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sha1

Introduction

Verilog implementation of the SHA-1 cryptgraphic hash function. The functionality follows the specification in NIST FIPS 180-4.

The sha1 design is divided into the following sections.

The actual core consists of the following RTL files:

The main core functionality is in the sha1_core file. The file sha1_w_mem contains the message block memory W (see FIPS 180-4). The top level entity is called sha1_core. The sha1_core module has wide interfaces (512 bit block input, 160 bit digest). In order to make it usable you probably want to wrap the core with a bus interface.

The file sha1.v contains a top level wrapper that provides a simple interface with 32-bit data access . This interface contains mesage block and digest registers to allow a host to load the next block while the current block is being processed.

API

The following list contains the address map for all registers implemented by the sha1 top level wrapper:

address name access description
0x00 name0 R "SHA1"
0x01 name1 R " "
0x02 version R "0.50"
0x08 control R/W Control of core. Bit 0: init, Bit 1: next
0x09 status R/W Status of core. Bit 0: Ready, Bit 1: valid data
0x10 block0 R/W data block register
0x11 block1 R/W data block register
0x12 block2 R/W data block register
0x13 block3 R/W data block register
0x14 block4 R/W data block register
0x15 block5 R/W data block register
0x16 block6 R/W data block register
0x17 block7 R/W data block register
0x18 block8 R/W data block register
0x19 block9 R/W data block register
0x1a block10 R/W data block register
0x1b block11 R/W data block register
0x1c block12 R/W data block register
0x1d block13 R/W data block register
0x1e block14 R/W data block register
0x1f block15 R/W data block register
0x20 digest0 R/W digest register
0x21 digest1 R/W digest register
0x22 digest2 R/W digest register
0x23 digest3 R/W digest register
0x24 digest4 R/W digest register

Implementation details

The implementation is iterative with one cycle/round. The initialization takes one cycle. The W memory is based around a sliding window of 16 32-bit registers that are updated in sync with the round processing. The total latency/message block is 82 cycles.

All registers have asynchronous reset.

The design has been implemented and tested on TerasIC DE0-Nano and C5G FPGA boards.

Status

The design has been implemented and extensively been tested on TerasIC DE0-Nano and C5G FPGA boards. The core has also been tested using SW running on The Novena CPU talking to the core in the Xilinx Spartan-6 FPGA.

FPGA-results

Altera Cyclone FPGAs

Implementation results using Altera Quartus-II 13.1.

Altera Cyclone IV E

Altera Cyclone IV GX

Altera Cyclone V

Xilinx FPGAs

Implementation results using ISE 14.7.

* Xilinx Spartan-6 *

TODO

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