FreeCalypso > hg > freecalypso-sw
view loadtools/flashops.c @ 923:10b4bed10192
gsm-fw/L1: fix for the DSP patch corruption bug
The L1 code we got from the LoCosto fw contains a feature for DSP CPU load
measurement. This feature is a LoCosto-ism, i.e., not applicable to earlier
DBB chips (Calypso) with their respective earlier DSP ROMs. Most of the
code dealing with that feature is conditionalized as #if (DSP >= 38),
but one spot was missed, and the MCU code was writing into an API word
dealing with this feature. In TCS211 this DSP API word happens to be
used by the DSP code patch, hence that write was corrupting the patched
DSP code.
author | Mychaela Falconia <falcon@ivan.Harhan.ORG> |
---|---|
date | Mon, 19 Oct 2015 17:13:56 +0000 |
parents | 81d387690063 |
children |
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/* * This module implements those flash operations which are dependent * on the AMD vs. Intel command set style. */ #include <sys/types.h> #include <stdio.h> #include <stdint.h> #include <stdlib.h> #include <time.h> #include "flash.h" /* common stub functions */ static noop() { return(0); } static invalid() { fprintf(stderr, "This operation is not applicable to the selected flash type\n"); return(-1); } /* AMD flash functions */ amd_reset_cmd(bi) struct flash_bank_info *bi; { if (do_w16(bi->base_addr + 0xAAA, 0xF0)) { fprintf(stderr, "unexpected response to w16 when resetting flash to read mode!\n"); return(-1); } return(0); } amd_sector_erase(bi, sp) struct flash_bank_info *bi; struct sector_info *sp; { int stat; uint16_t flstat; time_t start_time, curtime; stat = do_w16(bi->base_addr + sp->start + 0xAAA, 0xAA); if (stat) { bad_w16: fprintf(stderr, "unexpected response to w16 in erase cmd sequence - aborting\n"); return(-1); } stat = do_w16(bi->base_addr + sp->start + 0x554, 0x55); if (stat) goto bad_w16; stat = do_w16(bi->base_addr + sp->start + 0xAAA, 0x80); if (stat) goto bad_w16; stat = do_w16(bi->base_addr + sp->start + 0xAAA, 0xAA); if (stat) goto bad_w16; stat = do_w16(bi->base_addr + sp->start + 0x554, 0x55); if (stat) goto bad_w16; stat = do_w16(bi->base_addr + sp->start + 0xAAA, 0x30); if (stat) goto bad_w16; start_time = time(0); for (;;) { stat = do_r16(bi->base_addr + sp->start, &flstat); if (stat) return(stat); /* error msg already printed */ if (flstat == 0xFFFF) return(0); curtime = time(0); if (curtime >= start_time + 20) { fprintf(stderr, "erase timeout, aborting\n"); return(-1); } } } struct flash_cmdset flash_cmdset_amd = { .cmdset_name = "AMD", .reset_cmd = amd_reset_cmd, .status_cmd = invalid, .unlock_sector = invalid, .erase_sector = amd_sector_erase, .prep_for_program = noop, .loadagent_setbase_cmd = "AMFB", .loadagent_program_cmd = "AMFW", .needs_unlock = 0, }; /* Intel flash functions */ intel_reset_cmd(bi) struct flash_bank_info *bi; { if (do_w16(bi->base_addr, 0xFF)) { fprintf(stderr, "unexpected response to w16 when resetting flash to read mode!\n"); return(-1); } return(0); } intel_status_cmd(bi) struct flash_bank_info *bi; { int stat; uint16_t sr; /* issue Read SR command */ stat = do_w16(bi->base_addr, 0x70); if (stat) { fprintf(stderr, "unexpected response to w16 for Read SR command\n"); return(-1); } stat = do_r16(bi->base_addr, &sr); if (stat) return(stat); /* error msg already printed */ sr &= 0xFF; printf("Status Register: %02X\n", sr); return(0); } intel_sector_unlock(bi, sp) struct flash_bank_info *bi; struct sector_info *sp; { int stat; stat = do_w16(bi->base_addr + sp->start, 0x60); if (stat) { bad_w16: fprintf(stderr, "unexpected response to w16 in block unlock cmd sequence - aborting\n"); return(-1); } stat = do_w16(bi->base_addr + sp->start, 0xD0); if (stat) goto bad_w16; return(0); } intel_sector_erase(bi, sp) struct flash_bank_info *bi; struct sector_info *sp; { int stat; uint16_t flstat; time_t start_time, curtime; stat = intel_sector_unlock(bi, sp); if (stat) return(stat); /* error msg already printed */ /* clear SR */ stat = do_w16(bi->base_addr + sp->start, 0x50); if (stat) { bad_w16: fprintf(stderr, "unexpected response to w16 in erase cmd sequence - aborting\n"); return(-1); } /* send the actual block erase command */ stat = do_w16(bi->base_addr + sp->start, 0x20); if (stat) goto bad_w16; stat = do_w16(bi->base_addr + sp->start, 0xD0); if (stat) goto bad_w16; /* wait for completion */ start_time = time(0); for (;;) { stat = do_r16(bi->base_addr + sp->start, &flstat); if (stat) return(stat); /* error msg already printed */ if (flstat & 0x80) break; curtime = time(0); if (curtime >= start_time + 20) { fprintf(stderr, "erase timeout, aborting\n"); return(-1); } } if (flstat & 0x20) { fprintf(stderr, "block erase failed!\n"); return(-1); } else return(0); } intel_clear_sr(bi) struct flash_bank_info *bi; { printf("Clearing Intel flash SR\n"); if (do_w16(bi->base_addr, 0x50)) { fprintf(stderr, "unexpected response to w16 for Clear SR command\n"); return(-1); } return(0); } struct flash_cmdset flash_cmdset_intel = { .cmdset_name = "Intel", .reset_cmd = intel_reset_cmd, .status_cmd = intel_status_cmd, .unlock_sector = intel_sector_unlock, .erase_sector = intel_sector_erase, .prep_for_program = intel_clear_sr, .loadagent_setbase_cmd = "INFB", .loadagent_program_cmd = "INFW", .needs_unlock = 1, };