/* * QEMU model of the Configuration Frame Control module * * Copyright (C) 2023, Advanced Micro Devices, Inc. * * Written by Francisco Iglesias * * SPDX-License-Identifier: GPL-2.0-or-later * * References: * [1] Versal ACAP Technical Reference Manual, * https://www.xilinx.com/support/documentation/architecture-manuals/am011-versal-acap-trm.pdf * * [2] Versal ACAP Register Reference, * https://www.xilinx.com/htmldocs/registers/am012/am012-versal-register-reference.html */ #ifndef HW_MISC_XLNX_VERSAL_CFRAME_REG_H #define HW_MISC_XLNX_VERSAL_CFRAME_REG_H #include "hw/sysbus.h" #include "hw/register.h" #include "hw/misc/xlnx-cfi-if.h" #include "hw/misc/xlnx-versal-cfu.h" #include "qemu/fifo32.h" #define TYPE_XLNX_VERSAL_CFRAME_REG "xlnx,cframe-reg" OBJECT_DECLARE_SIMPLE_TYPE(XlnxVersalCFrameReg, XLNX_VERSAL_CFRAME_REG) #define TYPE_XLNX_VERSAL_CFRAME_BCAST_REG "xlnx.cframe-bcast-reg" OBJECT_DECLARE_SIMPLE_TYPE(XlnxVersalCFrameBcastReg, XLNX_VERSAL_CFRAME_BCAST_REG) /* * The registers in this module are 128 bits wide but it is ok to write * and read them through 4 sequential 32 bit accesses (address[3:2] = 0, * 1, 2, 3). */ REG32(CRC0, 0x0) FIELD(CRC, CRC, 0, 32) REG32(CRC1, 0x4) REG32(CRC2, 0x8) REG32(CRC3, 0xc) REG32(FAR0, 0x10) FIELD(FAR0, SEGMENT, 23, 2) FIELD(FAR0, BLOCKTYPE, 20, 3) FIELD(FAR0, FRAME_ADDR, 0, 20) REG32(FAR1, 0x14) REG32(FAR2, 0x18) REG32(FAR3, 0x1c) REG32(FAR_SFR0, 0x20) FIELD(FAR_SFR0, BLOCKTYPE, 20, 3) FIELD(FAR_SFR0, FRAME_ADDR, 0, 20) REG32(FAR_SFR1, 0x24) REG32(FAR_SFR2, 0x28) REG32(FAR_SFR3, 0x2c) REG32(FDRI0, 0x40) REG32(FDRI1, 0x44) REG32(FDRI2, 0x48) REG32(FDRI3, 0x4c) REG32(FRCNT0, 0x50) FIELD(FRCNT0, FRCNT, 0, 32) REG32(FRCNT1, 0x54) REG32(FRCNT2, 0x58) REG32(FRCNT3, 0x5c) REG32(CMD0, 0x60) FIELD(CMD0, CMD, 0, 5) REG32(CMD1, 0x64) REG32(CMD2, 0x68) REG32(CMD3, 0x6c) REG32(CR_MASK0, 0x70) REG32(CR_MASK1, 0x74) REG32(CR_MASK2, 0x78) REG32(CR_MASK3, 0x7c) REG32(CTL0, 0x80) FIELD(CTL, PER_FRAME_CRC, 0, 1) REG32(CTL1, 0x84) REG32(CTL2, 0x88) REG32(CTL3, 0x8c) REG32(CFRM_ISR0, 0x150) FIELD(CFRM_ISR0, READ_BROADCAST_ERROR, 21, 1) FIELD(CFRM_ISR0, CMD_MISSING_ERROR, 20, 1) FIELD(CFRM_ISR0, RW_ROWOFF_ERROR, 19, 1) FIELD(CFRM_ISR0, READ_REG_ADDR_ERROR, 18, 1) FIELD(CFRM_ISR0, READ_BLK_TYPE_ERROR, 17, 1) FIELD(CFRM_ISR0, READ_FRAME_ADDR_ERROR, 16, 1) FIELD(CFRM_ISR0, WRITE_REG_ADDR_ERROR, 15, 1) FIELD(CFRM_ISR0, WRITE_BLK_TYPE_ERROR, 13, 1) FIELD(CFRM_ISR0, WRITE_FRAME_ADDR_ERROR, 12, 1) FIELD(CFRM_ISR0, MFW_OVERRUN_ERROR, 11, 1) FIELD(CFRM_ISR0, FAR_FIFO_UNDERFLOW, 10, 1) FIELD(CFRM_ISR0, FAR_FIFO_OVERFLOW, 9, 1) FIELD(CFRM_ISR0, PER_FRAME_SEQ_ERROR, 8, 1) FIELD(CFRM_ISR0, CRC_ERROR, 7, 1) FIELD(CFRM_ISR0, WRITE_OVERRUN_ERROR, 6, 1) FIELD(CFRM_ISR0, READ_OVERRUN_ERROR, 5, 1) FIELD(CFRM_ISR0, CMD_INTERRUPT_ERROR, 4, 1) FIELD(CFRM_ISR0, WRITE_INTERRUPT_ERROR, 3, 1) FIELD(CFRM_ISR0, READ_INTERRUPT_ERROR, 2, 1) FIELD(CFRM_ISR0, SEU_CRC_ERROR, 1, 1) FIELD(CFRM_ISR0, SEU_ECC_ERROR, 0, 1) REG32(CFRM_ISR1, 0x154) REG32(CFRM_ISR2, 0x158) REG32(CFRM_ISR3, 0x15c) REG32(CFRM_IMR0, 0x160) FIELD(CFRM_IMR0, READ_BROADCAST_ERROR, 21, 1) FIELD(CFRM_IMR0, CMD_MISSING_ERROR, 20, 1) FIELD(CFRM_IMR0, RW_ROWOFF_ERROR, 19, 1) FIELD(CFRM_IMR0, READ_REG_ADDR_ERROR, 18, 1) FIELD(CFRM_IMR0, READ_BLK_TYPE_ERROR, 17, 1) FIELD(CFRM_IMR0, READ_FRAME_ADDR_ERROR, 16, 1) FIELD(CFRM_IMR0, WRITE_REG_ADDR_ERROR, 15, 1) FIELD(CFRM_IMR0, WRITE_BLK_TYPE_ERROR, 13, 1) FIELD(CFRM_IMR0, WRITE_FRAME_ADDR_ERROR, 12, 1) FIELD(CFRM_IMR0, MFW_OVERRUN_ERROR, 11, 1) FIELD(CFRM_IMR0, FAR_FIFO_UNDERFLOW, 10, 1) FIELD(CFRM_IMR0, FAR_FIFO_OVERFLOW, 9, 1) FIELD(CFRM_IMR0, PER_FRAME_SEQ_ERROR, 8, 1) FIELD(CFRM_IMR0, CRC_ERROR, 7, 1) FIELD(CFRM_IMR0, WRITE_OVERRUN_ERROR, 6, 1) FIELD(CFRM_IMR0, READ_OVERRUN_ERROR, 5, 1) FIELD(CFRM_IMR0, CMD_INTERRUPT_ERROR, 4, 1) FIELD(CFRM_IMR0, WRITE_INTERRUPT_ERROR, 3, 1) FIELD(CFRM_IMR0, READ_INTERRUPT_ERROR, 2, 1) FIELD(CFRM_IMR0, SEU_CRC_ERROR, 1, 1) FIELD(CFRM_IMR0, SEU_ECC_ERROR, 0, 1) REG32(CFRM_IMR1, 0x164) REG32(CFRM_IMR2, 0x168) REG32(CFRM_IMR3, 0x16c) REG32(CFRM_IER0, 0x170) FIELD(CFRM_IER0, READ_BROADCAST_ERROR, 21, 1) FIELD(CFRM_IER0, CMD_MISSING_ERROR, 20, 1) FIELD(CFRM_IER0, RW_ROWOFF_ERROR, 19, 1) FIELD(CFRM_IER0, READ_REG_ADDR_ERROR, 18, 1) FIELD(CFRM_IER0, READ_BLK_TYPE_ERROR, 17, 1) FIELD(CFRM_IER0, READ_FRAME_ADDR_ERROR, 16, 1) FIELD(CFRM_IER0, WRITE_REG_ADDR_ERROR, 15, 1) FIELD(CFRM_IER0, WRITE_BLK_TYPE_ERROR, 13, 1) FIELD(CFRM_IER0, WRITE_FRAME_ADDR_ERROR, 12, 1) FIELD(CFRM_IER0, MFW_OVERRUN_ERROR, 11, 1) FIELD(CFRM_IER0, FAR_FIFO_UNDERFLOW, 10, 1) FIELD(CFRM_IER0, FAR_FIFO_OVERFLOW, 9, 1) FIELD(CFRM_IER0, PER_FRAME_SEQ_ERROR, 8, 1) FIELD(CFRM_IER0, CRC_ERROR, 7, 1) FIELD(CFRM_IER0, WRITE_OVERRUN_ERROR, 6, 1) FIELD(CFRM_IER0, READ_OVERRUN_ERROR, 5, 1) FIELD(CFRM_IER0, CMD_INTERRUPT_ERROR, 4, 1) FIELD(CFRM_IER0, WRITE_INTERRUPT_ERROR, 3, 1) FIELD(CFRM_IER0, READ_INTERRUPT_ERROR, 2, 1) FIELD(CFRM_IER0, SEU_CRC_ERROR, 1, 1) FIELD(CFRM_IER0, SEU_ECC_ERROR, 0, 1) REG32(CFRM_IER1, 0x174) REG32(CFRM_IER2, 0x178) REG32(CFRM_IER3, 0x17c) REG32(CFRM_IDR0, 0x180) FIELD(CFRM_IDR0, READ_BROADCAST_ERROR, 21, 1) FIELD(CFRM_IDR0, CMD_MISSING_ERROR, 20, 1) FIELD(CFRM_IDR0, RW_ROWOFF_ERROR, 19, 1) FIELD(CFRM_IDR0, READ_REG_ADDR_ERROR, 18, 1) FIELD(CFRM_IDR0, READ_BLK_TYPE_ERROR, 17, 1) FIELD(CFRM_IDR0, READ_FRAME_ADDR_ERROR, 16, 1) FIELD(CFRM_IDR0, WRITE_REG_ADDR_ERROR, 15, 1) FIELD(CFRM_IDR0, WRITE_BLK_TYPE_ERROR, 13, 1) FIELD(CFRM_IDR0, WRITE_FRAME_ADDR_ERROR, 12, 1) FIELD(CFRM_IDR0, MFW_OVERRUN_ERROR, 11, 1) FIELD(CFRM_IDR0, FAR_FIFO_UNDERFLOW, 10, 1) FIELD(CFRM_IDR0, FAR_FIFO_OVERFLOW, 9, 1) FIELD(CFRM_IDR0, PER_FRAME_SEQ_ERROR, 8, 1) FIELD(CFRM_IDR0, CRC_ERROR, 7, 1) FIELD(CFRM_IDR0, WRITE_OVERRUN_ERROR, 6, 1) FIELD(CFRM_IDR0, READ_OVERRUN_ERROR, 5, 1) FIELD(CFRM_IDR0, CMD_INTERRUPT_ERROR, 4, 1) FIELD(CFRM_IDR0, WRITE_INTERRUPT_ERROR, 3, 1) FIELD(CFRM_IDR0, READ_INTERRUPT_ERROR, 2, 1) FIELD(CFRM_IDR0, SEU_CRC_ERROR, 1, 1) FIELD(CFRM_IDR0, SEU_ECC_ERROR, 0, 1) REG32(CFRM_IDR1, 0x184) REG32(CFRM_IDR2, 0x188) REG32(CFRM_IDR3, 0x18c) REG32(CFRM_ITR0, 0x190) FIELD(CFRM_ITR0, READ_BROADCAST_ERROR, 21, 1) FIELD(CFRM_ITR0, CMD_MISSING_ERROR, 20, 1) FIELD(CFRM_ITR0, RW_ROWOFF_ERROR, 19, 1) FIELD(CFRM_ITR0, READ_REG_ADDR_ERROR, 18, 1) FIELD(CFRM_ITR0, READ_BLK_TYPE_ERROR, 17, 1) FIELD(CFRM_ITR0, READ_FRAME_ADDR_ERROR, 16, 1) FIELD(CFRM_ITR0, WRITE_REG_ADDR_ERROR, 15, 1) FIELD(CFRM_ITR0, WRITE_BLK_TYPE_ERROR, 13, 1) FIELD(CFRM_ITR0, WRITE_FRAME_ADDR_ERROR, 12, 1) FIELD(CFRM_ITR0, MFW_OVERRUN_ERROR, 11, 1) FIELD(CFRM_ITR0, FAR_FIFO_UNDERFLOW, 10, 1) FIELD(CFRM_ITR0, FAR_FIFO_OVERFLOW, 9, 1) FIELD(CFRM_ITR0, PER_FRAME_SEQ_ERROR, 8, 1) FIELD(CFRM_ITR0, CRC_ERROR, 7, 1) FIELD(CFRM_ITR0, WRITE_OVERRUN_ERROR, 6, 1) FIELD(CFRM_ITR0, READ_OVERRUN_ERROR, 5, 1) FIELD(CFRM_ITR0, CMD_INTERRUPT_ERROR, 4, 1) FIELD(CFRM_ITR0, WRITE_INTERRUPT_ERROR, 3, 1) FIELD(CFRM_ITR0, READ_INTERRUPT_ERROR, 2, 1) FIELD(CFRM_ITR0, SEU_CRC_ERROR, 1, 1) FIELD(CFRM_ITR0, SEU_ECC_ERROR, 0, 1) REG32(CFRM_ITR1, 0x194) REG32(CFRM_ITR2, 0x198) REG32(CFRM_ITR3, 0x19c) REG32(SEU_SYNDRM00, 0x1a0) REG32(SEU_SYNDRM01, 0x1a4) REG32(SEU_SYNDRM02, 0x1a8) REG32(SEU_SYNDRM03, 0x1ac) REG32(SEU_SYNDRM10, 0x1b0) REG32(SEU_SYNDRM11, 0x1b4) REG32(SEU_SYNDRM12, 0x1b8) REG32(SEU_SYNDRM13, 0x1bc) REG32(SEU_SYNDRM20, 0x1c0) REG32(SEU_SYNDRM21, 0x1c4) REG32(SEU_SYNDRM22, 0x1c8) REG32(SEU_SYNDRM23, 0x1cc) REG32(SEU_SYNDRM30, 0x1d0) REG32(SEU_SYNDRM31, 0x1d4) REG32(SEU_SYNDRM32, 0x1d8) REG32(SEU_SYNDRM33, 0x1dc) REG32(SEU_VIRTUAL_SYNDRM0, 0x1e0) REG32(SEU_VIRTUAL_SYNDRM1, 0x1e4) REG32(SEU_VIRTUAL_SYNDRM2, 0x1e8) REG32(SEU_VIRTUAL_SYNDRM3, 0x1ec) REG32(SEU_CRC0, 0x1f0) REG32(SEU_CRC1, 0x1f4) REG32(SEU_CRC2, 0x1f8) REG32(SEU_CRC3, 0x1fc) REG32(CFRAME_FAR_BOT0, 0x200) REG32(CFRAME_FAR_BOT1, 0x204) REG32(CFRAME_FAR_BOT2, 0x208) REG32(CFRAME_FAR_BOT3, 0x20c) REG32(CFRAME_FAR_TOP0, 0x210) REG32(CFRAME_FAR_TOP1, 0x214) REG32(CFRAME_FAR_TOP2, 0x218) REG32(CFRAME_FAR_TOP3, 0x21c) REG32(LAST_FRAME_BOT0, 0x220) FIELD(LAST_FRAME_BOT0, BLOCKTYPE1_LAST_FRAME_LSB, 20, 12) FIELD(LAST_FRAME_BOT0, BLOCKTYPE0_LAST_FRAME, 0, 20) REG32(LAST_FRAME_BOT1, 0x224) FIELD(LAST_FRAME_BOT1, BLOCKTYPE3_LAST_FRAME_LSB, 28, 4) FIELD(LAST_FRAME_BOT1, BLOCKTYPE2_LAST_FRAME, 8, 20) FIELD(LAST_FRAME_BOT1, BLOCKTYPE1_LAST_FRAME_MSB, 0, 8) REG32(LAST_FRAME_BOT2, 0x228) FIELD(LAST_FRAME_BOT2, BLOCKTYPE3_LAST_FRAME_MSB, 0, 16) REG32(LAST_FRAME_BOT3, 0x22c) REG32(LAST_FRAME_TOP0, 0x230) FIELD(LAST_FRAME_TOP0, BLOCKTYPE5_LAST_FRAME_LSB, 20, 12) FIELD(LAST_FRAME_TOP0, BLOCKTYPE4_LAST_FRAME, 0, 20) REG32(LAST_FRAME_TOP1, 0x234) FIELD(LAST_FRAME_TOP1, BLOCKTYPE6_LAST_FRAME, 8, 20) FIELD(LAST_FRAME_TOP1, BLOCKTYPE5_LAST_FRAME_MSB, 0, 8) REG32(LAST_FRAME_TOP2, 0x238) REG32(LAST_FRAME_TOP3, 0x23c) #define CFRAME_REG_R_MAX (R_LAST_FRAME_TOP3 + 1) #define FRAME_NUM_QWORDS 25 #define FRAME_NUM_WORDS (FRAME_NUM_QWORDS * 4) /* 25 * 128 bits */ typedef struct XlnxCFrame { uint32_t data[FRAME_NUM_WORDS]; } XlnxCFrame; struct XlnxVersalCFrameReg { SysBusDevice parent_obj; MemoryRegion iomem; MemoryRegion iomem_fdri; qemu_irq irq_cfrm_imr; /* 128-bit wfifo. */ uint32_t wfifo[WFIFO_SZ]; uint32_t regs[CFRAME_REG_R_MAX]; RegisterInfo regs_info[CFRAME_REG_R_MAX]; bool rowon; bool wcfg; bool rcfg; GTree *cframes; Fifo32 new_f_data; struct { XlnxCfiIf *cfu_fdro; uint32_t blktype_num_frames[7]; } cfg; bool row_configured; }; struct XlnxVersalCFrameBcastReg { SysBusDevice parent_obj; MemoryRegion iomem_reg; MemoryRegion iomem_fdri; /* 128-bit wfifo. */ uint32_t wfifo[WFIFO_SZ]; struct { XlnxCfiIf *cframe[15]; } cfg; }; #endif