/* Copyright (c) 2014, Daniel Martí * Copyright (c) 2014-2018, The Tor Project, Inc. */ /* See LICENSE for licensing information */ /** * \file consdiff.c * \brief Consensus diff implementation, including both the generation and the * application of diffs in a minimal ed format. * * The consensus diff application is done in consdiff_apply_diff, which relies * on apply_ed_diff for the main ed diff part and on some digest helper * functions to check the digest hashes found in the consensus diff header. * * The consensus diff generation is more complex. consdiff_gen_diff generates * it, relying on gen_ed_diff to generate the ed diff and some digest helper * functions to generate the digest hashes. * * gen_ed_diff is the tricky bit. In it simplest form, it will take quadratic * time and linear space to generate an ed diff given two smartlists. As shown * in its comment section, calling calc_changes on the entire two consensuses * will calculate what is to be added and what is to be deleted in the diff. * Its comment section briefly explains how it works. * * In our case specific to consensuses, we take advantage of the fact that * consensuses list routers sorted by their identities. We use that * information to avoid running calc_changes on the whole smartlists. * gen_ed_diff will navigate through the two consensuses identity by identity * and will send small couples of slices to calc_changes, keeping the running * time near-linear. This is explained in more detail in the gen_ed_diff * comments. * * The allocation strategy tries to save time and memory by avoiding needless * copies. Instead of actually splitting the inputs into separate strings, we * allocate cdline_t objects, each of which represents a line in the original * object or in the output. We use memarea_t allocators to manage the * temporary memory we use when generating or applying diffs. **/ #define CONSDIFF_PRIVATE #include "or.h" #include "consdiff.h" #include "memarea.h" #include "routerparse.h" static const char* ns_diff_version = "network-status-diff-version 1"; static const char* hash_token = "hash"; static char *consensus_join_lines(const smartlist_t *inp); /** Return true iff a and b have the same contents. */ STATIC int lines_eq(const cdline_t *a, const cdline_t *b) { return a->len == b->len && fast_memeq(a->s, b->s, a->len); } /** Return true iff a has the same contents as the nul-terminated string b. */ STATIC int line_str_eq(const cdline_t *a, const char *b) { const size_t len = strlen(b); tor_assert(len <= UINT32_MAX); cdline_t bline = { b, (uint32_t)len }; return lines_eq(a, &bline); } /** Return true iff a begins with the same contents as the nul-terminated * string b. */ static int line_starts_with_str(const cdline_t *a, const char *b) { const size_t len = strlen(b); tor_assert(len <= UINT32_MAX); return a->len >= len && fast_memeq(a->s, b, len); } /** Return a new cdline_t holding as its contents the nul-terminated * string s. Use the provided memory area for storage. */ static cdline_t * cdline_linecpy(memarea_t *area, const char *s) { size_t len = strlen(s); const char *ss = memarea_memdup(area, s, len); cdline_t *line = memarea_alloc(area, sizeof(cdline_t)); line->s = ss; line->len = (uint32_t)len; return line; } /** Add a cdline_t to lst holding as its contents the nul-terminated * string s. Use the provided memory area for storage. */ STATIC void smartlist_add_linecpy(smartlist_t *lst, memarea_t *area, const char *s) { smartlist_add(lst, cdline_linecpy(area, s)); } /** Compute the digest of cons, and store the result in * digest_out. Return 0 on success, -1 on failure. */ /* This is a separate, mockable function so that we can override it when * fuzzing. */ MOCK_IMPL(STATIC int, consensus_compute_digest,(const char *cons, consensus_digest_t *digest_out)) { int r = crypto_digest256((char*)digest_out->sha3_256, cons, strlen(cons), DIGEST_SHA3_256); return r; } /** Compute the digest-as-signed of cons, and store the result in * digest_out. Return 0 on success, -1 on failure. */ /* This is a separate, mockable function so that we can override it when * fuzzing. */ MOCK_IMPL(STATIC int, consensus_compute_digest_as_signed,(const char *cons, consensus_digest_t *digest_out)) { return router_get_networkstatus_v3_sha3_as_signed(digest_out->sha3_256, cons); } /** Return true iff d1 and d2 contain the same digest */ /* This is a separate, mockable function so that we can override it when * fuzzing. */ MOCK_IMPL(STATIC int, consensus_digest_eq,(const uint8_t *d1, const uint8_t *d2)) { return fast_memeq(d1, d2, DIGEST256_LEN); } /** Create (allocate) a new slice from a smartlist. Assumes that the start * and the end indexes are within the bounds of the initial smartlist. The end * element is not part of the resulting slice. If end is -1, the slice is to * reach the end of the smartlist. */ STATIC smartlist_slice_t * smartlist_slice(const smartlist_t *list, int start, int end) { int list_len = smartlist_len(list); tor_assert(start >= 0); tor_assert(start <= list_len); if (end == -1) { end = list_len; } tor_assert(start <= end); smartlist_slice_t *slice = tor_malloc(sizeof(smartlist_slice_t)); slice->list = list; slice->offset = start; slice->len = end - start; return slice; } /** Helper: Compute the longest common subsequence lengths for the two slices. * Used as part of the diff generation to find the column at which to split * slice2 while still having the optimal solution. * If direction is -1, the navigation is reversed. Otherwise it must be 1. * The length of the resulting integer array is that of the second slice plus * one. */ STATIC int * lcs_lengths(const smartlist_slice_t *slice1, const smartlist_slice_t *slice2, int direction) { size_t a_size = sizeof(int) * (slice2->len+1); /* Resulting lcs lengths. */ int *result = tor_malloc_zero(a_size); /* Copy of the lcs lengths from the last iteration. */ int *prev = tor_malloc(a_size); tor_assert(direction == 1 || direction == -1); int si = slice1->offset; if (direction == -1) { si += (slice1->len-1); } for (int i = 0; i < slice1->len; ++i, si+=direction) { const cdline_t *line1 = smartlist_get(slice1->list, si); /* Store the last results. */ memcpy(prev, result, a_size); int sj = slice2->offset; if (direction == -1) { sj += (slice2->len-1); } for (int j = 0; j < slice2->len; ++j, sj+=direction) { const cdline_t *line2 = smartlist_get(slice2->list, sj); if (lines_eq(line1, line2)) { /* If the lines are equal, the lcs is one line longer. */ result[j + 1] = prev[j] + 1; } else { /* If not, see what lcs parent path is longer. */ result[j + 1] = MAX(result[j], prev[j + 1]); } } } tor_free(prev); return result; } /** Helper: Trim any number of lines that are equally at the start or the end * of both slices. */ STATIC void trim_slices(smartlist_slice_t *slice1, smartlist_slice_t *slice2) { while (slice1->len>0 && slice2->len>0) { const cdline_t *line1 = smartlist_get(slice1->list, slice1->offset); const cdline_t *line2 = smartlist_get(slice2->list, slice2->offset); if (!lines_eq(line1, line2)) { break; } slice1->offset++; slice1->len--; slice2->offset++; slice2->len--; } int i1 = (slice1->offset+slice1->len)-1; int i2 = (slice2->offset+slice2->len)-1; while (slice1->len>0 && slice2->len>0) { const cdline_t *line1 = smartlist_get(slice1->list, i1); const cdline_t *line2 = smartlist_get(slice2->list, i2); if (!lines_eq(line1, line2)) { break; } i1--; slice1->len--; i2--; slice2->len--; } } /** Like smartlist_string_pos, but uses a cdline_t, and is restricted to the * bounds of the slice. */ STATIC int smartlist_slice_string_pos(const smartlist_slice_t *slice, const cdline_t *string) { int end = slice->offset + slice->len; for (int i = slice->offset; i < end; ++i) { const cdline_t *el = smartlist_get(slice->list, i); if (lines_eq(el, string)) { return i; } } return -1; } /** Helper: Set all the appropriate changed booleans to true. The first slice * must be of length 0 or 1. All the lines of slice1 and slice2 which are not * present in the other slice will be set to changed in their bool array. * The two changed bool arrays are passed in the same order as the slices. */ STATIC void set_changed(bitarray_t *changed1, bitarray_t *changed2, const smartlist_slice_t *slice1, const smartlist_slice_t *slice2) { int toskip = -1; tor_assert(slice1->len == 0 || slice1->len == 1); if (slice1->len == 1) { const cdline_t *line_common = smartlist_get(slice1->list, slice1->offset); toskip = smartlist_slice_string_pos(slice2, line_common); if (toskip == -1) { bitarray_set(changed1, slice1->offset); } } int end = slice2->offset + slice2->len; for (int i = slice2->offset; i < end; ++i) { if (i != toskip) { bitarray_set(changed2, i); } } } /* * Helper: Given that slice1 has been split by half into top and bot, we want * to fetch the column at which to split slice2 so that we are still on track * to the optimal diff solution, i.e. the shortest one. We use lcs_lengths * since the shortest diff is just another way to say the longest common * subsequence. */ static int optimal_column_to_split(const smartlist_slice_t *top, const smartlist_slice_t *bot, const smartlist_slice_t *slice2) { int *lens_top = lcs_lengths(top, slice2, 1); int *lens_bot = lcs_lengths(bot, slice2, -1); int column=0, max_sum=-1; for (int i = 0; i < slice2->len+1; ++i) { int sum = lens_top[i] + lens_bot[slice2->len-i]; if (sum > max_sum) { column = i; max_sum = sum; } } tor_free(lens_top); tor_free(lens_bot); return column; } /** * Helper: Figure out what elements are new or gone on the second smartlist * relative to the first smartlist, and store the booleans in the bitarrays. * True on the first bitarray means the element is gone, true on the second * bitarray means it's new. * * In its base case, either of the smartlists is of length <= 1 and we can * quickly see what elements are new or are gone. In the other case, we will * split one smartlist by half and we'll use optimal_column_to_split to find * the optimal column at which to split the second smartlist so that we are * finding the smallest diff possible. */ STATIC void calc_changes(smartlist_slice_t *slice1, smartlist_slice_t *slice2, bitarray_t *changed1, bitarray_t *changed2) { trim_slices(slice1, slice2); if (slice1->len <= 1) { set_changed(changed1, changed2, slice1, slice2); } else if (slice2->len <= 1) { set_changed(changed2, changed1, slice2, slice1); /* Keep on splitting the slices in two. */ } else { smartlist_slice_t *top, *bot, *left, *right; /* Split the first slice in half. */ int mid = slice1->len/2; top = smartlist_slice(slice1->list, slice1->offset, slice1->offset+mid); bot = smartlist_slice(slice1->list, slice1->offset+mid, slice1->offset+slice1->len); /* Split the second slice by the optimal column. */ int mid2 = optimal_column_to_split(top, bot, slice2); left = smartlist_slice(slice2->list, slice2->offset, slice2->offset+mid2); right = smartlist_slice(slice2->list, slice2->offset+mid2, slice2->offset+slice2->len); calc_changes(top, left, changed1, changed2); calc_changes(bot, right, changed1, changed2); tor_free(top); tor_free(bot); tor_free(left); tor_free(right); } } /* This table is from crypto.c. The SP and PAD defines are different. */ #define NOT_VALID_BASE64 255 #define X NOT_VALID_BASE64 #define SP NOT_VALID_BASE64 #define PAD NOT_VALID_BASE64 static const uint8_t base64_compare_table[256] = { X, X, X, X, X, X, X, X, X, SP, SP, SP, X, SP, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, SP, X, X, X, X, X, X, X, X, X, X, 62, X, X, X, 63, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, X, X, X, PAD, X, X, X, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, X, X, X, X, X, X, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, }; /** Helper: Get the identity hash from a router line, assuming that the line * at least appears to be a router line and thus starts with "r ". * * If an identity hash is found, store it (without decoding it) in * hash_out, and return 0. On failure, return -1. */ STATIC int get_id_hash(const cdline_t *line, cdline_t *hash_out) { if (line->len < 2) return -1; /* Skip the router name. */ const char *hash = memchr(line->s + 2, ' ', line->len - 2); if (!hash) { return -1; } hash++; const char *hash_end = hash; /* Stop when the first non-base64 character is found. Use unsigned chars to * avoid negative indexes causing crashes. */ while (base64_compare_table[*((unsigned char*)hash_end)] != NOT_VALID_BASE64 && hash_end < line->s + line->len) { hash_end++; } /* Empty hash. */ if (hash_end == hash) { return -1; } hash_out->s = hash; /* Always true because lines are limited to this length */ tor_assert(hash_end >= hash); tor_assert((size_t)(hash_end - hash) <= UINT32_MAX); hash_out->len = (uint32_t)(hash_end - hash); return 0; } /** Helper: Check that a line is a valid router entry. We must at least be * able to fetch a proper identity hash from it for it to be valid. */ STATIC int is_valid_router_entry(const cdline_t *line) { if (line->len < 2 || fast_memneq(line->s, "r ", 2)) return 0; cdline_t tmp; return (get_id_hash(line, &tmp) == 0); } /** Helper: Find the next router line starting at the current position. * Assumes that cur is lower than the length of the smartlist, i.e. it is a * line within the bounds of the consensus. The only exception is when we * don't want to skip the first line, in which case cur will be -1. */ STATIC int next_router(const smartlist_t *cons, int cur) { int len = smartlist_len(cons); tor_assert(cur >= -1 && cur < len); if (++cur >= len) { return len; } const cdline_t *line = smartlist_get(cons, cur); while (!is_valid_router_entry(line)) { if (++cur >= len) { return len; } line = smartlist_get(cons, cur); } return cur; } /** Helper: compare two base64-encoded identity hashes, which may be of * different lengths. Comparison ends when the first non-base64 char is found. */ STATIC int base64cmp(const cdline_t *hash1, const cdline_t *hash2) { /* NULL is always lower, useful for last_hash which starts at NULL. */ if (!hash1->s && !hash2->s) { return 0; } if (!hash1->s) { return -1; } if (!hash2->s) { return 1; } /* Don't index with a char; char may be signed. */ const unsigned char *a = (unsigned char*)hash1->s; const unsigned char *b = (unsigned char*)hash2->s; const unsigned char *a_end = a + hash1->len; const unsigned char *b_end = b + hash2->len; while (1) { uint8_t av = base64_compare_table[*a]; uint8_t bv = base64_compare_table[*b]; if (av == NOT_VALID_BASE64) { if (bv == NOT_VALID_BASE64) { /* Both ended with exactly the same characters. */ return 0; } else { /* hash2 goes on longer than hash1 and thus hash1 is lower. */ return -1; } } else if (bv == NOT_VALID_BASE64) { /* hash1 goes on longer than hash2 and thus hash1 is greater. */ return 1; } else if (av < bv) { /* The first difference shows that hash1 is lower. */ return -1; } else if (av > bv) { /* The first difference shows that hash1 is greater. */ return 1; } else { a++; b++; if (a == a_end) { if (b == b_end) { return 0; } else { return -1; } } else if (b == b_end) { return 1; } } } } /** Structure used to remember the previous and current identity hash of * the "r " lines in a consensus, to enforce well-ordering. */ typedef struct router_id_iterator_t { cdline_t last_hash; cdline_t hash; } router_id_iterator_t; /** * Initializer for a router_id_iterator_t. */ #define ROUTER_ID_ITERATOR_INIT { { NULL, 0 }, { NULL, 0 } } /** Given an index *idxp into the consensus at cons, advance * the index to the next router line ("r ...") in the consensus, or to * an index one after the end of the list if there is no such line. * * Use iter to record the hash of the found router line, if any, * and to enforce ordering on the hashes. If the hashes are mis-ordered, * return -1. Else, return 0. **/ static int find_next_router_line(const smartlist_t *cons, const char *consname, int *idxp, router_id_iterator_t *iter) { *idxp = next_router(cons, *idxp); if (*idxp < smartlist_len(cons)) { memcpy(&iter->last_hash, &iter->hash, sizeof(cdline_t)); if (get_id_hash(smartlist_get(cons, *idxp), &iter->hash) < 0 || base64cmp(&iter->hash, &iter->last_hash) <= 0) { log_warn(LD_CONSDIFF, "Refusing to generate consensus diff because " "the %s consensus doesn't have its router entries sorted " "properly.", consname); return -1; } } return 0; } /** Line-prefix indicating the beginning of the signatures section that we * intend to delete. */ #define START_OF_SIGNATURES_SECTION "directory-signature " /** Pre-process a consensus in cons (represented as a list of cdline_t) * to remove the signatures from it. If the footer is removed, return a * cdline_t containing a delete command to delete the footer, allocated in * area. If no footer is removed, return NULL. * * We remove the signatures here because they are not themselves signed, and * as such there might be different encodings for them. */ static cdline_t * preprocess_consensus(memarea_t *area, smartlist_t *cons) { int idx; int dirsig_idx = -1; for (idx = 0; idx < smartlist_len(cons); ++idx) { cdline_t *line = smartlist_get(cons, idx); if (line_starts_with_str(line, START_OF_SIGNATURES_SECTION)) { dirsig_idx = idx; break; } } if (dirsig_idx >= 0) { char buf[64]; while (smartlist_len(cons) > dirsig_idx) smartlist_del(cons, dirsig_idx); tor_snprintf(buf, sizeof(buf), "%d,$d", dirsig_idx+1); return cdline_linecpy(area, buf); } else { return NULL; } } /** Generate an ed diff as a smartlist from two consensuses, also given as * smartlists. Will return NULL if the diff could not be generated, which can * happen if any lines the script had to add matched "." or if the routers * were not properly ordered. * * All cdline_t objects in the resulting object are either references to lines * in one of the inputs, or are newly allocated lines in the provided memarea. * * This implementation is consensus-specific. To generate an ed diff for any * given input in quadratic time, you can replace all the code until the * navigation in reverse order with the following: * * int len1 = smartlist_len(cons1); * int len2 = smartlist_len(cons2); * bitarray_t *changed1 = bitarray_init_zero(len1); * bitarray_t *changed2 = bitarray_init_zero(len2); * cons1_sl = smartlist_slice(cons1, 0, -1); * cons2_sl = smartlist_slice(cons2, 0, -1); * calc_changes(cons1_sl, cons2_sl, changed1, changed2); */ STATIC smartlist_t * gen_ed_diff(const smartlist_t *cons1_orig, const smartlist_t *cons2, memarea_t *area) { smartlist_t *cons1 = smartlist_new(); smartlist_add_all(cons1, cons1_orig); cdline_t *remove_trailer = preprocess_consensus(area, cons1); int len1 = smartlist_len(cons1); int len2 = smartlist_len(cons2); smartlist_t *result = smartlist_new(); if (remove_trailer) { /* There's a delete-the-trailer line at the end, so add it here. */ smartlist_add(result, remove_trailer); } /* Initialize the changed bitarrays to zero, so that calc_changes only needs * to set the ones that matter and leave the rest untouched. */ bitarray_t *changed1 = bitarray_init_zero(len1); bitarray_t *changed2 = bitarray_init_zero(len2); int i1=-1, i2=-1; int start1=0, start2=0; /* To check that hashes are ordered properly */ router_id_iterator_t iter1 = ROUTER_ID_ITERATOR_INIT; router_id_iterator_t iter2 = ROUTER_ID_ITERATOR_INIT; /* i1 and i2 are initialized at the first line of each consensus. They never * reach past len1 and len2 respectively, since next_router doesn't let that * happen. i1 and i2 are advanced by at least one line at each iteration as * long as they have not yet reached len1 and len2, so the loop is * guaranteed to end, and each pair of (i1,i2) will be inspected at most * once. */ while (i1 < len1 || i2 < len2) { /* Advance each of the two navigation positions by one router entry if not * yet at the end. */ if (i1 < len1) { if (find_next_router_line(cons1, "base", &i1, &iter1) < 0) { goto error_cleanup; } } if (i2 < len2) { if (find_next_router_line(cons2, "target", &i2, &iter2) < 0) { goto error_cleanup; } } /* If we have reached the end of both consensuses, there is no need to * compare hashes anymore, since this is the last iteration. */ if (i1 < len1 || i2 < len2) { /* Keep on advancing the lower (by identity hash sorting) position until * we have two matching positions. The only other possible outcome is * that a lower position reaches the end of the consensus before it can * reach a hash that is no longer the lower one. Since there will always * be a lower hash for as long as the loop runs, one of the two indexes * will always be incremented, thus assuring that the loop must end * after a finite number of iterations. If that cannot be because said * consensus has already reached the end, both are extended to their * respecting ends since we are done. */ int cmp = base64cmp(&iter1.hash, &iter2.hash); while (cmp != 0) { if (i1 < len1 && cmp < 0) { if (find_next_router_line(cons1, "base", &i1, &iter1) < 0) { goto error_cleanup; } if (i1 == len1) { /* We finished the first consensus, so grab all the remaining * lines of the second consensus and finish up. */ i2 = len2; break; } } else if (i2 < len2 && cmp > 0) { if (find_next_router_line(cons2, "target", &i2, &iter2) < 0) { goto error_cleanup; } if (i2 == len2) { /* We finished the second consensus, so grab all the remaining * lines of the first consensus and finish up. */ i1 = len1; break; } } else { i1 = len1; i2 = len2; break; } cmp = base64cmp(&iter1.hash, &iter2.hash); } } /* Make slices out of these chunks (up to the common router entry) and * calculate the changes for them. * Error if any of the two slices are longer than 10K lines. That should * never happen with any pair of real consensuses. Feeding more than 10K * lines to calc_changes would be very slow anyway. */ #define MAX_LINE_COUNT (10000) if (i1-start1 > MAX_LINE_COUNT || i2-start2 > MAX_LINE_COUNT) { log_warn(LD_CONSDIFF, "Refusing to generate consensus diff because " "we found too few common router ids."); goto error_cleanup; } smartlist_slice_t *cons1_sl = smartlist_slice(cons1, start1, i1); smartlist_slice_t *cons2_sl = smartlist_slice(cons2, start2, i2); calc_changes(cons1_sl, cons2_sl, changed1, changed2); tor_free(cons1_sl); tor_free(cons2_sl); start1 = i1, start2 = i2; } /* Navigate the changes in reverse order and generate one ed command for * each chunk of changes. */ i1=len1-1, i2=len2-1; char buf[128]; while (i1 >= 0 || i2 >= 0) { int start1x, start2x, end1, end2, added, deleted; /* We are at a point were no changed bools are true, so just keep going. */ if (!(i1 >= 0 && bitarray_is_set(changed1, i1)) && !(i2 >= 0 && bitarray_is_set(changed2, i2))) { if (i1 >= 0) { i1--; } if (i2 >= 0) { i2--; } continue; } end1 = i1, end2 = i2; /* Grab all contiguous changed lines */ while (i1 >= 0 && bitarray_is_set(changed1, i1)) { i1--; } while (i2 >= 0 && bitarray_is_set(changed2, i2)) { i2--; } start1x = i1+1, start2x = i2+1; added = end2-i2, deleted = end1-i1; if (added == 0) { if (deleted == 1) { tor_snprintf(buf, sizeof(buf), "%id", start1x+1); smartlist_add_linecpy(result, area, buf); } else { tor_snprintf(buf, sizeof(buf), "%i,%id", start1x+1, start1x+deleted); smartlist_add_linecpy(result, area, buf); } } else { int i; if (deleted == 0) { tor_snprintf(buf, sizeof(buf), "%ia", start1x); smartlist_add_linecpy(result, area, buf); } else if (deleted == 1) { tor_snprintf(buf, sizeof(buf), "%ic", start1x+1); smartlist_add_linecpy(result, area, buf); } else { tor_snprintf(buf, sizeof(buf), "%i,%ic", start1x+1, start1x+deleted); smartlist_add_linecpy(result, area, buf); } for (i = start2x; i <= end2; ++i) { cdline_t *line = smartlist_get(cons2, i); if (line_str_eq(line, ".")) { log_warn(LD_CONSDIFF, "Cannot generate consensus diff because " "one of the lines to be added is \".\"."); goto error_cleanup; } smartlist_add(result, line); } smartlist_add_linecpy(result, area, "."); } } smartlist_free(cons1); bitarray_free(changed1); bitarray_free(changed2); return result; error_cleanup: smartlist_free(cons1); bitarray_free(changed1); bitarray_free(changed2); smartlist_free(result); return NULL; } /* Helper: Read a base-10 number between 0 and INT32_MAX from s and * store it in num_out. Advance s to the characer immediately * after the number. Return 0 on success, -1 on failure. */ static int get_linenum(const char **s, int *num_out) { int ok; char *next; if (!TOR_ISDIGIT(**s)) { return -1; } *num_out = (int) tor_parse_long(*s, 10, 0, INT32_MAX, &ok, &next); if (ok && next) { *s = next; return 0; } else { return -1; } } /** Apply the ed diff, starting at diff_starting_line, to the consensus * and return a new consensus, also as a line-based smartlist. Will return * NULL if the ed diff is not properly formatted. * * All cdline_t objects in the resulting object are references to lines * in one of the inputs; nothing is copied. */ STATIC smartlist_t * apply_ed_diff(const smartlist_t *cons1, const smartlist_t *diff, int diff_starting_line) { int diff_len = smartlist_len(diff); int j = smartlist_len(cons1); smartlist_t *cons2 = smartlist_new(); for (int i=diff_starting_line; ilen > sizeof(diff_line) - 1) { log_warn(LD_CONSDIFF, "Could not apply consensus diff because " "an ed command was far too long"); goto error_cleanup; } /* Copy the line to make it nul-terminated. */ memcpy(diff_line, diff_cdline->s, diff_cdline->len); diff_line[diff_cdline->len] = 0; const char *ptr = diff_line; int start = 0, end = 0; int had_range = 0; int end_was_eof = 0; if (get_linenum(&ptr, &start) < 0) { log_warn(LD_CONSDIFF, "Could not apply consensus diff because " "an ed command was missing a line number."); goto error_cleanup; } if (*ptr == ',') { /* Two-item range */ had_range = 1; ++ptr; if (*ptr == '$') { end_was_eof = 1; end = smartlist_len(cons1); ++ptr; } else if (get_linenum(&ptr, &end) < 0) { log_warn(LD_CONSDIFF, "Could not apply consensus diff because " "an ed command was missing a range end line number."); goto error_cleanup; } /* Incoherent range. */ if (end <= start) { log_warn(LD_CONSDIFF, "Could not apply consensus diff because " "an invalid range was found in an ed command."); goto error_cleanup; } } else { /* We'll take as , for simplicity. */ end = start; } if (end > j) { log_warn(LD_CONSDIFF, "Could not apply consensus diff because " "its commands are not properly sorted in reverse order."); goto error_cleanup; } if (*ptr == '\0') { log_warn(LD_CONSDIFF, "Could not apply consensus diff because " "a line with no ed command was found"); goto error_cleanup; } if (*(ptr+1) != '\0') { log_warn(LD_CONSDIFF, "Could not apply consensus diff because " "an ed command longer than one char was found."); goto error_cleanup; } char action = *ptr; switch (action) { case 'a': case 'c': case 'd': break; default: log_warn(LD_CONSDIFF, "Could not apply consensus diff because " "an unrecognised ed command was found."); goto error_cleanup; } /** $ is not allowed with non-d actions. */ if (end_was_eof && action != 'd') { log_warn(LD_CONSDIFF, "Could not apply consensus diff because " "it wanted to use $ with a command other than delete"); goto error_cleanup; } /* 'a' commands are not allowed to have ranges. */ if (had_range && action == 'a') { log_warn(LD_CONSDIFF, "Could not apply consensus diff because " "it wanted to add lines after a range."); goto error_cleanup; } /* Add unchanged lines. */ for (; j && j > end; --j) { cdline_t *cons_line = smartlist_get(cons1, j-1); smartlist_add(cons2, cons_line); } /* Ignore removed lines. */ if (action == 'c' || action == 'd') { while (--j >= start) { /* Skip line */ } } /* Add new lines in reverse order, since it will all be reversed at the * end. */ if (action == 'a' || action == 'c') { int added_end = i; i++; /* Skip the line with the range and command. */ while (i < diff_len) { if (line_str_eq(smartlist_get(diff, i), ".")) { break; } if (++i == diff_len) { log_warn(LD_CONSDIFF, "Could not apply consensus diff because " "it has lines to be inserted that don't end with a \".\"."); goto error_cleanup; } } int added_i = i-1; /* It would make no sense to add zero new lines. */ if (added_i == added_end) { log_warn(LD_CONSDIFF, "Could not apply consensus diff because " "it has an ed command that tries to insert zero lines."); goto error_cleanup; } while (added_i > added_end) { cdline_t *added_line = smartlist_get(diff, added_i--); smartlist_add(cons2, added_line); } } } /* Add remaining unchanged lines. */ for (; j > 0; --j) { cdline_t *cons_line = smartlist_get(cons1, j-1); smartlist_add(cons2, cons_line); } /* Reverse the whole thing since we did it from the end. */ smartlist_reverse(cons2); return cons2; error_cleanup: smartlist_free(cons2); return NULL; } /** Generate a consensus diff as a smartlist from two given consensuses, also * as smartlists. Will return NULL if the consensus diff could not be * generated. Neither of the two consensuses are modified in any way, so it's * up to the caller to free their resources. */ smartlist_t * consdiff_gen_diff(const smartlist_t *cons1, const smartlist_t *cons2, const consensus_digest_t *digests1, const consensus_digest_t *digests2, memarea_t *area) { smartlist_t *ed_diff = gen_ed_diff(cons1, cons2, area); /* ed diff could not be generated - reason already logged by gen_ed_diff. */ if (!ed_diff) { goto error_cleanup; } /* See that the script actually produces what we want. */ smartlist_t *ed_cons2 = apply_ed_diff(cons1, ed_diff, 0); if (!ed_cons2) { /* LCOV_EXCL_START -- impossible if diff generation is correct */ log_warn(LD_BUG|LD_CONSDIFF, "Refusing to generate consensus diff because " "the generated ed diff could not be tested to successfully generate " "the target consensus."); goto error_cleanup; /* LCOV_EXCL_STOP */ } int cons2_eq = 1; if (smartlist_len(cons2) == smartlist_len(ed_cons2)) { SMARTLIST_FOREACH_BEGIN(cons2, const cdline_t *, line1) { const cdline_t *line2 = smartlist_get(ed_cons2, line1_sl_idx); if (! lines_eq(line1, line2) ) { cons2_eq = 0; break; } } SMARTLIST_FOREACH_END(line1); } else { cons2_eq = 0; } smartlist_free(ed_cons2); if (!cons2_eq) { /* LCOV_EXCL_START -- impossible if diff generation is correct. */ log_warn(LD_BUG|LD_CONSDIFF, "Refusing to generate consensus diff because " "the generated ed diff did not generate the target consensus " "successfully when tested."); goto error_cleanup; /* LCOV_EXCL_STOP */ } char cons1_hash_hex[HEX_DIGEST256_LEN+1]; char cons2_hash_hex[HEX_DIGEST256_LEN+1]; base16_encode(cons1_hash_hex, HEX_DIGEST256_LEN+1, (const char*)digests1->sha3_256, DIGEST256_LEN); base16_encode(cons2_hash_hex, HEX_DIGEST256_LEN+1, (const char*)digests2->sha3_256, DIGEST256_LEN); /* Create the resulting consensus diff. */ char buf[160]; smartlist_t *result = smartlist_new(); tor_snprintf(buf, sizeof(buf), "%s", ns_diff_version); smartlist_add_linecpy(result, area, buf); tor_snprintf(buf, sizeof(buf), "%s %s %s", hash_token, cons1_hash_hex, cons2_hash_hex); smartlist_add_linecpy(result, area, buf); smartlist_add_all(result, ed_diff); smartlist_free(ed_diff); return result; error_cleanup: if (ed_diff) { /* LCOV_EXCL_START -- ed_diff is NULL except in unreachable cases above */ smartlist_free(ed_diff); /* LCOV_EXCL_STOP */ } return NULL; } /** Fetch the digest of the base consensus in the consensus diff, encoded in * base16 as found in the diff itself. digest1_out and digest2_out must be of * length DIGEST256_LEN or larger if not NULL. */ int consdiff_get_digests(const smartlist_t *diff, char *digest1_out, char *digest2_out) { smartlist_t *hash_words = NULL; const cdline_t *format; char cons1_hash[DIGEST256_LEN], cons2_hash[DIGEST256_LEN]; char *cons1_hash_hex, *cons2_hash_hex; if (smartlist_len(diff) < 2) { log_info(LD_CONSDIFF, "The provided consensus diff is too short."); goto error_cleanup; } /* Check that it's the format and version we know. */ format = smartlist_get(diff, 0); if (!line_str_eq(format, ns_diff_version)) { log_warn(LD_CONSDIFF, "The provided consensus diff format is not known."); goto error_cleanup; } /* Grab the base16 digests. */ hash_words = smartlist_new(); { const cdline_t *line2 = smartlist_get(diff, 1); char *h = tor_memdup_nulterm(line2->s, line2->len); smartlist_split_string(hash_words, h, " ", 0, 0); tor_free(h); } /* There have to be three words, the first of which must be hash_token. */ if (smartlist_len(hash_words) != 3 || strcmp(smartlist_get(hash_words, 0), hash_token)) { log_info(LD_CONSDIFF, "The provided consensus diff does not include " "the necessary digests."); goto error_cleanup; } /* Expected hashes as found in the consensus diff header. They must be of * length HEX_DIGEST256_LEN, normally 64 hexadecimal characters. * If any of the decodings fail, error to make sure that the hashes are * proper base16-encoded digests. */ cons1_hash_hex = smartlist_get(hash_words, 1); cons2_hash_hex = smartlist_get(hash_words, 2); if (strlen(cons1_hash_hex) != HEX_DIGEST256_LEN || strlen(cons2_hash_hex) != HEX_DIGEST256_LEN) { log_info(LD_CONSDIFF, "The provided consensus diff includes " "base16-encoded digests of incorrect size."); goto error_cleanup; } if (base16_decode(cons1_hash, DIGEST256_LEN, cons1_hash_hex, HEX_DIGEST256_LEN) != DIGEST256_LEN || base16_decode(cons2_hash, DIGEST256_LEN, cons2_hash_hex, HEX_DIGEST256_LEN) != DIGEST256_LEN) { log_info(LD_CONSDIFF, "The provided consensus diff includes " "malformed digests."); goto error_cleanup; } if (digest1_out) { memcpy(digest1_out, cons1_hash, DIGEST256_LEN); } if (digest2_out) { memcpy(digest2_out, cons2_hash, DIGEST256_LEN); } SMARTLIST_FOREACH(hash_words, char *, cp, tor_free(cp)); smartlist_free(hash_words); return 0; error_cleanup: if (hash_words) { SMARTLIST_FOREACH(hash_words, char *, cp, tor_free(cp)); smartlist_free(hash_words); } return 1; } /** Apply the consensus diff to the given consensus and return a new * consensus, also as a line-based smartlist. Will return NULL if the diff * could not be applied. Neither the consensus nor the diff are modified in * any way, so it's up to the caller to free their resources. */ char * consdiff_apply_diff(const smartlist_t *cons1, const smartlist_t *diff, const consensus_digest_t *digests1) { smartlist_t *cons2 = NULL; char *cons2_str = NULL; char e_cons1_hash[DIGEST256_LEN]; char e_cons2_hash[DIGEST256_LEN]; if (consdiff_get_digests(diff, e_cons1_hash, e_cons2_hash) != 0) { goto error_cleanup; } /* See that the consensus that was given to us matches its hash. */ if (!consensus_digest_eq(digests1->sha3_256, (const uint8_t*)e_cons1_hash)) { char hex_digest1[HEX_DIGEST256_LEN+1]; char e_hex_digest1[HEX_DIGEST256_LEN+1]; log_warn(LD_CONSDIFF, "Refusing to apply consensus diff because " "the base consensus doesn't match the digest as found in " "the consensus diff header."); base16_encode(hex_digest1, HEX_DIGEST256_LEN+1, (const char *)digests1->sha3_256, DIGEST256_LEN); base16_encode(e_hex_digest1, HEX_DIGEST256_LEN+1, e_cons1_hash, DIGEST256_LEN); log_warn(LD_CONSDIFF, "Expected: %s; found: %s", hex_digest1, e_hex_digest1); goto error_cleanup; } /* Grab the ed diff and calculate the resulting consensus. */ /* Skip the first two lines. */ cons2 = apply_ed_diff(cons1, diff, 2); /* ed diff could not be applied - reason already logged by apply_ed_diff. */ if (!cons2) { goto error_cleanup; } cons2_str = consensus_join_lines(cons2); consensus_digest_t cons2_digests; if (consensus_compute_digest(cons2_str, &cons2_digests) < 0) { /* LCOV_EXCL_START -- digest can't fail */ log_warn(LD_CONSDIFF, "Could not compute digests of the consensus " "resulting from applying a consensus diff."); goto error_cleanup; /* LCOV_EXCL_STOP */ } /* See that the resulting consensus matches its hash. */ if (!consensus_digest_eq(cons2_digests.sha3_256, (const uint8_t*)e_cons2_hash)) { log_warn(LD_CONSDIFF, "Refusing to apply consensus diff because " "the resulting consensus doesn't match the digest as found in " "the consensus diff header."); char hex_digest2[HEX_DIGEST256_LEN+1]; char e_hex_digest2[HEX_DIGEST256_LEN+1]; base16_encode(hex_digest2, HEX_DIGEST256_LEN+1, (const char *)cons2_digests.sha3_256, DIGEST256_LEN); base16_encode(e_hex_digest2, HEX_DIGEST256_LEN+1, e_cons2_hash, DIGEST256_LEN); log_warn(LD_CONSDIFF, "Expected: %s; found: %s", hex_digest2, e_hex_digest2); goto error_cleanup; } goto done; error_cleanup: tor_free(cons2_str); /* Sets it to NULL */ done: if (cons2) { smartlist_free(cons2); } return cons2_str; } /** Any consensus line longer than this means that the input is invalid. */ #define CONSENSUS_LINE_MAX_LEN (1<<20) /** * Helper: For every NL-terminated line in s, add a cdline referring to * that line (without trailing newline) to out. Return -1 if there are * any non-NL terminated lines; 0 otherwise. * * Unlike tor_split_lines, this function avoids ambiguity on its * handling of a final line that isn't NL-terminated. * * All cdline_t objects are allocated in the provided memarea. Strings * are not copied: if s changes or becomes invalid, then all * generated cdlines will become invalid. */ STATIC int consensus_split_lines(smartlist_t *out, const char *s, memarea_t *area) { const char *end_of_str = s + strlen(s); tor_assert(*end_of_str == '\0'); while (*s) { const char *eol = memchr(s, '\n', end_of_str - s); if (!eol) { /* File doesn't end with newline. */ return -1; } if (eol - s > CONSENSUS_LINE_MAX_LEN) { /* Line is far too long. */ return -1; } cdline_t *line = memarea_alloc(area, sizeof(cdline_t)); line->s = s; line->len = (uint32_t)(eol - s); smartlist_add(out, line); s = eol+1; } return 0; } /** Given a list of cdline_t, return a newly allocated string containing * all of the lines, terminated with NL, concatenated. * * Unlike smartlist_join_strings(), avoids lossy operations on empty * lists. */ static char * consensus_join_lines(const smartlist_t *inp) { size_t n = 0; SMARTLIST_FOREACH(inp, const cdline_t *, cdline, n += cdline->len + 1); n += 1; char *result = tor_malloc(n); char *out = result; SMARTLIST_FOREACH_BEGIN(inp, const cdline_t *, cdline) { memcpy(out, cdline->s, cdline->len); out += cdline->len; *out++ = '\n'; } SMARTLIST_FOREACH_END(cdline); *out++ = '\0'; tor_assert(out == result+n); return result; } /** Given two consensus documents, try to compute a diff between them. On * success, retun a newly allocated string containing that diff. On failure, * return NULL. */ char * consensus_diff_generate(const char *cons1, const char *cons2) { consensus_digest_t d1, d2; smartlist_t *lines1 = NULL, *lines2 = NULL, *result_lines = NULL; int r1, r2; char *result = NULL; r1 = consensus_compute_digest_as_signed(cons1, &d1); r2 = consensus_compute_digest(cons2, &d2); if (BUG(r1 < 0 || r2 < 0)) return NULL; // LCOV_EXCL_LINE memarea_t *area = memarea_new(); lines1 = smartlist_new(); lines2 = smartlist_new(); if (consensus_split_lines(lines1, cons1, area) < 0) goto done; if (consensus_split_lines(lines2, cons2, area) < 0) goto done; result_lines = consdiff_gen_diff(lines1, lines2, &d1, &d2, area); done: if (result_lines) { result = consensus_join_lines(result_lines); smartlist_free(result_lines); } memarea_drop_all(area); smartlist_free(lines1); smartlist_free(lines2); return result; } /** Given a consensus document and a diff, try to apply the diff to the * consensus. On success return a newly allocated string containing the new * consensus. On failure, return NULL. */ char * consensus_diff_apply(const char *consensus, const char *diff) { consensus_digest_t d1; smartlist_t *lines1 = NULL, *lines2 = NULL; int r1; char *result = NULL; memarea_t *area = memarea_new(); r1 = consensus_compute_digest_as_signed(consensus, &d1); if (BUG(r1 < 0)) return NULL; // LCOV_EXCL_LINE lines1 = smartlist_new(); lines2 = smartlist_new(); if (consensus_split_lines(lines1, consensus, area) < 0) goto done; if (consensus_split_lines(lines2, diff, area) < 0) goto done; result = consdiff_apply_diff(lines1, lines2, &d1); done: smartlist_free(lines1); smartlist_free(lines2); memarea_drop_all(area); return result; } /** Return true iff, based on its header, document is likely * to be a consensus diff. */ int looks_like_a_consensus_diff(const char *document, size_t len) { return (len >= strlen(ns_diff_version) && fast_memeq(document, ns_diff_version, strlen(ns_diff_version))); }