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[update] UDS Provisioning new flow
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mhatrevi committed Dec 18, 2024
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Expand Up @@ -235,13 +235,29 @@ The following flows are conducted exclusively when the ROM is operating in ACTIV
The following flows are conducted when the ROM is operating in the manufacturing mode, indicated by a value of `DEVICE_MANUFACTURING` (0x1) in the `CPTRA_SECURITY_STATE` register `device_lifecycle` bits.

#### UDS Provisioning
1. On reset, the ROM checks if the `UDS_PROGRAM_REQ` bit in the `CPTRA_DBG_MANUF_SERVICE_REQ_REG` register is set. If the bit is set, the ROM initiates the UDS seed programming flow.
1. On reset, the ROM checks if the `UDS_PROGRAM_REQ` bit in the `SS_DBG_MANUF_SERVICE_REG_REQ` register is set. If the bit is set, ROM initiates the UDS seed programming flow by setting the `UDS_PROGRAM_IN_PROGRESS` bit in the `SS_DBG_MANUF_SERVICE_REG_RSP` register.

2. In this procedure, the ROM retrieves a 512-bit value from the iTRNG and writes it to the address specified by the `UDS_SEED_OFFSET` register, utilizing DMA hardware assistance.
2. ROM then retrieves a 512-bit value from the iTRNG, the UDS Seed programming base address from the `SS_UDS_SEED_PROGRAMMING_BASE_ADDR_L` and `SS_UDS_SEED_PROGRAMMING_BASE_ADDR_H` registers and the Fuse Controller's base address from the `SS_OTP_FC_BASE_ADDR_L` and `SS_OTP_FC_BASE_ADDR_H` registers.

3. Following the DMA operation, the ROM updates the `UDS_PROGRAM_REQ` bit in the `CPTRA_DBG_MANUF_SERVICE_RSP_REG` register to either `UDS_PROGRAM_SUCCESS` or `UDS_PROGRAM_FAIL`, indicating the outcome of the operation.
3. ROM then retrieves the SS_OTP_FC_UDS_GRANULARITY from `SS_DBG_MANUF_SERVICE_REG_REQ` register Bit3 to learn if the fuse row is accessible with 32-bit or 64-bit granularity.

4. The manufacturing process then polls this bit and continues with the fuse burning flow as outlined by the fuse controller specifications and SOC-specific VR methodologies.
4. ROM then performs the following steps until all the 512-bits of the UDS seed are programmed:
1. The ROM verifies the idle state of the DAI by reading the `STATUS` register of the Fuse Controller, located at offset 0x10 from the Fuse Controller's base address.
2. If the granularity is 32-bit, the ROM writes the next word from the UDS seed to the `DIRECT_ACCESS_WDATA_0` register. If the granularity is 64-bit, the ROM writes the next two words to `the DIRECT_ACCESS_WDATA_0` and `DIRECT_ACCESS_WDATA_1` registers, located at offsets 0x44 and 0x48 respectively from the Fuse Controller's base address.
3. The ROM writes the lower 32 bits of the UDS Seed programming base address to the `DIRECT_ACCESS_ADDRESS` register at offset 0x40.
4. The ROM triggers the UDS seed write command by writing 0x2 to the `DIRECT_ACCESS_CMD` register at offset 0x3C.
5. The ROM continuously polls the `STATUS` register until the DAI state returns to idle.
6. [OPEN] Handle DAI error.
7. The ROM increments the `DIRECT_ACCESS_ADDRESS` register by 4 for 32-bit granularity or 8 for 64-bit granularity and repeats the process for the remaining words of the UDS seed.

5. After completing the write operation, ROM triggers the partition digest operation performing the following steps:
1. The ROM writes the lower 32 bits of the UDS Seed programming base address to the `DIRECT_ACCESS_ADDRESS` register.
2. The ROM triggers the digest calculation command by writing 0x4 to the `DIRECT_ACCESS_CMD` register.
3. The ROM continuously polls the Fuse Controller's `STATUS` register until the DAI state returns to idle.

6. ROM updates the `UDS_PROGRAM_SUCCESS` or the `UDS_PROGRAM_FAIL` bit in the `SS_DBG_MANUF_SERVICE_REG_RSP` register to indicate the outcome of the operation.

7. The manufacturing process then polls this bit and continues with the fuse burning flow as outlined by the fuse controller specifications and SOC-specific VR methodologies.

#### Debug Unlock
1. On reset, the ROM checks if the `MANUF_DEBUG_UNLOCK_REQ` bit in the `CPTRA_DBG_MANUF_SERVICE_REQ_REG` register and the `DEBUG_INTENT_STRAP` register are set
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