SWCU185G January 2018 – June 2024 CC1312PSIP , CC1312R , CC1352P , CC1352R , CC2642R , CC2642R-Q1 , CC2652P , CC2652PSIP , CC2652R , CC2652RB , CC2652RSIP , CC2662R-Q1
The DMAC operates with the AHB master adapter that has two ports. One port is an external AHB port used to perform read and write operations to the external AHB subsystem. This port can address the complete 32-bit address range. The second port is an internal TCM port (master TCM) used to perform read and write operations to the internal modules of the crypto core AES engine and key store. Assignment of the internal modules for DMA operation must be selected in the master control module (see Section 13.5.4.1.1); therefore, an internal address is not needed in the DMAC.
The data path from the TCM port of the AHB master module to the internal modules is located outside of the DMAC. The DMAC only observes the number of transferred words to determine when the requested DMA operation is finished for the corresponding channel.
The key store is a 32-bit block of memory with a depth of 32 words, surrounded by control logic. When the AES module is configured to write keys to this key-store module through DMA, the key store internally manages access to the key store RAM based on its register settings (including generation of the key store RAM addresses). The AES module supports only DMA write operations to the key store.
The AES engine has a 32-bit write interface for input data to be encrypted or decrypted, and a 32-bit read interface for result data and tag. The write interface of the AES module collects 32-bit data into a 128-bit input block (AES block size). When a full block is received, the AES calculation for the received block is started. When receiving the last word of the last block, the DMAC and master controller generate a "data done" signal to the crypto engine. The mode, message length, and optional parameters are programmed using the target interface.
On the TCM side, the key-store module immediately accepts all data without delay cycles, while the crypto modules operate on a data block boundary. On the TCM side, the key-store module immediately accepts all data without delay cycles, while the crypto module operates on a data block boundary (the processing of which takes a number of clock cycles). Special handshake signals are used between the DMAC and crypto modules: