git subrepo pull emummc

subrepo: subdir: "emummc" merged: "2e001dd2" upstream: origin: "https://github.com/m4xw/emuMMC" branch: "develop" commit: "29deabb2" git-subrepo: version: "0.4.1" origin: "???" commit: "???"
2024-09-19 15:28:53 -04:00 · 2021-09-16 16:28:04 -07:00 · 2021-09-16 16:28:04 -07:00 · e2a74a9e38
commit e2a74a9e38
parent 89541c8042
4 changed files with 107 additions and 44 deletions
--- a/emummc/.gitrepo
+++ b/emummc/.gitrepo
@ -6,7 +6,7 @@
 [subrepo]
 	remote = https://github.com/m4xw/emuMMC
 	branch = develop
-	commit = cbc294c390ed73bb281bc1028a8899c053427112
+	commit = 29deabb2cd46434c0d1b237cb74a823c02869f62
 	parent = 38f9a76ba028995ed3274da3a45b0254f09d1f59
 	method = rebase
 	cmdver = 0.4.1
--- a/emummc/source/FS/FS.h
+++ b/emummc/source/FS/FS.h
@ -37,4 +37,15 @@
 #define BOOT_PARTITION_SIZE 0x2000
 #define FS_READ_WRITE_ERROR 1048
 #define NAND_PATROL_SECTOR 0xC20
 #define NAND_PATROL_OFFSET 0x184000
 typedef struct _fs_nand_patrol_t
 {
 	uint8_t hmac[0x20];
 	unsigned int offset;
 	unsigned int count;
 	uint8_t rsvd[0x1D8];
 } fs_nand_patrol_t;
 #endif /* __FS_H__ */
--- a/emummc/source/emuMMC/emummc.c
+++ b/emummc/source/emuMMC/emummc.c
@ -89,7 +89,7 @@ static void _sdmmc_ensure_initialized(void)
    }
 }
-static void _file_based_update_filename(char *outFilename, u32 sd_path_len, u32 part_idx)
+static void _file_based_update_filename(char *outFilename, unsigned int sd_path_len, unsigned int part_idx)
 {
    snprintf(outFilename + sd_path_len, 3, "%02d", part_idx);
 }
@ -103,9 +103,7 @@ static void _file_based_emmc_finalize(void)
        f_close(&f_emu.fp_boot1);
        for (int i = 0; i < f_emu.parts; i++)
        {
            f_close(&f_emu.fp_gpp[i]);
        }
        // Force unmount FAT volume.
        f_mount(NULL, "", 1);
@ -114,12 +112,59 @@ static void _file_based_emmc_finalize(void)
    }
 }
 static void _nand_patrol_ensure_integrity(void)
 {
    fs_nand_patrol_t nand_patrol;
    static bool nand_patrol_checked = false;
    if (!nand_patrol_checked)
    {
        if (emuMMC_ctx.EMMC_Type == emuMMC_SD_Raw)
        {
            unsigned int nand_patrol_sector = emuMMC_ctx.EMMC_StoragePartitionOffset + NAND_PATROL_SECTOR;
            if (!sdmmc_storage_read(&sd_storage, nand_patrol_sector, 1, &nand_patrol))
                goto out;
            // Clear nand patrol if last offset exceeds storage.
            if (nand_patrol.offset > sd_storage.sec_cnt)
            {
                memset(&nand_patrol, 0, sizeof(fs_nand_patrol_t));
                sdmmc_storage_write(&sd_storage, nand_patrol_sector, 1, &nand_patrol);
            }
        }
        else if (emuMMC_ctx.EMMC_Type == emuMMC_SD_File && fat_mounted)
        {
            FIL *fp = &f_emu.fp_boot0;
            if (f_lseek(fp, NAND_PATROL_OFFSET) != FR_OK)
                goto out;
            if (f_read_fast(fp, &nand_patrol, sizeof(fs_nand_patrol_t)) != FR_OK)
                goto out;
            // Clear nand patrol if last offset exceeds total file based size.
            if (nand_patrol.offset > f_emu.total_sect)
            {
                memset(&nand_patrol, 0, sizeof(fs_nand_patrol_t));
                if (f_lseek(fp, NAND_PATROL_OFFSET) != FR_OK)
                    goto out;
                if (f_write_fast(fp, &nand_patrol, sizeof(fs_nand_patrol_t)) != FR_OK)
                    goto out;
                f_sync(fp);
            }
        }
 out:
        nand_patrol_checked = true;
    }
 }
 void sdmmc_finalize(void)
 {
    if (!sdmmc_storage_end(&sd_storage))
    {
        fatal_abort(Fatal_InitSD);
    }
    storageSDinitialized = false;
 }
@ -137,14 +182,14 @@ static void _file_based_emmc_initialize(void)
    memcpy(path + path_len, "BOOT0", 6);
    if (f_open(&f_emu.fp_boot0, path, FA_READ | FA_WRITE) != FR_OK)
        fatal_abort(Fatal_FatfsFileOpen);
-    if (!f_expand_cltbl(&f_emu.fp_boot0, 0x400, f_emu.clmt_boot0, f_size(&f_emu.fp_boot0)))
+    if (!f_expand_cltbl(&f_emu.fp_boot0, EMUMMC_FP_CLMT_COUNT, f_emu.clmt_boot0, f_size(&f_emu.fp_boot0)))
        fatal_abort(Fatal_FatfsMemExhaustion);
    // Open BOOT1 physical partition.
    memcpy(path + path_len, "BOOT1", 6);
    if (f_open(&f_emu.fp_boot1, path, FA_READ | FA_WRITE) != FR_OK)
        fatal_abort(Fatal_FatfsFileOpen);
-    if (!f_expand_cltbl(&f_emu.fp_boot1, 0x400, f_emu.clmt_boot1, f_size(&f_emu.fp_boot1)))
+    if (!f_expand_cltbl(&f_emu.fp_boot1, EMUMMC_FP_CLMT_COUNT, f_emu.clmt_boot1, f_size(&f_emu.fp_boot1)))
        fatal_abort(Fatal_FatfsMemExhaustion);
    // Open handles for GPP physical partition files.
@ -152,15 +197,14 @@ static void _file_based_emmc_initialize(void)
    if (f_open(&f_emu.fp_gpp[0], path, FA_READ | FA_WRITE) != FR_OK)
        fatal_abort(Fatal_FatfsFileOpen);
-    if (!f_expand_cltbl(&f_emu.fp_gpp[0], 0x400, &f_emu.clmt_gpp[0], f_size(&f_emu.fp_gpp[0])))
+    if (!f_expand_cltbl(&f_emu.fp_gpp[0], EMUMMC_FP_CLMT_COUNT, &f_emu.clmt_gpp[0], f_size(&f_emu.fp_gpp[0])))
        fatal_abort(Fatal_FatfsMemExhaustion);
-    f_emu.part_size = f_size(&f_emu.fp_gpp[0]) >> 9;
+    f_emu.part_size = (uint64_t)f_size(&f_emu.fp_gpp[0]) >> 9;
    f_emu.total_sect = f_emu.part_size;
    // Iterate folder for split parts and stop if next doesn't exist.
-    // Supports up to 32 parts of any size.
+    for (f_emu.parts = 1; f_emu.parts < EMUMMC_FILE_MAX_PARTS; f_emu.parts++)
    // TODO: decide on max parts and define them. (hekate produces up to 30 parts on 1GB mode.)
    for (f_emu.parts = 1; f_emu.parts < 32; f_emu.parts++)
    {
        _file_based_update_filename(path, path_len, f_emu.parts);
@ -173,8 +217,13 @@ static void _file_based_emmc_initialize(void)
            return;
        }
-        if (!f_expand_cltbl(&f_emu.fp_gpp[f_emu.parts], 0x400, &f_emu.clmt_gpp[f_emu.parts * 0x400], f_size(&f_emu.fp_gpp[f_emu.parts])))
+        if (!f_expand_cltbl(&f_emu.fp_gpp[f_emu.parts], EMUMMC_FP_CLMT_COUNT,
            &f_emu.clmt_gpp[f_emu.parts * EMUMMC_FP_CLMT_COUNT], f_size(&f_emu.fp_gpp[f_emu.parts])))
        {
            fatal_abort(Fatal_FatfsMemExhaustion);
        }
        f_emu.total_sect += (uint64_t)f_size(&f_emu.fp_gpp[f_emu.parts]) >> 9;
    }
 }
@ -189,7 +238,7 @@ bool sdmmc_initialize(void)
            {
                storageSDinitialized = true;
-                // File based emummc.
+                // Init file based emummc.
                if ((emuMMC_ctx.EMMC_Type == emuMMC_SD_File) && !fat_mounted)
                {
                    if (f_mount(&f_emu.sd_fs, "", 1) != FR_OK)
@ -200,6 +249,9 @@ bool sdmmc_initialize(void)
                    _file_based_emmc_initialize();
                }
                // Check if nand patrol offset is inside limits.
                _nand_patrol_ensure_integrity();
                break;
            }
@ -207,9 +259,7 @@ bool sdmmc_initialize(void)
        }
        if (!storageSDinitialized)
        {
            fatal_abort(Fatal_InitSD);
        }
    }
    return storageSDinitialized;
@ -239,19 +289,17 @@ sdmmc_accessor_t *sdmmc_accessor_get(int mmc_id)
 void mutex_lock_handler(int mmc_id)
 {
    if (custom_driver)
    {
        lock_mutex(sd_mutex);
-    }
+
    lock_mutex(nand_mutex);
 }
 void mutex_unlock_handler(int mmc_id)
 {
    unlock_mutex(nand_mutex);
    if (custom_driver)
    {
        unlock_mutex(sd_mutex);
    }
 }
 int sdmmc_nand_get_active_partition_index()
@ -271,12 +319,16 @@ int sdmmc_nand_get_active_partition_index()
 static uint64_t emummc_read_write_inner(void *buf, unsigned int sector, unsigned int num_sectors, bool is_write)
 {
-    if ((emuMMC_ctx.EMMC_Type == emuMMC_SD_Raw))
+    if (emuMMC_ctx.EMMC_Type == emuMMC_SD_Raw)
    {
        // raw partition sector offset: emuMMC_ctx.EMMC_StoragePartitionOffset.
        sector += emuMMC_ctx.EMMC_StoragePartitionOffset;
        // Set physical partition offset.
        sector += (sdmmc_nand_get_active_partition_index() * BOOT_PARTITION_SIZE);
        if (__builtin_expect(sector + num_sectors > sd_storage.sec_cnt, 0))
            return 0; // Out of bounds. Can only happen with Nand Patrol if resized.
        if (!is_write)
            return sdmmc_storage_read(&sd_storage, sector, num_sectors, buf);
        else
@ -290,6 +342,9 @@ static uint64_t emummc_read_write_inner(void *buf, unsigned int sector, unsigned
    case FS_EMMC_PARTITION_GPP:
        if (f_emu.parts)
        {
            if (__builtin_expect(sector + num_sectors > f_emu.total_sect, 0))
                return 0; // Out of bounds. Can only happen with Nand Patrol if resized.
            fp = &f_emu.fp_gpp[sector / f_emu.part_size];
            sector = sector % f_emu.part_size;
@ -300,21 +355,21 @@ static uint64_t emummc_read_write_inner(void *buf, unsigned int sector, unsigned
                while (remaining > 0) {
                    const unsigned int cur_sectors = MIN(remaining, f_emu.part_size - sector);
-                    if (f_lseek(fp, (u64)sector << 9) != FR_OK)
+                    if (f_lseek(fp, (uint64_t)sector << 9) != FR_OK)
                        return 0; // Out of bounds.
-                    if (is_write)
+                    if (!is_write)
                    {
-                        if (f_write_fast(fp, buf, (u64)cur_sectors << 9) != FR_OK)
+                        if (f_read_fast(fp, buf, (uint64_t)cur_sectors << 9) != FR_OK)
                            return 0;
                    }
                    else
                    {
-                        if (f_read_fast(fp, buf, (u64)cur_sectors << 9) != FR_OK)
+                        if (f_write_fast(fp, buf, (uint64_t)cur_sectors << 9) != FR_OK)
                            return 0;
                    }
-                    buf = (char *)buf + ((u64)cur_sectors << 9);
+                    buf = (char *)buf + ((uint64_t)cur_sectors << 9);
                    remaining -= cur_sectors;
                    sector = 0;
                    ++fp;
@ -324,28 +379,25 @@ static uint64_t emummc_read_write_inner(void *buf, unsigned int sector, unsigned
            }
        }
        else
        {
            fp = &f_emu.fp_gpp[0];
        }
        break;
    case FS_EMMC_PARTITION_BOOT1:
        fp = &f_emu.fp_boot1;
        break;
    case FS_EMMC_PARTITION_BOOT0:
        fp = &f_emu.fp_boot0;
        break;
    }
-    if (f_lseek(fp, (u64)sector << 9) != FR_OK)
+    if (f_lseek(fp, (uint64_t)sector << 9) != FR_OK)
-        return 0; // Out of bounds.
+        return 0; // Out of bounds. Can only happen with Nand Patrol if resized.
    uint64_t res = 0;
    if (!is_write)
-        res = !f_read_fast(fp, buf, (u64)num_sectors << 9);
+        return !f_read_fast(fp, buf, (uint64_t)num_sectors << 9);
    else
-        res = !f_write_fast(fp, buf, (u64)num_sectors << 9);
+        return !f_write_fast(fp, buf, (uint64_t)num_sectors << 9);
    return res;
 }
 // Controller open wrapper
@ -382,9 +434,7 @@ uint64_t sdmmc_wrapper_controller_close(int mmc_id)
    if (_this != NULL)
    {
        if (mmc_id == FS_SDMMC_SD)
        {
            return 0;
        }
        if (mmc_id == FS_SDMMC_EMMC)
        {
@ -504,8 +554,6 @@ uint64_t sdmmc_wrapper_write(int mmc_id, unsigned int sector, unsigned int num_s
            mutex_lock_handler(mmc_id);
            _current_accessor = _this;
            sector += 0;
            // Call hekates driver.
            if (sdmmc_storage_write(&sd_storage, sector, num_sectors, buf))
            {
--- a/emummc/source/emuMMC/emummc.h
+++ b/emummc/source/emuMMC/emummc.h
@ -36,6 +36,9 @@ extern "C" {
 #include "../FS/FS.h"
 #include "../libs/fatfs/ff.h"
 #define EMUMMC_FILE_MAX_PARTS 32
 #define EMUMMC_FP_CLMT_COUNT  1024
 // FS typedefs
 typedef sdmmc_accessor_t *(*_sdmmc_accessor_gc)();
 typedef sdmmc_accessor_t *(*_sdmmc_accessor_sd)();
@ -63,11 +66,12 @@ typedef struct _file_based_ctxt
 	uint64_t parts;
 	uint64_t part_size;
 	FIL fp_boot0;
-	DWORD clmt_boot0[0x400];
+	DWORD clmt_boot0[EMUMMC_FP_CLMT_COUNT];
 	FIL fp_boot1;
-	DWORD clmt_boot1[0x400];
+	DWORD clmt_boot1[EMUMMC_FP_CLMT_COUNT];
-	FIL fp_gpp[32];
+	FIL fp_gpp[EMUMMC_FILE_MAX_PARTS];
-	DWORD clmt_gpp[0x8000];
+	DWORD clmt_gpp[EMUMMC_FILE_MAX_PARTS * EMUMMC_FP_CLMT_COUNT];
 	uint64_t total_sect;
 } file_based_ctxt;
 #ifdef __cplusplus