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pcaplite.cpp
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pcaplite.cpp
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#include <math.h>
#include "pcaplite.h"
#define MAGIC_NG 0x0A0D0D0A
#define MACIG 0xA1B2C3D4
#define MAX_CAN_PACKET_SIZE 256
// some pcap format constants
#define PCAP_FILE_HEADER_LENGTH 24
#define PCAP_FRAME_HEADER_LENGTH 16
#define PCAP_CAP_FRAME_LENGTH_OFFSET 8
#define PCAP_FRAME_LENGTH_OFFSET 12
// some pcapng format constants
#define INTERFACE_DESCRITION_BLOCK 0x01
#define ENCHANCED_PACKET_BLOCK 0x06
static unsigned char pcap_buffer[MAX_CAN_PACKET_SIZE];
static pcap_t p;
pcap *pcap_open_offline(const char *filename, char *error_text, int expected_link_type) {
FILE *file;
snprintf(error_text, PCAP_ERRBUF_SIZE, "OK");
file = fopen(filename,"rb");
if (NULL == file) {
snprintf(error_text, PCAP_ERRBUF_SIZE,
"Cannot open input file");
return NULL;
}
unsigned int magic;
size_t bytes_read;
bytes_read = fread(&magic, 1, sizeof(magic), file);
if (bytes_read != sizeof(magic)) {
snprintf(error_text, PCAP_ERRBUF_SIZE, "Cannot read magic word");
fclose(file);
return (NULL);
}
if (magic != MACIG && magic != MAGIC_NG) {
snprintf(error_text, PCAP_ERRBUF_SIZE, "Not a supported format %04x", magic);
fclose(file);
return (NULL);
}
unsigned int link_type;
fseek(file, PCAP_FILE_HEADER_LENGTH - 4, SEEK_SET);
bytes_read = fread(&link_type, 1, sizeof(link_type), file);
if (bytes_read != sizeof(link_type)) {
snprintf(error_text, PCAP_ERRBUF_SIZE, "Cannot read linktype word");
fclose(file);
return (NULL);
}
if (expected_link_type >= 0) {
// Check the link type
if ((int) link_type != expected_link_type) {
snprintf(error_text, PCAP_ERRBUF_SIZE, "This link type is not supported by this decoder");
fclose(file);
return (NULL);
}
}
// set the format
// and seek past file header
if (MAGIC_NG == magic) {
p.is_ng = 1;
fseek(file, sizeof(magic), SEEK_SET);
unsigned int section_length;
bytes_read = fread(§ion_length, 1, sizeof(section_length), file);
if (bytes_read != sizeof(section_length)) {
snprintf(error_text, PCAP_ERRBUF_SIZE, "Cannot read section length");
fclose(file);
return (NULL);
}
fseek(file, section_length, SEEK_SET);
} else {
p.is_ng = 0;
fseek(file, PCAP_FILE_HEADER_LENGTH, SEEK_SET);
}
p.file = file;
return(&p);
}
const unsigned char *pcap_next_ng(pcap_t *p, struct pcap_pkthdr *h) {
// this is for ENCHANCED_PACKET_BLOCK
struct block_header {
unsigned int block_type;
unsigned int block_size;
unsigned int interface_id;
unsigned int timestamp_hi;
unsigned int timestamp_lo;
unsigned int cap_len;
unsigned int len;
} bh;
struct option_header {
unsigned short option_type;
unsigned short option_length;
} oh;
size_t bytes_read;
static double timestamp_multiplier = 0.000001; //microseconds resolution
long fpos = ftell(p->file);
do {
bytes_read = fread(&bh, 1, sizeof(bh), p->file);
if (bytes_read != sizeof(bh)) {
//probably EOF
return (NULL);
}
if (bh.block_type != ENCHANCED_PACKET_BLOCK) {
if (INTERFACE_DESCRITION_BLOCK == bh.block_type) {
// Seek to start of options part in the header
fseek(p->file, fpos + 16, SEEK_SET);
do {
bytes_read = fread(&oh, 1, sizeof(oh), p->file);
if (bytes_read != sizeof(oh)) {
//probably EOF
return (NULL);
}
// calculate option length aligned on 4 byte boundary
unsigned int option_file_length = 4*(oh.option_length/4) + ((oh.option_length%4) ? 4:0);
// read in the buffer if it's large enough or skip
if (option_file_length <= sizeof(pcap_buffer)) {
bytes_read = fread(pcap_buffer, 1, option_file_length, p->file);
if (bytes_read != option_file_length) {
//probably EOF
return (NULL);
}
//check if time resolution option
if (0x09 == oh.option_type) {
unsigned int res = *(unsigned int*)pcap_buffer;
if ((0x80000000 & res) == 0) {
timestamp_multiplier = 1/pow(10, res);
} else {
timestamp_multiplier = 1/pow(2, (res & 0x7fffffff));
}
}
} else if (fseek(p->file, option_file_length, SEEK_CUR)) {
//probably EOF
return (NULL);
}
} while(ftell(p->file) < fpos + bh.block_size - sizeof(bh.block_size));
if (fseek(p->file, sizeof(bh.block_size), SEEK_CUR)) {
//probably EOF
return (NULL);
}
}
// skip to the next block
if (fseek(p->file, fpos + bh.block_size, SEEK_SET)) {
//probably EOF
return (NULL);
}
fpos = ftell(p->file);
}
} while (bh.block_type != ENCHANCED_PACKET_BLOCK);
h->caplen = bh.cap_len;
double timestamp = ((unsigned long long)bh.timestamp_hi << 32 | bh.timestamp_lo) * timestamp_multiplier;
double fractional, integer;
fractional = modf(timestamp, &integer);
h->ts.tv_sec = (long)integer;
h->ts.tv_usec = (long)(fractional * 1000000);
bytes_read = fread(pcap_buffer, 1, h->caplen, p->file);
if (bytes_read != h->caplen) {
//probably EOF
return (NULL);
}
//seek to the next block (go back with bytes read of the block and seek fwd with the block size)
if (fseek(p->file, fpos + bh.block_size, SEEK_SET)) {
//probably EOF
return (NULL);
}
return pcap_buffer;
}
const unsigned char *pcap_next(pcap_t *p, struct pcap_pkthdr *h)
{
if (p->is_ng) {
return pcap_next_ng(p, h);
}
size_t bytes_read;
bytes_read = fread(pcap_buffer, 1, PCAP_FRAME_HEADER_LENGTH, p->file);
if (bytes_read != PCAP_FRAME_HEADER_LENGTH) {
//probably EOF
return (NULL);
}
h->ts.tv_sec = *(unsigned int*)(pcap_buffer);
h->ts.tv_usec = *(unsigned int*)(pcap_buffer + 4);
h->caplen = *(unsigned int*)(pcap_buffer + PCAP_CAP_FRAME_LENGTH_OFFSET);
h->len = *(unsigned int*)(pcap_buffer + PCAP_FRAME_LENGTH_OFFSET);
bytes_read = fread(pcap_buffer, 1, h->caplen, p->file);
if (bytes_read != h->caplen) {
//probably EOF
return (NULL);
}
return pcap_buffer;
}
void pcap_close(pcap_t *p) {
fclose(p->file);
}