)
{
MimeHashValue *value;
value = (MimeHashValue*)PL_HashTableLookup(relobj->hash, tloc);
if (!value)
{
value = new MimeHashValue(child, temp);
PL_HashTableAdd(relobj->hash, tloc, value);
}
else
PR_smprintf_free(tloc);
}
}
}
/* rhp - End of putting more stuff into the hash table */
/* it's possible that temp pointer is the same than the part pointer,
therefore be carefull to not freeing twice the same pointer */
if (temp && temp != part)
PR_Free(temp);
PR_Free(part);
}
}
}
}
} else {
/* Ah-hah! We're the head object. */
char* base_url;
relobj->head_loaded = true;
relobj->headobj = child;
relobj->buffered_hdrs = MimeHeaders_copy(child->headers);
base_url = MimeHeaders_get(child->headers, HEADER_CONTENT_BASE,
false, false);
/* rhp: need this for supporting Content-Location */
if (!base_url)
{
base_url = MimeHeaders_get(child->headers, HEADER_CONTENT_LOCATION, false, false);
}
/* rhp: need this for supporting Content-Location */
if (base_url) {
/* If the head object has a base_url associated with it, use
that instead of any base_url that may have been associated
with the multipart/related. */
PR_FREEIF(relobj->base_url);
relobj->base_url = base_url;
}
}
if (obj->options && !obj->options->write_html_p
#ifdef MIME_DRAFTS
&& !obj->options->decompose_file_p
#endif /* MIME_DRAFTS */
)
{
return true;
}
return false; /* Don't actually parse this child; we'll handle
all that at eof time. */
}
static int
MimeMultipartRelated_parse_child_line (MimeObject *obj,
const char *line, int32_t length,
bool first_line_p)
{
MimeContainer *cont = (MimeContainer *) obj;
MimeMultipartRelated *relobj = (MimeMultipartRelated *) obj;
MimeObject *kid;
if (obj->options && !obj->options->write_html_p
#ifdef MIME_DRAFTS
&& !obj->options->decompose_file_p
#endif /* MIME_DRAFTS */
)
{
/* Oh, just go do the normal thing... */
return ((MimeMultipartClass*)&MIME_SUPERCLASS)->
parse_child_line(obj, line, length, first_line_p);
}
/* Throw it away if this isn't the head object. (Someday, maybe we'll
cache it instead.) */
PR_ASSERT(cont->nchildren > 0);
if (cont->nchildren <= 0)
return -1;
kid = cont->children[cont->nchildren-1];
PR_ASSERT(kid);
if (!kid) return -1;
if (kid != relobj->headobj) return 0;
/* Buffer this up (###tw much code duplication from mimemalt.c) */
/* If we don't yet have a buffer (either memory or file) try and make a
memory buffer. */
if (!relobj->head_buffer && !relobj->file_buffer) {
int target_size = 1024 * 50; /* try for 50k */
while (target_size > 0) {
relobj->head_buffer = (char *) PR_MALLOC(target_size);
if (relobj->head_buffer) break; /* got it! */
target_size -= (1024 * 5); /* decrease it and try again */
}
if (relobj->head_buffer) {
relobj->head_buffer_size = target_size;
} else {
relobj->head_buffer_size = 0;
}
relobj->head_buffer_fp = 0;
}
nsresult rv;
/* Ok, if at this point we still don't have either kind of buffer, try and
make a file buffer. */
if (!relobj->head_buffer && !relobj->file_buffer)
{
nsCOMPtr file;
rv = nsMsgCreateTempFile("nsma", getter_AddRefs(file));
NS_ENSURE_SUCCESS(rv, -1);
relobj->file_buffer = do_QueryInterface(file);
rv = MsgNewBufferedFileOutputStream(getter_AddRefs(relobj->output_file_stream), relobj->file_buffer, PR_WRONLY | PR_CREATE_FILE, 00600);
NS_ENSURE_SUCCESS(rv, -1);
}
PR_ASSERT(relobj->head_buffer || relobj->output_file_stream);
/* If this line will fit in the memory buffer, put it there.
*/
if (relobj->head_buffer &&
relobj->head_buffer_fp + length < relobj->head_buffer_size) {
memcpy(relobj->head_buffer + relobj->head_buffer_fp, line, length);
relobj->head_buffer_fp += length;
} else {
/* Otherwise it won't fit; write it to the file instead. */
/* If the file isn't open yet, open it, and dump the memory buffer
to it. */
if (!relobj->output_file_stream)
{
if (!relobj->file_buffer)
{
nsCOMPtr file;
rv = nsMsgCreateTempFile("nsma", getter_AddRefs(file));
NS_ENSURE_SUCCESS(rv, -1);
relobj->file_buffer = do_QueryInterface(file);
}
nsresult rv = MsgNewBufferedFileOutputStream(getter_AddRefs(relobj->output_file_stream), relobj->file_buffer, PR_WRONLY | PR_CREATE_FILE, 00600);
NS_ENSURE_SUCCESS(rv, -1);
if (relobj->head_buffer && relobj->head_buffer_fp)
{
uint32_t bytesWritten;
rv = relobj->output_file_stream->Write(relobj->head_buffer, relobj->head_buffer_fp, &bytesWritten);
if (NS_FAILED(rv) || (bytesWritten < relobj->head_buffer_fp))
return MIME_UNABLE_TO_OPEN_TMP_FILE;
}
PR_FREEIF(relobj->head_buffer);
relobj->head_buffer_fp = 0;
relobj->head_buffer_size = 0;
}
/* Dump this line to the file. */
uint32_t bytesWritten;
rv = relobj->output_file_stream->Write(line, length, &bytesWritten);
if ((int32_t) bytesWritten < length || NS_FAILED(rv))
return MIME_UNABLE_TO_OPEN_TMP_FILE;
}
return 0;
}
static int
real_write(MimeMultipartRelated* relobj, const char* buf, int32_t size)
{
MimeObject* obj = (MimeObject*) relobj;
void* closure = relobj->real_output_closure;
#ifdef MIME_DRAFTS
if ( obj->options &&
obj->options->decompose_file_p &&
obj->options->decompose_file_output_fn )
{
// the buf here has already been decoded, but we want to use general output
// functions here that permit decoded or encoded input, using the closure
// to tell the difference. We'll temporarily disable the closure's decoder,
// then restore it when we are done. Not sure if we shouldn't just turn it off
// permanently though.
mime_draft_data *mdd = (mime_draft_data *) obj->options->stream_closure;
MimeDecoderData* old_decoder_data = mdd->decoder_data;
mdd->decoder_data = nullptr;
int status = obj->options->decompose_file_output_fn
(buf, size, (void *)mdd);
mdd->decoder_data = old_decoder_data;
return status;
}
else
#endif /* MIME_DRAFTS */
{
if (!closure) {
MimeObject* lobj = (MimeObject*) relobj;
closure = lobj->options->stream_closure;
}
return relobj->real_output_fn(buf, size, closure);
}
}
static int
push_tag(MimeMultipartRelated* relobj, const char* buf, int32_t size)
{
if (size + relobj->curtag_length > relobj->curtag_max) {
relobj->curtag_max += 2 * size;
if (relobj->curtag_max < 1024)
relobj->curtag_max = 1024;
char* newBuf = (char*) PR_Realloc(relobj->curtag, relobj->curtag_max);
NS_ENSURE_TRUE(newBuf, MIME_OUT_OF_MEMORY);
relobj->curtag = newBuf;
}
memcpy(relobj->curtag + relobj->curtag_length, buf, size);
relobj->curtag_length += size;
return 0;
}
static bool accept_related_part(MimeMultipartRelated* relobj, MimeObject* part_obj)
{
if (!relobj || !part_obj)
return false;
/* before accepting it as a valid related part, make sure we
are able to display it inline as an embedded object. Else just ignore
it, that will prevent any bad surprise... */
MimeObjectClass *clazz = mime_find_class (part_obj->content_type, part_obj->headers, part_obj->options, false);
if (clazz ? clazz->displayable_inline_p(clazz, part_obj->headers) : false)
return true;
/* ...but we always accept it if it's referenced by an anchor */
return (relobj->curtag && relobj->curtag_length >= 3 &&
(relobj->curtag[1] == 'A' || relobj->curtag[1] == 'a') && IS_SPACE(relobj->curtag[2]));
}
static int
flush_tag(MimeMultipartRelated* relobj)
{
int length = relobj->curtag_length;
char* buf;
int status;
if (relobj->curtag == NULL || length == 0) return 0;
status = push_tag(relobj, "", 1); /* Push on a trailing NULL. */
if (status < 0) return status;
buf = relobj->curtag;
PR_ASSERT(*buf == '<' && buf[length - 1] == '>');
while (*buf) {
char c;
char* absolute;
char* part_url;
char* ptr = buf;
char *ptr2;
char quoteDelimiter = '\0';
while (*ptr && *ptr != '=') ptr++;
if (*ptr == '=') {
/* Ignore = and leading space. */
/* Safe, because there's a '>' at the end! */
do {ptr++;} while (IS_SPACE(*ptr));
if (*ptr == '"' || *ptr == '\'') {
quoteDelimiter = *ptr;
/* Take up the quote and leading space here as well. */
/* Safe because there's a '>' at the end */
do {ptr++;} while (IS_SPACE(*ptr));
}
}
status = real_write(relobj, buf, ptr - buf);
if (status < 0) return status;
buf = ptr;
if (!*buf) break;
if (quoteDelimiter)
{
ptr = PL_strnchr(buf, quoteDelimiter, length - (buf - relobj->curtag));
} else {
for (ptr = buf; *ptr ; ptr++) {
if (*ptr == '>' || IS_SPACE(*ptr)) break;
}
PR_ASSERT(*ptr);
}
if (!ptr || !*ptr) break;
while(buf < ptr)
{
/* ### mwelch For each word in the value string, see if
the word is a cid: URL. If so, attempt to
substitute the appropriate mailbox part URL in
its place. */
ptr2=buf; /* walk from the left end rightward */
while((ptr2 4) &&
((buf[0]=='c' || buf[0]=='C') &&
(buf[1]=='i' || buf[1]=='I') &&
(buf[2]=='d' || buf[2]=='D') &&
buf[3]==':'))
{
// Make sure it's lowercase, otherwise it won't be found in the hash table
buf[0] = 'c'; buf[1] = 'i'; buf[2] = 'd';
/* Null terminate the word so we can... */
c = *ptr2;
*ptr2 = '\0';
/* Construct a URL out of the word. */
absolute = MakeAbsoluteURL(relobj->base_url, buf);
/* See if we have a mailbox part URL
corresponding to this cid. */
part_url = nullptr;
MimeHashValue * value = nullptr;
if (absolute)
{
value = (MimeHashValue *)PL_HashTableLookup(relobj->hash, buf);
part_url = value ? value->m_url : nullptr;
PR_FREEIF(absolute);
}
/*If we found a mailbox part URL, write that out instead.*/
if (part_url && accept_related_part(relobj, value->m_obj))
{
status = real_write(relobj, part_url, strlen(part_url));
if (status < 0) return status;
buf = ptr2; /* skip over the cid: URL we substituted */
/* don't show that object as attachment */
if (value->m_obj)
value->m_obj->dontShowAsAttachment = true;
}
/* Restore the character that we nulled. */
*ptr2 = c;
}
/* rhp - if we get here, we should still check against the hash table! */
else
{
char holder = *ptr2;
char *realout;
*ptr2 = '\0';
/* Construct a URL out of the word. */
absolute = MakeAbsoluteURL(relobj->base_url, buf);
/* See if we have a mailbox part URL
corresponding to this cid. */
MimeHashValue * value;
if (absolute)
value = (MimeHashValue *)PL_HashTableLookup(relobj->hash, absolute);
else
value = (MimeHashValue *)PL_HashTableLookup(relobj->hash, buf);
realout = value ? value->m_url : nullptr;
*ptr2 = holder;
PR_FREEIF(absolute);
if (realout && accept_related_part(relobj, value->m_obj))
{
status = real_write(relobj, realout, strlen(realout));
if (status < 0) return status;
buf = ptr2; /* skip over the cid: URL we substituted */
/* don't show that object as attachment */
if (value->m_obj)
value->m_obj->dontShowAsAttachment = true;
}
}
/* rhp - if we get here, we should still check against the hash table! */
/* Advance to the beginning of the next word, or to
the end of the value string. */
while((ptr2curtag_length = 0;
return 0;
}
static int
mime_multipart_related_output_fn(const char* buf, int32_t size, void *stream_closure)
{
MimeMultipartRelated *relobj = (MimeMultipartRelated *) stream_closure;
char* ptr;
int32_t delta;
int status;
while (size > 0) {
if (relobj->curtag_length > 0) {
ptr = PL_strnchr(buf, '>', size);
if (!ptr) {
return push_tag(relobj, buf, size);
}
delta = ptr - buf + 1;
status = push_tag(relobj, buf, delta);
if (status < 0) return status;
status = flush_tag(relobj);
if (status < 0) return status;
buf += delta;
size -= delta;
}
ptr = PL_strnchr(buf, '<', size);
if (ptr && ptr - buf >= size) ptr = 0;
if (!ptr) {
return real_write(relobj, buf, size);
}
delta = ptr - buf;
status = real_write(relobj, buf, delta);
if (status < 0) return status;
buf += delta;
size -= delta;
PR_ASSERT(relobj->curtag_length == 0);
status = push_tag(relobj, buf, 1);
if (status < 0) return status;
PR_ASSERT(relobj->curtag_length == 1);
buf++;
size--;
}
return 0;
}
static int
MimeMultipartRelated_parse_eof (MimeObject *obj, bool abort_p)
{
/* OK, all the necessary data has been collected. We now have to spew out
the HTML. We let it go through all the normal mechanisms (which
includes content-encoding handling), and intercept the output data to do
translation of the tags. Whee. */
MimeMultipartRelated *relobj = (MimeMultipartRelated *) obj;
MimeContainer *cont = (MimeContainer *)obj;
int status = 0;
MimeObject *body;
char* ct;
const char* dct;
status = ((MimeObjectClass*)&MIME_SUPERCLASS)->parse_eof(obj, abort_p);
if (status < 0) goto FAIL;
if (!relobj->headobj) return 0;
ct = (relobj->buffered_hdrs
? MimeHeaders_get (relobj->buffered_hdrs, HEADER_CONTENT_TYPE,
true, false)
: 0);
dct = (((MimeMultipartClass *) obj->clazz)->default_part_type);
relobj->real_output_fn = obj->options->output_fn;
relobj->real_output_closure = obj->options->output_closure;
obj->options->output_fn = mime_multipart_related_output_fn;
obj->options->output_closure = obj;
body = mime_create(((ct && *ct) ? ct : (dct ? dct : TEXT_HTML)),
relobj->buffered_hdrs, obj->options);
PR_FREEIF(ct);
if (!body) {
status = MIME_OUT_OF_MEMORY;
goto FAIL;
}
// replace the existing head object with the new object
for (int iChild = 0; iChild < cont->nchildren; iChild++) {
if (cont->children[iChild] == relobj->headobj) {
// cleanup of the headobj is performed explicitly in our finalizer now
// that it does not get cleaned up as a child.
cont->children[iChild] = body;
body->parent = obj;
body->options = obj->options;
}
}
if (!body->parent) {
NS_WARNING("unexpected mime multipart related structure");
goto FAIL;
}
body->dontShowAsAttachment = body->clazz->displayable_inline_p(body->clazz, body->headers);
#ifdef MIME_DRAFTS
if ( obj->options &&
obj->options->decompose_file_p &&
obj->options->decompose_file_init_fn &&
(relobj->file_buffer || relobj->head_buffer))
{
status = obj->options->decompose_file_init_fn ( obj->options->stream_closure,
relobj->buffered_hdrs );
if (status < 0) return status;
}
#endif /* MIME_DRAFTS */
/* if the emitter wants to know about nested bodies, then it needs
to know that we jumped back to this body part. */
if (obj->options->notify_nested_bodies)
{
char *part_path = mime_part_address(body);
if (part_path)
{
mimeEmitterAddHeaderField(obj->options,
"x-jsemitter-part-path",
part_path);
PR_Free(part_path);
}
}
/* Now that we've added this new object to our list of children,
start its parser going. */
status = body->clazz->parse_begin(body);
if (status < 0) goto FAIL;
if (relobj->head_buffer)
{
/* Read it out of memory. */
PR_ASSERT(!relobj->file_buffer && !relobj->input_file_stream);
status = body->clazz->parse_buffer(relobj->head_buffer,
relobj->head_buffer_fp,
body);
}
else if (relobj->file_buffer)
{
/* Read it off disk. */
char *buf;
PR_ASSERT(relobj->head_buffer_size == 0 &&
relobj->head_buffer_fp == 0);
PR_ASSERT(relobj->file_buffer);
if (!relobj->file_buffer)
{
status = -1;
goto FAIL;
}
buf = (char *) PR_MALLOC(FILE_IO_BUFFER_SIZE);
if (!buf)
{
status = MIME_OUT_OF_MEMORY;
goto FAIL;
}
// First, close the output file to open the input file!
if (relobj->output_file_stream)
relobj->output_file_stream->Close();
nsresult rv = NS_NewLocalFileInputStream(getter_AddRefs(relobj->input_file_stream), relobj->file_buffer);
if (NS_FAILED(rv))
{
PR_Free(buf);
status = MIME_UNABLE_TO_OPEN_TMP_FILE;
goto FAIL;
}
while(1)
{
uint32_t bytesRead = 0;
rv = relobj->input_file_stream->Read(buf, FILE_IO_BUFFER_SIZE - 1, &bytesRead);
if (NS_FAILED(rv) || !bytesRead)
{
status = NS_FAILED(rv) ? -1 : 0;
break;
}
else
{
/* It would be really nice to be able to yield here, and let
some user events and other input sources get processed.
Oh well. */
status = body->clazz->parse_buffer(buf, bytesRead, body);
if (status < 0) break;
}
}
PR_Free(buf);
}
if (status < 0) goto FAIL;
/* Done parsing. */
status = body->clazz->parse_eof(body, false);
if (status < 0) goto FAIL;
status = body->clazz->parse_end(body, false);
if (status < 0) goto FAIL;
FAIL:
#ifdef MIME_DRAFTS
if ( obj->options &&
obj->options->decompose_file_p &&
obj->options->decompose_file_close_fn &&
(relobj->file_buffer || relobj->head_buffer)) {
status = obj->options->decompose_file_close_fn ( obj->options->stream_closure );
if (status < 0) return status;
}
#endif /* MIME_DRAFTS */
obj->options->output_fn = relobj->real_output_fn;
obj->options->output_closure = relobj->real_output_closure;
return status;
}
static int
MimeMultipartRelatedClassInitialize(MimeMultipartRelatedClass *clazz)
{
MimeObjectClass *oclass = (MimeObjectClass *) clazz;
MimeMultipartClass *mclass = (MimeMultipartClass *) clazz;
PR_ASSERT(!oclass->class_initialized);
oclass->initialize = MimeMultipartRelated_initialize;
oclass->finalize = MimeMultipartRelated_finalize;
oclass->parse_eof = MimeMultipartRelated_parse_eof;
mclass->output_child_p = MimeMultipartRelated_output_child_p;
mclass->parse_child_line = MimeMultipartRelated_parse_child_line;
return 0;
}