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authorGravatar Jonathan Beck2008-11-25 19:14:27 +0100
committerGravatar Jonathan Beck2008-11-25 19:14:27 +0100
commitaed2c025f6e47dc769675e564cc574adc496a88a (patch)
tree6cb14e4c511dabc40fdf6c24714a2be48567f847 /src
parent0bca81e7c8ce5ba53390271e5c7eaa7a5f281c91 (diff)
downloadlibimobiledevice-aed2c025f6e47dc769675e564cc574adc496a88a.tar.gz
libimobiledevice-aed2c025f6e47dc769675e564cc574adc496a88a.tar.bz2
fix some warnings and indent
Diffstat (limited to 'src')
-rw-r--r--src/plist.c335
-rw-r--r--src/plist.h11
2 files changed, 179 insertions, 167 deletions
diff --git a/src/plist.c b/src/plist.c
index 0024577..7a09b4d 100644
--- a/src/plist.c
+++ b/src/plist.c
@@ -261,8 +261,10 @@ void free_dictionary(char **dictionary)
* - parse_nodes() will return the first node it encounters, which is usually the "root" node.
*/
-uint32_t uipow(uint32_t value, uint32_t power) {
- if (!power) return 1;
+uint32_t uipow(uint32_t value, uint32_t power)
+{
+ if (!power)
+ return 1;
int i = 0, oVal = value;
for (i = 1; i < power; i++) {
value *= oVal;
@@ -270,50 +272,55 @@ uint32_t uipow(uint32_t value, uint32_t power) {
return value;
}
-void byte_convert(char *address, size_t size) {
+void byte_convert(char *address, size_t size)
+{
int i = 0, j = 0;
char tmp = '\0';
-
+
for (i = 0; i < (size / 2); i++) {
tmp = address[i];
- j = ((size-1) + 0) - i;
+ j = ((size - 1) + 0) - i;
address[i] = address[j];
address[j] = tmp;
}
}
-
-bplist_node *parse_raw_node(const char *bpbuffer, uint32_t bplength, uint32_t *position, uint8_t ref_size) {
- if (!position || !bpbuffer || !bplength) return NULL;
-
+
+bplist_node *parse_raw_node(const char *bpbuffer, uint32_t bplength, uint32_t * position, uint8_t ref_size)
+{
+ if (!position || !bpbuffer || !bplength)
+ return NULL;
+
uint8_t modifier = 0;
- bplist_node *new_node = (bplist_node*)malloc(sizeof(bplist_node));
+ bplist_node *new_node = (bplist_node *) malloc(sizeof(bplist_node));
bplist_node *length_stupidity = NULL;
- memset(new_node, 0, sizeof(bplist_node)); // initialize the new struct
-
+ memset(new_node, 0, sizeof(bplist_node)); // initialize the new struct
+
int myPos = *position;
- if (myPos == bplength || (myPos+1) == bplength) { free(new_node); return NULL; } // end of string
-
+ if (myPos == bplength || (myPos + 1) == bplength) {
+ free(new_node);
+ return NULL;
+ } // end of string
+
uint32_t length = 0;
if (!myPos) {
if (strncmp(bpbuffer, "bplist00", strlen("bplist00"))) {
- return NULL; // badness!
+ return NULL; // badness!
}
myPos += strlen("bplist00");
}
-
// Get the node's type.
- if (bpbuffer[myPos] == BPLIST_DATE) { // handle date separately, but do it as a real
+ if (bpbuffer[myPos] == BPLIST_DATE) { // handle date separately, but do it as a real
// better handling of date; basically interpret as real or double
new_node->type = BPLIST_DATE;
- new_node->length = 8; // always 8 for "date" (Apple intended it, not me)
+ new_node->length = 8; // always 8 for "date" (Apple intended it, not me)
myPos++;
- memcpy(&new_node->realval, bpbuffer+myPos, sizeof(new_node->realval));
- byte_convert(&new_node->realval, sizeof(new_node->realval));
+ memcpy(&new_node->realval, bpbuffer + myPos, sizeof(new_node->realval));
+ byte_convert((char *) &new_node->realval, sizeof(new_node->realval));
myPos += new_node->length;
*position = myPos;
return new_node;
}
-
+
new_node->type = bpbuffer[myPos] & BPLIST_MASK;
new_node->length = bpbuffer[myPos] & BPLIST_FILL;
if (!new_node->type) {
@@ -322,151 +329,153 @@ bplist_node *parse_raw_node(const char *bpbuffer, uint32_t bplength, uint32_t *p
// okay, so it is. Carry on.
new_node->type = bpbuffer[myPos];
new_node->length = 0;
- } else {
+ } else {
// er, what? we have a bad type here. Return NULL.
free(new_node);
//printf("parse_raw_node: lol type: type given %x\n", bpbuffer[myPos]);
return NULL;
}
}
-
- myPos++; // puts us in the data.
- if (new_node->length == BPLIST_FILL) { // Data happens to contain length...
+
+ myPos++; // puts us in the data.
+ if (new_node->length == BPLIST_FILL) { // Data happens to contain length...
// what? you're going to make me parse an int for the length. You suck.
*position = myPos;
length_stupidity = parse_raw_node(bpbuffer, bplength, &myPos, ref_size);
switch (length_stupidity->length) {
- case sizeof(uint8_t):
- new_node->length = length_stupidity->intval8;
- break;
- case sizeof(uint16_t):
- new_node->length = length_stupidity->intval16;
- break;
- case sizeof(uint32_t):
- new_node->length = length_stupidity->intval32;
- break;
- case sizeof(uint64_t):
- new_node->length = length_stupidity->intval64;
- break;
- default:
- free(new_node);
- free(length_stupidity);
- return NULL;
+ case sizeof(uint8_t):
+ new_node->length = length_stupidity->intval8;
+ break;
+ case sizeof(uint16_t):
+ new_node->length = length_stupidity->intval16;
+ break;
+ case sizeof(uint32_t):
+ new_node->length = length_stupidity->intval32;
+ break;
+ case sizeof(uint64_t):
+ new_node->length = length_stupidity->intval64;
+ break;
+ default:
+ free(new_node);
+ free(length_stupidity);
+ return NULL;
}
// There, we have our fucking length now.
*position = myPos;
- free(length_stupidity); // cleanup
+ free(length_stupidity); // cleanup
}
-
// Now we're in the data.
// Error-checking sorta
if ((myPos + new_node->length) >= bplength) {
- new_node->length = bplength - myPos; // truncate the object
+ new_node->length = bplength - myPos; // truncate the object
}
-
// And now for the greatest show on earth: the giant fucking switch statement.
switch (new_node->type) {
- case BPLIST_INT:
- new_node->length = uipow(2, new_node->length); // make length less misleading
- switch (new_node->length) {
- case sizeof(uint8_t):
- new_node->intval8 = bpbuffer[myPos];
- break;
- case sizeof(uint16_t):
- memcpy(&new_node->intval16, bpbuffer+myPos, sizeof(uint16_t));
- new_node->intval16 = ntohs(new_node->intval16);
- break;
- case sizeof(uint32_t):
- memcpy(&new_node->intval32, bpbuffer+myPos, sizeof(uint32_t));
- new_node->intval32 = ntohl(new_node->intval32);
- break;
- case sizeof(uint64_t):
- memcpy(&new_node->intval64, bpbuffer+myPos, sizeof(uint64_t));
- byte_convert(&new_node->intval64, sizeof(uint64_t));
- break;
- default:
- free(new_node);
- printf("parse_raw_node: lol: invalid int: size given %i\n", new_node->length);
- printf("parse_raw_node: lol: by the way sizeof(uint64) = %i\n", sizeof(uint64_t));
- return NULL;
- }
+ case BPLIST_INT:
+ new_node->length = uipow(2, new_node->length); // make length less misleading
+ switch (new_node->length) {
+ case sizeof(uint8_t):
+ new_node->intval8 = bpbuffer[myPos];
break;
-
- case BPLIST_REAL:
- new_node->length = uipow(2, new_node->length);
- memcpy(&new_node->realval, bpbuffer+myPos, new_node->length); // XXX: probable buffer overflow here
- //new_node->realval = bpbuffer[myPos]; // why not
- byte_convert(&new_node->realval, sizeof(double));
+ case sizeof(uint16_t):
+ memcpy(&new_node->intval16, bpbuffer + myPos, sizeof(uint16_t));
+ new_node->intval16 = ntohs(new_node->intval16);
break;
-
- case BPLIST_DICT: /* returning a raw dict, it forward-references, so. */
- new_node->length = new_node->length * 2; // dicts lie
- case BPLIST_ARRAY: /* returning a raw array, it forward-references, so. */
- new_node->intval8 = ref_size; // in arrays and dicts, the "ref size" alluded to in the trailer applies, and should be stored in intval8 so as to save space.
- case BPLIST_STRING:
- case BPLIST_DATA:
- default: /* made to hold raw data. */
- modifier = (new_node->intval8 > 0) ? new_node->intval8 : 1;
- new_node->strval = (char*)malloc(sizeof(char) * (new_node->length * modifier));
- memcpy(new_node->strval, bpbuffer+myPos, (new_node->length * modifier));
+ case sizeof(uint32_t):
+ memcpy(&new_node->intval32, bpbuffer + myPos, sizeof(uint32_t));
+ new_node->intval32 = ntohl(new_node->intval32);
break;
-
- case BPLIST_UNICODE:
- new_node->unicodeval = (wchar_t*)malloc(sizeof(wchar_t) * new_node->length);
- memcpy(new_node->unicodeval, bpbuffer+myPos, new_node->length);
+ case sizeof(uint64_t):
+ memcpy(&new_node->intval64, bpbuffer + myPos, sizeof(uint64_t));
+ byte_convert((char *) &new_node->intval64, sizeof(uint64_t));
break;
+ default:
+ free(new_node);
+ printf("parse_raw_node: lol: invalid int: size given %lu\n", (long unsigned int) new_node->length);
+ printf("parse_raw_node: lol: by the way sizeof(uint64) = %i\n", sizeof(uint64_t));
+ return NULL;
+ }
+ break;
+
+ case BPLIST_REAL:
+ new_node->length = uipow(2, new_node->length);
+ memcpy(&new_node->realval, bpbuffer + myPos, new_node->length); // XXX: probable buffer overflow here
+ //new_node->realval = bpbuffer[myPos]; // why not
+ byte_convert((char *) &new_node->realval, sizeof(double));
+ break;
+
+ case BPLIST_DICT: /* returning a raw dict, it forward-references, so. */
+ new_node->length = new_node->length * 2; // dicts lie
+ case BPLIST_ARRAY: /* returning a raw array, it forward-references, so. */
+ new_node->intval8 = ref_size; // in arrays and dicts, the "ref size" alluded to in the trailer applies, and should be stored in intval8 so as to save space.
+ case BPLIST_STRING:
+ case BPLIST_DATA:
+ default: /* made to hold raw data. */
+ modifier = (new_node->intval8 > 0) ? new_node->intval8 : 1;
+ new_node->strval = (char *) malloc(sizeof(char) * (new_node->length * modifier));
+ memcpy(new_node->strval, bpbuffer + myPos, (new_node->length * modifier));
+ break;
+
+ case BPLIST_UNICODE:
+ new_node->unicodeval = (wchar_t *) malloc(sizeof(wchar_t) * new_node->length);
+ memcpy(new_node->unicodeval, bpbuffer + myPos, new_node->length);
+ break;
}
-
+
myPos += new_node->length;
*position = myPos;
return new_node;
}
-void print_bytes(char *val, size_t size) {
+void print_bytes(char *val, size_t size)
+{
int i = 0;
for (i = 0; i < size; i++) {
printf("Byte %i: 0x%x\n", i, val[i]);
}
}
-bplist_node *parse_nodes(const char *bpbuffer, uint32_t bplength, uint32_t *position) {
+bplist_node *parse_nodes(const char *bpbuffer, uint32_t bplength, uint32_t * position)
+{
bplist_node **nodeslist = NULL, **newaddr = NULL;
bplist_node *new_node = NULL, *root_node = NULL;
-
+
uint32_t nodeslength = 0;
uint8_t offset_size = 0, dict_param_size = 0;
- offset_size = bpbuffer[bplength-26];
- dict_param_size = bpbuffer[bplength-25];
+ offset_size = bpbuffer[bplength - 26];
+ dict_param_size = bpbuffer[bplength - 25];
uint64_t current_offset = 0;
//uint64_t num_objects = *(bpbuffer+(bplength-24)), root_object = *(bpbuffer+(bplength-16)), offset_table_index = *(bpbuffer+(bplength-8));
uint64_t num_objects = 0, root_object = 0, offset_table_index = 0;
- memcpy(&num_objects, bpbuffer+bplength-24, sizeof(uint64_t));
- memcpy(&root_object, bpbuffer+bplength-16, sizeof(uint64_t));
- memcpy(&offset_table_index, bpbuffer+bplength-8, sizeof(uint64_t));
- byte_convert(&num_objects, sizeof(uint64_t));
- byte_convert(&root_object, sizeof(uint64_t));
- byte_convert(&offset_table_index, sizeof(uint64_t));
-
- log_debug_msg("Offset size: %i\nGiven: %i\n", offset_size, bpbuffer[bplength-26]);
- log_debug_msg("Ref size: %i\nGiven: %i\n", dict_param_size, bpbuffer[bplength-25]);
- log_debug_msg("Number of objects: %lli\nGiven: %llu\n", num_objects, *(bpbuffer+bplength-24));
- log_debug_msg("Root object index: %lli\nGiven: %llu\n", root_object, *(bpbuffer+bplength-16));
- log_debug_msg("Offset table index: %lli\nGiven: %llu\n", offset_table_index, *(bpbuffer+bplength-8));
+ memcpy(&num_objects, bpbuffer + bplength - 24, sizeof(uint64_t));
+ memcpy(&root_object, bpbuffer + bplength - 16, sizeof(uint64_t));
+ memcpy(&offset_table_index, bpbuffer + bplength - 8, sizeof(uint64_t));
+ byte_convert((char *) &num_objects, sizeof(uint64_t));
+ byte_convert((char *) &root_object, sizeof(uint64_t));
+ byte_convert((char *) &offset_table_index, sizeof(uint64_t));
+
+ log_debug_msg("Offset size: %i\nGiven: %i\n", offset_size, bpbuffer[bplength - 26]);
+ log_debug_msg("Ref size: %i\nGiven: %i\n", dict_param_size, bpbuffer[bplength - 25]);
+ log_debug_msg("Number of objects: %lli\nGiven: %llu\n", num_objects, *(bpbuffer + bplength - 24));
+ log_debug_msg("Root object index: %lli\nGiven: %llu\n", root_object, *(bpbuffer + bplength - 16));
+ log_debug_msg("Offset table index: %lli\nGiven: %llu\n", offset_table_index, *(bpbuffer + bplength - 8));
log_debug_msg("Size of uint64: %i\n", sizeof(uint64_t));
-
+
int i = 0, j = 0, k = 0, str_i = 0, str_j = 0;
uint32_t index1 = 0, index2 = 0;
-
- nodeslist = (bplist_node**)malloc(sizeof(bplist_node*) * num_objects);
- if (!nodeslist) return NULL;
+
+ nodeslist = (bplist_node **) malloc(sizeof(bplist_node *) * num_objects);
+ if (!nodeslist)
+ return NULL;
for (i = 0; i < num_objects; i++) {
- memcpy(&current_offset, bpbuffer+(offset_table_index+(i*offset_size)), offset_size);
+ memcpy(&current_offset, bpbuffer + (offset_table_index + (i * offset_size)), offset_size);
//current_offset = (offset_size == 2) ? ntohs(current_offset) : (offset_size == 4) ? ntohl(current_offset) : current_offset;
//if (offset_size == 8) byte_convert(&current_offset, 8);
- byte_convert(&current_offset, (offset_size <= sizeof(current_offset)) ? offset_size : sizeof(current_offset));
+ byte_convert((char *) &current_offset,
+ (offset_size <= sizeof(current_offset)) ? offset_size : sizeof(current_offset));
log_debug_msg("parse_nodes: current_offset = %x\n", current_offset);
- nodeslist[i] = parse_raw_node(bpbuffer, bplength, &current_offset, dict_param_size);
+ nodeslist[i] = parse_raw_node(bpbuffer, bplength, (uint32_t *) & current_offset, dict_param_size);
log_debug_msg("parse_nodes: parse_raw_node done\n");
}
@@ -475,55 +484,55 @@ bplist_node *parse_nodes(const char *bpbuffer, uint32_t bplength, uint32_t *posi
// set elements for dicts and arrays and leave the rest alone
log_debug_msg("parse_nodes: on node %i\n", i);
switch (nodeslist[i]->type) {
- case BPLIST_DICT:
- log_debug_msg("parse_nodes: dictionary found\n");
- nodeslist[i]->subnodes = (bplist_node*)malloc(sizeof(bplist_node) * nodeslist[i]->length);
- for (j = 0; j < (nodeslist[i]->length / 2); j++) {
- str_i = j * nodeslist[i]->intval8;
- str_j = (j + (nodeslist[i]->length / 2)) * nodeslist[i]->intval8;
-
- memcpy(&index1, nodeslist[i]->strval+str_i, nodeslist[i]->intval8);
- memcpy(&index2, nodeslist[i]->strval+str_j, nodeslist[i]->intval8);
- //index1 = (dict_param_size == 1) ? index1 : (dict_param_size == 2) ? ntohs(index1) : (dict_param_size == 4) ? ntohl(index1) : index1;
- //index2 = (dict_param_size == 1) ? index2 : (dict_param_size == 2) ? ntohs(index2) : (dict_param_size == 4) ? ntohl(index2) : index2;
- byte_convert(&index1, (dict_param_size <= sizeof(index1)) ? dict_param_size : sizeof(index2));
- byte_convert(&index2, (dict_param_size <= sizeof(index2)) ? dict_param_size : sizeof(index2));
- //printf("parse_nodes: key index %i value %i\n", index1, index2);
- //printf("parse_nodes: key type %x and length %i\n", nodeslist[index1]->type, nodeslist[index1]->length);
- //printf("parse_nodes: value type %x and length %i\n", nodeslist[index2]->type, nodeslist[index2]->length);
- nodeslist[i]->subnodes[k++] = nodeslist[index1];
- nodeslist[i]->subnodes[k++] = nodeslist[index2];
- }
-
- nodeslist[i]->length = nodeslist[i]->length / 2;
- free(nodeslist[i]->strval);
- k = 0;
- break;
-
- case BPLIST_ARRAY:
- log_debug_msg("parse_nodes: array found\n");
- nodeslist[i]->subnodes = (bplist_node*)malloc(sizeof(bplist_node) * nodeslist[i]->length); // memory allocation helps a lot when storing data
-
- for (j = 0; j < nodeslist[i]->length; j++) {
- log_debug_msg("parse_nodes: array index %i\n", j);
- str_j = j * nodeslist[i]->intval8;
- //index1 = nodeslist[i]->strval[j];
- memcpy(&index1, nodeslist[i]->strval+str_j, nodeslist[i]->intval8);
- log_debug_msg("parse_nodes: post-memcpy\n");
- //index1 = (dict_param_size == 1) ? index1 : (dict_param_size == 2) ? ntohs(index1) : (dict_param_size == 4) ? ntohl(index1) : index1;
- byte_convert(&index1, (dict_param_size <= sizeof(index1)) ? dict_param_size : sizeof(index1));
- log_debug_msg("parse_nodes: post-ntohl\nindex1 = %i\n", index1);
- nodeslist[i]->subnodes[j] = nodeslist[index1];
- log_debug_msg("parse_nodes: post-assignment\n");
- }
- free(nodeslist[i]->strval);
- break;
- default:
- //printf("lol... type %x\n", nodeslist[i]->type);
- break;
- } // those are the only two we need to correct for.
+ case BPLIST_DICT:
+ log_debug_msg("parse_nodes: dictionary found\n");
+ nodeslist[i]->subnodes = (bplist_node **) malloc(sizeof(bplist_node) * nodeslist[i]->length);
+ for (j = 0; j < (nodeslist[i]->length / 2); j++) {
+ str_i = j * nodeslist[i]->intval8;
+ str_j = (j + (nodeslist[i]->length / 2)) * nodeslist[i]->intval8;
+
+ memcpy(&index1, nodeslist[i]->strval + str_i, nodeslist[i]->intval8);
+ memcpy(&index2, nodeslist[i]->strval + str_j, nodeslist[i]->intval8);
+ //index1 = (dict_param_size == 1) ? index1 : (dict_param_size == 2) ? ntohs(index1) : (dict_param_size == 4) ? ntohl(index1) : index1;
+ //index2 = (dict_param_size == 1) ? index2 : (dict_param_size == 2) ? ntohs(index2) : (dict_param_size == 4) ? ntohl(index2) : index2;
+ byte_convert((char *) &index1, (dict_param_size <= sizeof(index1)) ? dict_param_size : sizeof(index2));
+ byte_convert((char *) &index2, (dict_param_size <= sizeof(index2)) ? dict_param_size : sizeof(index2));
+ //printf("parse_nodes: key index %i value %i\n", index1, index2);
+ //printf("parse_nodes: key type %x and length %i\n", nodeslist[index1]->type, nodeslist[index1]->length);
+ //printf("parse_nodes: value type %x and length %i\n", nodeslist[index2]->type, nodeslist[index2]->length);
+ nodeslist[i]->subnodes[k++] = nodeslist[index1];
+ nodeslist[i]->subnodes[k++] = nodeslist[index2];
+ }
+
+ nodeslist[i]->length = nodeslist[i]->length / 2;
+ free(nodeslist[i]->strval);
+ k = 0;
+ break;
+
+ case BPLIST_ARRAY:
+ log_debug_msg("parse_nodes: array found\n");
+ nodeslist[i]->subnodes = (bplist_node **) malloc(sizeof(bplist_node) * nodeslist[i]->length); // memory allocation helps a lot when storing data
+
+ for (j = 0; j < nodeslist[i]->length; j++) {
+ log_debug_msg("parse_nodes: array index %i\n", j);
+ str_j = j * nodeslist[i]->intval8;
+ //index1 = nodeslist[i]->strval[j];
+ memcpy(&index1, nodeslist[i]->strval + str_j, nodeslist[i]->intval8);
+ log_debug_msg("parse_nodes: post-memcpy\n");
+ //index1 = (dict_param_size == 1) ? index1 : (dict_param_size == 2) ? ntohs(index1) : (dict_param_size == 4) ? ntohl(index1) : index1;
+ byte_convert((char *) &index1, (dict_param_size <= sizeof(index1)) ? dict_param_size : sizeof(index1));
+ log_debug_msg("parse_nodes: post-ntohl\nindex1 = %i\n", index1);
+ nodeslist[i]->subnodes[j] = nodeslist[index1];
+ log_debug_msg("parse_nodes: post-assignment\n");
+ }
+ free(nodeslist[i]->strval);
+ break;
+ default:
+ //printf("lol... type %x\n", nodeslist[i]->type);
+ break;
+ } // those are the only two we need to correct for.
}
-
+
root_node = nodeslist[root_object];
return root_node;
}
diff --git a/src/plist.h b/src/plist.h
index 98c7d91..5f31281 100644
--- a/src/plist.h
+++ b/src/plist.h
@@ -31,6 +31,7 @@
#include <sys/stat.h>
#include <unistd.h>
+char *format_string(const char *buf, int cols, int depth);
xmlNode *add_key_dict_node(xmlDocPtr plist, xmlNode * dict, const char *key, const char *value, int depth);
xmlNode *add_key_str_dict_element(xmlDocPtr plist, xmlNode * dict, const char *key, const char *value, int depth);
xmlNode *add_key_data_dict_element(xmlDocPtr plist, xmlNode * dict, const char *key, const char *value, int depth);
@@ -47,7 +48,7 @@ void free_dictionary(char **dictionary);
enum {
BPLIST_TRUE = 0x08,
BPLIST_FALSE = 0x09,
- BPLIST_FILL = 0x0F, /* will be used for length grabbing */
+ BPLIST_FILL = 0x0F, /* will be used for length grabbing */
BPLIST_INT = 0x10,
BPLIST_REAL = 0x20,
BPLIST_DATE = 0x33,
@@ -62,15 +63,17 @@ enum {
};
typedef struct _bplist_node {
- struct _bplist_node *next, **subnodes; // subnodes is for arrays, dicts and (potentially) sets.
+ struct _bplist_node *next, **subnodes; // subnodes is for arrays, dicts and (potentially) sets.
uint64_t length, intval64;
- uint32_t intval32; // length = subnodes
+ uint32_t intval32; // length = subnodes
uint16_t intval16;
uint8_t intval8;
- uint8_t type, *indexes; // indexes for array-types; essentially specify the order in which to access for key => value pairs
+ uint8_t type, *indexes; // indexes for array-types; essentially specify the order in which to access for key => value pairs
char *strval;
double realval;
wchar_t *unicodeval;
} bplist_node;
+bplist_node *parse_nodes(const char *bpbuffer, uint32_t bplength, uint32_t * position);
+
#endif