Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Markus Stockhausen | 1134 | 98.95% | 1 | 16.67% |
Tianjia Zhang | 5 | 0.44% | 1 | 16.67% |
Anton Blanchard | 3 | 0.26% | 1 | 16.67% |
Thomas Gleixner | 2 | 0.17% | 1 | 16.67% |
Herbert Xu | 1 | 0.09% | 1 | 16.67% |
Eric Biggers | 1 | 0.09% | 1 | 16.67% |
Total | 1146 | 6 |
// SPDX-License-Identifier: GPL-2.0-or-later /* * Glue code for SHA-256 implementation for SPE instructions (PPC) * * Based on generic implementation. The assembler module takes care * about the SPE registers so it can run from interrupt context. * * Copyright (c) 2015 Markus Stockhausen <stockhausen@collogia.de> */ #include <crypto/internal/hash.h> #include <linux/init.h> #include <linux/module.h> #include <linux/mm.h> #include <linux/types.h> #include <crypto/sha2.h> #include <crypto/sha256_base.h> #include <asm/byteorder.h> #include <asm/switch_to.h> #include <linux/hardirq.h> /* * MAX_BYTES defines the number of bytes that are allowed to be processed * between preempt_disable() and preempt_enable(). SHA256 takes ~2,000 * operations per 64 bytes. e500 cores can issue two arithmetic instructions * per clock cycle using one 32/64 bit unit (SU1) and one 32 bit unit (SU2). * Thus 1KB of input data will need an estimated maximum of 18,000 cycles. * Headroom for cache misses included. Even with the low end model clocked * at 667 MHz this equals to a critical time window of less than 27us. * */ #define MAX_BYTES 1024 extern void ppc_spe_sha256_transform(u32 *state, const u8 *src, u32 blocks); static void spe_begin(void) { /* We just start SPE operations and will save SPE registers later. */ preempt_disable(); enable_kernel_spe(); } static void spe_end(void) { disable_kernel_spe(); /* reenable preemption */ preempt_enable(); } static inline void ppc_sha256_clear_context(struct sha256_state *sctx) { int count = sizeof(struct sha256_state) >> 2; u32 *ptr = (u32 *)sctx; /* make sure we can clear the fast way */ BUILD_BUG_ON(sizeof(struct sha256_state) % 4); do { *ptr++ = 0; } while (--count); } static int ppc_spe_sha256_update(struct shash_desc *desc, const u8 *data, unsigned int len) { struct sha256_state *sctx = shash_desc_ctx(desc); const unsigned int offset = sctx->count & 0x3f; const unsigned int avail = 64 - offset; unsigned int bytes; const u8 *src = data; if (avail > len) { sctx->count += len; memcpy((char *)sctx->buf + offset, src, len); return 0; } sctx->count += len; if (offset) { memcpy((char *)sctx->buf + offset, src, avail); spe_begin(); ppc_spe_sha256_transform(sctx->state, (const u8 *)sctx->buf, 1); spe_end(); len -= avail; src += avail; } while (len > 63) { /* cut input data into smaller blocks */ bytes = (len > MAX_BYTES) ? MAX_BYTES : len; bytes = bytes & ~0x3f; spe_begin(); ppc_spe_sha256_transform(sctx->state, src, bytes >> 6); spe_end(); src += bytes; len -= bytes; } memcpy((char *)sctx->buf, src, len); return 0; } static int ppc_spe_sha256_final(struct shash_desc *desc, u8 *out) { struct sha256_state *sctx = shash_desc_ctx(desc); const unsigned int offset = sctx->count & 0x3f; char *p = (char *)sctx->buf + offset; int padlen; __be64 *pbits = (__be64 *)(((char *)&sctx->buf) + 56); __be32 *dst = (__be32 *)out; padlen = 55 - offset; *p++ = 0x80; spe_begin(); if (padlen < 0) { memset(p, 0x00, padlen + sizeof (u64)); ppc_spe_sha256_transform(sctx->state, sctx->buf, 1); p = (char *)sctx->buf; padlen = 56; } memset(p, 0, padlen); *pbits = cpu_to_be64(sctx->count << 3); ppc_spe_sha256_transform(sctx->state, sctx->buf, 1); spe_end(); dst[0] = cpu_to_be32(sctx->state[0]); dst[1] = cpu_to_be32(sctx->state[1]); dst[2] = cpu_to_be32(sctx->state[2]); dst[3] = cpu_to_be32(sctx->state[3]); dst[4] = cpu_to_be32(sctx->state[4]); dst[5] = cpu_to_be32(sctx->state[5]); dst[6] = cpu_to_be32(sctx->state[6]); dst[7] = cpu_to_be32(sctx->state[7]); ppc_sha256_clear_context(sctx); return 0; } static int ppc_spe_sha224_final(struct shash_desc *desc, u8 *out) { __be32 D[SHA256_DIGEST_SIZE >> 2]; __be32 *dst = (__be32 *)out; ppc_spe_sha256_final(desc, (u8 *)D); /* avoid bytewise memcpy */ dst[0] = D[0]; dst[1] = D[1]; dst[2] = D[2]; dst[3] = D[3]; dst[4] = D[4]; dst[5] = D[5]; dst[6] = D[6]; /* clear sensitive data */ memzero_explicit(D, SHA256_DIGEST_SIZE); return 0; } static int ppc_spe_sha256_export(struct shash_desc *desc, void *out) { struct sha256_state *sctx = shash_desc_ctx(desc); memcpy(out, sctx, sizeof(*sctx)); return 0; } static int ppc_spe_sha256_import(struct shash_desc *desc, const void *in) { struct sha256_state *sctx = shash_desc_ctx(desc); memcpy(sctx, in, sizeof(*sctx)); return 0; } static struct shash_alg algs[2] = { { .digestsize = SHA256_DIGEST_SIZE, .init = sha256_base_init, .update = ppc_spe_sha256_update, .final = ppc_spe_sha256_final, .export = ppc_spe_sha256_export, .import = ppc_spe_sha256_import, .descsize = sizeof(struct sha256_state), .statesize = sizeof(struct sha256_state), .base = { .cra_name = "sha256", .cra_driver_name= "sha256-ppc-spe", .cra_priority = 300, .cra_blocksize = SHA256_BLOCK_SIZE, .cra_module = THIS_MODULE, } }, { .digestsize = SHA224_DIGEST_SIZE, .init = sha224_base_init, .update = ppc_spe_sha256_update, .final = ppc_spe_sha224_final, .export = ppc_spe_sha256_export, .import = ppc_spe_sha256_import, .descsize = sizeof(struct sha256_state), .statesize = sizeof(struct sha256_state), .base = { .cra_name = "sha224", .cra_driver_name= "sha224-ppc-spe", .cra_priority = 300, .cra_blocksize = SHA224_BLOCK_SIZE, .cra_module = THIS_MODULE, } } }; static int __init ppc_spe_sha256_mod_init(void) { return crypto_register_shashes(algs, ARRAY_SIZE(algs)); } static void __exit ppc_spe_sha256_mod_fini(void) { crypto_unregister_shashes(algs, ARRAY_SIZE(algs)); } module_init(ppc_spe_sha256_mod_init); module_exit(ppc_spe_sha256_mod_fini); MODULE_LICENSE("GPL"); MODULE_DESCRIPTION("SHA-224 and SHA-256 Secure Hash Algorithm, SPE optimized"); MODULE_ALIAS_CRYPTO("sha224"); MODULE_ALIAS_CRYPTO("sha224-ppc-spe"); MODULE_ALIAS_CRYPTO("sha256"); MODULE_ALIAS_CRYPTO("sha256-ppc-spe");
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