The PDB Serialized Hash Table Format

Introduction

One of the design goals of the PDB format is to provide accelerated access to debug information, and for this reason there are several occasions where hash tables are serialized and embedded directly to the file, rather than requiring a consumer to read a list of values and reconstruct the hash table on the fly.

The serialization format supports hash tables of arbitrarily large size and capacity, as well as value types and hash functions. The only supported key value type is a uint32. The only requirement is that the producer and consumer agree on the hash function. As such, the hash function can is not discussed further in this document, it is assumed that for a particular instance of a PDB file hash table, the appropriate hash function is being used.

On-Disk Format

.--------------------.-- +0
|        Size        |
.--------------------.-- +4
|      Capacity      |
.--------------------.-- +8
| Present Bit Vector |
.--------------------.-- +N
| Deleted Bit Vector |
.--------------------.-- +M                  ─╮
|        Key         |                        │
.--------------------.-- +M+4                 │
|       Value        |                        │
.--------------------.-- +M+4+sizeof(Value)   │
         ...                                  ├─ |Capacity| Bucket entries
.--------------------.                        │
|        Key         |                        │
.--------------------.                        │
|       Value        |                        │
.--------------------.                       ─╯
  • Size - The number of values contained in the hash table.
  • Capacity - The number of buckets in the hash table. Producers should maintain a load factor of no greater than 2/3*Capacity+1.
  • Present Bit Vector - A serialized bit vector which contains information about which buckets have valid values. If the bucket has a value, the corresponding bit will be set, and if the bucket doesn’t have a value (either because the bucket is empty or because the value is a tombstone value) the bit will be unset.
  • Deleted Bit Vector - A serialized bit vector which contains information about which buckets have tombstone values. If the entry in this bucket is deleted, the bit will be set, otherwise it will be unset.
  • Keys and Values - A list of Capacity hash buckets, where the first entry is the key (always a uint32), and the second entry is the value. The state of each bucket (valid, empty, deleted) can be determined by examining the present and deleted bit vectors.

Present and Deleted Bit Vectors

The bit vectors indicating the status of each bucket are serialized as follows:

.--------------------.-- +0
|     Word Count     |
.--------------------.-- +4
|        Word_0      |        ─╮
.--------------------.-- +8    │
|        Word_1      |         │
.--------------------.-- +12   ├─ |Word Count| values
         ...                   │
.--------------------.         │
|       Word_N       |         │
.--------------------.        ─╯

The words, when viewed as a contiguous block of bytes, represent a bit vector with the following layout:

  .------------.         .------------.------------.
  |   Word_N   |   ...   |   Word_1   |   Word_0   |
  .------------.         .------------.------------.
  |            |         |            |            |
+N*32      +(N-1)*32    +64          +32          +0

where the k’th bit of this bit vector represents the status of the k’th bucket in the hash table.