L_USDHC2=L_USDHC2_0, HP_USDHC1=HP_USDHC1_0, L_DCP=L_DCP_0, L_DMA=L_DMA_0, HP_USB=HP_USB_0, HP_TPSMP=HP_TPSMP_0, L_USB=L_USB_0, HP_PXP=HP_PXP_0, HP_ENET=HP_ENET_0, L_USDHC1=L_USDHC1_0, L_TPSMP=L_TPSMP_0, L_CSI=L_CSI_0, HP_CSI=HP_CSI_0, HP_LCDIF=HP_LCDIF_0, HP_DMA=HP_DMA_0, HP_DCP=HP_DCP_0, L_ENET=L_ENET_0, HP_USDHC2=HP_USDHC2_0, L_PXP=L_PXP_0, L_LCDIF=L_LCDIF_0
HP0 register
| HP_DMA | Determines whether the register value of the corresponding HP field is passed as the hprot[1] of the eDMA 0 (HP_DMA_0): The hprot1 input signal value is routed to the csu_hprot1 output for the corresponding master. 1 (HP_DMA_1): The HP register bit is routed to the csu_hprot1 output for the corresponding master. |
| L_DMA | Lock bit set by the TZ software for the eDMA 0 (L_DMA_0): No lock-the adjacent (next lower) bit can be written by the software. 1 (L_DMA_1): Lock-the adjacent (next lower) bit can’t be written by the software. |
| HP_LCDIF | Determines whether the register value of the corresponding HP field is passed as the hprot[1] of the LCDIF 0 (HP_LCDIF_0): The hprot1 input signal value is routed to the csu_hprot1 output for the corresponding master. 1 (HP_LCDIF_1): The HP register bit is routed to the csu_hprot1 output for the corresponding master. |
| L_LCDIF | Lock bit set by the TZ software for the LCDIF 0 (L_LCDIF_0): No lock-the adjacent (next lower) bit can be written by the software. 1 (L_LCDIF_1): Lock-the adjacent (next lower) bit can’t be written by the software. |
| HP_CSI | Determines whether the register value of the corresponding HP field is passed as the hprot[1] of the CSI 0 (HP_CSI_0): The hprot1 input signal value is routed to the csu_hprot1 output for the corresponding master. 1 (HP_CSI_1): The HP register bit is routed to the csu_hprot1 output for the corresponding master. |
| L_CSI | Lock bit set by the TZ software for the CSI 0 (L_CSI_0): No lock-the adjacent (next lower) bit can be written by the software. 1 (L_CSI_1): Lock-the adjacent (next lower) bit can’t be written by the software. |
| HP_PXP | Determines whether the register value of the corresponding HP field is passed as the hprot[1] of the PXP 0 (HP_PXP_0): The hprot1 input signal value is routed to the csu_hprot1 output for the corresponding master. 1 (HP_PXP_1): The HP register bit is routed to the csu_hprot1 output for the corresponding master. |
| L_PXP | Lock bit set by the TZ software for the PXP 0 (L_PXP_0): No lock-the adjacent (next lower) bit can be written by the software. 1 (L_PXP_1): Lock-the adjacent (next lower) bit can’t be written by the software. |
| HP_DCP | Determines whether the register value of the corresponding HP field is passed as the hprot[1] of the DCP 0 (HP_DCP_0): The hprot1 input signal value is routed to the csu_hprot1 output for the corresponding master. 1 (HP_DCP_1): The HP register bit is routed to the csu_hprot1 output for the corresponding master. |
| L_DCP | Lock bit set by the TZ software for the DCP 0 (L_DCP_0): No lock-the adjacent (next lower) bit can be written by the software. 1 (L_DCP_1): Lock-the adjacent (next lower) bit cannot be written by the software. |
| HP_ENET | Determines whether the register value of the corresponding HP field is passed as the hprot[1] of the ENET 0 (HP_ENET_0): The hprot1 input signal value is routed to the csu_hprot1 output for the corresponding master. 1 (HP_ENET_1): The HP register bit is routed to the csu_hprot1 output for the corresponding master. |
| L_ENET | Lock bit set by the TZ software for the ENET 0 (L_ENET_0): No lock-the adjacent (next lower) bit can be written by the software. 1 (L_ENET_1): Lock-the adjacent (next lower) bit can’t be written by the software. |
| HP_USDHC1 | Determines whether the register value of the corresponding HP field is passed as the hprot[1] of the USDHC1 0 (HP_USDHC1_0): The hprot1 input signal value is routed to the csu_hprot1 output for the corresponding master. 1 (HP_USDHC1_1): The HP register bit is routed to the csu_hprot1 output for the corresponding master. |
| L_USDHC1 | Lock bit set by the TZ software for the USDHC1 0 (L_USDHC1_0): No lock-the adjacent (next lower) bit can be written by the software. 1 (L_USDHC1_1): Lock-the adjacent (next lower) bit can’t be written by the software. |
| HP_USDHC2 | Determines whether the register value of the corresponding HP field is passed as the hprot[1] of the USDHC2 0 (HP_USDHC2_0): The hprot1 input signal value is routed to the csu_hprot1 output for the corresponding master. 1 (HP_USDHC2_1): The HP register bit is routed to the csu_hprot1 output for the corresponding master. |
| L_USDHC2 | Lock bit set by the TZ software for the USDHC2 0 (L_USDHC2_0): No lock-the adjacent (next lower) bit can be written by the software. 1 (L_USDHC2_1): Lock-the adjacent (next lower) bit can’t be written by the software. |
| HP_TPSMP | Determines whether the register value of the corresponding HP field is passed as the hprot[1] of the TPSMP 0 (HP_TPSMP_0): The hprot1 input signal value is routed to the csu_hprot1 output for the corresponding master. 1 (HP_TPSMP_1): The HP register bit is routed to the csu_hprot1 output for the corresponding master. |
| L_TPSMP | Lock bit set by the TZ software for the TPSMP 0 (L_TPSMP_0): No lock-the adjacent (next lower) bit can be written by the software. 1 (L_TPSMP_1): Lock-the adjacent (next lower) bit can’t be written by the software. |
| HP_USB | Determines whether the register value of the corresponding HP field is passed as the hprot[1] of the USB 0 (HP_USB_0): The hprot1 input signal value is routed to the csu_hprot1 output for the corresponding master. 1 (HP_USB_1): The HP register bit is routed to the csu_hprot1 output for the corresponding master. |
| L_USB | Lock bit set by the TZ software for the USB 0 (L_USB_0): No lock-the adjacent (next lower) bit can be written by the software. 1 (L_USB_1): Lock-the adjacent (next lower) bit can’t be written by the software. |