FreeCalypso > hg > freecalypso-tools
view loadtools/flashops.c @ 1012:11391cb6bdc0
patch from fixeria: doc change from SE K2x0 to K2xx
Since their discovery in late 2022, Sony Ericsson K200 and K220 phones
were collectively referred to as SE K2x0 in FreeCalypso documentation.
However, now that SE K205 has been discovered as yet another member
of the same family (same PCBA in different case), it makes more sense
to refer to the whole family as SE K2xx.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Mon, 23 Sep 2024 12:23:20 +0000 |
| parents | 44cdfc4fed4c |
| 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 amd_invalid() { fprintf(stderr, "This operation is not applicable to AMD-style flash\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 = amd_invalid, .unlock_sector = amd_invalid, .erase_sector = amd_sector_erase, .prep_for_program = noop, .read_prot_reg = amd_invalid, .loadagent_setbase_cmd = "AMFB", .loadagent_program_cmd = "AMFW", .loadagent_binmode_cmd = "AMFWB", .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_w30_reset_cmd(bi) struct flash_bank_info *bi; { uint32_t part; for (part = 0; part < bi->geom->total_size; part += 0x80000) { if (do_w16(bi->base_addr + part, 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_w30_status_cmd(bi) struct flash_bank_info *bi; { uint32_t part; int stat; uint16_t sr; for (part = 0; part < bi->geom->total_size; part += 0x80000) { /* issue Read SR command */ stat = do_w16(bi->base_addr + part, 0x70); if (stat) { fprintf(stderr, "unexpected response to w16 for Read SR command\n"); return(-1); } stat = do_r16(bi->base_addr + part, &sr); if (stat) return(stat); /* error msg already printed */ sr &= 0xFF; printf("Status Register for partition %08lX: %02X\n", (u_long) part, 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); } intel_w30_clear_sr(bi) struct flash_bank_info *bi; { uint32_t part; printf("Clearing Intel flash SR\n"); for (part = 0; part < bi->geom->total_size; part += 0x80000) { if (do_w16(bi->base_addr + part, 0x50)) { fprintf(stderr, "unexpected response to w16 for Clear SR command\n"); return(-1); } } return(0); } intel_read_prot_reg(bi, data) struct flash_bank_info *bi; uint16_t *data; { int stat, i; if (do_w16(bi->base_addr, 0x90)) { fprintf(stderr, "unexpected response to w16 for Read ID command\n"); return(-1); } for (i = 0; i < 9; i++) { stat = do_r16(bi->base_addr + 0x100 + i * 2, data + i); if (stat) return(stat); /* error msg already printed */ } 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, .read_prot_reg = intel_read_prot_reg, .loadagent_setbase_cmd = "INFB", .loadagent_program_cmd = "INFW", .loadagent_binmode_cmd = "INFWB", .needs_unlock = 1, }; struct flash_cmdset flash_cmdset_intel_w30 = { .cmdset_name = "Intel", .reset_cmd = intel_w30_reset_cmd, .status_cmd = intel_w30_status_cmd, .unlock_sector = intel_sector_unlock, .erase_sector = intel_sector_erase, .prep_for_program = intel_w30_clear_sr, .read_prot_reg = intel_read_prot_reg, .loadagent_setbase_cmd = "INFB", .loadagent_program_cmd = "INFW", .loadagent_binmode_cmd = "INFWB", .needs_unlock = 1, };