sf: Add S25FL128S_256K IDs

[karo-tx-uboot.git] / tools / mpc86x_clk.c

/*
 * (C) Copyright 2003 Intracom S.A.
 * Pantelis Antoniou <panto@intracom.gr>
 *
 * This little program makes an exhaustive search for the
 * correct terms of pdf, mfi, mfn, mfd, s, dbrmo, in PLPRCR.
 * The goal is to produce a gclk2 from a xin input, while respecting
 * all the restrictions on their combination.
 *
 * Generaly you select the first row of the produced table.
 *
 * SPDX-License-Identifier:     GPL-2.0+
 */


#include <stdio.h>
#include <stdlib.h>

#define DPREF_MIN        10000000
#define DPREF_MAX        32000000

#define DPGDCK_MAX      320000000
#define DPGDCK_MIN      160000000

#define S_MIN           0
#define S_MAX           2

#define MFI_MIN         5
#define MFI_MAX         15

#define MFN_MIN         0
#define MFN_MAX         15

#define MFD_MIN         0
#define MFD_MAX         31

#define MF_MIN          5
#define MF_MAX          15

#define PDF_MIN         0
#define PDF_MAX         15

#define GCLK2_MAX       150000000

static int calculate (int xin, int target_clock,
                      int ppm, int pdf, int mfi, int mfn, int mfd, int s,
                      int *dprefp, int *dpgdckp, int *jdbckp,
                      int *gclk2p, int *dbrmop)
{
        unsigned int dpref, dpgdck, jdbck, gclk2, t1, t2, dbrmo;

        /* valid MFI? */
        if (mfi < MFI_MIN)
                return -1;

        /* valid num, denum? */
        if (mfn > 0 && mfn >= mfd)
                return -1;

        dpref = xin / (pdf + 1);

        /* valid dpef? */
        if (dpref < DPREF_MIN || dpref > DPREF_MAX)
                return -1;

        if (mfn == 0) {
                dpgdck  = (2 * mfi * xin) / (pdf + 1) ;
                dbrmo = 0;
        } else {
                /* 5 <= mfi + (mfn / mfd + 1) <= 15 */
                t1 = mfd + 1;
                t2 = mfi * t1 + mfn;
                if ( MF_MIN * t1 > t2 || MF_MAX * t1 < t2)
                        return -1;

                dpgdck  = (unsigned int)(2 * (mfi * mfd + mfi + mfn) *
                                (unsigned int)xin) /
                                ((mfd + 1) * (pdf + 1));

                dbrmo = 10 * mfn < (mfd + 1);
        }

        /* valid dpgclk? */
        if (dpgdck < DPGDCK_MIN || dpgdck > DPGDCK_MAX)
                return -1;

        jdbck = dpgdck >> s;
        gclk2 = jdbck / 2;

        /* valid gclk2 */
        if (gclk2 > GCLK2_MAX)
                return -1;

        t1 = abs(gclk2 - target_clock);

        /* XXX max 1MHz dev. in clock */
        if (t1 > 1000000)
                return -1;

        /* dev within range (XXX gclk2 scaled to avoid overflow) */
        if (t1 * 1000 > (unsigned int)ppm * (gclk2 / 1000))
                return -1;

        *dprefp = dpref;
        *dpgdckp = dpgdck;
        *jdbckp = jdbck;
        *gclk2p = gclk2;
        *dbrmop = dbrmo;

        return gclk2;
}

int conf_clock(int xin, int target_clock, int ppm)
{
        int pdf, s, mfn, mfd, mfi;
        int dpref, dpgdck, jdbck, gclk2, xout, dbrmo;
        int found = 0;

        /* integer multipliers */
        for (pdf = PDF_MIN; pdf <= PDF_MAX; pdf++) {
                for (mfi = MFI_MIN; mfi <= MFI_MAX; mfi++) {
                        for (s = 0; s <= S_MAX; s++) {
                                xout = calculate(xin, target_clock,
                                                 ppm, pdf, mfi, 0, 0, s,
                                                 &dpref, &dpgdck, &jdbck,
                                                 &gclk2, &dbrmo);
                                if (xout < 0)
                                        continue;

                                if (found == 0) {
                                        printf("pdf mfi mfn mfd s dbrmo     dpref    dpgdck     jdbck     gclk2 exact?\n");
                                        printf("--- --- --- --- - -----     -----    ------     -----     ----- ------\n");
                                }

                                printf("%3d %3d --- --- %1d %5d %9d %9d %9d %9d%s\n",
                                        pdf, mfi, s, dbrmo,
                                        dpref, dpgdck, jdbck, gclk2,
                                        gclk2 == target_clock ? "    YES" : "");

                                found++;
                        }
                }
        }

        /* fractional multipliers */
        for (pdf = PDF_MIN; pdf <= PDF_MAX; pdf++) {
                for (mfi = MFI_MIN; mfi <= MFI_MAX; mfi++) {
                        for (mfn = 1; mfn <= MFN_MAX; mfn++) {
                                for (mfd = 1; mfd <= MFD_MAX; mfd++) {
                                        for (s = 0; s <= S_MAX; s++) {
                                                xout = calculate(xin, target_clock,
                                                            ppm, pdf, mfi, mfn, mfd, s,
                                                            &dpref, &dpgdck, &jdbck,
                                                            &gclk2, &dbrmo);
                                                if (xout < 0)
                                                        continue;

                                                if (found == 0) {
                                                        printf("pdf mfi mfn mfd s dbrmo     dpref    dpgdck     jdbck     gclk2 exact?\n");
                                                        printf("--- --- --- --- - -----     -----    ------     -----     ----- ------\n");
                                                }

                                                printf("%3d %3d %3d %3d %1d %5d %9d %9d %9d %9d%s\n",
                                                        pdf, mfi, mfn, mfd, s,
                                                        dbrmo, dpref, dpgdck, jdbck, gclk2,
                                                        gclk2 == target_clock ? "    YES" : "");

                                                found++;
                                        }
                                }
                        }

                }
        }

        return found;
}

int main(int argc, char *argv[])
{
        int xin, want_gclk2, found, ppm = 100;

        if (argc < 3) {
                fprintf(stderr, "usage: mpc86x_clk <xin> <want_gclk2> [ppm]\n");
                fprintf(stderr, "       default ppm is 100\n");
                return 10;
        }

        xin  = atoi(argv[1]);
        want_gclk2 = atoi(argv[2]);
        if (argc >= 4)
                ppm = atoi(argv[3]);

        found = conf_clock(xin, want_gclk2, ppm);
        if (found <= 0) {
                fprintf(stderr, "cannot produce gclk2 %d from xin %d\n",
                        want_gclk2, xin);
                return EXIT_FAILURE;
        }

        return EXIT_SUCCESS;
}