static Action_SkBuff
par4(arguments_t args, SkBuff b)
{
function_t f0 = GET_ARG_0(function_t, args);
function_t f1 = GET_ARG_1(function_t, args);
function_t f2 = GET_ARG_2(function_t, args);
function_t f3 = GET_ARG_3(function_t, args);
fanout_t fout = PFQ_CB(b.skb)->monad->fanout;
Action_SkBuff a;
a = EVAL_FUNCTION(f0, b);
if (a.value.skb && !is_drop(PFQ_CB(a.value.skb)->monad->fanout))
return a;
PFQ_CB(b.skb)->monad->fanout = fout;
a = EVAL_FUNCTION(f1, b);
if (a.value.skb && !is_drop(PFQ_CB(a.value.skb)->monad->fanout))
return a;
PFQ_CB(b.skb)->monad->fanout = fout;
a = EVAL_FUNCTION(f2, b);
if (a.value.skb && !is_drop(PFQ_CB(a.value.skb)->monad->fanout))
return a;
PFQ_CB(b.skb)->monad->fanout = fout;
return EVAL_FUNCTION(f3, b);
}
static ActionSkBuff
filter_dst_addr(arguments_t args, SkBuff b)
{
__be32 addr = GET_ARG_0(__be32, args);
__be32 mask = GET_ARG_1(__be32, args);
return has_dst_addr(b, addr, mask) ? Pass(b) : Drop(b);
}
static bool
pred_has_dst_addr(arguments_t args, SkBuff b)
{
__be32 addr = GET_ARG_0(__be32, args);
__be32 mask = GET_ARG_1(__be32, args);
return has_dst_addr(b, addr, mask);
}
static ActionSkBuff
par8(arguments_t args, SkBuff skb)
{
function_t f0 = GET_ARG_0(function_t, args);
function_t f1 = GET_ARG_1(function_t, args);
function_t f2 = GET_ARG_2(function_t, args);
function_t f3 = GET_ARG_3(function_t, args);
function_t f4 = GET_ARG_4(function_t, args);
function_t f5 = GET_ARG_5(function_t, args);
function_t f6 = GET_ARG_6(function_t, args);
function_t f7 = GET_ARG_7(function_t, args);
fanout_t fout = PFQ_CB(skb)->monad->fanout;
ActionSkBuff a;
a = EVAL_FUNCTION(f0, skb);
if (a.skb && !is_drop(PFQ_CB(a.skb)->monad->fanout))
return a;
PFQ_CB(skb)->monad->fanout = fout;
a = EVAL_FUNCTION(f1, skb);
if (a.skb && !is_drop(PFQ_CB(a.skb)->monad->fanout))
return a;
PFQ_CB(skb)->monad->fanout = fout;
a = EVAL_FUNCTION(f2, skb);
if (a.skb && !is_drop(PFQ_CB(a.skb)->monad->fanout))
return a;
PFQ_CB(skb)->monad->fanout = fout;
a = EVAL_FUNCTION(f3, skb);
if (a.skb && !is_drop(PFQ_CB(a.skb)->monad->fanout))
return a;
PFQ_CB(skb)->monad->fanout = fout;
a = EVAL_FUNCTION(f4, skb);
if (a.skb && !is_drop(PFQ_CB(a.skb)->monad->fanout))
return a;
PFQ_CB(skb)->monad->fanout = fout;
a = EVAL_FUNCTION(f5, skb);
if (a.skb && !is_drop(PFQ_CB(a.skb)->monad->fanout))
return a;
PFQ_CB(skb)->monad->fanout = fout;
a = EVAL_FUNCTION(f6, skb);
if (a.skb && !is_drop(PFQ_CB(a.skb)->monad->fanout))
return a;
PFQ_CB(skb)->monad->fanout = fout;
return EVAL_FUNCTION(f7, skb);
}
static int filter_addr_init(arguments_t args)
{
__be32 mask, ipv4 = GET_ARG_0(__be32, args);
int prefix = GET_ARG_1(int, args);
mask = inet_make_mask(prefix);
SET_ARG_0(args, ipv4 & mask);
SET_ARG_1(args, mask);
pr_devel("[PFQ|init] filter: addr:%pI4 mask:%pI4\n", &ipv4, &mask);
return 0;
}
static ActionSkBuff
par(arguments_t args, SkBuff skb)
{
function_t f0 = GET_ARG_0(function_t, args);
function_t f1 = GET_ARG_1(function_t, args);
fanout_t fout = PFQ_CB(skb)->monad->fanout;
ActionSkBuff a;
a = EVAL_FUNCTION(f0, skb);
if (a.skb && !is_drop(PFQ_CB(a.skb)->monad->fanout))
return a;
PFQ_CB(skb)->monad->fanout = fout;
return EVAL_FUNCTION(f1, skb);
}
static bool
bloom(arguments_t args, struct qbuff * buff)
{
struct iphdr _iph;
const struct iphdr *ip;
uint32_t fold, addr;
__be32 mask;
char *mem;
ip = qbuff_ip_header_pointer(buff, 0, sizeof(_iph), &_iph);
if (ip == NULL)
return false;
fold = GET_ARG_0(uint32_t, args);
mem = GET_ARG_1(char *, args);
mask = GET_ARG_2(__be32, args);
if (buff->monad->ep_ctx & EPOINT_DST)
{
addr = be32_to_cpu(ip->daddr & mask);
if ( BF_TEST(mem, hfun1(addr) & fold) &&
BF_TEST(mem, hfun2(addr) & fold) &&
BF_TEST(mem, hfun3(addr) & fold) &&
BF_TEST(mem, hfun4(addr) & fold) )
return true;
}
if (buff->monad->ep_ctx & EPOINT_SRC)
{
addr = be32_to_cpu(ip->saddr & mask);
if ( BF_TEST(mem, hfun1(addr) & fold) &&
BF_TEST(mem, hfun2(addr) & fold) &&
BF_TEST(mem, hfun3(addr) & fold) &&
BF_TEST(mem, hfun4(addr) & fold) )
return true;
}
return false;
}
