mirror of
https://github.com/isfshax/isfshax.git
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239a7607c8
Align isfs buffers, remove the need for heap
249 lines
7.1 KiB
C
249 lines
7.1 KiB
C
#include "types.h"
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#include "isfs/isfs.h"
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#include "isfs/volume.h"
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#include "nand.h"
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#include "crypto.h"
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#include "aes.h"
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#include "hmac.h"
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#include "string.h"
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static u8 slc_super_buf[ISFSSUPER_SIZE] ALIGNED(NAND_DATA_ALIGN), slc_cluster_buf[CLUSTER_SIZE] ALIGNED(NAND_DATA_ALIGN);
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isfs_ctx isfs[] = {
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[ISFSVOL_SLC]
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{
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.volume = ISFSVOL_SLC,
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.name = "slc",
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.bank = BANK_SLC,
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.key = &otp.nand_key,
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.hmac = &otp.nand_hmac,
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.super_count = 64,
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.super = slc_super_buf,
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.clbuf = slc_cluster_buf,
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},
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};
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int isfs_num_volumes(void)
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{
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return sizeof(isfs) / sizeof(*isfs);
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}
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isfs_ctx* isfs_get_volume(int volume)
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{
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if(volume < isfs_num_volumes() && volume >= 0)
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return &isfs[volume];
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return NULL;
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}
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char* isfs_do_volume(const char* path, isfs_ctx** ctx)
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{
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isfs_ctx* volume = NULL;
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if(!path) return NULL;
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const char* filename = strchr(path, ':');
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if(!filename) return NULL;
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if(filename[1] != '/') return NULL;
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char mount[sizeof(volume->name)] = {0};
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memcpy(mount, path, filename - path);
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for(int i = 0; i < isfs_num_volumes(); i++)
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{
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volume = &isfs[i];
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if(strcmp(mount, volume->name)) continue;
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if(!volume->mounted) return NULL;
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*ctx = volume;
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return (char*)(filename + 1);
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}
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return NULL;
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}
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int isfs_read_volume(const isfs_ctx* ctx, u32 start_cluster, u32 cluster_count, u32 flags, void *hmac_seed, void *data)
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{
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u8 saved_hmacs[2][20] = {0}, hmac[20] = {0};
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int rc = ISFSVOL_OK;
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u32 i, p;
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/* enable slc or slccmpt bank */
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nand_enable_banks(ctx->bank);
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/* read all requested clusters */
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for (i = 0; i < cluster_count; i++)
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{
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u32 cluster = start_cluster + i;
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u8 *cluster_data = (u8 *)data + i * CLUSTER_SIZE;
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u32 cluster_start = cluster * CLUSTER_PAGES;
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/* read cluster pages */
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for (p = 0; p < CLUSTER_PAGES; p++)
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{
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u8 spare[SPARE_SIZE] = {0};
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/* attempt to read the page (and correct ecc errors) */
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rc = nand_read_page(cluster_start + p, &cluster_data[p * PAGE_SIZE], spare);
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/* uncorrectable ecc error or other issues */
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if (rc < 0)
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return ISFSVOL_ERROR_READ;
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/* ECC errors, a refresh might be needed */
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if (rc > 0)
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rc = ISFSVOL_ECC_CORRECTED;
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/* page 6 and 7 store the hmac */
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if (p == 6)
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{
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memcpy(saved_hmacs[0], &spare[1], 20);
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memcpy(saved_hmacs[1], &spare[21], 12);
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}
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if (p == 7)
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memcpy(&saved_hmacs[1][12], &spare[1], 8);
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}
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/* decrypt cluster */
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if (flags & ISFSVOL_FLAG_ENCRYPTED)
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{
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aes_reset();
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aes_set_key(ctx->key);
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aes_empty_iv();
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aes_decrypt(cluster_data, cluster_data, CLUSTER_SIZE / AES_BLOCK_SIZE, 0);
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}
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}
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/* verify hmac */
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if (flags & ISFSVOL_FLAG_HMAC)
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{
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hmac_ctx calc_hmac;
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int matched = 0;
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/* compute clusters hmac */
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hmac_init(&calc_hmac, ctx->hmac, 20);
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hmac_update(&calc_hmac, (const u8 *)hmac_seed, SHA_BLOCK_SIZE);
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hmac_update(&calc_hmac, (const u8 *)data, cluster_count * CLUSTER_SIZE);
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hmac_final(&calc_hmac, hmac);
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/* ensure at least one of the saved hmacs matches */
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matched += !memcmp(saved_hmacs[0], hmac, sizeof(hmac));
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matched += !memcmp(saved_hmacs[1], hmac, sizeof(hmac));
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if (matched == 2)
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rc = ISFSVOL_OK;
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else if (matched == 1)
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rc = ISFSVOL_HMAC_PARTIAL;
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else
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rc = ISFSVOL_ERROR_HMAC;
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}
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return rc;
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}
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int isfs_write_volume(const isfs_ctx* ctx, u32 start_cluster, u32 cluster_count, u32 flags, void *hmac_seed, void *data)
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{
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static u8 blockpg[64][PAGE_SIZE] ALIGNED(NAND_DATA_ALIGN), blocksp[64][SPARE_SIZE];
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static u8 pgbuf[PAGE_SIZE] ALIGNED(NAND_DATA_ALIGN), spbuf[SPARE_SIZE];
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u8 hmac[20] = {0};
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int rc = ISFSVOL_OK;
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u32 b, p;
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/* enable slc or slccmpt bank */
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nand_enable_banks(ctx->bank);
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/* compute clusters hmac */
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if (flags & ISFSVOL_FLAG_HMAC)
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{
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hmac_ctx calc_hmac;
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hmac_init(&calc_hmac, ctx->hmac, 20);
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hmac_update(&calc_hmac, (const u8 *)hmac_seed, SHA_BLOCK_SIZE);
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hmac_update(&calc_hmac, (const u8 *)data, cluster_count * CLUSTER_SIZE);
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hmac_final(&calc_hmac, hmac);
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}
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/* setup clusters encryption */
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if (flags & ISFSVOL_FLAG_ENCRYPTED)
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{
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aes_reset();
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aes_set_key(ctx->key);
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aes_empty_iv();
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}
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u32 startpage = start_cluster * CLUSTER_PAGES;
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u32 endpage = (start_cluster + cluster_count) * CLUSTER_PAGES;
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u32 startblock = start_cluster / BLOCK_CLUSTERS;
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u32 endblock = (start_cluster + cluster_count + BLOCK_CLUSTERS - 1) / BLOCK_CLUSTERS;
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/* process data in nand blocks */
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for (b = startblock; (b < endblock) && (rc >= 0); b++)
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{
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u32 firstblockpage = b * BLOCK_PAGES;
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/* prepare block */
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for (p = 0; p < 64; p++)
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{
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u32 curpage = firstblockpage + p; /* current page */
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u32 clusidx = curpage % CLUSTER_PAGES; /* index in cluster */
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/* if this page is unmodified, read it from nand */
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if ((curpage < startpage) || (curpage >= endpage))
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{
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if (nand_read_page(curpage, blockpg[p], blocksp[p]) < 0)
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return ISFSVOL_ERROR_READ;
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continue;
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}
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/* place hmac in page 6 and 7 of a cluster */
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memset(blocksp[p], 0, SPARE_SIZE);
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switch (clusidx)
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{
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case 6:
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memcpy(&blocksp[p][1], hmac, 20);
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memcpy(&blocksp[p][21], hmac, 12);
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break;
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case 7:
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memcpy(&blocksp[p][1], &hmac[12], 8);
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break;
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}
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/* encrypt or copy the data */
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u8 *srcdata = (u8*)data + (curpage - startpage) * PAGE_SIZE;
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if (flags & ISFSVOL_FLAG_ENCRYPTED)
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aes_encrypt(blockpg[p], srcdata, PAGE_SIZE / AES_BLOCK_SIZE, clusidx > 0);
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else
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memcpy(blockpg[p], srcdata, PAGE_SIZE);
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}
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/* erase block */
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if (nand_erase_block(b) < 0)
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return ISFSVOL_ERROR_ERASE;
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/* write block */
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for (p = 0; p < BLOCK_PAGES; p++)
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if (nand_write_page(firstblockpage + p, blockpg[p], blocksp[p]) < 0)
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rc = ISFSVOL_ERROR_WRITE;
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/* check if pages should be verified after writing */
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if (rc || !(flags & ISFSVOL_FLAG_READBACK))
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continue;
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/* read back pages */
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for (p = 0; p < BLOCK_PAGES; p++)
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{
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if (nand_read_page(firstblockpage + p, pgbuf, spbuf) < 0)
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return ISFSVOL_ERROR_READ;
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/* page content doesn't match */
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if (memcmp(blockpg[p], pgbuf, PAGE_SIZE) ||
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memcmp(&blocksp[p][1], &spbuf[1], 0x20))
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return ISFSVOL_ERROR_READBACK;
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}
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}
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return rc;
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}
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