/src/fuzz_header.h

Source (jump to first uncovered line)
/* Copyright 2021 Google LLC
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
      http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/

#include "dnsmasq.h"

extern void fuzz_blockdata_cleanup();

// Simple garbage collector 
#define GB_SIZE 100

void *pointer_arr[GB_SIZE];
static int pointer_idx = 0;

// If the garbage collector is used then this must be called as first thing
// during a fuzz run.
void gb_init() {
  pointer_idx = 0;

   for (int i = 0; i < GB_SIZE; i++) {
     pointer_arr[i] = NULL;
   }
}

void gb_cleanup() {
  for(int i = 0; i < GB_SIZE; i++) {
    if (pointer_arr[i] != NULL) {
      free(pointer_arr[i]);
    }
  }
}

char *get_len_null_terminated(const uint8_t **data, size_t *size, size_t to_get) {
  if (*size < to_get || (int)*size < 0) {
    return NULL;
  }

  char *new_s = malloc(to_get + 1);
  memcpy(new_s, *data, to_get);
  new_s[to_get] = '\0';

  *data = *data+to_get;
  *size -= to_get;
  return new_s;
}

char *get_null_terminated(const uint8_t **data, size_t *size) {
#define STR_SIZE 75
  return get_len_null_terminated(data, size, STR_SIZE);
}

char *gb_get_random_data(const uint8_t **data, size_t *size, size_t to_get) {
  if (*size < to_get || (int)*size < 0) {
    return NULL;
  }

  char *new_s = malloc(to_get);
  memcpy(new_s, *data, to_get);

  pointer_arr[pointer_idx++] = (void*)new_s;
  
  *data = *data + to_get;
  *size -= to_get;

  return new_s;
}

char *gb_get_null_terminated(const uint8_t **data, size_t *size) {

  char *nstr = get_null_terminated(data, size);
  if (nstr == NULL) {
    return NULL;
  }
  pointer_arr[pointer_idx++] = (void*)nstr;
  return nstr;
}

char *gb_get_len_null_terminated(const uint8_t **data, size_t *size, size_t to_get) {

  char *nstr = get_len_null_terminated(data, size, to_get);
  if (nstr != NULL) {
    pointer_arr[pointer_idx++] = (void*)nstr;
  }
  return nstr;
}

char *gb_alloc_data(size_t len) {
  char *ptr = calloc(1, len);
  pointer_arr[pointer_idx++] = (void*)ptr;
  
  return ptr;
}

short get_short(const uint8_t **data, size_t *size) {
  if (*size <= 0) return 0;
  short c = (short)(*data)[0];
  *data += 1;
  *size-=1;
  return c;
}

int get_int(const uint8_t **data, size_t *size) {
  if (*size <= 4) return 0;
  const uint8_t *ptr = *data;
  int val = *((int*)ptr);
  *data += 4;
  *size -= 4;
  return val;
}
// end simple garbage collector.

const uint8_t *syscall_data = NULL;
size_t syscall_size = 0;


int fuzz_ioctl(int fd, unsigned long request, void *arg) {
  int fd2 = fd;
  unsigned long request2 = request;
  void *arg_ptr = arg;

  // SIOCGSTAMP
  if (request == SIOCGSTAMP) {
    struct timeval *tv = (struct timeval*)arg_ptr;
    if (tv == NULL) {
      return 0;
    }

    char *rand_tv = gb_get_random_data(&syscall_data, &syscall_size, sizeof(struct timeval));
    if (rand_tv == NULL) {
      return -1;
    }

    memcpy(tv, rand_tv, sizeof(struct timeval));
    return 0;
  }

  if (request == SIOCGIFNAME) {
    //printf("We got a SIOCGIFNAME\n");
    struct ifreq *ifr = (struct ifreq*)arg_ptr;
    if (ifr == NULL) {
      return -1;
    }
    for (int i = 0; i < IF_NAMESIZE; i++) {
      if (syscall_size > 0 && syscall_data != NULL) {
        ifr->ifr_name[i] = (char)*syscall_data;
        syscall_data += 1;
        syscall_size -= 1;
      }
      else {
        ifr->ifr_name[i] = 'A';
      }
    }
    ifr->ifr_name[IF_NAMESIZE-1] = '\0';
    return 0;
    //return -1;
  }
  if (request == SIOCGIFFLAGS) {
    return 0;
  }
  if (request == SIOCGIFADDR) {
    return 0;
  }

  // 
  int retval = ioctl(fd2, request2, arg_ptr); 
  return retval;
}


// Sysytem call wrappers
static char v = 0;
ssize_t fuzz_recvmsg(int sockfd, struct msghdr *msg, int flags) {
  
  struct iovec *target = msg->msg_iov;

  //printf("recvmsg 1 \n");
  if (syscall_size > 1) {
    char r = *syscall_data;
    syscall_data += 1;
    syscall_size -= 1;

    if (r == 12) {
      //printf("recvmsg 2\n");
      return -1;
    }
  }

  int j = 0;
  if (msg->msg_control != NULL) {
    for (;j < CMSG_SPACE(sizeof(struct in_pktinfo)); j++)
    {
      if (syscall_size > 0 && syscall_data != NULL) {
        ((char*)msg->msg_control)[j] = *syscall_data;
        syscall_data += 1;
        syscall_size -= 1;
      }
      else {
        ((char*)msg->msg_control)[j] = 'A';
      }
    }
  }

  int i = 0;
  for (; i < target->iov_len; i++) {
    if (syscall_size > 0 && syscall_data != NULL) {
      ((char*)target->iov_base)[i] = *syscall_data;
      syscall_data += 1;
      syscall_size -= 1;
    }
    else {
      ((char*)target->iov_base)[i] = 'A';
    }
  }

  if (msg->msg_namelen > 0) {
    memset(msg->msg_name, 0, msg->msg_namelen);
  }

  return i;
}


// dnsmasq specific stuff
int init_daemon(const uint8_t **data2, size_t *size2) {
  const uint8_t *data = *data2;
  size_t size = *size2;

  int retval = 0;

#define CLEAN_IF_NULL(arg) if (arg == NULL) goto cleanup;

  // Initialize daemon
  daemon = (struct daemon*)gb_alloc_data(sizeof(struct daemon));
  CLEAN_IF_NULL(daemon)

  // daemon misc
  daemon->max_ttl = get_int(&data, &size);
  daemon->neg_ttl = get_int(&data, &size);
  daemon->local_ttl = get_int(&data, &size);
  daemon->min_cache_ttl = get_int(&data, &size);

  // daemon->namebuff.
  char *daemon_namebuff = gb_get_len_null_terminated(&data, &size, MAXDNAME);
  daemon->namebuff = daemon_namebuff;

  // daemon->naptr
  struct naptr *naptr_ptr = (struct naptr*)gb_alloc_data(sizeof(struct naptr));
  char *naptr_name = gb_get_null_terminated(&data, &size);
  char *naptr_replace = gb_get_null_terminated(&data, &size);
  char *naptr_regexp = gb_get_null_terminated(&data, &size);
  char *naptr_services = gb_get_null_terminated(&data, &size);
  char *naptr_flags = gb_get_null_terminated(&data, &size);
  
  CLEAN_IF_NULL(naptr_ptr)
  CLEAN_IF_NULL(naptr_name)
  CLEAN_IF_NULL(naptr_replace)
  CLEAN_IF_NULL(naptr_regexp)
  CLEAN_IF_NULL(naptr_services)
  CLEAN_IF_NULL(naptr_flags)

  naptr_ptr->name = naptr_name;
  naptr_ptr->replace = naptr_replace;
  naptr_ptr->regexp = naptr_regexp;
  naptr_ptr->services = naptr_services;
  naptr_ptr->flags = naptr_flags;

  daemon->naptr = naptr_ptr;

  // daemon->int_names
  struct interface_name *int_namses = (struct interface_name*)gb_alloc_data(sizeof(struct interface_name));

  char *int_name = gb_get_null_terminated(&data, &size);
  char *int_intr = gb_get_null_terminated(&data, &size);
  CLEAN_IF_NULL(int_namses)
  CLEAN_IF_NULL(int_name)
  CLEAN_IF_NULL(int_intr)
  int_namses->name = int_name;
  int_namses->intr = int_intr;

  struct addrlist *d_addrlist = (struct addrlist*)gb_alloc_data(sizeof(struct addrlist));
  CLEAN_IF_NULL(d_addrlist)
  d_addrlist->flags = get_int(&data, &size);
  d_addrlist->prefixlen = get_int(&data, &size);
  int_namses->addr = d_addrlist;

  daemon->int_names = int_namses;

  if (size > *size2) {
    goto cleanup;
  }

  // daemon->addrbuf
  char *adbuf = gb_alloc_data(200);
  CLEAN_IF_NULL(adbuf)
  daemon->addrbuff = adbuf;

  // daemon->auth_zones
  struct auth_zone *d_az = (struct auth_zone*)gb_alloc_data(sizeof(struct auth_zone));
  char *auth_domain = gb_get_null_terminated(&data, &size);
  
  CLEAN_IF_NULL(d_az)
  CLEAN_IF_NULL(auth_domain)
  d_az->domain = auth_domain;
  daemon->auth_zones = d_az;

  // deamon->mxnames
  struct mx_srv_record *mx_srv_rec = (struct mx_srv_record*)gb_alloc_data(sizeof(struct mx_srv_record));
  char *mx_name = gb_get_null_terminated(&data, &size);
  char *mx_target = gb_get_null_terminated(&data, &size);

  CLEAN_IF_NULL(mx_srv_rec)
  CLEAN_IF_NULL(mx_target)
  CLEAN_IF_NULL(mx_name)

  mx_srv_rec->next = daemon->mxnames;
  daemon->mxnames = mx_srv_rec;
  mx_srv_rec->name = mx_name;
  mx_srv_rec->target = mx_target;
  mx_srv_rec->issrv = get_int(&data, &size);
  mx_srv_rec->weight = get_int(&data, &size);
  mx_srv_rec->priority = get_int(&data, &size);
  mx_srv_rec->srvport = get_int(&data, &size);
  //data += 40;
  //size -= 40;

  if (size > *size2) {
    goto cleanup;
  }

  // daemon->txt
  struct txt_record *txt_record = (struct txt_record *)gb_alloc_data(sizeof(struct txt_record));
  char *txt_record_name =  gb_get_null_terminated(&data, &size);
  char *txt_record_txt = gb_get_null_terminated(&data, &size);

  CLEAN_IF_NULL(txt_record)
  CLEAN_IF_NULL(txt_record_name)
  CLEAN_IF_NULL(txt_record_txt)

  txt_record->name = txt_record_name;
  txt_record->txt = (unsigned char*)txt_record_txt;
  txt_record->class2 = (get_short(&data, &size) % 10);
  daemon->txt = txt_record;

  // daemon->rr
  struct txt_record *rr_record = (struct txt_record *)gb_alloc_data(sizeof(struct txt_record));
  char *rr_record_name =  gb_get_null_terminated(&data, &size);
  char *rr_record_txt = gb_get_null_terminated(&data, &size);

  CLEAN_IF_NULL(rr_record)
  CLEAN_IF_NULL(rr_record_name)
  CLEAN_IF_NULL(rr_record_txt)

  rr_record->name = rr_record_name;
  rr_record->txt = (unsigned char*)rr_record_txt;
  rr_record->class2 = (get_short(&data, &size) % 10);
  daemon->rr = rr_record;

  if (size > *size2) {
    goto cleanup;
  }

  // daemon->relay4
  //struct dhcp_relay *dr = (struct dhcp_relay*)gb_alloc_data(sizeof(struct dhcp_relay));
  struct dhcp_relay *dr = (struct dhcp_relay*)gb_get_random_data(&data, &size, sizeof(struct dhcp_relay));
  char *dr_interface = gb_get_null_terminated(&data, &size);
  
  CLEAN_IF_NULL(dr)
  CLEAN_IF_NULL(dr_interface)
  dr->interface = dr_interface;
  dr->next = NULL;
  //dr->current = NULL;
  daemon->relay4 = dr;

  // deamon->bridges
  struct dhcp_bridge *db = (struct dhcp_bridge*)gb_alloc_data(sizeof(struct dhcp_bridge));
  char *db_interface = gb_get_null_terminated(&data, &size);

  CLEAN_IF_NULL(db)
  CLEAN_IF_NULL(db_interface)

  if (strlen(db_interface) > IF_NAMESIZE) {
    for (int i = 0; i < IF_NAMESIZE; i++) {
      db->iface[i] = db_interface[i];
    }
  } else {
    for (int i = 0; i < strlen(db_interface); i++) {
      db->iface[i] = db_interface[i];
    }
  }


  struct dhcp_bridge *db_alias = (struct dhcp_bridge*)gb_alloc_data(sizeof(struct dhcp_bridge));
  //struct dhcp_bridge *db_alias = (struct dhcp_bridge*)gb_get_random_data(&data, &size, sizeof(struct dhcp_bridge));
  char *db_alias_interface = gb_get_null_terminated(&data, &size);

  CLEAN_IF_NULL(db_alias)
  CLEAN_IF_NULL(db_alias_interface)

  if (strlen(db_alias_interface) > IF_NAMESIZE) {
    for (int i = 0; i < IF_NAMESIZE; i++) {
      db_alias->iface[i] = db_alias_interface[i];
    }
  } else {
    for (int i = 0; i < strlen(db_alias_interface); i++) {
      db_alias->iface[i] = db_alias_interface[i];
    }
  }
  db->alias = db_alias;
  daemon->bridges = db;

  // daemon->if_names
  struct iname *in = (struct iname*)gb_get_random_data(&data, &size, sizeof(struct iname));
  char *iname_name = gb_get_null_terminated(&data, &size);
  
  CLEAN_IF_NULL(in)
  CLEAN_IF_NULL(iname_name)

  in->name = iname_name;
  in->next = NULL;

  daemon->if_names = in;

  // daemon->if_addrs
  struct iname *in_addr = (struct iname*)gb_get_random_data(&data, &size, sizeof(struct iname));
  char *iname_name_addr = gb_get_null_terminated(&data, &size);
  
  CLEAN_IF_NULL(in_addr)
  CLEAN_IF_NULL(iname_name_addr)

  in_addr->name = iname_name_addr;
  in_addr->next = NULL;

  daemon->if_addrs = in_addr;

  // daemon->if_except
  struct iname *in_except = (struct iname*)gb_get_random_data(&data, &size, sizeof(struct iname));
  char *iname_name_except = gb_get_null_terminated(&data, &size);
  
  CLEAN_IF_NULL(in_except)
  CLEAN_IF_NULL(iname_name_except)

  in_except->name = iname_name_except;
  in_except->next = NULL;

  daemon->if_except = in_except;

  // daemon->dhcp_except
  struct iname *except = (struct iname*)gb_get_random_data(&data, &size, sizeof(struct iname));
  char *name_except = gb_get_null_terminated(&data, &size);
  
  CLEAN_IF_NULL(except)
  CLEAN_IF_NULL(name_except)

  except->name = name_except;
  except->next = NULL;

  daemon->dhcp_except = except;

  // daemon->authinterface
  struct iname *auth_interface = (struct iname*)gb_get_random_data(&data, &size, sizeof(struct iname));
  char *auth_name = gb_get_null_terminated(&data, &size);
  
  CLEAN_IF_NULL(auth_interface)
  CLEAN_IF_NULL(auth_name)

  auth_interface->name = auth_name;
  auth_interface->next = NULL;

  daemon->authinterface = auth_interface;


  // daemon->cnames
  struct cname *cn = (struct cname*)gb_alloc_data(sizeof(struct cname));
  char *cname_alias = gb_get_null_terminated(&data, &size);
  char *cname_target = gb_get_null_terminated(&data, &size);

  CLEAN_IF_NULL(cn)
  CLEAN_IF_NULL(cname_alias)
  CLEAN_IF_NULL(cname_target)

  cn->alias = cname_alias;
  cn->target = cname_target;
  daemon->cnames = cn;


  // daemon->ptr
  struct ptr_record *ptr = (struct ptr_record *)gb_alloc_data(sizeof(struct ptr_record));
  CLEAN_IF_NULL(ptr)

  char *ptr_name = gb_get_null_terminated(&data, &size);
  CLEAN_IF_NULL(ptr_name)
  ptr->name = ptr_name;
  daemon->ptr = ptr;

  if (size > *size2) {
    goto cleanup;
  }

  // daemon->dhcp
  struct dhcp_context *dhcp_c = (struct dhcp_context *) gb_get_random_data(&data, &size, sizeof(struct dhcp_context));
  
  char *dhcp_c_temp_in = gb_get_null_terminated(&data, &size);

  struct dhcp_netid *dhcp_c_netid = (struct dhcp_netid *) gb_alloc_data(sizeof(struct dhcp_netid));
  char *dhcp_netid_net = gb_get_null_terminated(&data, &size);

  CLEAN_IF_NULL(dhcp_c)
  CLEAN_IF_NULL(dhcp_c_temp_in)
  CLEAN_IF_NULL(dhcp_c_netid)
  CLEAN_IF_NULL(dhcp_netid_net)

  dhcp_c->next = NULL;
  dhcp_c->current = NULL;
  dhcp_c_netid->net = dhcp_netid_net;
  dhcp_c->filter = dhcp_c_netid;
  dhcp_c->template_interface = dhcp_c_temp_in;

  daemon->dhcp = dhcp_c;


  // daemon->dhcp6
  struct dhcp_context *dhcp6_c = (struct dhcp_context *) gb_get_random_data(&data, &size, sizeof(struct dhcp_context));
  
  char *dhcp6_c_temp_in = gb_get_null_terminated(&data, &size);

  struct dhcp_netid *dhcp6_c_netid = (struct dhcp_netid *) gb_alloc_data(sizeof(struct dhcp_netid));
  char *dhcp6_netid_net = gb_get_null_terminated(&data, &size);

  CLEAN_IF_NULL(dhcp6_c)
  CLEAN_IF_NULL(dhcp6_c_temp_in)
  CLEAN_IF_NULL(dhcp6_c_netid)
  CLEAN_IF_NULL(dhcp6_netid_net)

  dhcp6_c->next = NULL;
  dhcp6_c->current = NULL;
  dhcp6_c_netid->net = dhcp6_netid_net;
  dhcp6_c->filter = dhcp6_c_netid;
  dhcp6_c->template_interface = dhcp6_c_temp_in;

  daemon->dhcp6 = dhcp6_c;

  // daemon->doing_dhcp6
  daemon->doing_dhcp6 = 1;

  // daemon->dhcp_buffs
  char *dhcp_buff = gb_alloc_data(DHCP_BUFF_SZ);
  char *dhcp_buff2 = gb_alloc_data(DHCP_BUFF_SZ);
  char *dhcp_buff3 = gb_alloc_data(DHCP_BUFF_SZ);

  CLEAN_IF_NULL(dhcp_buff)
  CLEAN_IF_NULL(dhcp_buff2)
  CLEAN_IF_NULL(dhcp_buff3)

  daemon->dhcp_buff = dhcp_buff;
  daemon->dhcp_buff2 = dhcp_buff2;
  daemon->dhcp_buff3 = dhcp_buff3;



  // daemon->ignore_addr
  struct bogus_addr *bb = (struct bogus_addr *)gb_alloc_data(sizeof(struct bogus_addr));
  CLEAN_IF_NULL(bb)

  daemon->ignore_addr = bb;

  // daemon->doctors
  if (size > *size2) {
    goto cleanup;
  }

  struct doctor *doctors = (struct doctor *)gb_alloc_data(sizeof(struct doctor));
  CLEAN_IF_NULL(doctors)

  doctors->next = NULL;
  daemon->doctors = doctors;

  retval = 0;
  goto ret;
cleanup:
  retval = -1;

ret:
  return retval;
}

Coverage Report

Created: 2025-07-09 06:38

Line	Count	Source (jump to first uncovered line)
1		/* Copyright 2021 Google LLC
2		Licensed under the Apache License, Version 2.0 (the "License");
3		you may not use this file except in compliance with the License.
4		You may obtain a copy of the License at
5		http://www.apache.org/licenses/LICENSE-2.0
6		Unless required by applicable law or agreed to in writing, software
7		distributed under the License is distributed on an "AS IS" BASIS,
8		WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
9		See the License for the specific language governing permissions and
10		limitations under the License.
11		*/
12
13		#include "dnsmasq.h"
14
15		extern void fuzz_blockdata_cleanup();
16
17		// Simple garbage collector
18	137k	#define GB_SIZE 100
19
20		void *pointer_arr[GB_SIZE];
21		static int pointer_idx = 0;
22
23		// If the garbage collector is used then this must be called as first thing
24		// during a fuzz run.
25	680	void gb_init() {
26	680	pointer_idx = 0;
27
28	68.6k	for (int i = 0; i < GB_SIZE; i++) {
29	68.0k	pointer_arr[i] = NULL;
30	68.0k	}
31	680	}
32
33	680	void gb_cleanup() {
34	68.6k	for(int i = 0; i < GB_SIZE; i++) {
35	68.0k	if (pointer_arr[i] != NULL) {
36	30.8k	free(pointer_arr[i]);
37	30.8k	}
38	68.0k	}
39	680	}
40
41	17.2k	char get_len_null_terminated(const uint8_t data, size_t size, size_t to_get) {
42	17.2k	if (size < to_get \|\| (int)size < 0) {
43	599	return NULL;
44	599	}
45
46	16.6k	char *new_s = malloc(to_get + 1);
47	16.6k	memcpy(new_s, *data, to_get);
48	16.6k	new_s[to_get] = '\0';
49
50	16.6k	data = data+to_get;
51	16.6k	*size -= to_get;
52	16.6k	return new_s;
53	17.2k	}
54
55	15.7k	char get_null_terminated(const uint8_t data, size_t size) {
56	15.7k	#define STR_SIZE 75
57	15.7k	return get_len_null_terminated(data, size, STR_SIZE);
58	15.7k	}
59
60	3.76k	char gb_get_random_data(const uint8_t data, size_t size, size_t to_get) {
61	3.76k	if (size < to_get \|\| (int)size < 0) {
62	39	return NULL;
63	39	}
64
65	3.72k	char *new_s = malloc(to_get);
66	3.72k	memcpy(new_s, *data, to_get);
67
68	3.72k	pointer_arr[pointer_idx++] = (void*)new_s;
69
70	3.72k	data = data + to_get;
71	3.72k	*size -= to_get;
72
73	3.72k	return new_s;
74	3.76k	}
75
76	15.7k	char gb_get_null_terminated(const uint8_t data, size_t size) {
77
78	15.7k	char *nstr = get_null_terminated(data, size);
79	15.7k	if (nstr == NULL) {
80	454	return NULL;
81	454	}
82	15.2k	pointer_arr[pointer_idx++] = (void*)nstr;
83	15.2k	return nstr;
84	15.7k	}
85
86	1.52k	char gb_get_len_null_terminated(const uint8_t data, size_t size, size_t to_get) {
87
88	1.52k	char *nstr = get_len_null_terminated(data, size, to_get);
89	1.52k	if (nstr != NULL) {
90	1.37k	pointer_arr[pointer_idx++] = (void*)nstr;
91	1.37k	}
92	1.52k	return nstr;
93	1.52k	}
94
95	10.4k	char *gb_alloc_data(size_t len) {
96	10.4k	char *ptr = calloc(1, len);
97	10.4k	pointer_arr[pointer_idx++] = (void*)ptr;
98
99	10.4k	return ptr;
100	10.4k	}
101
102	1.07k	short get_short(const uint8_t *data, size_t size) {
103	1.07k	if (*size <= 0) return 0;
104	1.07k	short c = (short)(*data)[0];
105	1.07k	*data += 1;
106	1.07k	*size-=1;
107	1.07k	return c;
108	1.07k	}
109
110	6.27k	int get_int(const uint8_t *data, size_t size) {
111	6.27k	if (*size <= 4) return 0;
112	6.22k	const uint8_t ptr = data;
113	6.22k	int val = ((int)ptr);
114	6.22k	*data += 4;
115	6.22k	*size -= 4;
116	6.22k	return val;
117	6.27k	}
118		// end simple garbage collector.
119
120		const uint8_t *syscall_data = NULL;
121		size_t syscall_size = 0;
122
123
124	0	int fuzz_ioctl(int fd, unsigned long request, void *arg) {
125	0	int fd2 = fd;
126	0	unsigned long request2 = request;
127	0	void *arg_ptr = arg;
128
129		// SIOCGSTAMP
130	0	if (request == SIOCGSTAMP) {
131	0	struct timeval tv = (struct timeval)arg_ptr;
132	0	if (tv == NULL) {
133	0	return 0;
134	0	}
135
136	0	char *rand_tv = gb_get_random_data(&syscall_data, &syscall_size, sizeof(struct timeval));
137	0	if (rand_tv == NULL) {
138	0	return -1;
139	0	}
140
141	0	memcpy(tv, rand_tv, sizeof(struct timeval));
142	0	return 0;
143	0	}
144
145	0	if (request == SIOCGIFNAME) {
146		//printf("We got a SIOCGIFNAME\n");
147	0	struct ifreq ifr = (struct ifreq)arg_ptr;
148	0	if (ifr == NULL) {
149	0	return -1;
150	0	}
151	0	for (int i = 0; i < IF_NAMESIZE; i++) {
152	0	if (syscall_size > 0 && syscall_data != NULL) {
153	0	ifr->ifr_name[i] = (char)*syscall_data;
154	0	syscall_data += 1;
155	0	syscall_size -= 1;
156	0	}
157	0	else {
158	0	ifr->ifr_name[i] = 'A';
159	0	}
160	0	}
161	0	ifr->ifr_name[IF_NAMESIZE-1] = '\0';
162	0	return 0;
163		//return -1;
164	0	}
165	0	if (request == SIOCGIFFLAGS) {
166	0	return 0;
167	0	}
168	0	if (request == SIOCGIFADDR) {
169	0	return 0;
170	0	}
171
172		//
173	0	int retval = ioctl(fd2, request2, arg_ptr);
174	0	return retval;
175	0	}
176
177
178		// Sysytem call wrappers
179		static char v = 0;
180	0	ssize_t fuzz_recvmsg(int sockfd, struct msghdr *msg, int flags) {
181
182	0	struct iovec *target = msg->msg_iov;
183
184		//printf("recvmsg 1 \n");
185	0	if (syscall_size > 1) {
186	0	char r = *syscall_data;
187	0	syscall_data += 1;
188	0	syscall_size -= 1;
189
190	0	if (r == 12) {
191		//printf("recvmsg 2\n");
192	0	return -1;
193	0	}
194	0	}
195
196	0	int j = 0;
197	0	if (msg->msg_control != NULL) {
198	0	for (;j < CMSG_SPACE(sizeof(struct in_pktinfo)); j++)
199	0	{
200	0	if (syscall_size > 0 && syscall_data != NULL) {
201	0	((char)msg->msg_control)[j] = syscall_data;
202	0	syscall_data += 1;
203	0	syscall_size -= 1;
204	0	}
205	0	else {
206	0	((char*)msg->msg_control)[j] = 'A';
207	0	}
208	0	}
209	0	}
210
211	0	int i = 0;
212	0	for (; i < target->iov_len; i++) {
213	0	if (syscall_size > 0 && syscall_data != NULL) {
214	0	((char)target->iov_base)[i] = syscall_data;
215	0	syscall_data += 1;
216	0	syscall_size -= 1;
217	0	}
218	0	else {
219	0	((char*)target->iov_base)[i] = 'A';
220	0	}
221	0	}
222
223	0	if (msg->msg_namelen > 0) {
224	0	memset(msg->msg_name, 0, msg->msg_namelen);
225	0	}
226
227	0	return i;
228	0	}
229
230
231		// dnsmasq specific stuff
232	680	int init_daemon(const uint8_t *data2, size_t size2) {
233	680	const uint8_t data = data2;
234	680	size_t size = *size2;
235
236	680	int retval = 0;
237
238	29.6k	#define CLEAN_IF_NULL(arg) if (arg == NULL) goto cleanup;
239
240		// Initialize daemon
241	680	daemon = (struct daemon*)gb_alloc_data(sizeof(struct daemon));
242	680	CLEAN_IF_NULL(daemon)
243
244		// daemon misc
245	680	daemon->max_ttl = get_int(&data, &size);
246	680	daemon->neg_ttl = get_int(&data, &size);
247	680	daemon->local_ttl = get_int(&data, &size);
248	680	daemon->min_cache_ttl = get_int(&data, &size);
249
250		// daemon->namebuff.
251	680	char *daemon_namebuff = gb_get_len_null_terminated(&data, &size, MAXDNAME);
252	680	daemon->namebuff = daemon_namebuff;
253
254		// daemon->naptr
255	680	struct naptr naptr_ptr = (struct naptr)gb_alloc_data(sizeof(struct naptr));
256	680	char *naptr_name = gb_get_null_terminated(&data, &size);
257	680	char *naptr_replace = gb_get_null_terminated(&data, &size);
258	680	char *naptr_regexp = gb_get_null_terminated(&data, &size);
259	680	char *naptr_services = gb_get_null_terminated(&data, &size);
260	680	char *naptr_flags = gb_get_null_terminated(&data, &size);
261
262	680	CLEAN_IF_NULL(naptr_ptr)
263	680	CLEAN_IF_NULL(naptr_name)
264	654	CLEAN_IF_NULL(naptr_replace)
265	649	CLEAN_IF_NULL(naptr_regexp)
266	648	CLEAN_IF_NULL(naptr_services)
267	641	CLEAN_IF_NULL(naptr_flags)
268
269	639	naptr_ptr->name = naptr_name;
270	639	naptr_ptr->replace = naptr_replace;
271	639	naptr_ptr->regexp = naptr_regexp;
272	639	naptr_ptr->services = naptr_services;
273	639	naptr_ptr->flags = naptr_flags;
274
275	639	daemon->naptr = naptr_ptr;
276
277		// daemon->int_names
278	639	struct interface_name int_namses = (struct interface_name)gb_alloc_data(sizeof(struct interface_name));
279
280	639	char *int_name = gb_get_null_terminated(&data, &size);
281	639	char *int_intr = gb_get_null_terminated(&data, &size);
282	639	CLEAN_IF_NULL(int_namses)
283	639	CLEAN_IF_NULL(int_name)
284	624	CLEAN_IF_NULL(int_intr)
285	614	int_namses->name = int_name;
286	614	int_namses->intr = int_intr;
287
288	614	struct addrlist d_addrlist = (struct addrlist)gb_alloc_data(sizeof(struct addrlist));
289	614	CLEAN_IF_NULL(d_addrlist)
290	614	d_addrlist->flags = get_int(&data, &size);
291	614	d_addrlist->prefixlen = get_int(&data, &size);
292	614	int_namses->addr = d_addrlist;
293
294	614	daemon->int_names = int_namses;
295
296	614	if (size > *size2) {
297	0	goto cleanup;
298	0	}
299
300		// daemon->addrbuf
301	614	char *adbuf = gb_alloc_data(200);
302	614	CLEAN_IF_NULL(adbuf)
303	614	daemon->addrbuff = adbuf;
304
305		// daemon->auth_zones
306	614	struct auth_zone d_az = (struct auth_zone)gb_alloc_data(sizeof(struct auth_zone));
307	614	char *auth_domain = gb_get_null_terminated(&data, &size);
308
309	614	CLEAN_IF_NULL(d_az)
310	614	CLEAN_IF_NULL(auth_domain)
311	592	d_az->domain = auth_domain;
312	592	daemon->auth_zones = d_az;
313
314		// deamon->mxnames
315	592	struct mx_srv_record mx_srv_rec = (struct mx_srv_record)gb_alloc_data(sizeof(struct mx_srv_record));
316	592	char *mx_name = gb_get_null_terminated(&data, &size);
317	592	char *mx_target = gb_get_null_terminated(&data, &size);
318
319	592	CLEAN_IF_NULL(mx_srv_rec)
320	592	CLEAN_IF_NULL(mx_target)
321	582	CLEAN_IF_NULL(mx_name)
322
323	582	mx_srv_rec->next = daemon->mxnames;
324	582	daemon->mxnames = mx_srv_rec;
325	582	mx_srv_rec->name = mx_name;
326	582	mx_srv_rec->target = mx_target;
327	582	mx_srv_rec->issrv = get_int(&data, &size);
328	582	mx_srv_rec->weight = get_int(&data, &size);
329	582	mx_srv_rec->priority = get_int(&data, &size);
330	582	mx_srv_rec->srvport = get_int(&data, &size);
331		//data += 40;
332		//size -= 40;
333
334	582	if (size > *size2) {
335	0	goto cleanup;
336	0	}
337
338		// daemon->txt
339	582	struct txt_record txt_record = (struct txt_record )gb_alloc_data(sizeof(struct txt_record));
340	582	char *txt_record_name = gb_get_null_terminated(&data, &size);
341	582	char *txt_record_txt = gb_get_null_terminated(&data, &size);
342
343	582	CLEAN_IF_NULL(txt_record)
344	582	CLEAN_IF_NULL(txt_record_name)
345	558	CLEAN_IF_NULL(txt_record_txt)
346
347	551	txt_record->name = txt_record_name;
348	551	txt_record->txt = (unsigned char*)txt_record_txt;
349	551	txt_record->class2 = (get_short(&data, &size) % 10);
350	551	daemon->txt = txt_record;
351
352		// daemon->rr
353	551	struct txt_record rr_record = (struct txt_record )gb_alloc_data(sizeof(struct txt_record));
354	551	char *rr_record_name = gb_get_null_terminated(&data, &size);
355	551	char *rr_record_txt = gb_get_null_terminated(&data, &size);
356
357	551	CLEAN_IF_NULL(rr_record)
358	551	CLEAN_IF_NULL(rr_record_name)
359	542	CLEAN_IF_NULL(rr_record_txt)
360
361	528	rr_record->name = rr_record_name;
362	528	rr_record->txt = (unsigned char*)rr_record_txt;
363	528	rr_record->class2 = (get_short(&data, &size) % 10);
364	528	daemon->rr = rr_record;
365
366	528	if (size > *size2) {
367	0	goto cleanup;
368	0	}
369
370		// daemon->relay4
371		//struct dhcp_relay dr = (struct dhcp_relay)gb_alloc_data(sizeof(struct dhcp_relay));
372	528	struct dhcp_relay dr = (struct dhcp_relay)gb_get_random_data(&data, &size, sizeof(struct dhcp_relay));
373	528	char *dr_interface = gb_get_null_terminated(&data, &size);
374
375	528	CLEAN_IF_NULL(dr)
376	516	CLEAN_IF_NULL(dr_interface)
377	507	dr->interface = dr_interface;
378	507	dr->next = NULL;
379		//dr->current = NULL;
380	507	daemon->relay4 = dr;
381
382		// deamon->bridges
383	507	struct dhcp_bridge db = (struct dhcp_bridge)gb_alloc_data(sizeof(struct dhcp_bridge));
384	507	char *db_interface = gb_get_null_terminated(&data, &size);
385
386	507	CLEAN_IF_NULL(db)
387	507	CLEAN_IF_NULL(db_interface)
388
389	501	if (strlen(db_interface) > IF_NAMESIZE) {
390	5.11k	for (int i = 0; i < IF_NAMESIZE; i++) {
391	4.81k	db->iface[i] = db_interface[i];
392	4.81k	}
393	301	} else {
394	859	for (int i = 0; i < strlen(db_interface); i++) {
395	659	db->iface[i] = db_interface[i];
396	659	}
397	200	}
398
399
400	501	struct dhcp_bridge db_alias = (struct dhcp_bridge)gb_alloc_data(sizeof(struct dhcp_bridge));
401		//struct dhcp_bridge db_alias = (struct dhcp_bridge)gb_get_random_data(&data, &size, sizeof(struct dhcp_bridge));
402	501	char *db_alias_interface = gb_get_null_terminated(&data, &size);
403
404	501	CLEAN_IF_NULL(db_alias)
405	501	CLEAN_IF_NULL(db_alias_interface)
406
407	490	if (strlen(db_alias_interface) > IF_NAMESIZE) {
408	4.67k	for (int i = 0; i < IF_NAMESIZE; i++) {
409	4.40k	db_alias->iface[i] = db_alias_interface[i];
410	4.40k	}
411	275	} else {
412	850	for (int i = 0; i < strlen(db_alias_interface); i++) {
413	635	db_alias->iface[i] = db_alias_interface[i];
414	635	}
415	215	}
416	490	db->alias = db_alias;
417	490	daemon->bridges = db;
418
419		// daemon->if_names
420	490	struct iname in = (struct iname)gb_get_random_data(&data, &size, sizeof(struct iname));
421	490	char *iname_name = gb_get_null_terminated(&data, &size);
422
423	490	CLEAN_IF_NULL(in)
424	479	CLEAN_IF_NULL(iname_name)
425
426	476	in->name = iname_name;
427	476	in->next = NULL;
428
429	476	daemon->if_names = in;
430
431		// daemon->if_addrs
432	476	struct iname in_addr = (struct iname)gb_get_random_data(&data, &size, sizeof(struct iname));
433	476	char *iname_name_addr = gb_get_null_terminated(&data, &size);
434
435	476	CLEAN_IF_NULL(in_addr)
436	475	CLEAN_IF_NULL(iname_name_addr)
437
438	470	in_addr->name = iname_name_addr;
439	470	in_addr->next = NULL;
440
441	470	daemon->if_addrs = in_addr;
442
443		// daemon->if_except
444	470	struct iname in_except = (struct iname)gb_get_random_data(&data, &size, sizeof(struct iname));
445	470	char *iname_name_except = gb_get_null_terminated(&data, &size);
446
447	470	CLEAN_IF_NULL(in_except)
448	469	CLEAN_IF_NULL(iname_name_except)
449
450	468	in_except->name = iname_name_except;
451	468	in_except->next = NULL;
452
453	468	daemon->if_except = in_except;
454
455		// daemon->dhcp_except
456	468	struct iname except = (struct iname)gb_get_random_data(&data, &size, sizeof(struct iname));
457	468	char *name_except = gb_get_null_terminated(&data, &size);
458
459	468	CLEAN_IF_NULL(except)
460	465	CLEAN_IF_NULL(name_except)
461
462	462	except->name = name_except;
463	462	except->next = NULL;
464
465	462	daemon->dhcp_except = except;
466
467		// daemon->authinterface
468	462	struct iname auth_interface = (struct iname)gb_get_random_data(&data, &size, sizeof(struct iname));
469	462	char *auth_name = gb_get_null_terminated(&data, &size);
470
471	462	CLEAN_IF_NULL(auth_interface)
472	461	CLEAN_IF_NULL(auth_name)
473
474	450	auth_interface->name = auth_name;
475	450	auth_interface->next = NULL;
476
477	450	daemon->authinterface = auth_interface;
478
479
480		// daemon->cnames
481	450	struct cname cn = (struct cname)gb_alloc_data(sizeof(struct cname));
482	450	char *cname_alias = gb_get_null_terminated(&data, &size);
483	450	char *cname_target = gb_get_null_terminated(&data, &size);
484
485	450	CLEAN_IF_NULL(cn)
486	450	CLEAN_IF_NULL(cname_alias)
487	447	CLEAN_IF_NULL(cname_target)
488
489	443	cn->alias = cname_alias;
490	443	cn->target = cname_target;
491	443	daemon->cnames = cn;
492
493
494		// daemon->ptr
495	443	struct ptr_record ptr = (struct ptr_record )gb_alloc_data(sizeof(struct ptr_record));
496	443	CLEAN_IF_NULL(ptr)
497
498	443	char *ptr_name = gb_get_null_terminated(&data, &size);
499	443	CLEAN_IF_NULL(ptr_name)
500	441	ptr->name = ptr_name;
501	441	daemon->ptr = ptr;
502
503	441	if (size > *size2) {
504	0	goto cleanup;
505	0	}
506
507		// daemon->dhcp
508	441	struct dhcp_context dhcp_c = (struct dhcp_context ) gb_get_random_data(&data, &size, sizeof(struct dhcp_context));
509
510	441	char *dhcp_c_temp_in = gb_get_null_terminated(&data, &size);
511
512	441	struct dhcp_netid dhcp_c_netid = (struct dhcp_netid ) gb_alloc_data(sizeof(struct dhcp_netid));
513	441	char *dhcp_netid_net = gb_get_null_terminated(&data, &size);
514
515	441	CLEAN_IF_NULL(dhcp_c)
516	435	CLEAN_IF_NULL(dhcp_c_temp_in)
517	433	CLEAN_IF_NULL(dhcp_c_netid)
518	433	CLEAN_IF_NULL(dhcp_netid_net)
519
520	431	dhcp_c->next = NULL;
521	431	dhcp_c->current = NULL;
522	431	dhcp_c_netid->net = dhcp_netid_net;
523	431	dhcp_c->filter = dhcp_c_netid;
524	431	dhcp_c->template_interface = dhcp_c_temp_in;
525
526	431	daemon->dhcp = dhcp_c;
527
528
529		// daemon->dhcp6
530	431	struct dhcp_context dhcp6_c = (struct dhcp_context ) gb_get_random_data(&data, &size, sizeof(struct dhcp_context));
531
532	431	char *dhcp6_c_temp_in = gb_get_null_terminated(&data, &size);
533
534	431	struct dhcp_netid dhcp6_c_netid = (struct dhcp_netid ) gb_alloc_data(sizeof(struct dhcp_netid));
535	431	char *dhcp6_netid_net = gb_get_null_terminated(&data, &size);
536
537	431	CLEAN_IF_NULL(dhcp6_c)
538	427	CLEAN_IF_NULL(dhcp6_c_temp_in)
539	426	CLEAN_IF_NULL(dhcp6_c_netid)
540	426	CLEAN_IF_NULL(dhcp6_netid_net)
541
542	421	dhcp6_c->next = NULL;
543	421	dhcp6_c->current = NULL;
544	421	dhcp6_c_netid->net = dhcp6_netid_net;
545	421	dhcp6_c->filter = dhcp6_c_netid;
546	421	dhcp6_c->template_interface = dhcp6_c_temp_in;
547
548	421	daemon->dhcp6 = dhcp6_c;
549
550		// daemon->doing_dhcp6
551	421	daemon->doing_dhcp6 = 1;
552
553		// daemon->dhcp_buffs
554	421	char *dhcp_buff = gb_alloc_data(DHCP_BUFF_SZ);
555	421	char *dhcp_buff2 = gb_alloc_data(DHCP_BUFF_SZ);
556	421	char *dhcp_buff3 = gb_alloc_data(DHCP_BUFF_SZ);
557
558	421	CLEAN_IF_NULL(dhcp_buff)
559	421	CLEAN_IF_NULL(dhcp_buff2)
560	421	CLEAN_IF_NULL(dhcp_buff3)
561
562	421	daemon->dhcp_buff = dhcp_buff;
563	421	daemon->dhcp_buff2 = dhcp_buff2;
564	421	daemon->dhcp_buff3 = dhcp_buff3;
565
566
567
568		// daemon->ignore_addr
569	421	struct bogus_addr bb = (struct bogus_addr )gb_alloc_data(sizeof(struct bogus_addr));
570	421	CLEAN_IF_NULL(bb)
571
572	421	daemon->ignore_addr = bb;
573
574		// daemon->doctors
575	421	if (size > *size2) {
576	0	goto cleanup;
577	0	}
578
579	421	struct doctor doctors = (struct doctor )gb_alloc_data(sizeof(struct doctor));
580	421	CLEAN_IF_NULL(doctors)
581
582	421	doctors->next = NULL;
583	421	daemon->doctors = doctors;
584
585	421	retval = 0;
586	421	goto ret;
587	259	cleanup:
588	259	retval = -1;
589
590	680	ret:
591	680	return retval;
592	259	}