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/*
*
* Copyright (c) 2008-2009 Erich Hoover
*
* libr - Add resources into ELF binaries
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation; either version 2.1 of the License, or
* (at your option) any later version.
*
* This program 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 this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* To provide feedback, report bugs, or otherwise contact me:
* ehoover at mines dot edu
*
*/
/* Include compile-time parameters */
#include "config.h"
#include "libr.h"
#include "tempfiles.h"
/* Obtain file information */
#include <sys/stat.h>
#include <stdlib.h>
#include <stdio.h>
/* Compress files */
#include <zlib.h>
#include <math.h> /* for ceil */
/* Handle strings and variable arguments*/
#include <string.h>
#include <stdarg.h>
/* For C99 number types */
#include <stdint.h>
/* Handle status codes for multiple threads */
#include <pthread.h>
#define SPEC_VERSION '1'
#define OFFSET_TYPE ((unsigned long) 4)
#define OFFSET_UNCOMPRESSED ((unsigned long) OFFSET_TYPE+sizeof(unsigned char))
#define OFFSET_UNCOMPRESSED_SIZE ((unsigned long) OFFSET_TYPE+sizeof(unsigned char))
#define OFFSET_COMPRESSED ((unsigned long) OFFSET_UNCOMPRESSED_SIZE+sizeof(uint32_t))
#if 0
extern const char * __progname_full;
#define progpath() (char *) __progname_full
#endif
#define getself() ((char *) "/proc/self/exe")
pthread_key_t error_key;
/*
* Free the error status code/message structure
* (called on thread destruction or when a new code is set)
*/
void free_error_key(void *_m)
{
libr_intstatus *error = (libr_intstatus *) _m;
if(error != NULL)
{
/* Free the error structure */
if(error->message != NULL)
free(error->message);
free(error);
}
}
/*
* Set the error code and message for retrieval
*/
void libr_set_error(libr_intstatus error)
{
static int thread_key_initialized = false;
libr_intstatus *status = NULL;
if(!thread_key_initialized)
{
if(pthread_key_create(&error_key, free_error_key) != 0)
return; /* a serious pthread-related error occurred */
if(pthread_setspecific(error_key, NULL) != 0)
return; /* a serious pthread-related error occurred */
thread_key_initialized = true;
}
free_error_key(pthread_getspecific(error_key));
status = (libr_intstatus *) malloc(sizeof(libr_intstatus));
memcpy(status, &error, sizeof(libr_intstatus));
if(pthread_setspecific(error_key, (void *) status) != 0)
return; /* a serious pthread-related error occurred */
}
/*
* Make an internal status passing structure, set the error code with this status
* if the status is not LIBR_OK.
*/
libr_intstatus make_status(const char *function, libr_status code, char *message, ...)
{
libr_intstatus status = {NULL, code, function};
va_list args;
if(message != NULL)
{
status.message = (char *) malloc(1024);
va_start(args, message);
vsnprintf(status.message, 1024, message, args);
va_end(args);
}
libr_set_error(status);
return status;
}
/*
* Make sure that the section is libr-compatible
*/
libr_intstatus section_ok(libr_section *scn, libr_data *data)
{
char required_header[5], test_header[4] = {'R', 'E', 'S', SPEC_VERSION};
void *ptr = data_pointer(scn, data);
size_t size = data_size(scn, data);
if(ptr == NULL || size < sizeof(required_header))
RETURN(LIBR_ERROR_NOTRESOURCE, "Not a valid libr-resource");
memcpy(required_header, ptr, sizeof(required_header));
if(strncmp(required_header, test_header, sizeof(test_header)) != 0)
RETURN(LIBR_ERROR_NOTRESOURCE, "Not a valid libr-resource");
RETURN_OK;
}
/*
* Remove a resourcefrom the ELF binary handle
*/
EXPORT_FN int libr_clear(libr_file *file_handle, char *resource_name)
{
libr_data *data = NULL;
libr_section *scn = NULL;
/* Ensure valid inputs */
if(file_handle == NULL || resource_name == NULL)
PUBLIC_RETURN(LIBR_ERROR_INVALIDPARAMS, "Invalid parameters passed to function");
if(file_handle->access != LIBR_READ_WRITE)
PUBLIC_RETURN(LIBR_ERROR_NOPERM, "Open handle with LIBR_READ_WRITE access");
/* Find the section containing the icon */
if(find_section(file_handle, resource_name, &scn).status != LIBR_OK)
return false; /* error already set */
/* Get the section data (interested in header) */
if((data = get_data(file_handle, scn)) == NULL)
PUBLIC_RETURN(LIBR_ERROR_GETDATA, "Failed to obtain data of section");
/* Confirm that this resource is libr-compatible */
if(section_ok(scn, data).status != LIBR_OK)
return false; /* error already set */
/* Clear the data resource */
if(set_data(file_handle, scn, data, 0, NULL, 0).status != LIBR_OK)
return false; /* error already set */
/* Remove the section */
if(remove_section(file_handle, scn).status != LIBR_OK)
return false; /* error already set */
return true;
}
/*
* Close the specified ELF binary handle
*/
EXPORT_FN void libr_close(libr_file *file_handle)
{
unregister_handle_cleanup(file_handle);
libr_close_internal(file_handle);
}
/* Only called directly by cleanup routine, all other calls should be through libr_close */
void libr_close_internal(libr_file *file_handle)
{
write_output(file_handle);
free(file_handle);
}
/*
* Return the last error message for the active thread
*/
EXPORT_FN char *libr_errmsg(void)
{
libr_intstatus *error = (libr_intstatus *) pthread_getspecific(error_key);
if(error == NULL)
return NULL;
return error->message;
}
/*
* Return the last error code for the active thread (or LIBR_OK for no error)
*/
EXPORT_FN libr_status libr_errno(void)
{
libr_intstatus *error = (libr_intstatus *) pthread_getspecific(error_key);
if(error == NULL) /* Nothing has happened yet */
return LIBR_OK;
return error->status;
}
/*
* Return the name of a libr-compatible resource
*/
EXPORT_FN char *libr_list(libr_file *file_handle, unsigned int resourceid)
{
libr_section *scn = NULL;
libr_data *data = NULL;
int i = 0;
while((scn = next_section(file_handle, scn)) != NULL)
{
/* Get the section data (interested in header) */
if((data = get_data(file_handle, scn)) == NULL)
return NULL;
if(section_ok(scn, data).status == LIBR_OK)
{
if(i == resourceid)
return strdup(section_name(file_handle, scn));
i++;
}
}
return NULL;
}
/*
* Allocate a buffer containing the data of a resource
*/
EXPORT_FN char *libr_malloc(libr_file *file_handle, char *resource_name, size_t *size)
{
char *buffer = NULL;
size_t size_local;
if(size == NULL)
size = &size_local;
if(!libr_size(file_handle, resource_name, size))
return NULL; /* error already set */
buffer = (char *) malloc(*size);
if(!libr_read(file_handle, resource_name, buffer))
{
free(buffer);
return NULL; /* error already set */
}
return buffer;
}
/*
* Open the specified ELF binary (caller if filename is NULL)
*/
EXPORT_FN libr_file *libr_open(char *filename, libr_access_t access)
{
libr_file *file_handle = NULL;
static int initialized = false;
if(!initialized)
{
if(strncmp(zlibVersion(), ZLIB_VERSION, 1) != 0)
{
SET_ERROR(LIBR_ERROR_ZLIBINIT, "zlib library initialization failed");
return NULL;
}
initialize_backend();
initialized = true;
}
if(filename == NULL)
filename = getself();
file_handle = (libr_file *) malloc(sizeof(libr_file));
memset(file_handle, 0, sizeof(libr_file));
if(open_handles(file_handle, filename, access).status != LIBR_OK)
{
/* failed to open file for processing, error already set */
free(file_handle);
file_handle = NULL;
}
/* Cleanup handles automatically when libr exits memory */
if(file_handle != NULL)
register_handle_cleanup(file_handle);
return file_handle;
}
/*
* Read a resource from the specified ELF binary handle
*/
EXPORT_FN int libr_read(libr_file *file_handle, char *resource_name, char *buffer)
{
unsigned long uncompressed_size = 0, compressed_size = 0;
char *data_buffer = NULL;
libr_section *scn = NULL;
libr_data *data = NULL;
libr_type_t type;
/* Find the section containing the icon */
if(find_section(file_handle, resource_name, &scn).status != LIBR_OK)
return false; /* error already set */
/* Get the section data (interested in header) */
if((data = get_data(file_handle, scn)) == NULL)
PUBLIC_RETURN(LIBR_ERROR_GETDATA, "Failed to obtain data of section");
/* Confirm that this resource is libr-compatible */
if(section_ok(scn, data).status != LIBR_OK)
return false; /* error already set */
data_buffer = (char *) data_pointer(scn, data);
/* Get the size of the data resource */
type = (libr_type_t) data_buffer[OFFSET_TYPE];
switch(type)
{
case LIBR_UNCOMPRESSED:
{ if(data_size(scn, data)-OFFSET_UNCOMPRESSED < 0)
PUBLIC_RETURN(LIBR_ERROR_SIZEMISMATCH, "Section's data size does not make sense");
uncompressed_size = data_size(scn, data)-OFFSET_UNCOMPRESSED;
memcpy(buffer, &data_buffer[OFFSET_UNCOMPRESSED], uncompressed_size);
} break;
case LIBR_COMPRESSED:
{
uint32_t size_temp;
memcpy(&size_temp, &data_buffer[OFFSET_UNCOMPRESSED_SIZE], sizeof(uint32_t));
uncompressed_size = size_temp;
compressed_size = data_size(scn, data)-OFFSET_COMPRESSED;
if(uncompress((unsigned char *)buffer, &uncompressed_size, (unsigned char *)&data_buffer[OFFSET_COMPRESSED], compressed_size) != Z_OK)
PUBLIC_RETURN(LIBR_ERROR_UNCOMPRESS, "Failed to uncompress resource data");
} break;
default:
PUBLIC_RETURN(LIBR_ERROR_INVALIDTYPE, "Invalid data storage type specified");
}
return true;
}
/*
* Retrieve the number of libr-compatible resources
*/
EXPORT_FN unsigned int libr_resources(libr_file *file_handle)
{
libr_section *scn = NULL;
libr_data *data = NULL;
int i = 0;
while((scn = next_section(file_handle, scn)) != NULL)
{
if((data = get_data(file_handle, scn)) == NULL)
continue;
if(section_ok(scn, data).status == LIBR_OK)
i++;
}
return i;
}
/*
* Get the size of a resource from the specified ELF binary handle
*/
EXPORT_FN int libr_size(libr_file *file_handle, char *resource_name, size_t *retsize)
{
char *data_buffer = NULL;
libr_section *scn = NULL;
libr_data *data = NULL;
unsigned long size = 0;
libr_type_t type;
/* Find the section containing the icon */
if(find_section(file_handle, resource_name, &scn).status != LIBR_OK)
return false; /* error already set */
/* Get the section data (interested in header) */
if((data = get_data(file_handle, scn)) == NULL)
PUBLIC_RETURN(LIBR_ERROR_GETDATA, "Failed to obtain data of section");
/* Confirm that this resource is libr-compatible */
if(section_ok(scn, data).status != LIBR_OK)
return false; /* error already set */
data_buffer = (char *) data_pointer(scn, data);
/* Get the size of the data resource */
type = (libr_type_t) data_buffer[OFFSET_TYPE];
switch(type)
{
case LIBR_UNCOMPRESSED:
{
size_t full_size = data_size(scn, data);
if(full_size-OFFSET_UNCOMPRESSED < 0)
PUBLIC_RETURN(LIBR_ERROR_SIZEMISMATCH, "Section's data size does not make sense");
size = full_size - OFFSET_UNCOMPRESSED;
} break;
case LIBR_COMPRESSED:
{
memcpy(&size, &data_buffer[OFFSET_UNCOMPRESSED_SIZE], sizeof(uint32_t));
} break;
default:
PUBLIC_RETURN(LIBR_ERROR_INVALIDTYPE, "Invalid data storage type specified");
}
*retsize = size;
return true;
}
/*
* Write a resource to the specified ELF binary handle
*/
EXPORT_FN int libr_write(libr_file *file_handle, char *resource_name, char *buffer, size_t size, libr_type_t type, libr_overwrite_t overwrite)
{
char header[9] = {'R', 'E', 'S', SPEC_VERSION};
unsigned int header_size = 4;
libr_section *scn = NULL;
libr_data *data = NULL;
libr_intstatus ret;
/* Ensure valid inputs */
if(file_handle == NULL || resource_name == NULL || buffer == NULL)
PUBLIC_RETURN(LIBR_ERROR_INVALIDPARAMS, "Invalid parameters passed to function");
if(file_handle->access != LIBR_READ_WRITE)
PUBLIC_RETURN(LIBR_ERROR_NOPERM, "Open handle with LIBR_READ_WRITE access");
/* Get the section if it already exists */
ret = find_section(file_handle, resource_name, &scn);
if(ret.status == LIBR_OK)
{
/* If the section exists (and overwrite is not specified) then fail */
if(!overwrite)
PUBLIC_RETURN(LIBR_ERROR_OVERWRITE, "Section already exists, over-write not specified");
/* Grab the existing data section for overwriting */
if((data = get_data(file_handle, scn)) == NULL)
PUBLIC_RETURN(LIBR_ERROR_GETDATA, "Failed to obtain data of section");
}
else if(ret.status == LIBR_ERROR_NOSECTION)
{
/* Create a new section named "resource_name" */
if(add_section(file_handle, resource_name, &scn).status != LIBR_OK)
return false; /* error already set */
/* Create a data segment to store the compressed image */
if((data = new_data(file_handle, scn)) == NULL)
PUBLIC_RETURN(LIBR_ERROR_NEWDATA, "Failed to create data for section");
}
else
return false; /* error already set */
header[header_size++] = (char) type;
switch(type)
{
case LIBR_UNCOMPRESSED:
/* Do nothing, just stick the data in */
break;
case LIBR_COMPRESSED:
{
char *compressed_buffer = NULL, *uncompressed_buffer = buffer;
unsigned long compressed_size = 0, uncompressed_size = size;
uint32_t size_temp;
/* Store the uncompressed size to the header */
size_temp = uncompressed_size;
memcpy(&header[header_size], &size_temp, sizeof(uint32_t));
header_size += sizeof(uint32_t);
/* Compress the data for storage */
compressed_size = ceil((uncompressed_size+12)*1.1);
compressed_buffer = (char *) malloc(compressed_size);
if(compress((unsigned char *)compressed_buffer, &compressed_size, (unsigned char *)uncompressed_buffer, uncompressed_size) != Z_OK)
{
free(compressed_buffer);
PUBLIC_RETURN(LIBR_ERROR_COMPRESS, "Failed to compress resource data");
}
/* From here on treat the compressed buffer as the data */
buffer = compressed_buffer;
size = compressed_size;
} break;
default:
PUBLIC_RETURN(LIBR_ERROR_INVALIDTYPE, "Invalid data storage type specified");
}
/* Store the resource header data */
if(set_data(file_handle, scn, data, 0, &header[0], header_size).status != LIBR_OK)
return false; /* error already set */
/* Create a data segment to store the post-header data
* NOTE: For existing files the data of the section is represented as a continuous stream
* (so calling elf_getdata now WILL NOT return the post-header data)
*/
if((data = new_data(file_handle, scn)) == NULL)
PUBLIC_RETURN(LIBR_ERROR_NEWDATA, "Failed to create data for section");
/* Store the actual user data to the section */
if(set_data(file_handle, scn, data, header_size, buffer, size).status != LIBR_OK)
return false; /* error already set */
/* Close compression resources */
if(type == LIBR_COMPRESSED)
free(buffer);
return true;
}
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