/* * Copyright 2020, Rockchip Electronics Co., Ltd * hisping lin, * * SPDX-License-Identifier: GPL-2.0+ */ #include #include #include #include #include #include #include /* *#define DEBUG_RKFSS *#define DEBUG_CLEAN_RKSS */ /* * RK Secure Storage Ctrl * Storage Size : 512 kb * Header Size : 8 byte * 2 for each top of 512 byte * Partision Table Size : 128 * 512 b (24 Files And Folder) * File number: 128 * 4 = 512 * Data Size : 895 * 512 b * * ------ RKSS Structure -------- * - 512 byte patition table1 [0] * - 126 * 4 = 504 byte table info * - 8 byte verification * - 512 byte patition table2 [1] * ... * - 512 byte patition table128 [127] * - 512 byte section used refs [128] * - 1 byte = 2 flag * - 895 * 512 byte data [129 - 1023] * ------ RKSS Backup Structure -------- * - 512 byte backup header [1024] * - 1 * rkss_backup_verification + 31 * rkss_backup_info * - 255 * 512 byte backup data [1025 - 1279] * */ #define RKSS_DATA_SECTION_COUNT 1024 #define RKSS_DATA_SECTION_LEN 512 #define RKSS_PARTITION_TABLE_COUNT 128 /* total size 512 * 128*/ #define RKSS_EACH_SECTION_FILECOUNT 4 /* 504 / 126 = 4*/ #define RKSS_MAX_NAME_LENGTH 117 /* 116 char + "\0"*/ #define RKSS_USED_FLAGS_INDEX RKSS_PARTITION_TABLE_COUNT #define RKSS_BACKUP_INDEX RKSS_DATA_SECTION_COUNT #define RKSS_BACKUP_COUNT 256 #define RKSS_BACKUP_VERSION (unsigned int)0x1 #define RKSS_BACKUP_ENABLE (unsigned int)0x55667788 #define RKSS_BACKUP_USEDFLAG (unsigned int)0xAABBCCDD struct rkss_backup_verification { unsigned int backup_version; unsigned int backup_count; unsigned int reserve; unsigned int backup_enable; }; struct rkss_backup_info { unsigned int backup_index; unsigned int backup_num; unsigned int backup_data_index; unsigned int backup_usedflag; }; typedef struct rkss_file_info { uint8_t used; char name[RKSS_MAX_NAME_LENGTH]; uint16_t index; /* from 129 to 1023*/ uint16_t size; /* size of data*/ uint16_t father; uint8_t id; /* file folder count index*/ uint8_t flags; } rkss_file_info; /* 126 byte for each*/ #define RKSS_CHECK_STR ((uint32_t)0x12345678) #define RKSS_CHECK_PT ((uint8_t)0xFC) typedef struct rkss_file_verification { uint32_t version; uint32_t checkstr; } rkss_file_verification; typedef struct rk_secure_storage { unsigned long index; unsigned char data[RKSS_DATA_SECTION_LEN]; } rk_secure_storage; /* RK Secure Storage Calls */ static char dir_cache[RKSS_MAX_NAME_LENGTH][12]; static int dir_num; static int dir_seek; static struct blk_desc *dev_desc; static disk_partition_t part_info; static int check_security_exist(int print_flag) { if (!dev_desc) { dev_desc = rockchip_get_bootdev(); if (!dev_desc) { printf("TEEC: %s: Could not find device\n", __func__); return -1; } if (part_get_info_by_name(dev_desc, "security", &part_info) < 0) { dev_desc = NULL; if (print_flag != 0) printf("TEEC: Could not find security partition\n"); return -1; } } return 0; } /* * action1: * rkss_begin_commit set enable flag * rkss_backup_sections backup data * blk_dwrite * rkss_finish_commit clear enable flag, clear backup data * reboot * rkss_resume not find enable flag, do nothing * * action2: * rkss_begin_commit set enable flag * rkss_backup_sections backup data * power off when blk_dwrite * * power on * rkss_resume find enable flag, resume all backup data */ static int rkss_begin_commit(void) { unsigned char *data = NULL; struct rkss_backup_verification p; unsigned long ret; if (check_security_exist(1) < 0) return -1; debug("TEEC: %s\n", __func__); p.backup_version = RKSS_BACKUP_VERSION; p.backup_enable = RKSS_BACKUP_ENABLE; p.backup_count = 0; data = memalign(CONFIG_SYS_CACHELINE_SIZE, RKSS_DATA_SECTION_LEN); if (!data) { printf("TEEC: malloc data fail\n"); return -1; } memset(data, 0, RKSS_DATA_SECTION_LEN); memcpy(data, &p, sizeof(p)); ret = blk_dwrite(dev_desc, part_info.start + RKSS_BACKUP_INDEX, 1, data); free(data); if (ret != 1) { printf("TEEC: blk_dwrite fail\n"); return -1; } return 0; } static int rkss_finish_commit(void) { unsigned char *data = NULL; unsigned long ret; if (check_security_exist(1) < 0) return -1; debug("TEEC: %s\n", __func__); data = memalign(CONFIG_SYS_CACHELINE_SIZE, RKSS_DATA_SECTION_LEN); if (!data) { printf("TEEC: malloc data fail\n"); return -1; } memset(data, 0, RKSS_DATA_SECTION_LEN); ret = blk_dwrite(dev_desc, part_info.start + RKSS_BACKUP_INDEX, 1, data); free(data); if (ret != 1) { printf("TEEC: blk_dwrite fail\n"); return -1; } return 0; } static int rkss_backup_sections(unsigned long index, unsigned int num) { unsigned char *data = NULL; unsigned char *backup_data = NULL; struct rkss_backup_verification p; struct rkss_backup_info info_last, info_current; unsigned long ret; if (check_security_exist(1) < 0) return -1; data = memalign(CONFIG_SYS_CACHELINE_SIZE, RKSS_DATA_SECTION_LEN); if (!data) { printf("TEEC: malloc data fail\n"); goto error; } ret = blk_dread(dev_desc, part_info.start + RKSS_BACKUP_INDEX, 1, data); if (ret != 1) { printf("TEEC: blk_dread fail\n"); goto error; } memcpy(&p, data, sizeof(p)); if (p.backup_version == RKSS_BACKUP_VERSION && p.backup_enable == RKSS_BACKUP_ENABLE) { if (p.backup_count == 0) { info_current.backup_usedflag = RKSS_BACKUP_USEDFLAG; info_current.backup_index = index; info_current.backup_num = num; info_current.backup_data_index = RKSS_BACKUP_INDEX + 1; } else { memcpy(&info_last, data + sizeof(p) + (p.backup_count - 1) * sizeof(info_last), sizeof(info_last)); info_current.backup_usedflag = RKSS_BACKUP_USEDFLAG; info_current.backup_index = index; info_current.backup_num = num; info_current.backup_data_index = info_last.backup_data_index + info_last.backup_num; } if ((info_current.backup_data_index + info_current.backup_num) > (RKSS_BACKUP_INDEX + RKSS_BACKUP_COUNT)) { printf("TEEC: Not enough backup sections!\n"); goto error; } debug("TEEC: %s index=0x%lx num=0x%x backup_data_index=0x%x\n", __func__, index, num, info_current.backup_data_index); backup_data = memalign(CONFIG_SYS_CACHELINE_SIZE, num * RKSS_DATA_SECTION_LEN); if (!backup_data) { printf("TEEC: malloc backup_data fail\n"); goto error; } ret = blk_dread(dev_desc, part_info.start + index, num, backup_data); if (ret != num) { printf("TEEC: blk_dread fail\n"); goto error; } ret = blk_dwrite(dev_desc, part_info.start + info_current.backup_data_index, num, backup_data); if (ret != num) { printf("TEEC: blk_dwrite fail\n"); goto error; } free(backup_data); p.backup_count += 1; memcpy(data, &p, sizeof(p)); memcpy(data + sizeof(p) + (p.backup_count - 1) * sizeof(info_current), &info_current, sizeof(info_current)); ret = blk_dwrite(dev_desc, part_info.start + RKSS_BACKUP_INDEX, 1, data); if (ret != 1) { printf("TEEC: blk_dwrite fail\n"); goto error; } } free(data); return 0; error: if (data) free(data); if (backup_data) free(backup_data); return -1; } static int rkss_resume(void) { unsigned char *data = NULL; unsigned char *backup_data = NULL; struct rkss_backup_verification p; struct rkss_backup_info info_current; unsigned int i; unsigned long ret; if (check_security_exist(1) < 0) return -1; data = memalign(CONFIG_SYS_CACHELINE_SIZE, RKSS_DATA_SECTION_LEN); if (!data) { printf("TEEC: malloc data fail\n"); goto error; } ret = blk_dread(dev_desc, part_info.start + RKSS_BACKUP_INDEX, 1, data); if (ret != 1) { printf("TEEC: blk_dread fail\n"); goto error; } memcpy(&p, data, sizeof(p)); if (p.backup_version == RKSS_BACKUP_VERSION && p.backup_enable == RKSS_BACKUP_ENABLE) { for (i = p.backup_count; i > 0; i--) { memcpy(&info_current, data + sizeof(p) + (i - 1) * sizeof(info_current), sizeof(info_current)); if (info_current.backup_usedflag == RKSS_BACKUP_USEDFLAG) { debug("TEEC: rkss_resume backup_index=0x%x \ backup_num=0x%x \ info_current.backup_data_index=0x%x\n", info_current.backup_index, info_current.backup_num, info_current.backup_data_index); if ((info_current.backup_data_index + info_current.backup_num) > (RKSS_BACKUP_INDEX + RKSS_BACKUP_COUNT)) { printf("TEEC: backup sections error!"); goto error; } if ((info_current.backup_index + info_current.backup_num) > RKSS_DATA_SECTION_COUNT) { printf("TEEC: original sections error!"); goto error; } backup_data = memalign(CONFIG_SYS_CACHELINE_SIZE, info_current.backup_num * RKSS_DATA_SECTION_LEN); if (!backup_data) { printf("TEEC: malloc backup_data fail\n"); goto error; } ret = blk_dread(dev_desc, part_info.start + info_current.backup_data_index, info_current.backup_num, backup_data); if (ret != info_current.backup_num) { printf("TEEC: blk_dread fail\n"); goto error; } ret = blk_dwrite(dev_desc, part_info.start + info_current.backup_index, info_current.backup_num, backup_data); if (ret != info_current.backup_num) { printf("TEEC: blk_dwrite fail\n"); goto error; } free(backup_data); } } } memset(data, 0, RKSS_DATA_SECTION_LEN); ret = blk_dwrite(dev_desc, part_info.start + RKSS_BACKUP_INDEX, 1, data); if (ret != 1) { printf("TEEC: blk_dwrite fail\n"); goto error; } free(data); return 0; error: if (data) free(data); if (backup_data) free(backup_data); return -1; } static int rkss_read_multi_sections(unsigned char *data, unsigned long index, unsigned int num) { unsigned char *tmp_data = NULL; unsigned long ret; if (check_security_exist(1) < 0) return -1; tmp_data = memalign(CONFIG_SYS_CACHELINE_SIZE, num * RKSS_DATA_SECTION_LEN); if (!tmp_data) { printf("TEEC: malloc tmp_data fail\n"); return -1; } ret = blk_dread(dev_desc, part_info.start + index, num, tmp_data); if (ret != num) { printf("TEEC: blk_dread fail\n"); free(tmp_data); return -1; } memcpy(data, tmp_data, num * RKSS_DATA_SECTION_LEN); free(tmp_data); return 0; } static int rkss_write_multi_sections(unsigned char *data, unsigned long index, unsigned int num) { unsigned char *tmp_data = NULL; unsigned long ret; int result; result = rkss_backup_sections(index, num); if (result < 0) { printf("TEEC: rkss_backup_sections fail\n"); return -1; } if (check_security_exist(1) < 0) return -1; tmp_data = memalign(CONFIG_SYS_CACHELINE_SIZE, num * RKSS_DATA_SECTION_LEN); if (!tmp_data) { printf("TEEC: malloc tmp_data fail\n"); return -1; } memcpy(tmp_data, data, num * RKSS_DATA_SECTION_LEN); ret = blk_dwrite(dev_desc, part_info.start + index, num, tmp_data); free(tmp_data); if (ret != num) { printf("TEEC: blk_dwrite fail\n"); return -1; } return 0; } static int rkss_read_patition_tables(unsigned char *data) { unsigned long ret; unsigned char *table_data = NULL; if (check_security_exist(1) < 0) return -1; table_data = memalign(CONFIG_SYS_CACHELINE_SIZE, RKSS_DATA_SECTION_LEN * RKSS_PARTITION_TABLE_COUNT); if (!table_data) { printf("TEEC: malloc table_data fail\n"); return -1; } ret = blk_dread(dev_desc, part_info.start, RKSS_PARTITION_TABLE_COUNT, table_data); if (ret != RKSS_PARTITION_TABLE_COUNT) { printf("TEEC: blk_dread fail\n"); free(table_data); return -1; } memcpy(data, table_data, RKSS_DATA_SECTION_LEN * RKSS_PARTITION_TABLE_COUNT); free(table_data); return 0; } #ifdef DEBUG_RKFSS static void rkss_dump(void *data, unsigned int len) { char *p = (char *)data; unsigned int i = 0; printf("-------------- DUMP %d --------------\n", len); for (i = 0; i < len; i++) { printf("%02x ", *(p + i)); } printf("\n"); printf("------------- DUMP END -------------\n"); } static void rkss_dump_ptable(void) { struct rk_secure_storage rkss = {0}; int i, n, ret; void *pdata; struct rkss_file_info *p; unsigned char *table_data; table_data = malloc(RKSS_PARTITION_TABLE_COUNT * RKSS_DATA_SECTION_LEN); if (table_data == NULL) { printf("TEEC: malloc table_data fail\n"); return; } ret = rkss_read_patition_tables(table_data); if (ret < 0) { printf("TEEC: rkss_read_patition_tables fail ! ret: %d.\n", ret); return; } printf("-------------- DUMP ptable --------------\n"); for (i = 0; i < RKSS_PARTITION_TABLE_COUNT; i++) { rkss.index = i; memcpy(rkss.data, table_data + rkss.index * RKSS_DATA_SECTION_LEN, RKSS_DATA_SECTION_LEN); for (n = 0; n < RKSS_EACH_SECTION_FILECOUNT; n++) { pdata = rkss.data; p = (struct rkss_file_info *)pdata; p += n; printf("[%02d][%c] %s , inx:%d, size:%d", i*RKSS_EACH_SECTION_FILECOUNT+n, p->used == 0 ? 'F':'T', p->name, p->index, p->size); } } free(table_data); printf("-------------- DUMP END --------------\n"); } static void rkss_dump_usedflags(void) { struct rk_secure_storage rkss = {0}; int ret; rkss.index = RKSS_USED_FLAGS_INDEX; ret = rkss_read_multi_sections(rkss.data, rkss.index, 1); if (ret < 0) { printf("TEEC: rkss_read_multi_sections fail ! ret: %d.\n", ret); return; } rkss_dump(rkss.data, RKSS_DATA_SECTION_LEN); } #endif static int rkss_verify_ptable(unsigned char *table_data) { unsigned char *cp, *vp; struct rkss_file_verification *verify; int ret, i, write_table_flag = 0; for (i = 0; i < RKSS_PARTITION_TABLE_COUNT; i++) { cp = table_data + (i * RKSS_DATA_SECTION_LEN); vp = cp + RKSS_DATA_SECTION_LEN - sizeof(struct rkss_file_verification); verify = (struct rkss_file_verification *)(void *)vp; if (verify->version != RKSS_VERSION_V1 || verify->checkstr != RKSS_CHECK_STR) { printf("TEEC: verify [%d] fail, cleanning ....", i); memset(cp, 0, RKSS_DATA_SECTION_LEN); verify->checkstr = RKSS_CHECK_STR; verify->version = RKSS_VERSION_V1; write_table_flag = 1; } } if (write_table_flag == 1) { ret = rkss_write_multi_sections(table_data, 0, RKSS_PARTITION_TABLE_COUNT); if (ret < 0) { printf("TEEC: rkss_write_multi_sections failed!!! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } } debug("TEEC: verify ptable success.\n"); return TEEC_SUCCESS; } static int rkss_verify_usedflags(struct rk_secure_storage *rkss) { uint8_t *flags = (uint8_t *)rkss->data; int i, duel, flag, n, value, ret; uint8_t *flagw; for (i = 0; i < RKSS_PARTITION_TABLE_COUNT + 1; i++) { duel = *(flags + (int)i/2); flag = i & 0x1 ? duel & 0x0F : (duel & 0xF0) >> 4; if (flag != 0x1) { debug("TEEC: init usedflags section ...\n"); memset(rkss->data, 0x00, RKSS_DATA_SECTION_LEN); for (n = 0; n < RKSS_PARTITION_TABLE_COUNT + 1; n++) { flagw = (uint8_t *)rkss->data + (int)n/2; value = 0x1; *flagw = n & 0x1 ? (*flagw & 0xF0) | (value & 0x0F) : (*flagw & 0x0F) | (value << 4); } ret = rkss_write_multi_sections(rkss->data, rkss->index, 1); if (ret < 0) { printf("TEEC: clean usedflags section failed!!! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } return TEEC_SUCCESS; } } debug("TEEC: rkss_verify_usedflags: sucess.\n"); return TEEC_SUCCESS; } static int rkss_get_fileinfo_by_index(int fd, struct rkss_file_info *pfileinfo) { int i = fd / RKSS_EACH_SECTION_FILECOUNT; int n = fd - (RKSS_EACH_SECTION_FILECOUNT * i); struct rk_secure_storage rkss = {0}; int ret; void *pdata; struct rkss_file_info *p; rkss.index = i; ret = rkss_read_multi_sections(rkss.data, rkss.index, 1); if (ret < 0) { printf("TEEC: rkss_read_multi_sections fail ! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } pdata = rkss.data; p = (struct rkss_file_info *)pdata; p += n; if (p->used != 1) { debug("TEEC: error: unused section!\n"); return TEEC_ERROR_GENERIC; } debug("TEEC: rkss_get_fileinfo_by_index p->used = %d p->name=%s p->index=%d p->size=%d\n", p->used, p->name, p->index, p->size); memcpy(pfileinfo, p, sizeof(struct rkss_file_info)); return TEEC_SUCCESS; } static int rkss_get_fileinfo_by_name( char *filename, struct rkss_file_info *pfileinfo) { int i, ret; uint8_t n = 0; unsigned int len; unsigned char *table_data; struct rk_secure_storage rkss = {0}; void *pdata; struct rkss_file_info *p; const char *split = "/"; char *last_inpos; char *last_svpos; char *cur_inpos; char *cur_svpos; int size_in, size_sv; len = strlen(filename); if (len > RKSS_MAX_NAME_LENGTH - 1) { printf("TEEC: filename is too long. length:%u\n", len); return TEEC_ERROR_GENERIC; } table_data = malloc(RKSS_DATA_SECTION_LEN * RKSS_PARTITION_TABLE_COUNT); if (table_data == NULL) { printf("TEEC: malloc table_data fail\n"); return TEEC_ERROR_GENERIC; } ret = rkss_read_patition_tables(table_data); if (ret < 0) { printf("TEEC: rkss_read_patition_tables fail ! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } for (i = 0; i < RKSS_PARTITION_TABLE_COUNT; i++) { rkss.index = i; memcpy(rkss.data, table_data + rkss.index * RKSS_DATA_SECTION_LEN, RKSS_DATA_SECTION_LEN); for (n = 0; n < RKSS_EACH_SECTION_FILECOUNT; n++) { pdata = rkss.data; p = (struct rkss_file_info *)pdata; p += n; if (p->used == 0) continue; /* Full Matching*/ if (!strcmp(p->name, filename)) { debug("TEEC: rkss_get_fileinfo_by_name: hit table[%d/%d], index[%d/%d]\n", i, RKSS_PARTITION_TABLE_COUNT, n, RKSS_EACH_SECTION_FILECOUNT); memcpy(pfileinfo, p, sizeof(struct rkss_file_info)); free(table_data); return i * RKSS_EACH_SECTION_FILECOUNT + n; } /* Folder Matching*/ last_inpos = filename; last_svpos = p->name; cur_inpos = NULL; cur_svpos = NULL; do { cur_inpos = strstr(last_inpos, split); cur_svpos = strstr(last_svpos, split); size_in = cur_inpos == NULL ? (int)strlen(last_inpos) : cur_inpos - last_inpos; size_sv = cur_svpos == NULL ? (int)strlen(last_svpos) : cur_svpos - last_svpos; ret = memcmp(last_inpos, last_svpos, size_in); last_inpos = cur_inpos + 1; last_svpos = cur_svpos + 1; if (size_in != size_sv || ret) goto UNMATCHFOLDER; } while (cur_inpos && cur_svpos); debug("TEEC: Matched folder: %s\n", p->name); free(table_data); return TEEC_ERROR_GENERIC; UNMATCHFOLDER: debug("TEEC: Unmatched ...\n"); } } debug("TEEC: rkss_get_fileinfo_by_name: file or dir no found!\n"); free(table_data); return TEEC_ERROR_GENERIC; } static int rkss_get_dirs_by_name(char *filename) { int i, ret; uint8_t n = 0; unsigned int len; unsigned char *table_data; struct rk_secure_storage rkss = {0}; void *pdata; struct rkss_file_info *p; char *chk, *file, *subdir; len = strlen(filename); if (len > RKSS_MAX_NAME_LENGTH - 1) { printf("TEEC: filename is too long. length:%u\n", len); return TEEC_ERROR_GENERIC; } table_data = malloc(RKSS_DATA_SECTION_LEN * RKSS_PARTITION_TABLE_COUNT); if (table_data == NULL) { printf("TEEC: malloc table_data fail\n"); return TEEC_ERROR_GENERIC; } ret = rkss_read_patition_tables(table_data); if (ret < 0) { printf("TEEC: rkss_read_patition_tables fail ! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } dir_num = 0; for (i = 0; i < RKSS_PARTITION_TABLE_COUNT; i++) { rkss.index = i; memcpy(rkss.data, table_data + rkss.index * RKSS_DATA_SECTION_LEN, RKSS_DATA_SECTION_LEN); for (n = 0; n < RKSS_EACH_SECTION_FILECOUNT; n++) { pdata = rkss.data; p = (struct rkss_file_info *)pdata; p += n; if (p->used == 0) continue; /* Full Matching*/ ret = memcmp(p->name, filename, strlen(filename)); debug("TEEC: comparing [fd:%d] : %s ?= %s , ret:%d\n", i*RKSS_EACH_SECTION_FILECOUNT+n, p->name, filename, ret); if (!ret && strlen(p->name) > strlen(filename)) { chk = p->name + strlen(filename); if (*chk == '/') { file = p->name + strlen(filename) + 1; subdir = strtok(file, "/"); debug("TEEC: found: %s\n", subdir); strcpy(dir_cache[dir_num], subdir); ++dir_num; } } } } free(table_data); return dir_num; } static int rkss_get_empty_section_from_usedflags(int section_size) { struct rk_secure_storage rkss = {0}; int i, ret; int count0 = 0; uint8_t *flag; uint8_t value; rkss.index = RKSS_USED_FLAGS_INDEX; ret = rkss_read_multi_sections(rkss.data, rkss.index, 1); if (ret < 0) { printf("TEEC: rkss_read_multi_sections fail ! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } for (i = 0; i < RKSS_DATA_SECTION_COUNT; i++) { flag = (uint8_t *)rkss.data + (int)i/2; value = i & 0x1 ? *flag & 0x0F : (*flag & 0xF0) >> 4; if (value == 0x0) { if (++count0 == section_size) { return (i + 1 - section_size); } } else { count0 = 0; } } printf("TEEC: Not enough space available in secure storage !\n"); return TEEC_ERROR_GENERIC; } static int rkss_incref_multi_usedflags_sections(unsigned int index, unsigned int num) { struct rk_secure_storage rkss = {0}; int ret, value, i; uint8_t *flag; if ((index + num) >= RKSS_DATA_SECTION_COUNT) { printf("TEEC: index[%d] out of range.\n", index); return TEEC_ERROR_GENERIC; } rkss.index = RKSS_USED_FLAGS_INDEX; ret = rkss_read_multi_sections(rkss.data, rkss.index, 1); if (ret < 0) { printf("TEEC: rkss_read_multi_sections fail ! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } for (i = 0; i < num; i++, index++) { flag = (uint8_t *)rkss.data + (int)index/2; value = index & 0x1 ? *flag & 0x0F : (*flag & 0xF0) >> 4; if (++value > 0xF) { printf("TEEC: reference out of data: %d\n", value); value = 0xF; } *flag = index & 0x1 ? (*flag & 0xF0) | (value & 0x0F) : (*flag & 0x0F) | (value << 4); } ret = rkss_write_multi_sections(rkss.data, rkss.index, 1); if (ret < 0) { printf("TEEC: rkss_write_multi_sections fail ! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } return TEEC_SUCCESS; } static int rkss_decref_multi_usedflags_sections(unsigned int index, unsigned int num) { struct rk_secure_storage rkss = {0}; int ret, value, i; uint8_t *flag; if ((index + num) >= RKSS_DATA_SECTION_COUNT) { printf("TEEC: index[%d] out of range.\n", index); return TEEC_ERROR_GENERIC; } rkss.index = RKSS_USED_FLAGS_INDEX; ret = rkss_read_multi_sections(rkss.data, rkss.index, 1); if (ret < 0) { printf("TEEC: rkss_read_multi_sections fail ! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } for (i = 0; i < num; i++, index++) { flag = (uint8_t *)rkss.data + (int)index/2; value = index & 0x1 ? *flag & 0x0F : (*flag & 0xF0) >> 4; if (--value < 0) { printf("TEEC: reference out of data: %d\n", value); value = 0x0; } *flag = index & 0x1 ? (*flag & 0xF0) | (value & 0x0F) : (*flag & 0x0F) | (value << 4); } ret = rkss_write_multi_sections(rkss.data, rkss.index, 1); if (ret < 0) { printf("TEEC: rkss_write_multi_sections fail ! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } return TEEC_SUCCESS; } static int rkss_write_empty_ptable(struct rkss_file_info *pfileinfo) { unsigned char *table_data; int ret, i, n; struct rk_secure_storage rkss = {0}; void *pdata; struct rkss_file_info *p; table_data = malloc(RKSS_DATA_SECTION_LEN * RKSS_PARTITION_TABLE_COUNT); if (table_data == NULL) { printf("TEEC: malloc table_data fail\n"); return TEEC_ERROR_GENERIC; } ret = rkss_read_patition_tables(table_data); if (ret < 0) { printf("TEEC: rkss_read_patition_tables fail ! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } for (i = 0; i < RKSS_PARTITION_TABLE_COUNT; i++) { rkss.index = i; memcpy(rkss.data, table_data + rkss.index * RKSS_DATA_SECTION_LEN, RKSS_DATA_SECTION_LEN); for (n = 0; n < RKSS_EACH_SECTION_FILECOUNT; n++) { pdata = rkss.data; p = (struct rkss_file_info *)pdata; p += n; if (p->used == 0) { debug("TEEC: write ptable in [%d][%d] .\n", i, n); memcpy(p, pfileinfo, sizeof(struct rkss_file_info)); p->used = 1; p->id = n; debug("TEEC: write emt ptable : [%d,%d] name:%s, index:%d,\n", i, n, p->name, p->index); debug("TEEC: size:%d, used:%d\n", p->size, p->used); ret = rkss_write_multi_sections(rkss.data, rkss.index, 1); if (ret < 0) { printf("TEEC: rkss_write_multi_sections fail ! ret: %d.\n", ret); free(table_data); return TEEC_ERROR_GENERIC; } free(table_data); return i * RKSS_EACH_SECTION_FILECOUNT + n; } } } debug("TEEC: No enough ptable space available in secure storage.\n"); free(table_data); return TEEC_ERROR_GENERIC; } static int rkss_write_back_ptable(int fd, struct rkss_file_info *pfileinfo) { int i = fd / RKSS_EACH_SECTION_FILECOUNT; int n = fd - (RKSS_EACH_SECTION_FILECOUNT * i); struct rk_secure_storage rkss = {0}; int ret; void *pdata; struct rkss_file_info *p; rkss.index = i; ret = rkss_read_multi_sections(rkss.data, rkss.index, 1); if (ret < 0) { printf("TEEC: rkss_read_multi_sections fail ! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } pdata = rkss.data; p = (struct rkss_file_info *)pdata; p += n; memcpy(p, pfileinfo, sizeof(struct rkss_file_info)); debug("TEEC: write ptable : [%d,%d] name:%s, index:%d, size:%d, used:%d\n", i, n, p->name, p->index, p->size, p->used); ret = rkss_write_multi_sections(rkss.data, rkss.index, 1); if (ret < 0) { printf("TEEC: rkss_write_multi_sections fail ! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } #ifdef DEBUG_RKFSS rkss_dump_ptable(); #endif return TEEC_SUCCESS; } static uint32_t ree_fs_new_open(size_t num_params, struct tee_ioctl_param *params) { char *filename; int fd; struct rkss_file_info p = {0}; debug("TEEC: params[1].u.memref.shm_id = 0x%llx params[1].u.memref.shm_offs = 0x%llx\n", params[1].u.memref.shm_id, params[1].u.memref.shm_offs); filename = (char *)(size_t)params[1].u.memref.shm_id; if (!filename) return TEEC_ERROR_BAD_PARAMETERS; if (strlen(filename) > RKSS_MAX_NAME_LENGTH) { printf("TEEC: ree_fs_new_open: file name too long. %s\n", filename); return TEEC_ERROR_BAD_PARAMETERS; } debug("TEEC: ree_fs_new_open open file: %s, len: %zu\n", filename, strlen(filename)); fd = rkss_get_fileinfo_by_name(filename, &p); if (fd < 0) { debug("TEEC: ree_fs_new_open : no such file. %s\n", filename); return TEEC_ERROR_ITEM_NOT_FOUND; } debug("TEEC: ree_fs_new_open! %s, fd: %d\n", filename, fd); params[2].u.value.a = fd; return TEEC_SUCCESS; } static TEEC_Result ree_fs_new_create(size_t num_params, struct tee_ioctl_param *params) { char *filename; int fd; int ret, num; struct rkss_file_info p = {0}; /* file open flags: O_RDWR | O_CREAT | O_TRUNC * if file exists, we must remove it first. */ ret = rkss_begin_commit(); if (ret < 0) { printf("TEEC: rkss_begin_commit failed!"); return -1; } filename = (char *)(size_t)params[1].u.memref.shm_id; debug("TEEC: params[1].u.memref.shm_id = 0x%llx params[1].u.memref.shm_offs = 0x%llx\n", params[1].u.memref.shm_id, params[1].u.memref.shm_offs); if (!filename) return TEEC_ERROR_BAD_PARAMETERS; if (strlen(filename) > RKSS_MAX_NAME_LENGTH) { printf("TEEC: ree_fs_new_create: file name too long. %s\n", filename); return TEEC_ERROR_BAD_PARAMETERS; } debug("TEEC: ree_fs_new_create create file: %s, len: %zu\n", filename, strlen(filename)); fd = rkss_get_fileinfo_by_name(filename, &p); if (fd >= 0) { debug("TEEC: ree_fs_new_create : file exist, clear it. %s\n", filename); /* decrease ref from usedflags */ num = p.size / RKSS_DATA_SECTION_LEN + 1; ret = rkss_decref_multi_usedflags_sections(p.index, num); if (ret < 0) { printf("TEEC: rkss_decref_multi_usedflags_sections error !\n"); return TEEC_ERROR_GENERIC; } /* rm from ptable */ memset(&p, 0, sizeof(struct rkss_file_info)); ret = rkss_write_back_ptable(fd, &p); if (ret < 0) { printf("TEEC: ree_fs_new_create : write back error %d\n", ret); return TEEC_ERROR_GENERIC; } } debug("TEEC: ree_fs_new_create create new file: %s\n", filename); strcpy(p.name, filename); p.index = 0; p.size = 0; p.used = 1; p.flags = RK_FS_R | RK_FS_W; fd = rkss_write_empty_ptable(&p); if (fd < 0) { printf("TEEC: ree_fs_new_create : write empty ptable error. %s\n", filename); return TEEC_ERROR_GENERIC; } debug("TEEC: ree_fs_new_create ! %s, fd: %d.\n", filename, fd); params[2].u.value.a = fd; ret = rkss_finish_commit(); if (ret < 0) { printf("TEEC: rkss_finish_commit failed!"); return -1; } return TEEC_SUCCESS; } static TEEC_Result ree_fs_new_close(size_t num_params, struct tee_ioctl_param *params) { debug("TEEC: ree_fs_new_close !\n"); UNREFERENCED_PARAMETER(params); UNREFERENCED_PARAMETER(num_params); return TEEC_SUCCESS; } static TEEC_Result ree_fs_new_read(size_t num_params, struct tee_ioctl_param *params) { uint8_t *data; size_t len; off_t offs; int fd; int ret; struct rkss_file_info p = {0}; int di, section_num; uint8_t *temp_file_data; fd = params[0].u.value.b; offs = params[0].u.value.c; data = (uint8_t *)(size_t)params[1].u.memref.shm_id; debug("TEEC: params[1].u.memref.shm_id = 0x%llx params[1].u.memref.shm_offs = 0x%llx\n", params[1].u.memref.shm_id, params[1].u.memref.shm_offs); if (!data) return TEEC_ERROR_BAD_PARAMETERS; len = params[1].u.memref.size; debug("TEEC: ree_fs_new_read! fd:%d, len:%zu, offs:%ld\n", fd, len, offs); ret = rkss_get_fileinfo_by_index(fd, &p); if (ret < 0) { debug("TEEC: unavailable fd: %d!\n", fd); return TEEC_ERROR_GENERIC; } if (offs >= p.size) return TEEC_ERROR_BAD_PARAMETERS; section_num = p.size / RKSS_DATA_SECTION_LEN + 1; temp_file_data = malloc(section_num * RKSS_DATA_SECTION_LEN); ret = rkss_read_multi_sections(temp_file_data, p.index, section_num); if (ret < 0) { printf("TEEC: unavailable file index!\n"); free(temp_file_data); return TEEC_ERROR_GENERIC; } di = (offs + len) > p.size ? (p.size - offs) : len; memcpy(data, temp_file_data + offs, di); free(temp_file_data); temp_file_data = 0; params[1].u.memref.size = di; return TEEC_SUCCESS; } static TEEC_Result ree_fs_new_write(size_t num_params, struct tee_ioctl_param *params) { uint8_t *data; size_t len; off_t offs; struct rkss_file_info p = {0}; int ret, fd, new_size; int section_num; uint8_t *file_data = 0, *temp_file_data = 0; ret = rkss_begin_commit(); if (ret < 0) { printf("TEEC: rkss_begin_commit failed!"); return -1; } fd = params[0].u.value.b; offs = params[0].u.value.c; data = (uint8_t *)(size_t)params[1].u.memref.shm_id; debug("TEEC: params[1].u.memref.shm_id = 0x%llx params[1].u.memref.shm_offs = 0x%llx\n", params[1].u.memref.shm_id, params[1].u.memref.shm_offs); if (!data) return TEEC_ERROR_BAD_PARAMETERS; len = params[1].u.memref.size; debug("TEEC: ree_fs_new_write ! fd:%d, len:%zu, offs:%ld \n", fd, len, offs); ret = rkss_get_fileinfo_by_index(fd, &p); if (ret < 0) { printf("TEEC: ree_fs_new_write: fd:%d unvailable!\n", fd); return TEEC_ERROR_BAD_PARAMETERS; } new_size = offs + len > p.size ? offs + len : p.size; file_data = malloc(new_size); if (!file_data) return TEEC_ERROR_OUT_OF_MEMORY; if (p.size != 0) { /* Read old file data out */ section_num = p.size / RKSS_DATA_SECTION_LEN + 1; temp_file_data = malloc(section_num * RKSS_DATA_SECTION_LEN); ret = rkss_read_multi_sections(temp_file_data, p.index, section_num); if (ret < 0) { printf("TEEC: unavailable file index %d section_num %d\n", p.index, section_num); ret = TEEC_ERROR_GENERIC; goto out; } memcpy(file_data, temp_file_data, p.size); free(temp_file_data); temp_file_data = 0; ret = rkss_decref_multi_usedflags_sections(p.index, section_num); if (ret < 0) { printf("TEEC: rkss_decref_multi_usedflags_sections error !\n"); ret = TEEC_ERROR_GENERIC; goto out; } } /* update new file info */ memcpy(file_data + offs, data, len); p.size = new_size; section_num = new_size / RKSS_DATA_SECTION_LEN + 1; p.index = rkss_get_empty_section_from_usedflags(section_num); debug("TEEC: Get Empty section in %d\n", p.index); p.used = 1; ret = rkss_incref_multi_usedflags_sections(p.index, section_num); if (ret < 0) { printf("TEEC: rkss_incref_multi_usedflags_sections error !\n"); ret = TEEC_ERROR_GENERIC; goto out; } ret = rkss_write_back_ptable(fd, &p); if (ret < 0) { printf("TEEC: ree_fs_new_write: write ptable error!\n"); ret = TEEC_ERROR_GENERIC; goto out; } /* write new file data */ temp_file_data = malloc(section_num * RKSS_DATA_SECTION_LEN); memset(temp_file_data, 0, section_num * RKSS_DATA_SECTION_LEN); memcpy(temp_file_data, file_data, p.size); rkss_write_multi_sections(temp_file_data, p.index, section_num); free(temp_file_data); temp_file_data = 0; #ifdef DEBUG_RKFSS rkss_dump_usedflags(); #endif out: if (file_data) free(file_data); if (temp_file_data) { free(temp_file_data); temp_file_data = 0; } ret = rkss_finish_commit(); if (ret < 0) { printf("TEEC: rkss_finish_commit failed!"); return -1; } return TEEC_SUCCESS; } /* TODO: update file data space */ static TEEC_Result ree_fs_new_truncate(size_t num_params, struct tee_ioctl_param *params) { size_t len; int fd, ret; struct rkss_file_info p = {0}; unsigned int section_num_old, section_num_new; ret = rkss_begin_commit(); if (ret < 0) { printf("TEEC: rkss_begin_commit failed!"); return -1; } fd = params[0].u.value.b; len = params[0].u.value.c; debug("TEEC: ree_fs_new_truncate: fd:%d, lenth:%zu\n", fd, len); ret = rkss_get_fileinfo_by_index(fd, &p); if (ret < 0) { printf("TEEC: fd:%d unvailable!\n", fd); return TEEC_ERROR_GENERIC; } if (len > p.size) { printf("TEEC: truncate error!\n"); return TEEC_ERROR_GENERIC; } section_num_old = p.size / RKSS_DATA_SECTION_LEN + 1; section_num_new = len / RKSS_DATA_SECTION_LEN + 1; ret = rkss_decref_multi_usedflags_sections(p.index + section_num_new, section_num_old - section_num_new); if (ret < 0) { printf("TEEC: rkss_decref_multi_usedflags_sections error !\n"); ret = TEEC_ERROR_GENERIC; } p.size = len; ret = rkss_write_back_ptable(fd, &p); if (ret < 0) { printf("TEEC: ree_fs_new_truncate: write ptable error!\n"); return TEEC_ERROR_GENERIC; } ret = rkss_finish_commit(); if (ret < 0) { printf("TEEC: rkss_finish_commit failed!"); return -1; } return TEEC_SUCCESS; } static TEEC_Result ree_fs_new_remove(size_t num_params, struct tee_ioctl_param *params) { char *filename; struct rkss_file_info p = {0}; int ret, fd, num; ret = rkss_begin_commit(); if (ret < 0) { printf("TEEC: rkss_begin_commit failed!"); return -1; } debug("TEEC: params[1].u.memref.shm_id = 0x%llx params[1].u.memref.shm_offs = 0x%llx\n", params[1].u.memref.shm_id, params[1].u.memref.shm_offs); filename = (char *)(size_t)params[1].u.memref.shm_id; if (!filename) return TEEC_ERROR_BAD_PARAMETERS; ret = rkss_get_fileinfo_by_name(filename, &p); if (ret < 0) { printf("TEEC: ree_fs_new_remove: no such file. %s\n", filename); return 0; } fd = ret; debug("TEEC: ree_fs_new_remove! %s fd:%d index:%d size:%d\n", filename, fd, p.index, p.size); /* decrease ref from usedflags */ num = p.size / RKSS_DATA_SECTION_LEN + 1; ret = rkss_decref_multi_usedflags_sections(p.index, num); if (ret < 0) { printf("TEEC: rkss_decref_multi_usedflags_sections error !\n"); return TEEC_ERROR_GENERIC; } /* rm from ptable */ memset(&p, 0, sizeof(struct rkss_file_info)); ret = rkss_write_back_ptable(fd, &p); if (ret < 0) { printf("TEEC: ree_fs_new_remove: write back error %d\n", ret); return TEEC_ERROR_GENERIC; } #ifdef DEBUG_RKFSS rkss_dump_ptable(); rkss_dump_usedflags(); #endif ret = rkss_finish_commit(); if (ret < 0) { printf("TEEC: rkss_finish_commit failed!"); return -1; } return TEEC_SUCCESS; } static TEEC_Result ree_fs_new_rename(size_t num_params, struct tee_ioctl_param *params) { char *old_fname; char *new_fname; struct rkss_file_info p = {0}; int ret; ret = rkss_begin_commit(); if (ret < 0) { printf("TEEC: rkss_begin_commit failed!"); return -1; } old_fname = (char *)(size_t)params[1].u.memref.shm_id; debug("TEEC: params[1].u.memref.shm_id = 0x%llx params[1].u.memref.shm_offs = 0x%llx\n", params[1].u.memref.shm_id, params[1].u.memref.shm_offs); if (!old_fname) return TEEC_ERROR_BAD_PARAMETERS; new_fname = (char *)(size_t)params[2].u.memref.shm_id; debug("TEEC: params[2].u.memref.shm_id = 0x%llx params[2].u.memref.shm_offs = 0x%llx\n", params[2].u.memref.shm_id, params[2].u.memref.shm_offs); if (!new_fname) return TEEC_ERROR_BAD_PARAMETERS; if (strlen(new_fname) > RKSS_MAX_NAME_LENGTH) { printf("TEEC: new file name too long. %s\n", new_fname); return TEEC_ERROR_BAD_PARAMETERS; } debug("TEEC: rename: %s -> %s\n", old_fname, new_fname); ret = rkss_get_fileinfo_by_name(old_fname, &p); if (ret < 0) { printf("TEEC: filename: %s no found.\n", old_fname); return TEEC_ERROR_ITEM_NOT_FOUND; } strcpy(p.name, new_fname); ret = rkss_write_back_ptable(ret, &p); if (ret < 0) { printf("TEEC: write ptable error!\n"); return TEEC_ERROR_GENERIC; } ret = rkss_finish_commit(); if (ret < 0) { printf("TEEC: rkss_finish_commit failed!"); return -1; } return TEEC_SUCCESS; } static TEEC_Result ree_fs_new_opendir(size_t num_params, struct tee_ioctl_param *params) { char *dirname; int ret; debug("TEEC: params[1].u.memref.shm_id = 0x%llx params[1].u.memref.shm_offs = 0x%llx\n", params[1].u.memref.shm_id, params[1].u.memref.shm_offs); dirname = (char *)(size_t)params[1].u.memref.shm_id; if (!dirname) return TEEC_ERROR_BAD_PARAMETERS; dir_seek = 0; ret = rkss_get_dirs_by_name(dirname); if (ret < 0) { printf("TEEC: ree_fs_new_opendir: error\n"); return TEEC_ERROR_GENERIC; } debug("TEEC: ree_fs_new_opendir: %s, seek/num:%d/%d\n", dirname, dir_seek, dir_num); return TEEC_SUCCESS; } static TEEC_Result ree_fs_new_closedir(size_t num_params, struct tee_ioctl_param *params) { if (num_params != 1 || (params[0].attr & TEE_IOCTL_PARAM_ATTR_TYPE_MASK) != TEE_IOCTL_PARAM_ATTR_TYPE_VALUE_INPUT) return TEEC_ERROR_BAD_PARAMETERS; dir_seek = 0; dir_num = 0; return TEEC_SUCCESS; } static TEEC_Result ree_fs_new_readdir(size_t num_params, struct tee_ioctl_param *params) { char *dirname; size_t len; size_t dirname_len; dirname = (char *)(size_t)params[1].u.memref.shm_id; debug("TEEC: params[1].u.memref.shm_id = 0x%llx params[1].u.memref.shm_offs = 0x%llx\n", params[1].u.memref.shm_id, params[1].u.memref.shm_offs); if (!dirname) return TEEC_ERROR_BAD_PARAMETERS; len = params[1].u.memref.size; debug("TEEC: seek/num:%d/%d\n", dir_seek, dir_num); if (dir_seek == dir_num) { params[1].u.memref.size = 0; debug("ree_fs_new_readdir: END \n"); return TEEC_ERROR_BAD_STATE; } dirname_len = strlen(dir_cache[dir_seek]) + 1; params[1].u.memref.size = dirname_len; if (dirname_len > len) return TEEC_ERROR_SHORT_BUFFER; strcpy(dirname, dir_cache[dir_seek]); ++dir_seek; debug("TEEC: ree_fs_new_readdir: %s\n", dirname); return TEEC_SUCCESS; } int tee_supp_rk_fs_init_v1(void) { assert(sizeof(struct rkss_file_info) == 126); assert(512 / sizeof(struct rkss_file_info) == RKSS_EACH_SECTION_FILECOUNT); int ret; struct rk_secure_storage rkss = {0}; unsigned char *table_data; if (check_security_exist(0) < 0) return 0; ret = rkss_resume(); if (ret < 0) { printf("rkss_resume failed!"); return TEEC_ERROR_GENERIC; } /* clean secure storage*/ #ifdef DEBUG_CLEAN_RKSS int i = 0; for (i = 0; i < RKSS_DATA_SECTION_COUNT; i++) { memset(rkss.data, 0, RKSS_DATA_SECTION_LEN); rkss.index = i; rkss_write_multi_sections(rkss.data, rkss.index, 1); printf("TEEC: cleaned [%d]", i); } #endif ret = rkss_begin_commit(); if (ret < 0) { printf("TEEC: rkss_begin_commit failed!"); return TEEC_ERROR_GENERIC; } table_data = malloc(RKSS_DATA_SECTION_LEN * RKSS_PARTITION_TABLE_COUNT); if (table_data == NULL) { printf("TEEC: malloc table_data fail\n"); return TEEC_ERROR_GENERIC; } ret = rkss_read_patition_tables(table_data); if (ret < 0) { printf("TEEC: rkss_read_patition_tables fail ! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } /* Verify Partition Table*/ rkss_verify_ptable(table_data); free(table_data); table_data = NULL; /* Verify Usedflags Section*/ rkss.index = RKSS_USED_FLAGS_INDEX; ret = rkss_read_multi_sections(rkss.data, rkss.index, 1); if (ret < 0) { printf("TEEC: rkss_read_multi_sections fail ! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } ret = rkss_verify_usedflags(&rkss); if (ret < 0) { printf("TEEC: rkss_verify_usedflags fail ! ret: %d.\n", ret); return TEEC_ERROR_GENERIC; } #ifdef DEBUG_RKFSS rkss_dump_ptable(); rkss_dump_usedflags(); #endif ret = rkss_finish_commit(); if (ret < 0) { printf("TEEC: rkss_finish_commit failed!"); return TEEC_ERROR_GENERIC; } return TEEC_SUCCESS; } static bool tee_supp_param_is_value(struct tee_ioctl_param *param) { switch (param->attr & TEE_IOCTL_PARAM_ATTR_TYPE_MASK) { case TEE_IOCTL_PARAM_ATTR_TYPE_VALUE_INPUT: case TEE_IOCTL_PARAM_ATTR_TYPE_VALUE_OUTPUT: case TEE_IOCTL_PARAM_ATTR_TYPE_VALUE_INOUT: return true; default: return false; } } static int rkss_step; int tee_supp_rk_fs_process_v1(size_t num_params, struct tee_ioctl_param *params) { if (!num_params || !tee_supp_param_is_value(params)) return TEEC_ERROR_BAD_PARAMETERS; switch (params->u.value.a) { case OPTEE_MRF_OPEN: debug(">>>>>>> [%d] OPTEE_MRF_OPEN!\n", rkss_step++); return ree_fs_new_open(num_params, params); case OPTEE_MRF_CREATE: debug(">>>>>>> [%d] OPTEE_MRF_CREATE!\n", rkss_step++); return ree_fs_new_create(num_params, params); case OPTEE_MRF_CLOSE: debug(">>>>>>> [%d] OPTEE_MRF_CLOSE!\n", rkss_step++); return ree_fs_new_close(num_params, params); case OPTEE_MRF_READ: debug(">>>>>>> [%d] OPTEE_MRF_READ!\n", rkss_step++); return ree_fs_new_read(num_params, params); case OPTEE_MRF_WRITE: debug(">>>>>>> [%d] OPTEE_MRF_WRITE!\n", rkss_step++); return ree_fs_new_write(num_params, params); case OPTEE_MRF_TRUNCATE: debug(">>>>>>> [%d] OPTEE_MRF_TRUNCATE!\n", rkss_step++); return ree_fs_new_truncate(num_params, params); case OPTEE_MRF_REMOVE: debug(">>>>>>> [%d] OPTEE_MRF_REMOVE!\n", rkss_step++); return ree_fs_new_remove(num_params, params); case OPTEE_MRF_RENAME: debug(">>>>>>> [%d] OPTEE_MRF_RENAME!\n", rkss_step++); return ree_fs_new_rename(num_params, params); case OPTEE_MRF_OPENDIR: debug(">>>>>>> [%d] OPTEE_MRF_OPENDIR!\n", rkss_step++); return ree_fs_new_opendir(num_params, params); case OPTEE_MRF_CLOSEDIR: debug(">>>>>>> [%d] OPTEE_MRF_CLOSEDIR!\n", rkss_step++); return ree_fs_new_closedir(num_params, params); case OPTEE_MRF_READDIR: debug(">>>>>>> [%d] OPTEE_MRF_READDIR!\n", rkss_step++); return ree_fs_new_readdir(num_params, params); default: return TEEC_ERROR_BAD_PARAMETERS; } }