/* * netsniff-ng - the packet sniffing beast * By Daniel Borkmann * Copyright 2012 Daniel Borkmann , * Swiss federal institute of technology (ETH Zurich) * Subject to the GPL, version 2. */ /* yaac-func-prefix: yy */ %{ #include #include #include #include #include #include #include #include "xmalloc.h" #include "trafgen_parser.tab.h" #include "trafgen_conf.h" #include "built_in.h" #include "die.h" #include "str.h" #include "csum.h" #define YYERROR_VERBOSE 0 #define YYDEBUG 0 #define YYENABLE_NLS 1 #define YYLTYPE_IS_TRIVIAL 1 #define ENABLE_NLS 1 extern FILE *yyin; extern int yylex(void); extern void yyerror(const char *); extern int yylineno; extern char *yytext; extern struct packet *packets; extern size_t plen; #define packet_last (plen - 1) #define payload_last (packets[packet_last].len - 1) extern struct packet_dyn *packet_dyn; extern size_t dlen; #define packetd_last (dlen - 1) #define packetdc_last (packet_dyn[packetd_last].clen - 1) #define packetdr_last (packet_dyn[packetd_last].rlen - 1) #define packetds_last (packet_dyn[packetd_last].slen - 1) static int our_cpu, min_cpu = -1, max_cpu = -1; static inline int test_ignore(void) { if (min_cpu < 0 && max_cpu < 0) return 0; else if (max_cpu >= our_cpu && min_cpu <= our_cpu) return 0; else return 1; } static inline int has_dynamic_elems(struct packet_dyn *p) { return (p->rlen + p->slen + p->clen); } static inline void __init_new_packet_slot(struct packet *slot) { slot->payload = NULL; slot->len = 0; } static inline void __init_new_counter_slot(struct packet_dyn *slot) { slot->cnt = NULL; slot->clen = 0; } static inline void __init_new_randomizer_slot(struct packet_dyn *slot) { slot->rnd = NULL; slot->rlen = 0; } static inline void __init_new_csum_slot(struct packet_dyn *slot) { slot->csum = NULL; slot->slen = 0; } static inline void __setup_new_counter(struct counter *c, uint8_t start, uint8_t stop, uint8_t stepping, int type) { c->min = start; c->max = stop; c->inc = stepping; c->val = (type == TYPE_INC) ? start : stop; c->off = payload_last; c->type = type; } static inline void __setup_new_randomizer(struct randomizer *r) { r->off = payload_last; } static inline void __setup_new_csum16(struct csum16 *s, off_t from, off_t to, enum csum which) { s->off = payload_last - 1; s->from = from; s->to = to; s->which = which; } static void realloc_packet(void) { if (test_ignore()) return; plen++; packets = xrealloc(packets, 1, plen * sizeof(*packets)); __init_new_packet_slot(&packets[packet_last]); dlen++; packet_dyn = xrealloc(packet_dyn, 1, dlen * sizeof(*packet_dyn)); __init_new_counter_slot(&packet_dyn[packetd_last]); __init_new_randomizer_slot(&packet_dyn[packetd_last]); __init_new_csum_slot(&packet_dyn[packetd_last]); } static void set_byte(uint8_t val) { struct packet *pkt = &packets[packet_last]; if (test_ignore()) return; pkt->len++; pkt->payload = xrealloc(pkt->payload, 1, pkt->len); pkt->payload[payload_last] = val; } static void set_multi_byte(uint8_t *s, size_t len) { size_t i; for (i = 0; i < len; ++i) set_byte(s[i]); } static void set_fill(uint8_t val, size_t len) { size_t i; struct packet *pkt = &packets[packet_last]; if (test_ignore()) return; pkt->len += len; pkt->payload = xrealloc(pkt->payload, 1, pkt->len); for (i = 0; i < len; ++i) pkt->payload[payload_last - i] = val; } static void __set_csum16_dynamic(size_t from, size_t to, enum csum which) { struct packet *pkt = &packets[packet_last]; struct packet_dyn *pktd = &packet_dyn[packetd_last]; pkt->len += 2; pkt->payload = xrealloc(pkt->payload, 1, pkt->len); pktd->slen++; pktd->csum = xrealloc(pktd->csum, 1, pktd->slen * sizeof(struct csum16)); __setup_new_csum16(&pktd->csum[packetds_last], from, to, which); } static void __set_csum16_static(size_t from, size_t to, enum csum which __maybe_unused) { struct packet *pkt = &packets[packet_last]; uint16_t sum; uint8_t *psum; sum = htons(calc_csum(pkt->payload + from, to - from, 0)); psum = (uint8_t *) ∑ set_byte(psum[0]); set_byte(psum[1]); } static void set_csum16(size_t from, size_t to, enum csum which) { int make_it_dynamic = 0; struct packet *pkt = &packets[packet_last]; struct packet_dyn *pktd = &packet_dyn[packetd_last]; if (test_ignore()) return; if (to < from) { size_t tmp = to; to = from; from = tmp; } bug_on(!(from < to)); if (to >= pkt->len || which == CSUM_TCP || which == CSUM_UDP) make_it_dynamic = 1; if (has_dynamic_elems(pktd) || make_it_dynamic) __set_csum16_dynamic(from, to, which); else __set_csum16_static(from, to, which); } static void set_rnd(size_t len) { size_t i; struct packet *pkt = &packets[packet_last]; if (test_ignore()) return; pkt->len += len; pkt->payload = xrealloc(pkt->payload, 1, pkt->len); for (i = 0; i < len; ++i) pkt->payload[payload_last - i] = (uint8_t) rand(); } static void set_sequential_inc(uint8_t start, size_t len, uint8_t stepping) { size_t i; struct packet *pkt = &packets[packet_last]; if (test_ignore()) return; pkt->len += len; pkt->payload = xrealloc(pkt->payload, 1, pkt->len); for (i = 0; i < len; ++i) { off_t off = len - 1 - i; pkt->payload[payload_last - off] = start; start += stepping; } } static void set_sequential_dec(uint8_t start, size_t len, uint8_t stepping) { size_t i; struct packet *pkt = &packets[packet_last]; if (test_ignore()) return; pkt->len += len; pkt->payload = xrealloc(pkt->payload, 1, pkt->len); for (i = 0; i < len; ++i) { int off = len - 1 - i; pkt->payload[payload_last - off] = start; start -= stepping; } } static void set_dynamic_rnd(void) { struct packet *pkt = &packets[packet_last]; struct packet_dyn *pktd = &packet_dyn[packetd_last]; if (test_ignore()) return; pkt->len++; pkt->payload = xrealloc(pkt->payload, 1, pkt->len); pktd->rlen++; pktd->rnd = xrealloc(pktd->rnd, 1, pktd->rlen * sizeof(struct randomizer)); __setup_new_randomizer(&pktd->rnd[packetdr_last]); } static void set_dynamic_incdec(uint8_t start, uint8_t stop, uint8_t stepping, int type) { struct packet *pkt = &packets[packet_last]; struct packet_dyn *pktd = &packet_dyn[packetd_last]; if (test_ignore()) return; pkt->len++; pkt->payload = xrealloc(pkt->payload, 1, pkt->len); pktd->clen++; pktd->cnt =xrealloc(pktd->cnt, 1, pktd->clen * sizeof(struct counter)); __setup_new_counter(&pktd->cnt[packetdc_last], start, stop, stepping, type); } %} %union { long long int number; char *str; } %token K_COMMENT K_FILL K_RND K_SEQINC K_SEQDEC K_DRND K_DINC K_DDEC K_WHITE %token K_CPU K_CSUMIP K_CSUMUDP K_CSUMTCP K_CONST8 K_CONST16 K_CONST32 K_CONST64 %token ',' '{' '}' '(' ')' '[' ']' ':' '-' '+' '*' '/' '%' '&' '|' '<' '>' '^' %token number string %type number expression %type string %left '-' '+' '*' '/' '%' '&' '|' '<' '>' '^' %% packets : { } | packets packet { } | packets inline_comment { } | packets K_WHITE { } ; inline_comment : K_COMMENT { } ; cpu_delim : ':' { } | '-' { } ; delimiter_nowhite : ',' { } | ',' K_WHITE { } ; noenforce_white : { } | K_WHITE { } | delimiter_nowhite { } ; packet : '{' noenforce_white payload noenforce_white '}' { min_cpu = max_cpu = -1; realloc_packet(); } | K_CPU '(' number cpu_delim number ')' ':' noenforce_white '{' noenforce_white payload noenforce_white '}' { min_cpu = $3; max_cpu = $5; if (min_cpu > max_cpu) { int tmp = min_cpu; min_cpu = max_cpu; max_cpu = tmp; } realloc_packet(); } | K_CPU '(' number ')' ':' noenforce_white '{' noenforce_white payload noenforce_white '}' { min_cpu = max_cpu = $3; realloc_packet(); } ; payload : elem { } | payload elem_delimiter { } ; delimiter : delimiter_nowhite { } | K_WHITE { } ; elem_delimiter : delimiter elem { } ; elem : number { set_byte((uint8_t) $1); } | string { set_multi_byte((uint8_t *) $1 + 1, strlen($1) - 2); } | fill { } | rnd { } | drnd { } | seqinc { } | seqdec { } | dinc { } | ddec { } | csum { } | const { } | inline_comment { } ; expression : number { $$ = $1; } | expression '+' expression { $$ = $1 + $3; } | expression '-' expression { $$ = $1 - $3; } | expression '*' expression { $$ = $1 * $3; } | expression '/' expression { $$ = $1 / $3; } | expression '%' expression { $$ = $1 % $3; } | expression '&' expression { $$ = $1 & $3; } | expression '|' expression { $$ = $1 | $3; } | expression '^' expression { $$ = $1 ^ $3; } | expression '<' '<' expression { $$ = $1 << $4; } | expression '>' '>' expression { $$ = $1 >> $4; } | '-' expression { $$ = -1 * $2; } | '(' expression ')' { $$ = $2;} ; fill : K_FILL '(' number delimiter number ')' { set_fill($3, $5); } ; const : K_CONST8 '(' expression ')' { set_byte((uint8_t) $3); } | K_CONST16 '(' expression ')' { uint16_t __c = cpu_to_be16((uint16_t) $3); set_multi_byte((uint8_t *) &__c, sizeof(__c)); } | K_CONST32 '(' expression ')' { uint32_t __c = cpu_to_be32((uint32_t) $3); set_multi_byte((uint8_t *) &__c, sizeof(__c)); } | K_CONST64 '(' expression ')' { uint64_t __c = cpu_to_be64((uint64_t) $3); set_multi_byte((uint8_t *) &__c, sizeof(__c)); } ; rnd : K_RND '(' number ')' { set_rnd($3); } ; csum : K_CSUMIP '(' number delimiter number ')' { set_csum16($3, $5, CSUM_IP); } | K_CSUMTCP '(' number delimiter number ')' { set_csum16($3, $5, CSUM_TCP); } | K_CSUMUDP '(' number delimiter number ')' { set_csum16($3, $5, CSUM_UDP); } ; seqinc : K_SEQINC '(' number delimiter number ')' { set_sequential_inc($3, $5, 1); } | K_SEQINC '(' number delimiter number delimiter number ')' { set_sequential_inc($3, $5, $7); } ; seqdec : K_SEQDEC '(' number delimiter number ')' { set_sequential_dec($3, $5, 1); } | K_SEQDEC '(' number delimiter number delimiter number ')' { set_sequential_dec($3, $5, $7); } ; drnd : K_DRND '(' ')' { set_dynamic_rnd(); } | K_DRND '(' number ')' { int i, max = $3; for (i = 0; i < max; ++i) set_dynamic_rnd(); } ; dinc : K_DINC '(' number delimiter number ')' { set_dynamic_incdec($3, $5, 1, TYPE_INC); } | K_DINC '(' number delimiter number delimiter number ')' { set_dynamic_incdec($3, $5, $7, TYPE_INC); } ; ddec : K_DDEC '(' number delimiter number ')' { set_dynamic_incdec($3, $5, 1, TYPE_DEC); } | K_DDEC '(' number delimiter number delimiter number ')' { set_dynamic_incdec($3, $5, $7, TYPE_DEC); } ; %% static void finalize_packet(void) { /* XXX hack ... we allocated one packet pointer too much */ plen--; dlen--; } static void dump_conf(void) { size_t i, j; for (i = 0; i < plen; ++i) { printf("[%zu] pkt\n", i); printf(" len %zu cnts %zu rnds %zu\n", packets[i].len, packet_dyn[i].clen, packet_dyn[i].rlen); printf(" payload "); for (j = 0; j < packets[i].len; ++j) printf("%02x ", packets[i].payload[j]); printf("\n"); for (j = 0; j < packet_dyn[i].clen; ++j) printf(" cnt%zu [%u,%u], inc %u, off %ld type %s\n", j, packet_dyn[i].cnt[j].min, packet_dyn[i].cnt[j].max, packet_dyn[i].cnt[j].inc, packet_dyn[i].cnt[j].off, packet_dyn[i].cnt[j].type == TYPE_INC ? "inc" : "dec"); for (j = 0; j < packet_dyn[i].rlen; ++j) printf(" rnd%zu off %ld\n", j, packet_dyn[i].rnd[j].off); } } void cleanup_packets(void) { size_t i; for (i = 0; i < plen; ++i) { if (packets[i].len > 0) xfree(packets[i].payload); } free(packets); for (i = 0; i < dlen; ++i) { free(packet_dyn[i].cnt); free(packet_dyn[i].rnd); } free(packet_dyn); } int compile_packets(char *file, int verbose, int cpu, bool invoke_cpp) { char tmp_file[128]; memset(tmp_file, 0, sizeof(tmp_file)); our_cpu = cpu; if (invoke_cpp) { char cmd[256], *dir, *base, *a, *b; dir = dirname((a = xstrdup(file))); base = basename((b = xstrdup(file))); slprintf(tmp_file, sizeof(tmp_file), "%s/.tmp-%u-%s", dir, rand(), base); slprintf(cmd, sizeof(cmd), "cpp -I" PREFIX_STRING "/etc/netsniff-ng/ %s > %s", file, tmp_file); system(cmd); file = tmp_file; xfree(a); xfree(b); } if (!strncmp("-", file, strlen("-"))) yyin = stdin; else yyin = fopen(file, "r"); if (!yyin) panic("Cannot open %s: %s!\n", file, strerror(errno)); realloc_packet(); yyparse(); finalize_packet(); if (our_cpu == 0 && verbose) dump_conf(); fclose(yyin); if (invoke_cpp) unlink(tmp_file); return 0; } void yyerror(const char *err) { panic("Syntax error at line%d, at char '%s'! %s!\n", yylineno, yytext, err); } xt.git/log/sound/pci/emu10k1/memory.c?h=nds-private-remove&id=d55409cb2858701292bbff7b3712d3beaefc17fe'>logplain -rw-r--r--p16v.c29109logplain -rw-r--r--p16v.h14922logplain