Subversion Repositories xulalx25soc

///////////////////////////////////////////////////////////////////////////

//

//

// Filename:    spiflashsim.cpp

//

// Project:     Wishbone Controlled Quad SPI Flash Controller

//

// Purpose:     This library simulates the operation of a Quad-SPI commanded

//              flash, such as the S25FL032P used on the Basys-3 development

//              board by Digilent.  As such, it is defined by 32 Mbits of

//              memory (4 Mbyte).

//

//              This simulator is useful for testing in a Verilator/C++

//              environment, where this simulator can be used in place of

//              the actual hardware.

//

// Creator:     Dan Gisselquist

//              Gisselquist Technology, LLC

//

///////////////////////////////////////////////////////////////////////////

//

// Copyright (C) 2015, Gisselquist Technology, LLC

//

// This program is free software (firmware): you can redistribute it and/or

// modify it under the terms of  the GNU General Public License as published

// by the Free Software Foundation, either version 3 of the License, or (at

// your option) any later version.

//

// This program is distributed in the hope that it will be useful, but WITHOUT

// ANY WARRANTY; without even the implied warranty of MERCHANTIBILITY or

// FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License

// for more details.

//

// You should have received a copy of the GNU General Public License along

// with this program.  (It's in the $(ROOT)/doc directory, run make with no

// target there if the PDF file isn't present.)  If not, see

// <http://www.gnu.org/licenses/> for a copy.

//

// License:     GPL, v3, as defined and found on www.gnu.org,

//              http://www.gnu.org/licenses/gpl.html

//

//

///////////////////////////////////////////////////////////////////////////

#include <stdio.h>

#include <string.h>

#include <assert.h>

#include <stdlib.h>

#include "qspiflashsim.h"

#define MEMBYTES        (1<<22)

static  const unsigned  DEVID = 0x0115,

        DEVESD = 0x014,

        MICROSECONDS = 100,

        MILLISECONDS = MICROSECONDS * 1000,

        SECONDS = MILLISECONDS * 1000,

        tW     =   50 * MICROSECONDS, // write config cycle time

        tBE    =   32 * SECONDS,

        tDP    =   10 * SECONDS,

        tRES   =   30 * SECONDS,

// Shall we artificially speed up this process?

        tPP    = 12 * MICROSECONDS,

        tSE    = 15 * MILLISECONDS;

// or keep it at the original speed

        // tPP    = 1200 * MICROSECONDS,

        // tSE    = 1500 * MILLISECONDS;

QSPIFLASHSIM::QSPIFLASHSIM(void) {

        m_mem = new char[MEMBYTES];

        m_pmem = new char[256];

        m_state = QSPIF_IDLE;

        m_last_sck = 1;

        m_write_count = 0;

        m_ireg = m_oreg = 0;

        m_sreg = 0x01c;

        m_creg = 0x001; // Iinitial creg on delivery

        m_quad_mode = false;

        m_mode_byte = 0;

        memset(m_mem, 0x0ff, MEMBYTES);

}

void    QSPIFLASHSIM::load(const char *fname) {

        FILE    *fp;

        int     nr = 0;

        if (NULL != (fp = fopen(fname, "r"))) {

                nr = fread(m_mem, sizeof(char), MEMBYTES, fp);

                fclose(fp);

        } else {

                fprintf(stderr, "SPI-FLASH: Could not open %s\n", fname);

                perror("O/S Err:");

        }

        for(int i=nr; i<MEMBYTES; i++)

                m_mem[i] = 0x0ff;

}

#define QOREG(A)        m_oreg = ((m_oreg & (~0x0ff))|(A&0x0ff))

int     QSPIFLASHSIM::operator()(const int csn, const int sck, const int dat) {

        // Keep track of a timer to determine when page program and erase

        // cycles complete.

        if (m_write_count > 0) {

                if (0 == (--m_write_count)) {// When done with erase/page pgm,

                        m_sreg &= 0x0fc; // Clear the write in progress bit

                        if (m_debug) printf("Write complete, clearing WIP (inside SIM)\n");

                }

        }

        if (csn) {

                m_last_sck = 1;

                m_ireg = 0; m_oreg = 0;

                m_count= 0;

                if ((QSPIF_PP == m_state)||(QSPIF_QPP == m_state)) {

                        // Start a page program

                        if (m_debug) printf("QSPI: Page Program write cycle begins\n");

                        if (m_debug) printf("CK = %d & 7 = %d\n", m_count, m_count & 0x07);

                        if (m_debug) printf("QSPI: pmem = %08lx\n", (unsigned long)m_pmem);

                        m_write_count = tPP;

                        m_state = QSPIF_IDLE;

                        m_sreg &= (~QSPIF_WEL_FLAG);

                        m_sreg |= (QSPIF_WIP_FLAG);

                        for(int i=0; i<256; i++) {

                                /*

                                if (m_debug) printf("%02x: m_mem[%02x] = %02x &= %02x = %02x\n",

                                        i, (m_addr&(~0x0ff))+i,

                                        m_mem[(m_addr&(~0x0ff))+i]&0x0ff, m_pmem[i]&0x0ff,

                                        m_mem[(m_addr&(~0x0ff))+i]& m_pmem[i]&0x0ff);

                                */

                                m_mem[(m_addr&(~0x0ff))+i] &= m_pmem[i];

                        }

                        m_quad_mode = false;

                } else if (m_state == QSPIF_SECTOR_ERASE) {

                        if (m_debug) printf("Actually Erasing sector, from %08x\n", m_addr);

                        m_write_count = tSE;

                        m_state = QSPIF_IDLE;

                        m_sreg &= (~QSPIF_WEL_FLAG);

                        m_sreg |= (QSPIF_WIP_FLAG);

                        m_addr &= (-1<<16);

                        for(int i=0; i<(1<<16); i++)

                                m_mem[m_addr + i] = 0x0ff;

                        if (m_debug) printf("Now waiting %d ticks delay\n", m_write_count);

                } else if (QSPIF_WRSR == m_state) {

                        if (m_debug) printf("Actually writing status register\n");

                        m_write_count = tW;

                        m_state = QSPIF_IDLE;

                        m_sreg &= (~QSPIF_WEL_FLAG);

                        m_sreg |= (QSPIF_WIP_FLAG);

                } else if (QSPIF_CLSR == m_state) {

                        if (m_debug) printf("Actually clearing the status register bits\n");

                        m_state = QSPIF_IDLE;

                        m_sreg &= 0x09f;

                } else if (m_state == QSPIF_BULK_ERASE) {

                        m_write_count = tBE;

                        m_state = QSPIF_IDLE;

                        m_sreg &= (~QSPIF_WEL_FLAG);

                        m_sreg |= (QSPIF_WIP_FLAG);

                        for(int i=0; i<MEMBYTES; i++)

                                m_mem[i] = 0x0ff;

                } else if (m_state == QSPIF_DEEP_POWER_DOWN) {

                        m_write_count = tDP;

                        m_state = QSPIF_IDLE;

                } else if (m_state == QSPIF_RELEASE) {

                        m_write_count = tRES;

                        m_state = QSPIF_IDLE;

                } else if (m_state == QSPIF_QUAD_READ_CMD) {

                        if ((m_mode_byte & 0x0f0)!=0x0a0)

                                m_quad_mode = false;

                        else

                                m_state = QSPIF_QUAD_READ_IDLE;

                } else if (m_state == QSPIF_QUAD_READ) {

                        if ((m_mode_byte & 0x0f0)!=0x0a0)

                                m_quad_mode = false;

                        else

                                m_state = QSPIF_QUAD_READ_IDLE;

                } else if (m_state == QSPIF_QUAD_READ_IDLE) {

                }

                m_oreg = 0x0fe;

                return dat;

        } else if ((!m_last_sck)||(sck == m_last_sck)) {

                // Only change on the falling clock edge

                // printf("SFLASH-SKIP, CLK=%d -> %d\n", m_last_sck, sck);

                m_last_sck = sck;

                if (m_quad_mode)

                        return (m_oreg>>8)&0x0f;

                else

                        // return ((m_oreg & 0x0100)?2:0) | (dat & 0x0d);

                        return (m_oreg & 0x0100)?2:0;

        }

        // We'll only get here if ...

        //      last_sck = 1, and sck = 0, thus transitioning on the

        //      negative edge as with everything else in this interface

        if (m_quad_mode) {

                m_ireg = (m_ireg << 4) | (dat & 0x0f);

                m_count+=4;

                m_oreg <<= 4;

        } else {

                m_ireg = (m_ireg << 1) | (dat & 1);

                m_count++;

                m_oreg <<= 1;

        }

        // printf("PROCESS, COUNT = %d, IREG = %02x\n", m_count, m_ireg);

        if (m_state == QSPIF_QUAD_READ_IDLE) {

                assert(m_quad_mode);

                if (m_count == 24) {

                        if (m_debug) printf("QSPI: Entering from Quad-Read Idle to Quad-Read\n");

                        if (m_debug) printf("QSPI: QI/O Idle Addr = %02x\n", m_ireg&0x0ffffff);

                        m_addr = (m_ireg) & 0x0ffffff;

                        assert((m_addr & 0xfc00000)==0);

                        m_state = QSPIF_QUAD_READ;

                } m_oreg = 0;

        } else if (m_count == 8) {

                QOREG(0x0a5);

                // printf("SFLASH-CMD = %02x\n", m_ireg & 0x0ff);

                // Figure out what command we've been given

                if (m_debug) printf("SPI FLASH CMD %02x\n", m_ireg&0x0ff);

                switch(m_ireg & 0x0ff) {

                case 0x01: // Write status register

                        if (2 !=(m_sreg & 0x203)) {

                                if (m_debug) printf("QSPI: WEL not set, cannot write status reg\n");

                                m_state = QSPIF_INVALID;

                        } else

                                m_state = QSPIF_WRSR;

                        break;

                case 0x02: // Page program

                        if (2 != (m_sreg & 0x203)) {

                                if (m_debug) printf("QSPI: Cannot program at this time, SREG = %x\n", m_sreg);

                                m_state = QSPIF_INVALID;

                        } else {

                                m_state = QSPIF_PP;

                                if (m_debug) printf("PAGE-PROGRAM COMMAND ACCEPTED\n");

                        }

                        break;

                case 0x03: // Read data bytes

                        // Our clock won't support this command, so go

                        // to an invalid state

                        if (m_debug) printf("QSPI INVALID: This sim does not support slow reading\n");

                        m_state = QSPIF_INVALID;

                        break;

                case 0x04: // Write disable

                        m_state = QSPIF_IDLE;

                        m_sreg &= (~QSPIF_WEL_FLAG);

                        break;

                case 0x05: // Read status register

                        m_state = QSPIF_RDSR;

                        if (m_debug) printf("QSPI: READING STATUS REGISTER: %02x\n", m_sreg);

                        QOREG(m_sreg);

                        break;

                case 0x06: // Write enable

                        m_state = QSPIF_IDLE;

                        m_sreg |= QSPIF_WEL_FLAG;

                        if (m_debug) printf("QSPI: WRITE-ENABLE COMMAND ACCEPTED\n");

                        break;

                case 0x0b: // Here's the read that we support

                        if (m_debug) printf("QSPI: FAST-READ (single-bit)\n");

                        m_state = QSPIF_FAST_READ;

                        break;

                case 0x30:

                        if (m_debug) printf("QSPI: CLEAR STATUS REGISTER COMMAND\n");

                        m_state = QSPIF_CLSR;

                        break;

                case 0x32: // QUAD Page program, 4 bits at a time

                        if (2 != (m_sreg & 0x203)) {

                                if (m_debug) printf("QSPI: Cannot program at this time, SREG = %x\n", m_sreg);

                                m_state = QSPIF_INVALID;

                        } else {

                                m_state = QSPIF_QPP;

                                if (m_debug) printf("QSPI: QUAD-PAGE-PROGRAM COMMAND ACCEPTED\n");

                                if (m_debug) printf("QSPI: pmem = %08lx\n", (unsigned long)m_pmem);

                        }

                        break;

                case 0x35: // Read configuration register

                        m_state = QSPIF_RDCR;

                        if (m_debug) printf("QSPI: READING CONFIGURATION REGISTER: %02x\n", m_creg);

                        QOREG(m_creg);

                        break;

                case 0x9f: // Read ID

                        m_state = QSPIF_RDID;

                        if (m_debug) printf("QSPI: READING ID, %02x\n", (DEVID>>24)&0x0ff);

                        QOREG(0xfe);

                        break;

                case 0xab: // Release from DEEP POWER DOWN

                        if (m_sreg & QSPIF_DEEP_POWER_DOWN_FLAG) {

                                if (m_debug) printf("QSPI: Release from deep power down\n");

                                m_sreg &= (~QSPIF_DEEP_POWER_DOWN_FLAG);

                                m_write_count = tRES;

                        } m_state = QSPIF_RELEASE;

                        break;

                case 0xb9: // DEEP POWER DOWN

                        if (0 != (m_sreg & 0x01)) {

                                if (m_debug) printf("QSPI: Cannot enter DEEP POWER DOWN, in middle of write/erase\n");

                                m_state = QSPIF_INVALID;

                        } else {

                                m_sreg  |= QSPIF_DEEP_POWER_DOWN_FLAG;

                                m_state  = QSPIF_IDLE;

                        }

                        break;

                case 0xc7: // Bulk Erase

                        if (2 != (m_sreg & 0x203)) {

                                if (m_debug) printf("QSPI: WEL not set, cannot erase device\n");

                                m_state = QSPIF_INVALID;

                        } else

                                m_state = QSPIF_BULK_ERASE;

                        break;

                case 0xd8: // Sector Erase

                        if (2 != (m_sreg & 0x203)) {

                                if (m_debug) printf("QSPI: WEL not set, cannot erase sector\n");

                                m_state = QSPIF_INVALID;

                        } else {

                                m_state = QSPIF_SECTOR_ERASE;

                                if (m_debug) printf("QSPI: SECTOR_ERASE COMMAND\n");

                        }

                        break;

                case 0x0eb: // Here's the (other) read that we support

                        // printf("QSPI: QUAD-I/O-READ\n");

                        m_state = QSPIF_QUAD_READ_CMD;

                        m_quad_mode = true;

                        break;

                default:

                        printf("QSPI: UNRECOGNIZED SPI FLASH CMD: %02x\n", m_ireg&0x0ff);

                        m_state = QSPIF_INVALID;

                        assert(0 && "Unrecognized command\n");

                        break;

                }

        } else if ((0 == (m_count&0x07))&&(m_count != 0)) {

                QOREG(0);

                switch(m_state) {

                case QSPIF_IDLE:

                        printf("TOO MANY CLOCKS, SPIF in IDLE\n");

                        break;

                case QSPIF_WRSR:

                        if (m_count == 16) {

                                m_sreg = (m_sreg & 0x061) | (m_ireg & 0x09c);

                                if (m_debug) printf("Request to set sreg to 0x%02x\n",

                                        m_ireg&0x0ff);

                        } else if (m_count == 24) {

                                m_creg = (m_creg & 0x0fd) | (m_ireg & 0x02);

                                if (m_debug) printf("Request to set creg to 0x%02x\n",

                                        m_ireg&0x0ff);

                        } else {

                                printf("TOO MANY CLOCKS FOR WRR!!!\n");

                                exit(-2);

                                m_state = QSPIF_IDLE;

                        }

                        break;

                case QSPIF_CLSR:

                        assert(0 && "Too many clocks for CLSR command!!\n");

                        break;

                case QSPIF_RDID:

                        if (m_count == 32) {

                                m_addr = m_ireg & 0x0ffffff;

                                if (m_debug) printf("READID, ADDR = %08x\n", m_addr);

                                QOREG((DEVID>>8));

                                if (m_debug) printf("QSPI: READING ID, %02x\n", (DEVID>>8)&0x0ff);

                        } else if (m_count > 32) {

                                if (((m_count-32)>>3)&1)

                                        QOREG((DEVID));

                                else

                                        QOREG((DEVID>>8));

                                if (m_debug) printf("QSPI: READING ID, %02x -- DONE\n", 0x00);

                        }

                        // m_oreg = (DEVID >> (2-(m_count>>3)-1)) & 0x0ff;

                        break;

                case QSPIF_RDSR:

                        // printf("Read SREG = %02x, wait = %08x\n", m_sreg,

                                // m_write_count);

                        QOREG(m_sreg);

                        break;

                case QSPIF_RDCR:

                        if (m_debug) printf("Read CREG = %02x\n", m_creg);

                        QOREG(m_creg);

                        break;

                case QSPIF_FAST_READ:

                        if (m_count == 32) {

                                m_addr = m_ireg & 0x0ffffff;

                                if (m_debug) printf("FAST READ, ADDR = %08x\n", m_addr);

                                QOREG(0x0c3);

                                assert((m_addr & 0xfc00000)==0);

                        } else if ((m_count >= 40)&&(0 == (m_sreg&0x01))) {

                                if (m_count == 40)

                                        printf("DUMMY BYTE COMPLETE ...\n");

                                QOREG(m_mem[m_addr++]);

                                // if (m_debug) printf("SPIF[%08x] = %02x\n", m_addr-1, m_oreg);

                        } else m_oreg = 0;

                        break;

                case QSPIF_QUAD_READ_CMD:

                        // The command to go into quad read mode took 8 bits

                        // that changes the timings, else we'd use quad_Read

                        // below

                        if (m_count == 32) {

                                m_addr = m_ireg & 0x0ffffff;

                                // printf("FAST READ, ADDR = %08x\n", m_addr);

                                // printf("QSPI: QUAD READ, ADDR = %06x\n", m_addr);

                                assert((m_addr & 0xfc00000)==0);

                        } else if (m_count == 32+24) {

                                m_mode_byte = (m_ireg>>16) & 0x0ff;

                                // printf("QSPI: MODE BYTE = %02x\n", m_mode_byte);

                        } else if ((m_count > 32+24)&&(0 == (m_sreg&0x01))) {

                                QOREG(m_mem[m_addr++]);

                                // printf("QSPIF[%08x]/QR = %02x\n",

                                        // m_addr-1, m_oreg);

                        } else m_oreg = 0;

                        break;

                case QSPIF_QUAD_READ:

                        if (m_count == 32) {

                                m_mode_byte = (m_ireg & 0x0ff);

                                // printf("QSPI/QR: MODE BYTE = %02x\n", m_mode_byte);

                        } else if ((m_count >= 32+16)&&(0 == (m_sreg&0x01))) {

                                QOREG(m_mem[m_addr++]);

                                // printf("QSPIF[%08x]/QR = %02x\n", m_addr-1, m_oreg & 0x0ff);

                        } else m_oreg = 0;

                        break;

                case QSPIF_PP:

                        if (m_count == 32) {

                                m_addr = m_ireg & 0x0ffffff;

                                if (m_debug) printf("QSPI: PAGE-PROGRAM ADDR = %06x\n", m_addr);

                                assert((m_addr & 0xfc00000)==0);

                                // m_page = m_addr >> 8;

                                for(int i=0; i<256; i++)

                                        m_pmem[i] = 0x0ff;

                        } else if (m_count >= 40) {

                                m_pmem[m_addr & 0x0ff] = m_ireg & 0x0ff;

                                // printf("QSPI: PMEM[%02x] = 0x%02x -> %02x\n", m_addr & 0x0ff, m_ireg & 0x0ff, (m_pmem[(m_addr & 0x0ff)]&0x0ff));

                                m_addr = (m_addr & (~0x0ff)) | ((m_addr+1)&0x0ff);

                        } break;

                case QSPIF_QPP:

                        if (m_count == 32) {

                                m_addr = m_ireg & 0x0ffffff;

                                m_quad_mode = true;

                                if (m_debug) printf("QSPI/QR: PAGE-PROGRAM ADDR = %06x\n", m_addr);

                                assert((m_addr & 0xfc00000)==0);

                                // m_page = m_addr >> 8;

                                for(int i=0; i<256; i++)

                                        m_pmem[i] = 0x0ff;

                        } else if (m_count >= 40) {

                                m_pmem[m_addr & 0x0ff] = m_ireg & 0x0ff;

                                // printf("QSPI/QR: PMEM[%02x] = 0x%02x -> %02x\n", m_addr & 0x0ff, m_ireg & 0x0ff, (m_pmem[(m_addr & 0x0ff)]&0x0ff));

                                m_addr = (m_addr & (~0x0ff)) | ((m_addr+1)&0x0ff);

                        } break;

                case QSPIF_SECTOR_ERASE:

                        if (m_count == 32) {

                                m_addr = m_ireg & 0x0ffc000;

                                if (m_debug) printf("SECTOR_ERASE ADDRESS = %08x\n", m_addr);

                                assert((m_addr & 0xfc00000)==0);

                        } break;

                case QSPIF_RELEASE:

                        if (m_count >= 32) {

                                QOREG(DEVESD);

                        } break;

                default:

                        break;

                }

        } // else printf("SFLASH->count = %d\n", m_count);

        m_last_sck = sck;

        if (m_quad_mode)

                return (m_oreg>>8)&0x0f;

        else

                // return ((m_oreg & 0x0100)?2:0) | (dat & 0x0d);

                return (m_oreg & 0x0100)?2:0;

}