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generate-args.c
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generate-args.c
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#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <values.h>
#include "arch.h"
#include "debug.h"
#include "files.h"
#include "maps.h"
#include "net.h"
#include "pathnames.h"
#include "random.h"
#include "sanitise.h"
#include "shm.h"
#include "syscall.h"
#include "tables.h"
#include "trinity.h" // num_online_cpus
static int get_cpu(void)
{
int i;
i = rnd() % 100;
switch (i) {
case 0: return -1;
case 1: return rnd() % 4096;
case 2: return INT_MAX;
case 3 ... 98:
return rnd() % num_online_cpus;
}
return 0;
}
static unsigned long handle_arg_address(struct syscallrecord *rec, unsigned int argnum)
{
unsigned long addr = 0;
if (argnum == 1)
return (unsigned long) get_address();
if (RAND_BOOL())
return (unsigned long) get_address();
/* Half the time, we look to see if earlier args were also ARG_ADDRESS,
* and munge that instead of returning a new one from get_address() */
addr = find_previous_arg_address(rec, argnum);
switch (rnd() % 4) {
case 0: break; /* return unmodified */
case 1: addr++;
break;
case 2: addr+= sizeof(int);
break;
case 3: addr+= sizeof(long);
break;
}
return addr;
}
static unsigned long handle_arg_range(struct syscallentry *entry, unsigned int argnum)
{
unsigned long i;
unsigned long low = 0, high = 0;
switch (argnum) {
case 1: low = entry->low1range;
high = entry->hi1range;
break;
case 2: low = entry->low2range;
high = entry->hi2range;
break;
case 3: low = entry->low3range;
high = entry->hi3range;
break;
case 4: low = entry->low4range;
high = entry->hi4range;
break;
case 5: low = entry->low5range;
high = entry->hi5range;
break;
case 6: low = entry->low6range;
high = entry->hi6range;
break;
}
if (high == 0) {
outputerr("%s forgets to set hirange!\n", entry->name);
BUG("Fix syscall definition!\n");
}
i = (unsigned long) rand64() % high;
if (i < low) {
i += low;
i &= high;
}
return i;
}
static void get_num_and_values(struct syscallentry *entry, unsigned int argnum,
unsigned int *num, const unsigned long **values)
{
switch (argnum) {
case 1: *num = entry->arg1list.num;
*values = entry->arg1list.values;
break;
case 2: *num = entry->arg2list.num;
*values = entry->arg2list.values;
break;
case 3: *num = entry->arg3list.num;
*values = entry->arg3list.values;
break;
case 4: *num = entry->arg4list.num;
*values = entry->arg4list.values;
break;
case 5: *num = entry->arg5list.num;
*values = entry->arg5list.values;
break;
case 6: *num = entry->arg6list.num;
*values = entry->arg6list.values;
break;
default:
unreachable();
}
if (*num == 0)
BUG("ARG_OP/LIST with 0 args. What?\n");
if (*values == NULL)
BUG("ARG_OP/LIST with no values.\n");
}
/*
* Get a single entry from the list of values.
*/
static unsigned long handle_arg_op(struct syscallentry *entry, unsigned int argnum)
{
const unsigned long *values = NULL;
unsigned int num = 0;
unsigned long op = 0;
get_num_and_values(entry, argnum, &num, &values);
op = values[rnd() % num];
return op;
}
/*
* OR a random number of bits from the list of values into a bitmask, and return it.
*/
static unsigned long handle_arg_list(struct syscallentry *entry, unsigned int argnum)
{
unsigned long mask = 0;
unsigned int num = 0;
const unsigned long *values = NULL;
get_num_and_values(entry, argnum, &num, &values);
if (RAND_BOOL())
num = min(num, 3U);
mask = set_rand_bitmask(num, values);
return mask;
}
static unsigned long handle_arg_iovec(struct syscallentry *entry, struct syscallrecord *rec, unsigned int argnum)
{
unsigned long num_entries;
if (RAND_BOOL())
num_entries = 1;
else
num_entries = RAND_RANGE(1, 256);
switch (argnum) {
case 1: if (entry->arg2type == ARG_IOVECLEN)
rec->a2 = num_entries;
break;
case 2: if (entry->arg3type == ARG_IOVECLEN)
rec->a3 = num_entries;
break;
case 3: if (entry->arg4type == ARG_IOVECLEN)
rec->a4 = num_entries;
break;
case 4: if (entry->arg5type == ARG_IOVECLEN)
rec->a5 = num_entries;
break;
case 5: if (entry->arg6type == ARG_IOVECLEN)
rec->a6 = num_entries;
break;
}
return (unsigned long) alloc_iovec(num_entries);
}
static unsigned long handle_arg_sockaddr(struct syscallentry *entry, struct syscallrecord *rec, unsigned int argnum)
{
struct sockaddr *sockaddr = NULL;
socklen_t sockaddrlen = 0;
generate_sockaddr((struct sockaddr **)&sockaddr, &sockaddrlen, PF_NOHINT);
switch (argnum) {
case 1: if (entry->arg2type == ARG_SOCKADDRLEN)
rec->a2 = sockaddrlen;
break;
case 2: if (entry->arg3type == ARG_SOCKADDRLEN)
rec->a3 = sockaddrlen;
break;
case 3: if (entry->arg4type == ARG_SOCKADDRLEN)
rec->a4 = sockaddrlen;
break;
case 4: if (entry->arg5type == ARG_SOCKADDRLEN)
rec->a5 = sockaddrlen;
break;
case 5: if (entry->arg6type == ARG_SOCKADDRLEN)
rec->a6 = sockaddrlen;
break;
case 6:
break;
}
return (unsigned long) sockaddr;
}
static unsigned long handle_arg_mode_t(void)
{
unsigned int i, count;
mode_t mode = 0, op = 0;
count = rnd() % 9;
for (i = 0; i < count; i++) {
unsigned int j;
j = rnd() % 16;
switch (j) {
case 0: op = S_IRWXU; break;
case 1: op = S_IRUSR; break;
case 2: op = S_IWUSR; break;
case 3: op = S_IXUSR; break;
case 4: op = S_IRWXG; break;
case 5: op = S_IRGRP; break;
case 6: op = S_IWGRP; break;
case 7: op = S_IXGRP; break;
case 8: op = S_IRWXO; break;
case 9: op = S_IROTH; break;
case 10: op = S_IWOTH; break;
case 11: op = S_IXOTH; break;
case 12: op = S_ISUID; break;
case 13: op = S_ISGID; break;
case 14: op = S_ISVTX; break;
}
if (RAND_BOOL())
mode |= op;
else
mode &= ~op;
}
return mode;
}
enum argtype get_argtype(struct syscallentry *entry, unsigned int argnum)
{
enum argtype argtype = 0;
switch (argnum) {
case 1: argtype = entry->arg1type;
break;
case 2: argtype = entry->arg2type;
break;
case 3: argtype = entry->arg3type;
break;
case 4: argtype = entry->arg4type;
break;
case 5: argtype = entry->arg5type;
break;
case 6: argtype = entry->arg6type;
break;
}
return argtype;
}
static unsigned long fill_arg(struct syscallrecord *rec, unsigned int argnum)
{
struct syscallentry *entry;
unsigned int call;
enum argtype argtype;
call = rec->nr;
entry = syscalls[call].entry;
if (argnum > entry->num_args)
return 0;
argtype = get_argtype(entry, argnum);
switch (argtype) {
case ARG_UNDEFINED:
if (RAND_BOOL())
return (unsigned long) rand64();
return (unsigned long) get_writable_address(page_size);
case ARG_FD:
if (RAND_BOOL()) {
unsigned int i;
/* If this is the 2nd or more ARG_FD, make it unique */
for (i = 0; i < argnum; i++) {
enum argtype arg;
arg = get_argtype(entry, i);
if (arg == ARG_FD)
return get_new_random_fd();
}
}
return get_random_fd();
case ARG_LEN:
return (unsigned long) get_len();
case ARG_ADDRESS:
return handle_arg_address(rec, argnum);
case ARG_NON_NULL_ADDRESS:
return (unsigned long) get_non_null_address();
case ARG_MMAP:
return (unsigned long) get_map();
case ARG_PID:
return (unsigned long) get_pid();
case ARG_RANGE:
return handle_arg_range(entry, argnum);
case ARG_OP: /* Like ARG_LIST, but just a single value. */
return handle_arg_op(entry, argnum);
case ARG_LIST:
return handle_arg_list(entry, argnum);
case ARG_CPU:
return (unsigned long) get_cpu();
case ARG_PATHNAME:
return (unsigned long) generate_pathname();
case ARG_IOVEC:
return handle_arg_iovec(entry, rec, argnum);
case ARG_IOVECLEN:
case ARG_SOCKADDRLEN:
/* We already set the len in the ARG_IOVEC/ARG_SOCKADDR case
* So here we just return what we had set there. */
return get_argval(rec, argnum);
case ARG_SOCKADDR:
return handle_arg_sockaddr(entry, rec, argnum);
case ARG_MODE_T:
return handle_arg_mode_t();
case ARG_SOCKETINFO:
return (unsigned long) get_rand_socketinfo();
}
BUG("unreachable!\n");
}
void generic_sanitise(struct syscallrecord *rec)
{
struct syscallentry *entry;
unsigned int call;
call = rec->nr;
entry = syscalls[call].entry;
if (entry->arg1type != 0)
rec->a1 = fill_arg(rec, 1);
if (entry->arg2type != 0)
rec->a2 = fill_arg(rec, 2);
if (entry->arg3type != 0)
rec->a3 = fill_arg(rec, 3);
if (entry->arg4type != 0)
rec->a4 = fill_arg(rec, 4);
if (entry->arg5type != 0)
rec->a5 = fill_arg(rec, 5);
if (entry->arg6type != 0)
rec->a6 = fill_arg(rec, 6);
}
void generic_free_arg(struct syscallrecord *rec)
{
struct syscallentry *entry;
unsigned int i, call;
call = rec->nr;
entry = syscalls[call].entry;
for_each_arg(entry, i) {
enum argtype argtype;
argtype = get_argtype(entry, i);
if (argtype == ARG_IOVEC)
free((void *) get_argval(rec, i));
}
}
void generate_syscall_args(struct syscallrecord *rec)
{
struct syscallentry *entry;
lock(&rec->lock);
//TODO: instead of rand64() do a rand arg type
entry = syscalls[rec->nr].entry;
rec->state = PREP;
if (entry->arg1type == ARG_UNDEFINED)
rec->a1 = (unsigned long) rand64();
if (entry->arg2type == ARG_UNDEFINED)
rec->a2 = (unsigned long) rand64();
if (entry->arg3type == ARG_UNDEFINED)
rec->a3 = (unsigned long) rand64();
if (entry->arg4type == ARG_UNDEFINED)
rec->a4 = (unsigned long) rand64();
if (entry->arg5type == ARG_UNDEFINED)
rec->a5 = (unsigned long) rand64();
if (entry->arg6type == ARG_UNDEFINED)
rec->a6 = (unsigned long) rand64();
generic_sanitise(rec);
if (entry->sanitise)
entry->sanitise(rec);
unlock(&rec->lock);
}