In the Java hashmap they could use several ways to do it. From my old CS 201 Data Structures class back during the dark ages:
1) Each bucket in the hash map can become the head of a linked list holding all the entries added that have the same hash value. A collision on adding means you add the new entry to the end of the linked list. Search means you have to linearly check all the ones in any linked list once you hash into the bucket for it.
2) If a collision occurs and the store is conceptually an array, you can just iterate starting at that point until you find an empty spot and add the new entry there. For search this means if you find the hash bucket is occupied, then you have to compare linearly from that point to the next empty spot in the array that backs the hash map.
In both cases, the performance degrades if there are multiple entries with the same hash. In the general case, this means that a hash function (used to generate the hash code) returns a small number of possible values, performance will degrade as the map fills up. The Java HashMap has taken advantage of 50 years of research on such things to be a good fit to the general case of general data going into a hashed map.
Note @dystroy made a comment about the rule that you can't have two entries in the map with that match according to the equals() method.