Mercurial > projects > libpws
view pws-file.c @ 13:2bb1bbac1d0a default tip
Added tag version-1.0.0 for changeset 1926dfc9feb0
| author | Guido Berhoerster <guido+libpws@berhoerster.name> |
|---|---|
| date | Sun, 04 Aug 2019 21:37:56 +0200 |
| parents | ec5c1b653ee6 |
| children |
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/* * Copyright (C) 2015 Guido Berhoerster <guido+libpws@berhoerster.name> * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include "compat.h" #include <stdlib.h> #include <unistd.h> #include <string.h> #include <stdarg.h> #include <errno.h> #ifdef HAVE_ENDIAN_H #include <endian.h> #endif /* HAVE_ENDIAN_H */ #ifdef HAVE_SYS_ENDIAN_H #include <sys/endian.h> #endif /* HAVE_ENDIAN_H */ #include <nettle/twofish.h> #include <nettle/cbc.h> #include <nettle/hmac.h> #include <nettle/sha.h> #include "pws-internal.h" #define MAX_ITER (1 << 22) #define DEFAULT_ITER 10000 #define KEY_SIZE 32UL #define SALT_SIZE 32UL #define METADATA_SIZE (sizeof (psafe3_tag) + SALT_SIZE + 4 +\ SHA256_DIGEST_SIZE + KEY_SIZE + KEY_SIZE + TWOFISH_BLOCK_SIZE) static const unsigned char psafe3_tag[] = { 'P', 'W', 'S', '3' }; static const unsigned char eof_marker[] = { 'P', 'W', 'S', '3', '-', 'E', 'O', 'F', 'P', 'W', 'S', '3', '-', 'E', 'O', 'F' }; RB_HEAD(empty_groups_tree, pws3_field); RB_HEAD(records_tree, pws3_record); struct pws3_file { struct pws3_field *fields[256]; struct empty_groups_tree *empty_groups_tree; struct records_tree *records_tree; struct pws_file_error { enum pws_error_code code; int errnum; char *msg; } error; }; struct twofish_cbc_ctx CBC_CTX(struct twofish_ctx, TWOFISH_BLOCK_SIZE); struct pws_file_ctx { FILE *fp; unsigned char *mem; size_t mem_size; size_t mem_pos; struct twofish_cbc_ctx cipher_ctx; struct hmac_sha256_ctx hmac_ctx; struct pws3_file *pws_file; uint32_t n_iter; }; static int empty_groups_cmp(struct pws3_field *, struct pws3_field *); static int record_cmp(struct pws3_record *, struct pws3_record *); RB_PROTOTYPE_STATIC(empty_groups_tree, pws3_field, tree_entry, empty_groups_cmp) RB_PROTOTYPE_STATIC(records_tree, pws3_record, tree_entry, record_cmp) RB_GENERATE_STATIC(empty_groups_tree, pws3_field, tree_entry, empty_groups_cmp) RB_GENERATE_STATIC(records_tree, pws3_record, tree_entry, record_cmp) static int empty_groups_cmp(struct pws3_field *field1, struct pws3_field *field2) { PWS_ASSERT(pws3_field_is_header(field1) && pws3_field_is_header(field2)); PWS_ASSERT((pws3_field_get_type(field1) == PWS3_HEADER_FIELD_EMPTY_GROUPS) && (pws3_field_get_type(field2) == PWS3_HEADER_FIELD_EMPTY_GROUPS)); return (strcmp(pws3_field_get_text(field1), pws3_field_get_text(field2))); } static int record_cmp(struct pws3_record *record1, struct pws3_record *record2) { struct pws3_field *uuid_field1; struct pws3_field *uuid_field2; uuid_field1 = pws3_record_get_field(record1, PWS3_RECORD_FIELD_UUID); uuid_field2 = pws3_record_get_field(record2, PWS3_RECORD_FIELD_UUID); PWS_ASSERT((uuid_field1 != NULL) && (uuid_field2 != NULL)); return (memcmp(pws3_field_get_uuid(uuid_field1), pws3_field_get_uuid(uuid_field2), PWS3_UUID_SIZE)); } static void pws_set_system_error(struct pws3_file *pws_file, enum pws_error_code code, int errnum, const char *fmt, ...) { char system_error_buf[4096] = ""; size_t system_error_len; int error_len; va_list args; va_list args2; pws_file->error.code = code; pws_file->error.errnum = errnum; strerror_r(errnum, system_error_buf, sizeof (system_error_buf) - 1); system_error_len = strlen(system_error_buf); pws_free(pws_file->error.msg, (pws_file->error.msg != NULL) ? strlen(pws_file->error.msg) + 1 : 0); if (fmt != NULL) { va_start(args, fmt); va_copy(args2, args); error_len = vsnprintf(NULL, 0, fmt, args); pws_file->error.msg = pws_alloc(error_len + 2 + system_error_len + 1); if (pws_file->error.msg == NULL) { va_end(args2); va_end(args); return; } vsnprintf(pws_file->error.msg, error_len + 1, fmt, args2); va_end(args2); va_end(args); strcpy(pws_file->error.msg + error_len, ": "); strcpy(pws_file->error.msg + error_len + 2, system_error_buf); } else { pws_file->error.msg = pws_alloc(system_error_len + 1); snprintf(pws_file->error.msg, system_error_len + 1, "%s", system_error_buf); } } static void pws_set_error(struct pws3_file *pws_file, enum pws_error_code code, const char *fmt, ...) { va_list args; va_list args2; int error_len; pws_file->error.code = code; pws_file->error.errnum = 0; pws_free(pws_file->error.msg, (pws_file->error.msg != NULL) ? strlen(pws_file->error.msg) + 1 : 0); va_start(args, fmt); va_copy(args2, args); error_len = vsnprintf(NULL, 0, fmt, args); pws_file->error.msg = pws_alloc(error_len + 1); if (pws_file->error.msg == NULL) { va_end(args2); va_end(args); return; } vsnprintf(pws_file->error.msg, error_len + 1, fmt, args2); va_end(args2); va_end(args); } static int read_buf(struct pws_file_ctx *ctx, unsigned char *buf, size_t buf_size) { if (ctx->fp != NULL) { if (fread(buf, 1, buf_size, ctx->fp) != buf_size) { if (ferror(ctx->fp) != 0) { return (-1); } else if (feof(ctx->fp) != 0) { return (1); } } } else { PWS_ASSERT(ctx->mem != NULL); if (ctx->mem_size - ctx->mem_pos < buf_size) { return (1); } memcpy(buf, &ctx->mem[ctx->mem_pos], buf_size); ctx->mem_pos += buf_size; } return (0); } static int write_buf(struct pws_file_ctx *ctx, const unsigned char *buf, size_t buf_size) { size_t remaining; unsigned char *tmp; if (ctx->fp != NULL) { if (fwrite(buf, 1, buf_size, ctx->fp) != buf_size) { return (-1); } if (fflush(ctx->fp) != 0) { return (-1); } } else { remaining = ctx->mem_size - ctx->mem_pos; if (remaining < buf_size) { tmp = pws_realloc(ctx->mem, ctx->mem_size + (buf_size - remaining)); if (tmp == NULL) { return (-1); } ctx->mem = tmp; ctx->mem_size += (buf_size - remaining); } memcpy(&ctx->mem[ctx->mem_pos], buf, buf_size); ctx->mem_pos += buf_size; } return (0); } static void pws_file_clear(struct pws3_file *pws_file) { size_t i; struct pws3_field *empty_group_field; struct pws3_field *empty_group_field_tmp; struct pws3_record *record; struct pws3_record *record_tmp; for (i = 0x00; i <= 0xff; i++) { pws3_field_destroy(pws_file->fields[i]); pws_file->fields[i] = NULL; } RB_FOREACH_SAFE(empty_group_field, empty_groups_tree, pws_file->empty_groups_tree, empty_group_field_tmp) { pws3_field_destroy(RB_REMOVE(empty_groups_tree, pws_file->empty_groups_tree, empty_group_field)); } RB_FOREACH_SAFE(record, records_tree, pws_file->records_tree, record_tmp) { pws3_record_destroy(RB_REMOVE(records_tree, pws_file->records_tree, record)); } } void pws3_file_destroy(struct pws3_file *pws_file) { if (pws_file == NULL) { return; } pws_free(pws_file->error.msg, (pws_file->error.msg != NULL) ? strlen(pws_file->error.msg) + 1 : 0); pws_file_clear(pws_file); pws_free(pws_file->empty_groups_tree, sizeof (struct empty_groups_tree)); pws_free(pws_file->records_tree, sizeof (struct records_tree)); pws_free(pws_file, sizeof (struct pws3_file)); } struct pws3_file * pws3_file_create(void) { struct pws3_field *version_field = NULL; struct pws3_file *pws_file = NULL; size_t i; /* version field is mandatory */ version_field = pws3_field_create(1, PWS3_HEADER_FIELD_VERSION); if (version_field == NULL) { goto err; } pws3_field_set_uint16(version_field, PWS3_VERSION); pws_file = pws_alloc(sizeof (struct pws3_file)); if (pws_file == NULL) { goto err; } for (i = 0x00; i <= 0xff; i++) { pws_file->fields[i] = NULL; } pws_file->empty_groups_tree = NULL; pws_file->records_tree = NULL; pws_file->error.errnum = 0; pws_file->error.code = 0; pws_file->error.msg = NULL; pws_file->empty_groups_tree = pws_alloc(sizeof (struct empty_groups_tree)); if (pws_file->empty_groups_tree == NULL) { goto err; } RB_INIT(pws_file->empty_groups_tree); pws_file->records_tree = pws_alloc(sizeof (struct records_tree)); if (pws_file->records_tree == NULL) { goto err; } RB_INIT(pws_file->records_tree); pws3_file_set_header_field(pws_file, version_field); return (pws_file); err: pws3_field_destroy(version_field); if (pws_file != NULL) { pws_free(pws_file->records_tree, sizeof (struct records_tree)); pws_free(pws_file->empty_groups_tree, sizeof (struct empty_groups_tree)); } pws_free(pws_file, sizeof (struct pws3_file)); return (NULL); } enum pws_error_code pws3_file_get_error_code(struct pws3_file *pws_file) { return (pws_file->error.code); } const char * pws3_file_get_error_message(struct pws3_file *pws_file) { return ((pws_file->error.msg != NULL) ? pws_file->error.msg : ""); } static void stretch_key(unsigned char *stretched_key, uint32_t n_iter, const char *key, size_t key_size, const unsigned char *salt, size_t salt_size) { uint32_t i; struct sha256_ctx md_ctx; sha256_init(&md_ctx); sha256_update(&md_ctx, key_size, (uint8_t *)key); sha256_update(&md_ctx, salt_size, salt); sha256_digest(&md_ctx, SHA256_DIGEST_SIZE, stretched_key); for (i = 0; i < n_iter; i++) { sha256_update(&md_ctx, SHA256_DIGEST_SIZE, stretched_key); sha256_digest(&md_ctx, SHA256_DIGEST_SIZE, stretched_key); } } static int read_metadata(struct pws_file_ctx *ctx, const char *password) { int retval = -1; unsigned char buf[METADATA_SIZE]; unsigned char *p = buf; unsigned char *stretched_key = NULL; unsigned char *key_k = NULL; unsigned char *key_l = NULL; int read_retval; unsigned char salt[SALT_SIZE]; unsigned char key_digest[SHA256_DIGEST_SIZE]; struct sha256_ctx md_ctx; struct twofish_ctx cipher_ctx; stretched_key = pws_secure_alloc(SHA256_DIGEST_SIZE); if (stretched_key == NULL) { pws_set_error(ctx->pws_file, PWS_ERR_NO_MEMORY, "out of memory"); goto out; } key_k = pws_secure_alloc(KEY_SIZE); if (key_k == NULL) { pws_set_error(ctx->pws_file, PWS_ERR_NO_MEMORY, "out of memory"); goto out; } key_l = pws_secure_alloc(KEY_SIZE); if (key_l == NULL) { pws_set_error(ctx->pws_file, PWS_ERR_NO_MEMORY, "out of memory"); goto out; } read_retval = read_buf(ctx, buf, sizeof (buf)); if (read_retval == 1) { pws_set_error(ctx->pws_file, PWS_ERR_TRUNCATED_FILE, "unexpected end of file"); goto out; } else if (read_retval != 0) { pws_set_system_error(ctx->pws_file, PWS_ERR_IO_ERROR, errno, NULL); goto out; } /* check tag */ if (memcmp(p, psafe3_tag, sizeof (psafe3_tag)) != 0) { pws_set_error(ctx->pws_file, PWS_ERR_INVALID_HEADER, "unknown filetype"); goto out; } p += sizeof (psafe3_tag); /* salt */ memcpy(salt, p, SALT_SIZE); p += SALT_SIZE; /* iterations */ memcpy(&ctx->n_iter, p, 4); ctx->n_iter = le32toh(ctx->n_iter); if ((ctx->n_iter < 1) || (ctx->n_iter > MAX_ITER)) { pws_set_error(ctx->pws_file, PWS_ERR_INVALID_HEADER, "invalid number of iterations: %d", ctx->n_iter); goto out; } p += 4; /* verify password */ stretch_key(stretched_key, ctx->n_iter, password, strlen(password), salt, SALT_SIZE); sha256_init(&md_ctx); sha256_update(&md_ctx, SHA256_DIGEST_SIZE, stretched_key); sha256_digest(&md_ctx, SHA256_DIGEST_SIZE, key_digest); if (memcmp(key_digest, p, SHA256_DIGEST_SIZE) != 0) { pws_set_error(ctx->pws_file, PWS_ERR_INVALID_HEADER, "wrong password"); goto out; } p += SHA256_DIGEST_SIZE; /* decrypt keys */ twofish_set_key(&cipher_ctx, KEY_SIZE, stretched_key); twofish_decrypt(&cipher_ctx, KEY_SIZE, key_k, p); p += KEY_SIZE; twofish_decrypt(&cipher_ctx, KEY_SIZE, key_l, p); p += KEY_SIZE; /* set key for decryption */ twofish_set_key(&ctx->cipher_ctx.ctx, KEY_SIZE, key_k); /* set IV */ CBC_SET_IV(&ctx->cipher_ctx, p); /* set key for HMAC */ HMAC_SET_KEY(&ctx->hmac_ctx, &nettle_sha256, KEY_SIZE, key_l); retval = 0; out: pws_secure_free(stretched_key, (stretched_key != NULL) ? SHA256_DIGEST_SIZE : 0); pws_secure_free(key_l, (key_l != NULL) ? KEY_SIZE : 0); pws_secure_free(key_k, (key_k != NULL) ? KEY_SIZE : 0); return (retval); } static int read_block(struct pws_file_ctx *ctx, unsigned char *block) { unsigned char buf[TWOFISH_BLOCK_SIZE]; int read_retval; read_retval = read_buf(ctx, buf, sizeof (buf)); if (read_retval == 1) { pws_set_error(ctx->pws_file, PWS_ERR_TRUNCATED_FILE, "unexpected end of file"); return (-1); } else if (read_retval != 0) { pws_set_system_error(ctx->pws_file, PWS_ERR_IO_ERROR, errno, NULL); return (-1); } /* reached the EOF block marking the end of encrypted records */ if (memcmp(buf, eof_marker, TWOFISH_BLOCK_SIZE) == 0) { return (1); } CBC_DECRYPT(&ctx->cipher_ctx, twofish_decrypt, TWOFISH_BLOCK_SIZE, block, buf); return (0); } static int read_field(struct pws_file_ctx *ctx, struct pws3_field **fieldp, int is_header) { int retval = -1; enum pws_data_type data_type; struct pws3_field *field = NULL; unsigned char *block_buf = NULL; unsigned char *p; int read_retval; unsigned char *field_buf = NULL; uint32_t field_size; size_t remaining; size_t field_buf_size = 0; uint8_t field_type = 0xff; time_t data_time; uint32_t data_uint32; uint16_t data_uint16; uint8_t data_uint8; block_buf = pws_secure_alloc(TWOFISH_BLOCK_SIZE); if (block_buf == NULL) { pws_set_error(ctx->pws_file, PWS_ERR_NO_MEMORY, "out of memory"); goto out; } next_field: p = block_buf; /* read first block */ read_retval = read_block(ctx, block_buf); if (read_retval != 0) { retval = read_retval; goto out; } /* determine field length */ memcpy(&field_size, p, 4); remaining = field_buf_size = field_size = le32toh(field_size); p += 4; /* determine field type */ memcpy(&field_type, p, 1); p++; /* check for end of header fields or end of record */ if ((is_header && (field_type == PWS3_HEADER_FIELD_END)) || (!is_header && (field_type == PWS3_RECORD_FIELD_END))) { retval = 1; goto out; } /* skip empty fields */ if (field_size == 0) { goto next_field; } /* determine data type */ data_type = pws3_field_get_data_type(&(struct pws3_field){ .is_header = is_header, .field_type = field_type }); /* make room for a terminating \0 in text fields */ if (data_type == PWS_DATA_TYPE_TEXT) { field_buf_size++; } /* validate field length */ switch (data_type) { case PWS_DATA_TYPE_UUID: if ((field_size != 0) && (field_size != PWS3_UUID_SIZE)) { pws_set_error(ctx->pws_file, PWS_ERR_INVALID_HEADER, "invalid field length"); goto out; } break; case PWS_DATA_TYPE_TIME: /* FALLTHROUGH */ case PWS_DATA_TYPE_UINT32: if ((field_size != 0) && (field_size != 4)) { pws_set_error(ctx->pws_file, PWS_ERR_INVALID_HEADER, "invalid field length"); goto out; } break; case PWS_DATA_TYPE_UINT8: if ((field_size != 0) && (field_size != 1)) { pws_set_error(ctx->pws_file, PWS_ERR_INVALID_HEADER, "invalid field length"); goto out; } break; case PWS_DATA_TYPE_UINT16: if ((field_size != 0) && (field_size != 2)) { pws_set_error(ctx->pws_file, PWS_ERR_INVALID_HEADER, "invalid field length"); goto out; } break; default: /* text or bytes */ if ((!is_header && (field_type == PWS3_RECORD_FIELD_PASSWORD) && (field_buf_size > PWS3_MAX_PASSWORD_LEN)) || (field_buf_size > PWS3_MAX_FIELD_SIZE)) { pws_set_error(ctx->pws_file, PWS_ERR_INVALID_HEADER, "invalid field length"); goto out; } } field = pws3_field_create(is_header, field_type); if (field == NULL) { pws_set_system_error(ctx->pws_file, PWS_ERR_NO_MEMORY, errno, NULL); goto out; } /* create field */ if (field_buf_size > 0) { if (!is_header && (field_type == PWS3_RECORD_FIELD_PASSWORD)) { field_buf = pws_secure_alloc(field_buf_size); } else { field_buf = pws_alloc(field_buf_size); } if (field_buf == NULL) { pws_set_error(ctx->pws_file, PWS_ERR_NO_MEMORY, "out of memory"); goto out; } memset(field_buf, 0, field_buf_size); memcpy(field_buf, p, MIN(remaining, (size_t)TWOFISH_BLOCK_SIZE - (p - block_buf))); remaining -= MIN(remaining, (size_t)TWOFISH_BLOCK_SIZE - (p - block_buf)); while (remaining > 0) { read_retval = read_block(ctx, block_buf); if (read_retval != 0) { goto out; } memcpy(field_buf + (field_size - remaining), block_buf, MIN(remaining, TWOFISH_BLOCK_SIZE)); remaining -= MIN(remaining, TWOFISH_BLOCK_SIZE); } hmac_sha256_update(&ctx->hmac_ctx, field_size, field_buf); switch (data_type) { case PWS_DATA_TYPE_UUID: retval = pws3_field_set_uuid(field, field_buf); break; case PWS_DATA_TYPE_TEXT: retval = pws3_field_set_text(field, (char *)field_buf); break; case PWS_DATA_TYPE_TIME: memcpy(&data_uint32, field_buf, 4); data_time = le32toh(data_uint32); retval = pws3_field_set_time(field, data_time); break; case PWS_DATA_TYPE_UINT8: memcpy(&data_uint8, field_buf, 1); retval = pws3_field_set_uint8(field, data_uint8); break; case PWS_DATA_TYPE_UINT16: memcpy(&data_uint16, field_buf, 2); data_uint16 = le16toh(data_uint16); retval = pws3_field_set_uint16(field, data_uint16); break; case PWS_DATA_TYPE_UINT32: memcpy(&data_uint32, field_buf, 4); data_uint32 = le32toh(data_uint32); retval = pws3_field_set_uint32(field, data_uint32); break; case PWS_DATA_TYPE_BYTES: retval = pws3_field_set_bytes(field, field_buf, field_buf_size); } if (retval != 0) { goto out; } } retval = 0; out: if (!is_header && (field_type == PWS3_RECORD_FIELD_PASSWORD)) { pws_secure_free(field_buf, field_buf_size); } else { pws_free(field_buf, field_buf_size); } pws_secure_free(block_buf, (block_buf != NULL) ? (size_t)TWOFISH_BLOCK_SIZE : 0); if (retval == 0) { *fieldp = field; } else { pws3_field_destroy(field); } return (retval); } static int read_header(struct pws_file_ctx *ctx) { int retval; struct pws3_field *field = NULL; /* the header must start with a version field */ retval = read_field(ctx, &field, 1); if (retval != 0) { /* error or end of headers */ pws_set_error(ctx->pws_file, PWS_ERR_INVALID_HEADER, "header does not start with a version field"); return (-1); } else if (field->field_type != PWS3_HEADER_FIELD_VERSION) { /* header does not start with a version field */ pws3_field_destroy(field); pws_set_error(ctx->pws_file, PWS_ERR_INVALID_HEADER, "header does not start with a version field"); return (-1); } else if (field->value.uint16 > PWS3_VERSION) { /* unsupported database version */ pws3_field_destroy(field); pws_set_error(ctx->pws_file, PWS_ERR_UNSUPPORTED_VERSION, "unsupported database version"); return (-1); } pws3_file_set_header_field(ctx->pws_file, field); for (;;) { retval = read_field(ctx, &field, 1); if (retval == 1) { /* end of headers */ pws_set_error(ctx->pws_file, PWS_ERR_INVALID_HEADER, "unexpected end of headers"); break; } else if (retval != 0) { return (-1); } pws3_file_set_header_field(ctx->pws_file, field); } return (0); } static int read_records(struct pws_file_ctx *ctx) { int retval; struct pws3_record *record = NULL; struct pws3_field *field = NULL; for (;;) { /* * a record must consist of at least three fields, instead of * the first field there could also be an EOF marker */ retval = read_field(ctx, &field, 0); if (retval == 1) { /* EOF marker */ retval = 0; goto out; } else if (retval != 0) { /* read error */ goto out; } else if (field->field_type == PWS3_RECORD_FIELD_END) { /* empty record */ retval = -1; goto out; } record = pws3_record_create(); if (record == NULL) { pws_set_system_error(ctx->pws_file, PWS_ERR_NO_MEMORY, errno, NULL); goto out; } pws3_record_set_field(record, field); field = NULL; /* read the remaining fileds */ for (;;) { retval = read_field(ctx, &field, 0); if (retval == 1) { /* end of record */ break; } else if (retval != 0) { /* read error */ retval = -1; goto out; } pws3_record_set_field(record, field); field = NULL; } /* check whether UUID is not empty */ if (pws3_record_get_field(record, PWS3_RECORD_FIELD_UUID) == NULL) { /* record is missing mandatory fields */ pws_set_error(ctx->pws_file, PWS_ERR_INVALID_RECORD, "record is missing mandatory fields"); pws3_record_destroy(record); retval = -1; goto out; } pws3_file_insert_record(ctx->pws_file, record); record = NULL; } out: if (retval != 0) { pws3_field_destroy(field); pws3_record_destroy(record); } return (retval); } static int verify_checksum(struct pws_file_ctx *ctx) { int retval; unsigned char hmac_file[SHA256_DIGEST_SIZE]; unsigned char hmac[SHA256_DIGEST_SIZE]; retval = read_buf(ctx, hmac_file, sizeof (hmac_file)); if (retval == 1) { pws_set_error(ctx->pws_file, PWS_ERR_TRUNCATED_FILE, "unexpected end of file"); return (-1); } else if (retval != 0) { pws_set_system_error(ctx->pws_file, PWS_ERR_IO_ERROR, errno, NULL); return (-1); } hmac_sha256_digest(&ctx->hmac_ctx, sizeof (hmac), hmac); if (memcmp(hmac_file, hmac, sizeof (hmac_file)) != 0) { /* inconsistent database */ pws_set_error(ctx->pws_file, PWS_ERR_INVALID_CHECKSUM, "checksum failed"); return (-1); } return (0); } static int pws3_file_read(struct pws3_file *pws_file, const char *password, unsigned char *s, size_t n, FILE *fp) { int retval = -1; struct pws_file_ctx ctx = { .fp = fp, .mem = s, .mem_size = n, .mem_pos = 0, .pws_file = pws_file, }; pws_file_clear(pws_file); retval = read_metadata(&ctx, password); if (retval != 0) { goto out; } retval = read_header(&ctx); if (retval != 0) { goto out; } retval = read_records(&ctx); if (retval != 0) { goto out; } retval = verify_checksum(&ctx); if (retval != 0) { goto out; } out: if (retval != 0) { pws_file_clear(ctx.pws_file); } return (retval); } int pws3_file_read_mem(struct pws3_file *pws_file, const char *password, unsigned char *s, size_t n) { return (pws3_file_read(pws_file, password, s, n, NULL)); } int pws3_file_read_stream(struct pws3_file *pws_file, const char *password, FILE *fp) { return (pws3_file_read(pws_file, password, NULL, 0, fp)); } static int write_metadata(struct pws_file_ctx *ctx, const char *password) { int retval = -1; unsigned char *stretched_key = NULL; unsigned char *key_k = NULL; unsigned char *key_l = NULL; unsigned char metadata[METADATA_SIZE]; unsigned char *p = metadata; unsigned char *salt; uint32_t n_iter_le; struct sha256_ctx md_ctx; unsigned char *b1; unsigned char *b3; unsigned char *iv; struct twofish_ctx cipher_ctx; stretched_key = pws_secure_alloc(SHA256_DIGEST_SIZE); if (stretched_key == NULL) { pws_set_error(ctx->pws_file, PWS_ERR_NO_MEMORY, "out of memory"); goto out; } key_k = pws_secure_alloc(KEY_SIZE); if (key_k == NULL) { pws_set_error(ctx->pws_file, PWS_ERR_NO_MEMORY, "out of memory"); goto out; } key_l = pws_secure_alloc(KEY_SIZE); if (key_l == NULL) { pws_set_error(ctx->pws_file, PWS_ERR_NO_MEMORY, "out of memory"); goto out; } /* generate new keys */ if (pws_random_bytes(key_k, KEY_SIZE) != 0) { pws_set_error(ctx->pws_file, PWS_ERR_GENERIC_ERROR, "failed to generate key"); goto out; } if (pws_random_bytes(key_l, KEY_SIZE) != 0) { pws_set_error(ctx->pws_file, PWS_ERR_GENERIC_ERROR, "failed to generate key"); goto out; } /* tag */ memcpy(p, psafe3_tag, sizeof (psafe3_tag)); p += sizeof (psafe3_tag); /* generate new salt */ salt = p; if (pws_random_bytes(salt, SALT_SIZE) != 0) { pws_set_error(ctx->pws_file, PWS_ERR_GENERIC_ERROR, "failed to generate salt"); goto out; } p += SALT_SIZE; /* number of iterations */ n_iter_le = htole32(ctx->n_iter); memcpy(p, &n_iter_le, 4); p += 4; /* stretch, hash password */ stretch_key(stretched_key, ctx->n_iter, password, strlen(password), salt, SALT_SIZE); sha256_init(&md_ctx); sha256_update(&md_ctx, SHA256_DIGEST_SIZE, stretched_key); sha256_digest(&md_ctx, SHA256_DIGEST_SIZE, p); p += SHA256_DIGEST_SIZE; b1 = p; p += KEY_SIZE; b3 = p; p += KEY_SIZE; /* generate IV */ iv = p; if (pws_random_bytes(iv, TWOFISH_BLOCK_SIZE) != 0) { pws_set_error(ctx->pws_file, PWS_ERR_GENERIC_ERROR, "failed to generate IV"); goto out; } /* encrypt keys */ twofish_set_key(&cipher_ctx, KEY_SIZE, stretched_key); twofish_encrypt(&cipher_ctx, KEY_SIZE, b1, key_k); twofish_encrypt(&cipher_ctx, KEY_SIZE, b3, key_l); /* set key for decryption */ twofish_set_key(&ctx->cipher_ctx.ctx, KEY_SIZE, key_k); /* set IV */ CBC_SET_IV(&ctx->cipher_ctx, p); /* set key for HMAC */ hmac_sha256_set_key(&ctx->hmac_ctx, KEY_SIZE, key_l); /* write metadata */ if (write_buf(ctx, metadata, sizeof (metadata)) != 0) { pws_set_system_error(ctx->pws_file, PWS_ERR_IO_ERROR, errno, NULL); retval = -1; goto out; } retval = 0; out: pws_secure_free(key_k, (key_k != NULL) ? KEY_SIZE : 0); pws_secure_free(key_l, (key_l != NULL) ? KEY_SIZE : 0); pws_secure_free(stretched_key, (stretched_key != NULL) ? SHA256_DIGEST_SIZE : 0); return (retval); } static int write_block(struct pws_file_ctx *ctx, unsigned char *block) { unsigned char buf[TWOFISH_BLOCK_SIZE]; CBC_ENCRYPT(&ctx->cipher_ctx, twofish_encrypt, sizeof (buf), buf, block); if (write_buf(ctx, buf, sizeof (buf)) != 0) { pws_set_system_error(ctx->pws_file, PWS_ERR_IO_ERROR, errno, NULL); return (-1); } return (0); } static int write_field(struct pws_file_ctx *ctx, struct pws3_field *field) { int retval = -1; unsigned char *buf = NULL; unsigned char *p; unsigned char *field_data; enum pws_data_type data_type; size_t blocks = (field->size + 4 + 1) / TWOFISH_BLOCK_SIZE + ((field->size + 4 + 1) % TWOFISH_BLOCK_SIZE != 0); size_t i; size_t j; uint32_t len_le; buf = pws_secure_alloc(TWOFISH_BLOCK_SIZE); if (buf == NULL) { pws_set_error(ctx->pws_file, PWS_ERR_NO_MEMORY, "out of memory"); goto out; } data_type = pws3_field_get_data_type(field); for (i = 0, j = 0; i < blocks; i++) { p = field_data = buf; if (pws_random_bytes(buf, TWOFISH_BLOCK_SIZE) != 0) { pws_set_error(ctx->pws_file, PWS_ERR_GENERIC_ERROR, "could not get random numbers"); goto out; } /* the first block of the field contains the length and type */ if (i == 0) { len_le = htole32(field->size); memcpy(p, &len_le, 4); p += 4; *p = field->field_type; p++; field_data = p; } while ((j < field->size) && (p - buf < (ptrdiff_t)TWOFISH_BLOCK_SIZE)) { switch (data_type) { case PWS_DATA_TYPE_UINT8: *p = field->value.uint8; break; case PWS_DATA_TYPE_UINT16: /* little endian */ *p = (field->value.uint16 >> (8 * j)) & 0xff; break; case PWS_DATA_TYPE_TIME: /* FALLTHROUGH */ case PWS_DATA_TYPE_UINT32: /* little endian */ *p = (field->value.uint32 >> (8 * j)) & 0xff; break; case PWS_DATA_TYPE_TEXT: *p = field->value.text[j]; break; case PWS_DATA_TYPE_UUID: *p = field->value.uuid[j]; break; default: *p = field->value.bytes[j]; } p++; j++; } hmac_sha256_update(&ctx->hmac_ctx, p - field_data, field_data); retval = write_block(ctx, buf); if (retval != 0) { goto out; } } retval = 0; out: pws_secure_free(buf, (buf != NULL) ? TWOFISH_BLOCK_SIZE : 0); return (retval); } static int write_header(struct pws_file_ctx *ctx) { int retval = -1; size_t i; struct pws3_field *version_field; struct pws3_field *field = NULL; struct pws3_field *end_field = NULL; end_field = pws3_field_create(1, PWS3_HEADER_FIELD_END); if (end_field == NULL) { pws_set_system_error(ctx->pws_file, PWS_ERR_NO_MEMORY, errno, NULL); goto out; } version_field = pws3_file_get_header_field(ctx->pws_file, PWS3_HEADER_FIELD_VERSION); if (version_field == NULL) { /* add mandatory version header version_field if necessary */ version_field = pws3_field_create(1, PWS3_HEADER_FIELD_VERSION); if (version_field == NULL) { pws_set_system_error(ctx->pws_file, PWS_ERR_NO_MEMORY, errno, NULL); goto out; } pws3_field_set_uint16(version_field, PWS3_VERSION); pws3_file_set_header_field(ctx->pws_file, version_field); } retval = write_field(ctx, version_field); if (retval != 0) { goto out; } for (i = 0x01; i < 0xff; i++) { if (ctx->pws_file->fields[i] != NULL) { retval = write_field(ctx, ctx->pws_file->fields[i]); if (retval != 0) { goto out; } } } RB_FOREACH(field, empty_groups_tree, ctx->pws_file->empty_groups_tree) { retval = write_field(ctx, field); if (retval != 0) { goto out; } } retval = write_field(ctx, end_field); if (retval != 0) { goto out; } out: pws3_field_destroy(end_field); return (retval); } static int write_records(struct pws_file_ctx *ctx) { int retval = -1; struct pws3_field *end_field = NULL; size_t i; struct pws3_record *record; end_field = pws3_field_create(0, PWS3_RECORD_FIELD_END); if (end_field == NULL) { pws_set_system_error(ctx->pws_file, PWS_ERR_NO_MEMORY, errno, NULL); goto out; } RB_FOREACH(record, records_tree, ctx->pws_file->records_tree) { /* record fields */ for (i = 0x01; i < 0xff; i++) { if (record->fields[i] != NULL) { retval = write_field(ctx, record->fields[i]); if (retval != 0) { goto out; } } } /* end of entry marker */ retval = write_field(ctx, end_field); if (retval != 0) { goto out; } } /* end of file marker */ if (write_buf(ctx, eof_marker, sizeof (eof_marker)) != 0) { pws_set_system_error(ctx->pws_file, PWS_ERR_IO_ERROR, errno, NULL); retval = -1; goto out; } retval = 0; out: pws3_field_destroy(end_field); return (retval); } static int write_checksum(struct pws_file_ctx *ctx) { unsigned char hmac[SHA256_DIGEST_SIZE]; hmac_sha256_digest(&ctx->hmac_ctx, sizeof (hmac), hmac); if (write_buf(ctx, hmac, sizeof (hmac)) != 0) { pws_set_system_error(ctx->pws_file, PWS_ERR_IO_ERROR, errno, NULL); return (-1); } return (0); } static int pws3_file_write(struct pws3_file *pws_file, const char *password, uint32_t n_iter, unsigned char **memp, size_t *mem_sizep, FILE *fp) { int retval = -1; struct pws_file_ctx ctx = { .fp = fp, .pws_file = pws_file, .n_iter = n_iter }; retval = write_metadata(&ctx, password); if (retval != 0) { goto out; } retval = write_header(&ctx); if (retval != 0) { goto out; } retval = write_records(&ctx); if (retval != 0) { goto out; } retval = write_checksum(&ctx); if (retval != 0) { goto out; } if (memp != NULL) { *memp = ctx.mem; *mem_sizep = ctx.mem_size; } out: if (retval != 0) { pws_free(ctx.mem, ctx.mem_size); } return (retval); } int pws3_file_write_mem(struct pws3_file *pws_file, const char *password, uint32_t n_iter, unsigned char **memp, size_t *mem_sizep) { PWS_ASSERT(memp != NULL); PWS_ASSERT(mem_sizep != NULL); return (pws3_file_write(pws_file, password, n_iter, memp, mem_sizep, NULL)); } int pws3_file_write_stream(struct pws3_file *pws_file, const char *password, uint32_t n_iter, FILE *fp) { PWS_ASSERT(fp != NULL); return (pws3_file_write(pws_file, password, n_iter, NULL, NULL, fp)); } void pws3_file_set_header_field(struct pws3_file *pws_file, struct pws3_field *field) { PWS_ASSERT(pws3_field_is_header(field)); PWS_ASSERT((pws3_field_get_data_type(field) != PWS_DATA_TYPE_TEXT) || (field->value.text != NULL)); PWS_ASSERT((pws3_field_get_data_type(field) != PWS_DATA_TYPE_BYTES) || (field->value.bytes != NULL)); if (field->field_type == PWS3_HEADER_FIELD_EMPTY_GROUPS) { pws3_file_insert_empty_group(pws_file, field); return; } pws3_field_destroy(pws3_file_remove_header_field(pws_file, field->field_type)); pws_file->fields[field->field_type] = field; } struct pws3_field * pws3_file_get_header_field(struct pws3_file *pws_file, uint8_t field_type) { if (field_type == PWS3_HEADER_FIELD_EMPTY_GROUPS) { return (pws3_file_first_empty_group(pws_file)); } return (pws_file->fields[field_type]); } struct pws3_field * pws3_file_remove_header_field(struct pws3_file *pws_file, uint8_t field_type) { struct pws3_field *field; if (field_type == PWS3_HEADER_FIELD_EMPTY_GROUPS) { return (NULL); } field = pws3_file_get_header_field(pws_file, field_type); pws_file->fields[field_type] = NULL; return (field); } void pws3_file_insert_empty_group(struct pws3_file *pws_file, struct pws3_field *field) { const char *group_name; PWS_ASSERT(pws3_field_is_header(field)); PWS_ASSERT(pws3_field_get_type(field) == PWS3_HEADER_FIELD_EMPTY_GROUPS); group_name = pws3_field_get_text(field); pws3_field_destroy(pws3_file_remove_empty_group(pws_file, group_name)); RB_INSERT(empty_groups_tree, pws_file->empty_groups_tree, field); } struct pws3_field * pws3_file_get_empty_group(struct pws3_file *pws_file, const char *group_name) { return (RB_FIND(empty_groups_tree, pws_file->empty_groups_tree, (&(struct pws3_field){ .is_header = 1, .field_type = PWS3_HEADER_FIELD_EMPTY_GROUPS, .value.text = (char *)group_name }))); } struct pws3_field * pws3_file_remove_empty_group(struct pws3_file *pws_file, const char *group_name) { struct pws3_field *field; field = RB_FIND(empty_groups_tree, pws_file->empty_groups_tree, (&(struct pws3_field){ .is_header = 1, .field_type = PWS3_HEADER_FIELD_EMPTY_GROUPS, .value.text = (char *)group_name })); if (field != NULL) { RB_REMOVE(empty_groups_tree, pws_file->empty_groups_tree, field); } return (field); } struct pws3_field * pws3_file_first_empty_group(struct pws3_file *pws_file) { return (RB_MIN(empty_groups_tree, pws_file->empty_groups_tree)); } struct pws3_field * pws3_file_last_empty_group(struct pws3_file *pws_file) { return (RB_MAX(empty_groups_tree, pws_file->empty_groups_tree)); } struct pws3_field * pws3_file_next_empty_group(struct pws3_file *pws_file, struct pws3_field *field) { return (RB_NEXT(empty_groups_tree, pws_file->empty_groups_tree, field)); } struct pws3_field * pws3_file_prev_empty_group(struct pws3_file *pws_file, struct pws3_field *field) { return (RB_PREV(empty_groups_tree, pws_file->empty_groups_tree, field)); } void pws3_file_insert_record(struct pws3_file *pws_file, struct pws3_record *record) { struct pws3_field *uuid_field; const unsigned char *uuid; uuid_field = pws3_record_get_field(record, PWS3_RECORD_FIELD_UUID); PWS_ASSERT(uuid_field != NULL); uuid = pws3_field_get_uuid(uuid_field); /* replace existing record */ pws3_record_destroy(pws3_file_remove_record(pws_file, uuid)); RB_INSERT(records_tree, pws_file->records_tree, record); } struct pws3_record * pws3_file_get_record(struct pws3_file *pws_file, const unsigned char uuid[static PWS3_UUID_SIZE]) { struct pws3_field uuid_field = { .is_header = 0, .field_type = PWS3_RECORD_FIELD_UUID }; struct pws3_record search_record = { .fields[PWS3_RECORD_FIELD_UUID] = &uuid_field }; memcpy(uuid_field.value.uuid, uuid, PWS3_UUID_SIZE); return (RB_FIND(records_tree, pws_file->records_tree, &search_record)); } struct pws3_record * pws3_file_remove_record(struct pws3_file *pws_file, const unsigned char uuid[static PWS3_UUID_SIZE]) { struct pws3_record *record; record = pws3_file_get_record(pws_file, uuid); if (record != NULL) { RB_REMOVE(records_tree, pws_file->records_tree, record); } return (record); } struct pws3_record * pws3_file_first_record(struct pws3_file *pws_file) { return (RB_MIN(records_tree, pws_file->records_tree)); } struct pws3_record * pws3_file_last_record(struct pws3_file *pws_file) { return (RB_MAX(records_tree, pws_file->records_tree)); } struct pws3_record * pws3_file_next_record(struct pws3_file *pws_file, struct pws3_record *record) { return (RB_NEXT(records_tree, pws_file->records_tree, record)); } struct pws3_record * pws3_file_prev_record(struct pws3_file *pws_file, struct pws3_record *record) { return (RB_PREV(records_tree, pws_file->records_tree, record)); }