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/* 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/. */
#include "signtool.h"
#include "zip.h"
#include "zlib.h"
#include "prmem.h"
static void inttox(int in, char *out);
static void longtox(long in, char *out);
/****************************************************************
*
* J z i p O p e n
*
* Opens a new ZIP file and creates a new ZIPfile structure to
* control the process of installing files into a zip.
*/
ZIPfile *
JzipOpen(char *filename, char *comment)
{
ZIPfile *zipfile;
PRExplodedTime prtime;
zipfile = PORT_ZAlloc(sizeof(ZIPfile));
if (!zipfile)
out_of_memory();
/* Construct time and date */
PR_ExplodeTime(PR_Now(), PR_LocalTimeParameters, &prtime);
zipfile->date = ((prtime.tm_year - 1980) << 9) |
((prtime.tm_month + 1) << 5) |
prtime.tm_mday;
zipfile->time = (prtime.tm_hour << 11) |
(prtime.tm_min << 5) |
(prtime.tm_sec & 0x3f);
zipfile->fp = NULL;
if (filename &&
(zipfile->fp = PR_Open(filename,
PR_WRONLY |
PR_CREATE_FILE |
PR_TRUNCATE,
0777)) == NULL) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "%s: can't open output jar, %s.%s\n",
PROGRAM_NAME,
filename, nsprErr ? nsprErr : "");
if (nsprErr)
PR_Free(nsprErr);
errorCount++;
exit(ERRX);
}
zipfile->list = NULL;
if (filename) {
zipfile->filename = PORT_ZAlloc(strlen(filename) + 1);
if (!zipfile->filename)
out_of_memory();
PORT_Strcpy(zipfile->filename, filename);
}
if (comment) {
zipfile->comment = PORT_ZAlloc(strlen(comment) + 1);
if (!zipfile->comment)
out_of_memory();
PORT_Strcpy(zipfile->comment, comment);
}
return zipfile;
}
static void *
my_alloc_func(void *opaque, uInt items, uInt size)
{
return PORT_Alloc(items * size);
}
static void
my_free_func(void *opaque, void *address)
{
PORT_Free(address);
}
static void
handle_zerror(int err, char *msg)
{
if (!msg) {
msg = "";
}
errorCount++; /* unless Z_OK...see below */
switch (err) {
case Z_OK:
PR_fprintf(errorFD, "No error: %s\n", msg);
errorCount--; /* this was incremented above */
break;
case Z_MEM_ERROR:
PR_fprintf(errorFD, "Deflation ran out of memory: %s\n", msg);
break;
case Z_STREAM_ERROR:
PR_fprintf(errorFD, "Invalid compression level: %s\n", msg);
break;
case Z_VERSION_ERROR:
PR_fprintf(errorFD, "Incompatible compression library version: %s\n",
msg);
break;
case Z_DATA_ERROR:
PR_fprintf(errorFD, "Compression data error: %s\n", msg);
break;
default:
PR_fprintf(errorFD, "Unknown error in compression library: %s\n", msg);
break;
}
}
/****************************************************************
*
* J z i p A d d
*
* Adds a new file into a ZIP file. The ZIP file must have already
* been opened with JzipOpen.
*/
int
JzipAdd(char *fullname, char *filename, ZIPfile *zipfile, int lvl)
{
ZIPentry *entry;
PRFileDesc *readfp;
PRFileDesc *zipfp;
unsigned long crc;
unsigned long local_size_pos;
int num;
int err;
int deflate_percent;
z_stream zstream;
Bytef inbuf[BUFSIZ];
Bytef outbuf[BUFSIZ];
if (!fullname || !filename || !zipfile) {
return -1;
}
zipfp = zipfile->fp;
if (!zipfp)
return -1;
if ((readfp = PR_Open(fullname, PR_RDONLY, 0777)) == NULL) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "%s: %s\n", fullname, nsprErr ? nsprErr : "");
errorCount++;
if (nsprErr)
PR_Free(nsprErr);
exit(ERRX);
}
/*
* Make sure the input file is not the output file.
* Add a few bytes to the end of the JAR file and see if the input file
* twitches
*/
{
PRInt32 endOfJar;
PRInt32 inputSize;
PRBool isSame;
inputSize = PR_Available(readfp);
endOfJar = PR_Seek(zipfp, 0L, PR_SEEK_CUR);
if (PR_Write(zipfp, "abcde", 5) < 5) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "Writing to zip file: %s\n",
nsprErr ? nsprErr : "");
if (nsprErr)
PR_Free(nsprErr);
errorCount++;
exit(ERRX);
}
isSame = (PR_Available(readfp) != inputSize);
PR_Seek(zipfp, endOfJar, PR_SEEK_SET);
if (isSame) {
/* It's the same file! Forget it! */
PR_Close(readfp);
return 0;
}
}
if (verbosity >= 0) {
PR_fprintf(outputFD, "adding %s to %s...", fullname, zipfile->filename);
}
entry = PORT_ZAlloc(sizeof(ZIPentry));
if (!entry)
out_of_memory();
entry->filename = PORT_Strdup(filename);
entry->comment = NULL;
/* Set up local file header */
longtox(LSIG, entry->local.signature);
inttox(strlen(filename), entry->local.filename_len);
inttox(zipfile->time, entry->local.time);
inttox(zipfile->date, entry->local.date);
inttox(Z_DEFLATED, entry->local.method);
/* Set up central directory entry */
longtox(CSIG, entry->central.signature);
inttox(strlen(filename), entry->central.filename_len);
if (entry->comment) {
inttox(strlen(entry->comment), entry->central.commentfield_len);
}
longtox(PR_Seek(zipfile->fp, 0, PR_SEEK_CUR),
entry->central.localhdr_offset);
inttox(zipfile->time, entry->central.time);
inttox(zipfile->date, entry->central.date);
inttox(Z_DEFLATED, entry->central.method);
/* Compute crc. Too bad we have to process the whole file to do this*/
crc = crc32(0L, NULL, 0);
while ((num = PR_Read(readfp, inbuf, BUFSIZ)) > 0) {
crc = crc32(crc, inbuf, num);
}
PR_Seek(readfp, 0L, PR_SEEK_SET);
/* Store CRC */
longtox(crc, entry->local.crc32);
longtox(crc, entry->central.crc32);
/* Stick this entry onto the end of the list */
entry->next = NULL;
if (zipfile->list == NULL) {
/* First entry */
zipfile->list = entry;
} else {
ZIPentry *pe;
pe = zipfile->list;
while (pe->next != NULL) {
pe = pe->next;
}
pe->next = entry;
}
/*
* Start writing stuff out
*/
local_size_pos = PR_Seek(zipfp, 0, PR_SEEK_CUR) + 18;
/* File header */
if (PR_Write(zipfp, &entry->local, sizeof(struct ZipLocal)) <
sizeof(struct ZipLocal)) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "Writing zip data: %s\n", nsprErr ? nsprErr : "");
if (nsprErr)
PR_Free(nsprErr);
errorCount++;
exit(ERRX);
}
/* File Name */
if (PR_Write(zipfp, filename, strlen(filename)) < strlen(filename)) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "Writing zip data: %s\n", nsprErr ? nsprErr : "");
if (nsprErr)
PR_Free(nsprErr);
errorCount++;
exit(ERRX);
}
/*
* File data
*/
/* Initialize zstream */
zstream.zalloc = my_alloc_func;
zstream.zfree = my_free_func;
zstream.opaque = NULL;
zstream.next_in = inbuf;
zstream.avail_in = BUFSIZ;
zstream.next_out = outbuf;
zstream.avail_out = BUFSIZ;
/* Setting the windowBits to -MAX_WBITS is an undocumented feature of
* zlib (see deflate.c in zlib). It is the same thing that Java does
* when you specify the nowrap option for deflation in java.util.zip.
* It causes zlib to leave out its headers and footers, which don't
* work in PKZIP files.
*/
err = deflateInit2(&zstream, lvl, Z_DEFLATED,
-MAX_WBITS, 8 /*default*/, Z_DEFAULT_STRATEGY);
if (err != Z_OK) {
handle_zerror(err, zstream.msg);
exit(ERRX);
}
while ((zstream.avail_in = PR_Read(readfp, inbuf, BUFSIZ)) > 0) {
zstream.next_in = inbuf;
/* Process this chunk of data */
while (zstream.avail_in > 0) {
err = deflate(&zstream, Z_NO_FLUSH);
if (err != Z_OK) {
handle_zerror(err, zstream.msg);
exit(ERRX);
}
if (zstream.avail_out <= 0) {
if (PR_Write(zipfp, outbuf, BUFSIZ) < BUFSIZ) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "Writing zip data: %s\n",
nsprErr ? nsprErr : "");
if (nsprErr)
PR_Free(nsprErr);
errorCount++;
exit(ERRX);
}
zstream.next_out = outbuf;
zstream.avail_out = BUFSIZ;
}
}
}
/* Now flush everything */
while (1) {
err = deflate(&zstream, Z_FINISH);
if (err == Z_STREAM_END) {
break;
} else if (err == Z_OK) {
/* output buffer full, repeat */
} else {
handle_zerror(err, zstream.msg);
exit(ERRX);
}
if (PR_Write(zipfp, outbuf, BUFSIZ) < BUFSIZ) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "Writing zip data: %s\n",
nsprErr ? nsprErr : "");
if (nsprErr)
PR_Free(nsprErr);
errorCount++;
exit(ERRX);
}
zstream.avail_out = BUFSIZ;
zstream.next_out = outbuf;
}
/* If there's any output left, write it out. */
if (zstream.next_out != outbuf) {
if (PR_Write(zipfp, outbuf, zstream.next_out - outbuf) <
zstream.next_out - outbuf) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "Writing zip data: %s\n",
nsprErr ? nsprErr : "");
if (nsprErr)
PR_Free(nsprErr);
errorCount++;
exit(ERRX);
}
zstream.avail_out = BUFSIZ;
zstream.next_out = outbuf;
}
/* Now that we know the compressed size, write this to the headers */
longtox(zstream.total_in, entry->local.orglen);
longtox(zstream.total_out, entry->local.size);
if (PR_Seek(zipfp, local_size_pos, PR_SEEK_SET) == -1) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "Accessing zip file: %s\n", nsprErr ? nsprErr : "");
if (nsprErr)
PR_Free(nsprErr);
errorCount++;
exit(ERRX);
}
if (PR_Write(zipfp, entry->local.size, 8) != 8) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "Writing zip data: %s\n", nsprErr ? nsprErr : "");
if (nsprErr)
PR_Free(nsprErr);
errorCount++;
exit(ERRX);
}
if (PR_Seek(zipfp, 0L, PR_SEEK_END) == -1) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "Accessing zip file: %s\n",
nsprErr ? nsprErr : "");
if (nsprErr)
PR_Free(nsprErr);
errorCount++;
exit(ERRX);
}
longtox(zstream.total_in, entry->central.orglen);
longtox(zstream.total_out, entry->central.size);
/* Close out the deflation operation */
err = deflateEnd(&zstream);
if (err != Z_OK) {
handle_zerror(err, zstream.msg);
exit(ERRX);
}
PR_Close(readfp);
if ((zstream.total_in > zstream.total_out) && (zstream.total_in > 0)) {
deflate_percent = (int)((zstream.total_in -
zstream.total_out) *
100 / zstream.total_in);
} else {
deflate_percent = 0;
}
if (verbosity >= 0) {
PR_fprintf(outputFD, "(deflated %d%%)\n", deflate_percent);
}
return 0;
}
/********************************************************************
* J z i p C l o s e
*
* Finishes the ZipFile. ALSO DELETES THE ZIPFILE STRUCTURE PASSED IN!!
*/
int
JzipClose(ZIPfile *zipfile)
{
ZIPentry *pe, *dead;
PRFileDesc *zipfp;
struct ZipEnd zipend;
unsigned int entrycount = 0;
if (!zipfile) {
return -1;
}
if (!zipfile->filename) {
/* bogus */
return 0;
}
zipfp = zipfile->fp;
zipfile->central_start = PR_Seek(zipfp, 0L, PR_SEEK_CUR);
/* Write out all the central directories */
pe = zipfile->list;
while (pe) {
entrycount++;
/* Write central directory info */
if (PR_Write(zipfp, &pe->central, sizeof(struct ZipCentral)) <
sizeof(struct ZipCentral)) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "Writing zip data: %s\n",
nsprErr ? nsprErr : "");
if (nsprErr)
PR_Free(nsprErr);
errorCount++;
exit(ERRX);
}
/* Write filename */
if (PR_Write(zipfp, pe->filename, strlen(pe->filename)) <
strlen(pe->filename)) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "Writing zip data: %s\n",
nsprErr ? nsprErr : "");
if (nsprErr)
PR_Free(nsprErr);
errorCount++;
exit(ERRX);
}
/* Write file comment */
if (pe->comment) {
if (PR_Write(zipfp, pe->comment, strlen(pe->comment)) <
strlen(pe->comment)) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "Writing zip data: %s\n",
nsprErr ? nsprErr : "");
if (nsprErr)
PR_Free(nsprErr);
errorCount++;
exit(ERRX);
}
}
/* Delete the structure */
dead = pe;
pe = pe->next;
if (dead->filename) {
PORT_Free(dead->filename);
}
if (dead->comment) {
PORT_Free(dead->comment);
}
PORT_Free(dead);
}
zipfile->central_end = PR_Seek(zipfile->fp, 0L, PR_SEEK_CUR);
/* Create the ZipEnd structure */
PORT_Memset(&zipend, 0, sizeof(zipend));
longtox(ESIG, zipend.signature);
inttox(entrycount, zipend.total_entries_disk);
inttox(entrycount, zipend.total_entries_archive);
longtox(zipfile->central_end - zipfile->central_start,
zipend.central_dir_size);
longtox(zipfile->central_start, zipend.offset_central_dir);
if (zipfile->comment) {
inttox(strlen(zipfile->comment), zipend.commentfield_len);
}
/* Write out ZipEnd xtructure */
if (PR_Write(zipfp, &zipend, sizeof(zipend)) < sizeof(zipend)) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "Writing zip data: %s\n",
nsprErr ? nsprErr : "");
if (nsprErr)
PR_Free(nsprErr);
errorCount++;
exit(ERRX);
}
/* Write out Zipfile comment */
if (zipfile->comment) {
if (PR_Write(zipfp, zipfile->comment, strlen(zipfile->comment)) <
strlen(zipfile->comment)) {
char *nsprErr;
if (PR_GetErrorTextLength()) {
nsprErr = PR_Malloc(PR_GetErrorTextLength() + 1);
PR_GetErrorText(nsprErr);
} else {
nsprErr = NULL;
}
PR_fprintf(errorFD, "Writing zip data: %s\n",
nsprErr ? nsprErr : "");
if (nsprErr)
PR_Free(nsprErr);
errorCount++;
exit(ERRX);
}
}
PR_Close(zipfp);
/* Free the memory of the zipfile structure */
if (zipfile->filename) {
PORT_Free(zipfile->filename);
}
if (zipfile->comment) {
PORT_Free(zipfile->comment);
}
PORT_Free(zipfile);
return 0;
}
/**********************************************
* i n t t o x
*
* Converts a two byte ugly endianed integer
* to our platform's integer.
*
*/
static void
inttox(int in, char *out)
{
out[0] = (in & 0xFF);
out[1] = (in & 0xFF00) >> 8;
}
/*********************************************
* l o n g t o x
*
* Converts a four byte ugly endianed integer
* to our platform's integer.
*
*/
static void
longtox(long in, char *out)
{
out[0] = (in & 0xFF);
out[1] = (in & 0xFF00) >> 8;
out[2] = (in & 0xFF0000) >> 16;
out[3] = (in & 0xFF000000) >> 24;
}