/* sendme.c -- generated by Trunnel v1.5.2. * https://gitweb.torproject.org/trunnel.git * You probably shouldn't edit this file. */ #include #include "trunnel-impl.h" #include "sendme.h" #define TRUNNEL_SET_ERROR_CODE(obj) \ do { \ (obj)->trunnel_error_code_ = 1; \ } while (0) #if defined(__COVERITY__) || defined(__clang_analyzer__) /* If we're running a static analysis tool, we don't want it to complain * that some of our remaining-bytes checks are dead-code. */ int sendme_deadcode_dummy__ = 0; #define OR_DEADCODE_DUMMY || sendme_deadcode_dummy__ #else #define OR_DEADCODE_DUMMY #endif #define CHECK_REMAINING(nbytes, label) \ do { \ if (remaining < (nbytes) OR_DEADCODE_DUMMY) { \ goto label; \ } \ } while (0) sendme_cell_t * sendme_cell_new(void) { sendme_cell_t *val = trunnel_calloc(1, sizeof(sendme_cell_t)); if (NULL == val) return NULL; return val; } /** Release all storage held inside 'obj', but do not free 'obj'. */ static void sendme_cell_clear(sendme_cell_t *obj) { (void) obj; TRUNNEL_DYNARRAY_WIPE(&obj->data); TRUNNEL_DYNARRAY_CLEAR(&obj->data); } void sendme_cell_free(sendme_cell_t *obj) { if (obj == NULL) return; sendme_cell_clear(obj); trunnel_memwipe(obj, sizeof(sendme_cell_t)); trunnel_free_(obj); } uint8_t sendme_cell_get_version(const sendme_cell_t *inp) { return inp->version; } int sendme_cell_set_version(sendme_cell_t *inp, uint8_t val) { if (! ((val == 0 || val == 1))) { TRUNNEL_SET_ERROR_CODE(inp); return -1; } inp->version = val; return 0; } uint16_t sendme_cell_get_data_len(const sendme_cell_t *inp) { return inp->data_len; } int sendme_cell_set_data_len(sendme_cell_t *inp, uint16_t val) { inp->data_len = val; return 0; } size_t sendme_cell_getlen_data(const sendme_cell_t *inp) { return TRUNNEL_DYNARRAY_LEN(&inp->data); } uint8_t sendme_cell_get_data(sendme_cell_t *inp, size_t idx) { return TRUNNEL_DYNARRAY_GET(&inp->data, idx); } uint8_t sendme_cell_getconst_data(const sendme_cell_t *inp, size_t idx) { return sendme_cell_get_data((sendme_cell_t*)inp, idx); } int sendme_cell_set_data(sendme_cell_t *inp, size_t idx, uint8_t elt) { TRUNNEL_DYNARRAY_SET(&inp->data, idx, elt); return 0; } int sendme_cell_add_data(sendme_cell_t *inp, uint8_t elt) { #if SIZE_MAX >= UINT16_MAX if (inp->data.n_ == UINT16_MAX) goto trunnel_alloc_failed; #endif TRUNNEL_DYNARRAY_ADD(uint8_t, &inp->data, elt, {}); return 0; trunnel_alloc_failed: TRUNNEL_SET_ERROR_CODE(inp); return -1; } uint8_t * sendme_cell_getarray_data(sendme_cell_t *inp) { return inp->data.elts_; } const uint8_t * sendme_cell_getconstarray_data(const sendme_cell_t *inp) { return (const uint8_t *)sendme_cell_getarray_data((sendme_cell_t*)inp); } int sendme_cell_setlen_data(sendme_cell_t *inp, size_t newlen) { uint8_t *newptr; #if UINT16_MAX < SIZE_MAX if (newlen > UINT16_MAX) goto trunnel_alloc_failed; #endif newptr = trunnel_dynarray_setlen(&inp->data.allocated_, &inp->data.n_, inp->data.elts_, newlen, sizeof(inp->data.elts_[0]), (trunnel_free_fn_t) NULL, &inp->trunnel_error_code_); if (newlen != 0 && newptr == NULL) goto trunnel_alloc_failed; inp->data.elts_ = newptr; return 0; trunnel_alloc_failed: TRUNNEL_SET_ERROR_CODE(inp); return -1; } const char * sendme_cell_check(const sendme_cell_t *obj) { if (obj == NULL) return "Object was NULL"; if (obj->trunnel_error_code_) return "A set function failed on this object"; if (! (obj->version == 0 || obj->version == 1)) return "Integer out of bounds"; if (TRUNNEL_DYNARRAY_LEN(&obj->data) != obj->data_len) return "Length mismatch for data"; return NULL; } ssize_t sendme_cell_encoded_len(const sendme_cell_t *obj) { ssize_t result = 0; if (NULL != sendme_cell_check(obj)) return -1; /* Length of u8 version IN [0, 1] */ result += 1; /* Length of u16 data_len */ result += 2; /* Length of u8 data[data_len] */ result += TRUNNEL_DYNARRAY_LEN(&obj->data); return result; } int sendme_cell_clear_errors(sendme_cell_t *obj) { int r = obj->trunnel_error_code_; obj->trunnel_error_code_ = 0; return r; } ssize_t sendme_cell_encode(uint8_t *output, const size_t avail, const sendme_cell_t *obj) { ssize_t result = 0; size_t written = 0; uint8_t *ptr = output; const char *msg; #ifdef TRUNNEL_CHECK_ENCODED_LEN const ssize_t encoded_len = sendme_cell_encoded_len(obj); #endif if (NULL != (msg = sendme_cell_check(obj))) goto check_failed; #ifdef TRUNNEL_CHECK_ENCODED_LEN trunnel_assert(encoded_len >= 0); #endif /* Encode u8 version IN [0, 1] */ trunnel_assert(written <= avail); if (avail - written < 1) goto truncated; trunnel_set_uint8(ptr, (obj->version)); written += 1; ptr += 1; /* Encode u16 data_len */ trunnel_assert(written <= avail); if (avail - written < 2) goto truncated; trunnel_set_uint16(ptr, trunnel_htons(obj->data_len)); written += 2; ptr += 2; /* Encode u8 data[data_len] */ { size_t elt_len = TRUNNEL_DYNARRAY_LEN(&obj->data); trunnel_assert(obj->data_len == elt_len); trunnel_assert(written <= avail); if (avail - written < elt_len) goto truncated; if (elt_len) memcpy(ptr, obj->data.elts_, elt_len); written += elt_len; ptr += elt_len; } trunnel_assert(ptr == output + written); #ifdef TRUNNEL_CHECK_ENCODED_LEN { trunnel_assert(encoded_len >= 0); trunnel_assert((size_t)encoded_len == written); } #endif return written; truncated: result = -2; goto fail; check_failed: (void)msg; result = -1; goto fail; fail: trunnel_assert(result < 0); return result; } /** As sendme_cell_parse(), but do not allocate the output object. */ static ssize_t sendme_cell_parse_into(sendme_cell_t *obj, const uint8_t *input, const size_t len_in) { const uint8_t *ptr = input; size_t remaining = len_in; ssize_t result = 0; (void)result; /* Parse u8 version IN [0, 1] */ CHECK_REMAINING(1, truncated); obj->version = (trunnel_get_uint8(ptr)); remaining -= 1; ptr += 1; if (! (obj->version == 0 || obj->version == 1)) goto fail; /* Parse u16 data_len */ CHECK_REMAINING(2, truncated); obj->data_len = trunnel_ntohs(trunnel_get_uint16(ptr)); remaining -= 2; ptr += 2; /* Parse u8 data[data_len] */ CHECK_REMAINING(obj->data_len, truncated); TRUNNEL_DYNARRAY_EXPAND(uint8_t, &obj->data, obj->data_len, {}); obj->data.n_ = obj->data_len; if (obj->data_len) memcpy(obj->data.elts_, ptr, obj->data_len); ptr += obj->data_len; remaining -= obj->data_len; trunnel_assert(ptr + remaining == input + len_in); return len_in - remaining; truncated: return -2; trunnel_alloc_failed: return -1; fail: result = -1; return result; } ssize_t sendme_cell_parse(sendme_cell_t **output, const uint8_t *input, const size_t len_in) { ssize_t result; *output = sendme_cell_new(); if (NULL == *output) return -1; result = sendme_cell_parse_into(*output, input, len_in); if (result < 0) { sendme_cell_free(*output); *output = NULL; } return result; } sendme_data_v1_t * sendme_data_v1_new(void) { sendme_data_v1_t *val = trunnel_calloc(1, sizeof(sendme_data_v1_t)); if (NULL == val) return NULL; return val; } /** Release all storage held inside 'obj', but do not free 'obj'. */ static void sendme_data_v1_clear(sendme_data_v1_t *obj) { (void) obj; } void sendme_data_v1_free(sendme_data_v1_t *obj) { if (obj == NULL) return; sendme_data_v1_clear(obj); trunnel_memwipe(obj, sizeof(sendme_data_v1_t)); trunnel_free_(obj); } size_t sendme_data_v1_getlen_digest(const sendme_data_v1_t *inp) { (void)inp; return 4; } uint8_t sendme_data_v1_get_digest(sendme_data_v1_t *inp, size_t idx) { trunnel_assert(idx < 4); return inp->digest[idx]; } uint8_t sendme_data_v1_getconst_digest(const sendme_data_v1_t *inp, size_t idx) { return sendme_data_v1_get_digest((sendme_data_v1_t*)inp, idx); } int sendme_data_v1_set_digest(sendme_data_v1_t *inp, size_t idx, uint8_t elt) { trunnel_assert(idx < 4); inp->digest[idx] = elt; return 0; } uint8_t * sendme_data_v1_getarray_digest(sendme_data_v1_t *inp) { return inp->digest; } const uint8_t * sendme_data_v1_getconstarray_digest(const sendme_data_v1_t *inp) { return (const uint8_t *)sendme_data_v1_getarray_digest((sendme_data_v1_t*)inp); } const char * sendme_data_v1_check(const sendme_data_v1_t *obj) { if (obj == NULL) return "Object was NULL"; if (obj->trunnel_error_code_) return "A set function failed on this object"; return NULL; } ssize_t sendme_data_v1_encoded_len(const sendme_data_v1_t *obj) { ssize_t result = 0; if (NULL != sendme_data_v1_check(obj)) return -1; /* Length of u8 digest[4] */ result += 4; return result; } int sendme_data_v1_clear_errors(sendme_data_v1_t *obj) { int r = obj->trunnel_error_code_; obj->trunnel_error_code_ = 0; return r; } ssize_t sendme_data_v1_encode(uint8_t *output, const size_t avail, const sendme_data_v1_t *obj) { ssize_t result = 0; size_t written = 0; uint8_t *ptr = output; const char *msg; #ifdef TRUNNEL_CHECK_ENCODED_LEN const ssize_t encoded_len = sendme_data_v1_encoded_len(obj); #endif if (NULL != (msg = sendme_data_v1_check(obj))) goto check_failed; #ifdef TRUNNEL_CHECK_ENCODED_LEN trunnel_assert(encoded_len >= 0); #endif /* Encode u8 digest[4] */ trunnel_assert(written <= avail); if (avail - written < 4) goto truncated; memcpy(ptr, obj->digest, 4); written += 4; ptr += 4; trunnel_assert(ptr == output + written); #ifdef TRUNNEL_CHECK_ENCODED_LEN { trunnel_assert(encoded_len >= 0); trunnel_assert((size_t)encoded_len == written); } #endif return written; truncated: result = -2; goto fail; check_failed: (void)msg; result = -1; goto fail; fail: trunnel_assert(result < 0); return result; } /** As sendme_data_v1_parse(), but do not allocate the output object. */ static ssize_t sendme_data_v1_parse_into(sendme_data_v1_t *obj, const uint8_t *input, const size_t len_in) { const uint8_t *ptr = input; size_t remaining = len_in; ssize_t result = 0; (void)result; /* Parse u8 digest[4] */ CHECK_REMAINING(4, truncated); memcpy(obj->digest, ptr, 4); remaining -= 4; ptr += 4; trunnel_assert(ptr + remaining == input + len_in); return len_in - remaining; truncated: return -2; } ssize_t sendme_data_v1_parse(sendme_data_v1_t **output, const uint8_t *input, const size_t len_in) { ssize_t result; *output = sendme_data_v1_new(); if (NULL == *output) return -1; result = sendme_data_v1_parse_into(*output, input, len_in); if (result < 0) { sendme_data_v1_free(*output); *output = NULL; } return result; }