so i am trying to return a best possible matching interface from routing entries. However, it is not exactly working the way i want it to. I got 5 out 6 values returned the way should be but I am pretty sure I have a million entries in a routing table my algorithm would not work. I am using Binary Search to solve this problem. But, for example, the interface that i want to return has a ipaddress which is smaller than the ipaddress i am passing as an argument, then the binary search algorithm does not work. the structure looks like this:

```
struct routeEntry_t
{
uint32_t ipAddr;
uint32_t netMask;
int interface;
};
routeEntry_t routing_table[100000];
```

let's say the routing table looks like this:

{ 0x00000000, 0x00000000, 1 }, // [0]

{ 0x0A000000, 0xFF000000, 2 }, // [1]

{ 0x0A010000, 0xFFFF0000, 10 }, // [2]

{ 0x0D010100, 0xFFFFFF00, 4 }, // [3]

{ 0x0B100000, 0xFFFF0000, 3 }, // [4]

{ 0x0A010101, 0xFFFFFFFF, 5 }, // [5]

Example input/output:

- Regular search

Input: 0x0D010101 Output: 4 (entry [3])

Input: 0x0B100505 Output: 3 (entry [4])

- To find an arbitrary address, it should go to the default interface.

Input: 0x0F0F0F0F Output: 1 (entry [0])

- To find an address that matches multiple entries, take the best-match.

Input: 0x0A010200 Output: 10 (entry [2])

Input: 0x0A050001 Output: 2 (entry [1])

Input: 0x0A010101 Output: 5 (entry [5])

But my output looks like 2, 3, 1, 10, 1, 5. I don't understand where I am messing things up. Could you please explain where I am doing wrong? any help would be great. Thanks in advance. However this is what my algorithm looks like (assuming the entries are sorted):

```
int interface(uint32_t ipAddr)
```

{ int start = 0;

```
int end = SIZE-1;
int mid = 0;
vector<int> matched_entries;
vector<int>::iterator it;
matched_entries.reserve(SIZE);
it = matched_entries.begin();
if (start > end)
return -1;
while (start <= end)
{
mid = start + ((end-start)/2);
if (routing_table[mid].ipAddr == ipAddr)
return routing_table[mid].interface;
else if (routing_table[mid].ipAddr > ipAddr)
{
uint32_t result = routing_table[mid].netMask & ipAddr;
if (result == routing_table[mid].ipAddr)
{
matched_entries.push_back(mid);
}
end = mid-1;
}
else
{
uint32_t result = routing_table[mid].netMask & ipAddr;
if (result == routing_table[mid].ipAddr)
{
matched_entries.insert(it,mid);
}
start = mid+1;
}
}
int matched_ip = matched_entries.back();
if (routing_table[matched_ip].netMask & ipAddr)
return routing_table[matched_ip].interface;
else
return routing_table[0].interface;
```

}