From 78e9bb837c258ac0ec7712b3d612cc2f407e731e Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Wed, 12 Jun 2024 05:50:42 +0200 Subject: Merging upstream version 256. Signed-off-by: Daniel Baumann --- src/libsystemd/sd-journal/fsprg.c | 208 ++++++++++++++++++++------------------ 1 file changed, 109 insertions(+), 99 deletions(-) (limited to 'src/libsystemd/sd-journal/fsprg.c') diff --git a/src/libsystemd/sd-journal/fsprg.c b/src/libsystemd/sd-journal/fsprg.c index e86be6a..85632b0 100644 --- a/src/libsystemd/sd-journal/fsprg.c +++ b/src/libsystemd/sd-journal/fsprg.c @@ -3,21 +3,6 @@ * fsprg v0.1 - (seekable) forward-secure pseudorandom generator * Copyright © 2012 B. Poettering * Contact: fsprg@point-at-infinity.org - * - * This library is free software; you can redistribute it and/or - * modify it under the terms of the GNU Lesser General Public - * License as published by the Free Software Foundation; either - * version 2.1 of the License, or (at your option) any later version. - * - * This library is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU - * Lesser General Public License for more details. - * - * You should have received a copy of the GNU Lesser General Public - * License along with this library; if not, write to the Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA - * 02110-1301 USA */ /* @@ -50,11 +35,11 @@ static void mpi_export(void *buf, size_t buflen, const gcry_mpi_t x) { unsigned len; size_t nwritten; - assert(gcry_mpi_cmp_ui(x, 0) >= 0); - len = (gcry_mpi_get_nbits(x) + 7) / 8; + assert(sym_gcry_mpi_cmp_ui(x, 0) >= 0); + len = (sym_gcry_mpi_get_nbits(x) + 7) / 8; assert(len <= buflen); memzero(buf, buflen); - gcry_mpi_print(GCRYMPI_FMT_USG, buf + (buflen - len), len, &nwritten, x); + sym_gcry_mpi_print(GCRYMPI_FMT_USG, buf + (buflen - len), len, &nwritten, x); assert(nwritten == len); } @@ -62,10 +47,10 @@ static gcry_mpi_t mpi_import(const void *buf, size_t buflen) { gcry_mpi_t h; _unused_ unsigned len; - assert_se(gcry_mpi_scan(&h, GCRYMPI_FMT_USG, buf, buflen, NULL) == 0); - len = (gcry_mpi_get_nbits(h) + 7) / 8; + assert_se(sym_gcry_mpi_scan(&h, GCRYMPI_FMT_USG, buf, buflen, NULL) == 0); + len = (sym_gcry_mpi_get_nbits(h) + 7) / 8; assert(len <= buflen); - assert(gcry_mpi_cmp_ui(h, 0) >= 0); + assert(sym_gcry_mpi_cmp_ui(h, 0) >= 0); return h; } @@ -102,30 +87,30 @@ static void det_randomize(void *buf, size_t buflen, const void *seed, size_t see gcry_error_t err; uint32_t ctr; - olen = gcry_md_get_algo_dlen(RND_HASH); - err = gcry_md_open(&hd, RND_HASH, 0); + olen = sym_gcry_md_get_algo_dlen(RND_HASH); + err = sym_gcry_md_open(&hd, RND_HASH, 0); assert_se(gcry_err_code(err) == GPG_ERR_NO_ERROR); /* This shouldn't happen */ - gcry_md_write(hd, seed, seedlen); - gcry_md_putc(hd, (idx >> 24) & 0xff); - gcry_md_putc(hd, (idx >> 16) & 0xff); - gcry_md_putc(hd, (idx >> 8) & 0xff); - gcry_md_putc(hd, (idx >> 0) & 0xff); + sym_gcry_md_write(hd, seed, seedlen); + sym_gcry_md_putc(hd, (idx >> 24) & 0xff); + sym_gcry_md_putc(hd, (idx >> 16) & 0xff); + sym_gcry_md_putc(hd, (idx >> 8) & 0xff); + sym_gcry_md_putc(hd, (idx >> 0) & 0xff); for (ctr = 0; buflen; ctr++) { - err = gcry_md_copy(&hd2, hd); + err = sym_gcry_md_copy(&hd2, hd); assert_se(gcry_err_code(err) == GPG_ERR_NO_ERROR); /* This shouldn't happen */ - gcry_md_putc(hd2, (ctr >> 24) & 0xff); - gcry_md_putc(hd2, (ctr >> 16) & 0xff); - gcry_md_putc(hd2, (ctr >> 8) & 0xff); - gcry_md_putc(hd2, (ctr >> 0) & 0xff); - gcry_md_final(hd2); + sym_gcry_md_putc(hd2, (ctr >> 24) & 0xff); + sym_gcry_md_putc(hd2, (ctr >> 16) & 0xff); + sym_gcry_md_putc(hd2, (ctr >> 8) & 0xff); + sym_gcry_md_putc(hd2, (ctr >> 0) & 0xff); + sym_gcry_md_ctl(hd2, GCRYCTL_FINALIZE, NULL, 0); cpylen = (buflen < olen) ? buflen : olen; - memcpy(buf, gcry_md_read(hd2, RND_HASH), cpylen); - gcry_md_close(hd2); + memcpy(buf, sym_gcry_md_read(hd2, RND_HASH), cpylen); + sym_gcry_md_close(hd2); buf += cpylen; buflen -= cpylen; } - gcry_md_close(hd); + sym_gcry_md_close(hd); } /* deterministically generate from seed/idx a prime of length `bits' that is 3 (mod 4) */ @@ -142,8 +127,8 @@ static gcry_mpi_t genprime3mod4(int bits, const void *seed, size_t seedlen, uint buf[buflen - 1] |= 0x03; /* set lower two bits, to have result 3 (mod 4) */ p = mpi_import(buf, buflen); - while (gcry_prime_check(p, 0)) - gcry_mpi_add_ui(p, p, 4); + while (sym_gcry_prime_check(p, 0)) + sym_gcry_mpi_add_ui(p, p, 4); return p; } @@ -157,8 +142,8 @@ static gcry_mpi_t gensquare(const gcry_mpi_t n, const void *seed, size_t seedlen det_randomize(buf, buflen, seed, seedlen, idx); buf[0] &= 0x7f; /* clear upper bit, so that we have x < n */ x = mpi_import(buf, buflen); - assert(gcry_mpi_cmp(x, n) < 0); - gcry_mpi_mulm(x, x, x, n); + assert(sym_gcry_mpi_cmp(x, n) < 0); + sym_gcry_mpi_mulm(x, x, x, n); return x; } @@ -167,51 +152,51 @@ static gcry_mpi_t twopowmodphi(uint64_t m, const gcry_mpi_t p) { gcry_mpi_t phi, r; int n; - phi = gcry_mpi_new(0); - gcry_mpi_sub_ui(phi, p, 1); + phi = sym_gcry_mpi_new(0); + sym_gcry_mpi_sub_ui(phi, p, 1); /* count number of used bits in m */ for (n = 0; (1ULL << n) <= m; n++) ; - r = gcry_mpi_new(0); - gcry_mpi_set_ui(r, 1); + r = sym_gcry_mpi_new(0); + sym_gcry_mpi_set_ui(r, 1); while (n) { /* square and multiply algorithm for fast exponentiation */ n--; - gcry_mpi_mulm(r, r, r, phi); + sym_gcry_mpi_mulm(r, r, r, phi); if (m & ((uint64_t)1 << n)) { - gcry_mpi_add(r, r, r); - if (gcry_mpi_cmp(r, phi) >= 0) - gcry_mpi_sub(r, r, phi); + sym_gcry_mpi_add(r, r, r); + if (sym_gcry_mpi_cmp(r, phi) >= 0) + sym_gcry_mpi_sub(r, r, phi); } } - gcry_mpi_release(phi); + sym_gcry_mpi_release(phi); return r; } /* Decompose $x \in Z_n$ into $(xp,xq) \in Z_p \times Z_q$ using Chinese Remainder Theorem */ static void CRT_decompose(gcry_mpi_t *xp, gcry_mpi_t *xq, const gcry_mpi_t x, const gcry_mpi_t p, const gcry_mpi_t q) { - *xp = gcry_mpi_new(0); - *xq = gcry_mpi_new(0); - gcry_mpi_mod(*xp, x, p); - gcry_mpi_mod(*xq, x, q); + *xp = sym_gcry_mpi_new(0); + *xq = sym_gcry_mpi_new(0); + sym_gcry_mpi_mod(*xp, x, p); + sym_gcry_mpi_mod(*xq, x, q); } /* Compose $(xp,xq) \in Z_p \times Z_q$ into $x \in Z_n$ using Chinese Remainder Theorem */ static void CRT_compose(gcry_mpi_t *x, const gcry_mpi_t xp, const gcry_mpi_t xq, const gcry_mpi_t p, const gcry_mpi_t q) { gcry_mpi_t a, u; - a = gcry_mpi_new(0); - u = gcry_mpi_new(0); - *x = gcry_mpi_new(0); - gcry_mpi_subm(a, xq, xp, q); - gcry_mpi_invm(u, p, q); - gcry_mpi_mulm(a, a, u, q); /* a = (xq - xp) / p (mod q) */ - gcry_mpi_mul(*x, p, a); - gcry_mpi_add(*x, *x, xp); /* x = p * ((xq - xp) / p mod q) + xp */ - gcry_mpi_release(a); - gcry_mpi_release(u); + a = sym_gcry_mpi_new(0); + u = sym_gcry_mpi_new(0); + *x = sym_gcry_mpi_new(0); + sym_gcry_mpi_subm(a, xq, xp, q); + sym_gcry_mpi_invm(u, p, q); + sym_gcry_mpi_mulm(a, a, u, q); /* a = (xq - xp) / p (mod q) */ + sym_gcry_mpi_mul(*x, p, a); + sym_gcry_mpi_add(*x, *x, xp); /* x = p * ((xq - xp) / p mod q) + xp */ + sym_gcry_mpi_release(a); + sym_gcry_mpi_release(u); } /******************************************************************************/ @@ -245,18 +230,21 @@ static uint16_t read_secpar(const void *buf) { return 16 * (secpar + 1); } -void FSPRG_GenMK(void *msk, void *mpk, const void *seed, size_t seedlen, unsigned _secpar) { +int FSPRG_GenMK(void *msk, void *mpk, const void *seed, size_t seedlen, unsigned _secpar) { uint8_t iseed[FSPRG_RECOMMENDED_SEEDLEN]; gcry_mpi_t n, p, q; uint16_t secpar; + int r; VALIDATE_SECPAR(_secpar); secpar = _secpar; - initialize_libgcrypt(false); + r = initialize_libgcrypt(false); + if (r < 0) + return r; if (!seed) { - gcry_randomize(iseed, FSPRG_RECOMMENDED_SEEDLEN, GCRY_STRONG_RANDOM); + sym_gcry_randomize(iseed, FSPRG_RECOMMENDED_SEEDLEN, GCRY_STRONG_RANDOM); seed = iseed; seedlen = FSPRG_RECOMMENDED_SEEDLEN; } @@ -271,25 +259,30 @@ void FSPRG_GenMK(void *msk, void *mpk, const void *seed, size_t seedlen, unsigne } if (mpk) { - n = gcry_mpi_new(0); - gcry_mpi_mul(n, p, q); - assert(gcry_mpi_get_nbits(n) == secpar); + n = sym_gcry_mpi_new(0); + sym_gcry_mpi_mul(n, p, q); + assert(sym_gcry_mpi_get_nbits(n) == secpar); store_secpar(mpk + 0, secpar); mpi_export(mpk + 2, secpar / 8, n); - gcry_mpi_release(n); + sym_gcry_mpi_release(n); } - gcry_mpi_release(p); - gcry_mpi_release(q); + sym_gcry_mpi_release(p); + sym_gcry_mpi_release(q); + + return 0; } -void FSPRG_GenState0(void *state, const void *mpk, const void *seed, size_t seedlen) { +int FSPRG_GenState0(void *state, const void *mpk, const void *seed, size_t seedlen) { gcry_mpi_t n, x; uint16_t secpar; + int r; - initialize_libgcrypt(false); + r = initialize_libgcrypt(false); + if (r < 0) + return r; secpar = read_secpar(mpk + 0); n = mpi_import(mpk + 2, secpar / 8); @@ -299,30 +292,37 @@ void FSPRG_GenState0(void *state, const void *mpk, const void *seed, size_t seed mpi_export(state + 2 + 1 * secpar / 8, secpar / 8, x); memzero(state + 2 + 2 * secpar / 8, 8); - gcry_mpi_release(n); - gcry_mpi_release(x); + sym_gcry_mpi_release(n); + sym_gcry_mpi_release(x); + + return 0; } -void FSPRG_Evolve(void *state) { +int FSPRG_Evolve(void *state) { gcry_mpi_t n, x; uint16_t secpar; uint64_t epoch; + int r; - initialize_libgcrypt(false); + r = initialize_libgcrypt(false); + if (r < 0) + return r; secpar = read_secpar(state + 0); n = mpi_import(state + 2 + 0 * secpar / 8, secpar / 8); x = mpi_import(state + 2 + 1 * secpar / 8, secpar / 8); epoch = uint64_import(state + 2 + 2 * secpar / 8, 8); - gcry_mpi_mulm(x, x, x, n); + sym_gcry_mpi_mulm(x, x, x, n); epoch++; mpi_export(state + 2 + 1 * secpar / 8, secpar / 8, x); uint64_export(state + 2 + 2 * secpar / 8, 8, epoch); - gcry_mpi_release(n); - gcry_mpi_release(x); + sym_gcry_mpi_release(n); + sym_gcry_mpi_release(x); + + return 0; } uint64_t FSPRG_GetEpoch(const void *state) { @@ -331,18 +331,21 @@ uint64_t FSPRG_GetEpoch(const void *state) { return uint64_import(state + 2 + 2 * secpar / 8, 8); } -void FSPRG_Seek(void *state, uint64_t epoch, const void *msk, const void *seed, size_t seedlen) { +int FSPRG_Seek(void *state, uint64_t epoch, const void *msk, const void *seed, size_t seedlen) { gcry_mpi_t p, q, n, x, xp, xq, kp, kq, xm; uint16_t secpar; + int r; - initialize_libgcrypt(false); + r = initialize_libgcrypt(false); + if (r < 0) + return r; secpar = read_secpar(msk + 0); p = mpi_import(msk + 2 + 0 * (secpar / 2) / 8, (secpar / 2) / 8); q = mpi_import(msk + 2 + 1 * (secpar / 2) / 8, (secpar / 2) / 8); - n = gcry_mpi_new(0); - gcry_mpi_mul(n, p, q); + n = sym_gcry_mpi_new(0); + sym_gcry_mpi_mul(n, p, q); x = gensquare(n, seed, seedlen, RND_GEN_X, secpar); CRT_decompose(&xp, &xq, x, p, q); /* split (mod n) into (mod p) and (mod q) using CRT */ @@ -350,8 +353,8 @@ void FSPRG_Seek(void *state, uint64_t epoch, const void *msk, const void *seed, kp = twopowmodphi(epoch, p); /* compute 2^epoch (mod phi(p)) */ kq = twopowmodphi(epoch, q); /* compute 2^epoch (mod phi(q)) */ - gcry_mpi_powm(xp, xp, kp, p); /* compute x^(2^epoch) (mod p) */ - gcry_mpi_powm(xq, xq, kq, q); /* compute x^(2^epoch) (mod q) */ + sym_gcry_mpi_powm(xp, xp, kp, p); /* compute x^(2^epoch) (mod p) */ + sym_gcry_mpi_powm(xq, xq, kq, q); /* compute x^(2^epoch) (mod q) */ CRT_compose(&xm, xp, xq, p, q); /* combine (mod p) and (mod q) to (mod n) using CRT */ @@ -360,22 +363,29 @@ void FSPRG_Seek(void *state, uint64_t epoch, const void *msk, const void *seed, mpi_export(state + 2 + 1 * secpar / 8, secpar / 8, xm); uint64_export(state + 2 + 2 * secpar / 8, 8, epoch); - gcry_mpi_release(p); - gcry_mpi_release(q); - gcry_mpi_release(n); - gcry_mpi_release(x); - gcry_mpi_release(xp); - gcry_mpi_release(xq); - gcry_mpi_release(kp); - gcry_mpi_release(kq); - gcry_mpi_release(xm); + sym_gcry_mpi_release(p); + sym_gcry_mpi_release(q); + sym_gcry_mpi_release(n); + sym_gcry_mpi_release(x); + sym_gcry_mpi_release(xp); + sym_gcry_mpi_release(xq); + sym_gcry_mpi_release(kp); + sym_gcry_mpi_release(kq); + sym_gcry_mpi_release(xm); + + return 0; } -void FSPRG_GetKey(const void *state, void *key, size_t keylen, uint32_t idx) { +int FSPRG_GetKey(const void *state, void *key, size_t keylen, uint32_t idx) { uint16_t secpar; + int r; - initialize_libgcrypt(false); + r = initialize_libgcrypt(false); + if (r < 0) + return r; secpar = read_secpar(state + 0); det_randomize(key, keylen, state + 2, 2 * secpar / 8 + 8, idx); + + return 0; } -- cgit v1.2.3