filter: make sure filters dont read uninitialized memory
There is a possibility malicious users can get limited information about uninitialized stack mem array. Even if sk_run_filter() result is bound to packet length (0 .. 65535), we could imagine this can be used by hostile user. Initializing mem[] array, like Dan Rosenberg suggested in his patch is expensive since most filters dont even use this array. Its hard to make the filter validation in sk_chk_filter(), because of the jumps. This might be done later. In this patch, I use a bitmap (a single long var) so that only filters using mem[] loads/stores pay the price of added security checks. For other filters, additional cost is a single instruction. [ Since we access fentry->k a lot now, cache it in a local variable and mark filter entry pointer as const. -DaveM ] Reported-by: Dan Rosenberg <drosenberg@vsecurity.com> Signed-off-by: Eric Dumazet <eric.dumazet@gmail.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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@ -112,39 +112,41 @@ EXPORT_SYMBOL(sk_filter);
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*/
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unsigned int sk_run_filter(struct sk_buff *skb, struct sock_filter *filter, int flen)
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{
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struct sock_filter *fentry; /* We walk down these */
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void *ptr;
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u32 A = 0; /* Accumulator */
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u32 X = 0; /* Index Register */
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u32 mem[BPF_MEMWORDS]; /* Scratch Memory Store */
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unsigned long memvalid = 0;
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u32 tmp;
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int k;
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int pc;
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BUILD_BUG_ON(BPF_MEMWORDS > BITS_PER_LONG);
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/*
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* Process array of filter instructions.
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*/
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for (pc = 0; pc < flen; pc++) {
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fentry = &filter[pc];
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const struct sock_filter *fentry = &filter[pc];
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u32 f_k = fentry->k;
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switch (fentry->code) {
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case BPF_S_ALU_ADD_X:
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A += X;
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continue;
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case BPF_S_ALU_ADD_K:
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A += fentry->k;
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A += f_k;
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continue;
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case BPF_S_ALU_SUB_X:
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A -= X;
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continue;
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case BPF_S_ALU_SUB_K:
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A -= fentry->k;
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A -= f_k;
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continue;
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case BPF_S_ALU_MUL_X:
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A *= X;
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continue;
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case BPF_S_ALU_MUL_K:
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A *= fentry->k;
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A *= f_k;
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continue;
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case BPF_S_ALU_DIV_X:
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if (X == 0)
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@ -152,49 +154,49 @@ unsigned int sk_run_filter(struct sk_buff *skb, struct sock_filter *filter, int
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A /= X;
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continue;
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case BPF_S_ALU_DIV_K:
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A /= fentry->k;
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A /= f_k;
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continue;
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case BPF_S_ALU_AND_X:
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A &= X;
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continue;
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case BPF_S_ALU_AND_K:
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A &= fentry->k;
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A &= f_k;
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continue;
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case BPF_S_ALU_OR_X:
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A |= X;
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continue;
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case BPF_S_ALU_OR_K:
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A |= fentry->k;
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A |= f_k;
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continue;
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case BPF_S_ALU_LSH_X:
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A <<= X;
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continue;
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case BPF_S_ALU_LSH_K:
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A <<= fentry->k;
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A <<= f_k;
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continue;
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case BPF_S_ALU_RSH_X:
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A >>= X;
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continue;
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case BPF_S_ALU_RSH_K:
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A >>= fentry->k;
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A >>= f_k;
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continue;
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case BPF_S_ALU_NEG:
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A = -A;
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continue;
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case BPF_S_JMP_JA:
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pc += fentry->k;
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pc += f_k;
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continue;
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case BPF_S_JMP_JGT_K:
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pc += (A > fentry->k) ? fentry->jt : fentry->jf;
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pc += (A > f_k) ? fentry->jt : fentry->jf;
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continue;
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case BPF_S_JMP_JGE_K:
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pc += (A >= fentry->k) ? fentry->jt : fentry->jf;
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pc += (A >= f_k) ? fentry->jt : fentry->jf;
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continue;
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case BPF_S_JMP_JEQ_K:
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pc += (A == fentry->k) ? fentry->jt : fentry->jf;
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pc += (A == f_k) ? fentry->jt : fentry->jf;
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continue;
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case BPF_S_JMP_JSET_K:
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pc += (A & fentry->k) ? fentry->jt : fentry->jf;
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pc += (A & f_k) ? fentry->jt : fentry->jf;
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continue;
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case BPF_S_JMP_JGT_X:
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pc += (A > X) ? fentry->jt : fentry->jf;
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@ -209,7 +211,7 @@ unsigned int sk_run_filter(struct sk_buff *skb, struct sock_filter *filter, int
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pc += (A & X) ? fentry->jt : fentry->jf;
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continue;
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case BPF_S_LD_W_ABS:
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k = fentry->k;
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k = f_k;
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load_w:
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ptr = load_pointer(skb, k, 4, &tmp);
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if (ptr != NULL) {
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@ -218,7 +220,7 @@ load_w:
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}
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break;
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case BPF_S_LD_H_ABS:
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k = fentry->k;
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k = f_k;
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load_h:
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ptr = load_pointer(skb, k, 2, &tmp);
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if (ptr != NULL) {
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@ -227,7 +229,7 @@ load_h:
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}
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break;
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case BPF_S_LD_B_ABS:
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k = fentry->k;
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k = f_k;
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load_b:
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ptr = load_pointer(skb, k, 1, &tmp);
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if (ptr != NULL) {
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@ -242,32 +244,34 @@ load_b:
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X = skb->len;
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continue;
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case BPF_S_LD_W_IND:
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k = X + fentry->k;
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k = X + f_k;
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goto load_w;
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case BPF_S_LD_H_IND:
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k = X + fentry->k;
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k = X + f_k;
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goto load_h;
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case BPF_S_LD_B_IND:
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k = X + fentry->k;
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k = X + f_k;
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goto load_b;
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case BPF_S_LDX_B_MSH:
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ptr = load_pointer(skb, fentry->k, 1, &tmp);
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ptr = load_pointer(skb, f_k, 1, &tmp);
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if (ptr != NULL) {
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X = (*(u8 *)ptr & 0xf) << 2;
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continue;
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}
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return 0;
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case BPF_S_LD_IMM:
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A = fentry->k;
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A = f_k;
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continue;
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case BPF_S_LDX_IMM:
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X = fentry->k;
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X = f_k;
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continue;
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case BPF_S_LD_MEM:
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A = mem[fentry->k];
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A = (memvalid & (1UL << f_k)) ?
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mem[f_k] : 0;
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continue;
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case BPF_S_LDX_MEM:
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X = mem[fentry->k];
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X = (memvalid & (1UL << f_k)) ?
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mem[f_k] : 0;
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continue;
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case BPF_S_MISC_TAX:
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X = A;
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A = X;
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continue;
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case BPF_S_RET_K:
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return fentry->k;
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return f_k;
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case BPF_S_RET_A:
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return A;
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case BPF_S_ST:
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mem[fentry->k] = A;
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memvalid |= 1UL << f_k;
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mem[f_k] = A;
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continue;
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case BPF_S_STX:
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mem[fentry->k] = X;
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memvalid |= 1UL << f_k;
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mem[f_k] = X;
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continue;
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default:
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WARN_ON(1);
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