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Release 4.11 drivers/crypto/caam/caampkc.c

/*
 * caam - Freescale FSL CAAM support for Public Key Cryptography
 *
 * Copyright 2016 Freescale Semiconductor, Inc.
 *
 * There is no Shared Descriptor for PKC so that the Job Descriptor must carry
 * all the desired key parameters, input and output pointers.
 */
#include "compat.h"
#include "regs.h"
#include "intern.h"
#include "jr.h"
#include "error.h"
#include "desc_constr.h"
#include "sg_sw_sec4.h"
#include "caampkc.h"


#define DESC_RSA_PUB_LEN	(2 * CAAM_CMD_SZ + sizeof(struct rsa_pub_pdb))

#define DESC_RSA_PRIV_F1_LEN	(2 * CAAM_CMD_SZ + \
                                 sizeof(struct rsa_priv_f1_pdb))


static void rsa_io_unmap(struct device *dev, struct rsa_edesc *edesc, struct akcipher_request *req) { dma_unmap_sg(dev, req->dst, edesc->dst_nents, DMA_FROM_DEVICE); dma_unmap_sg(dev, req->src, edesc->src_nents, DMA_TO_DEVICE); if (edesc->sec4_sg_bytes) dma_unmap_single(dev, edesc->sec4_sg_dma, edesc->sec4_sg_bytes, DMA_TO_DEVICE); }

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static void rsa_pub_unmap(struct device *dev, struct rsa_edesc *edesc, struct akcipher_request *req) { struct crypto_akcipher *tfm = crypto_akcipher_reqtfm(req); struct caam_rsa_ctx *ctx = akcipher_tfm_ctx(tfm); struct caam_rsa_key *key = &ctx->key; struct rsa_pub_pdb *pdb = &edesc->pdb.pub; dma_unmap_single(dev, pdb->n_dma, key->n_sz, DMA_TO_DEVICE); dma_unmap_single(dev, pdb->e_dma, key->e_sz, DMA_TO_DEVICE); }

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static void rsa_priv_f1_unmap(struct device *dev, struct rsa_edesc *edesc, struct akcipher_request *req) { struct crypto_akcipher *tfm = crypto_akcipher_reqtfm(req); struct caam_rsa_ctx *ctx = akcipher_tfm_ctx(tfm); struct caam_rsa_key *key = &ctx->key; struct rsa_priv_f1_pdb *pdb = &edesc->pdb.priv_f1; dma_unmap_single(dev, pdb->n_dma, key->n_sz, DMA_TO_DEVICE); dma_unmap_single(dev, pdb->d_dma, key->d_sz, DMA_TO_DEVICE); }

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/* RSA Job Completion handler */
static void rsa_pub_done(struct device *dev, u32 *desc, u32 err, void *context) { struct akcipher_request *req = context; struct rsa_edesc *edesc; if (err) caam_jr_strstatus(dev, err); edesc = container_of(desc, struct rsa_edesc, hw_desc[0]); rsa_pub_unmap(dev, edesc, req); rsa_io_unmap(dev, edesc, req); kfree(edesc); akcipher_request_complete(req, err); }

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static void rsa_priv_f1_done(struct device *dev, u32 *desc, u32 err, void *context) { struct akcipher_request *req = context; struct rsa_edesc *edesc; if (err) caam_jr_strstatus(dev, err); edesc = container_of(desc, struct rsa_edesc, hw_desc[0]); rsa_priv_f1_unmap(dev, edesc, req); rsa_io_unmap(dev, edesc, req); kfree(edesc); akcipher_request_complete(req, err); }

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static struct rsa_edesc *rsa_edesc_alloc(struct akcipher_request *req, size_t desclen) { struct crypto_akcipher *tfm = crypto_akcipher_reqtfm(req); struct caam_rsa_ctx *ctx = akcipher_tfm_ctx(tfm); struct device *dev = ctx->dev; struct rsa_edesc *edesc; gfp_t flags = (req->base.flags & (CRYPTO_TFM_REQ_MAY_BACKLOG | CRYPTO_TFM_REQ_MAY_SLEEP)) ? GFP_KERNEL : GFP_ATOMIC; int sgc; int sec4_sg_index, sec4_sg_len = 0, sec4_sg_bytes; int src_nents, dst_nents; src_nents = sg_nents_for_len(req->src, req->src_len); dst_nents = sg_nents_for_len(req->dst, req->dst_len); if (src_nents > 1) sec4_sg_len = src_nents; if (dst_nents > 1) sec4_sg_len += dst_nents; sec4_sg_bytes = sec4_sg_len * sizeof(struct sec4_sg_entry); /* allocate space for base edesc, hw desc commands and link tables */ edesc = kzalloc(sizeof(*edesc) + desclen + sec4_sg_bytes, GFP_DMA | flags); if (!edesc) return ERR_PTR(-ENOMEM); sgc = dma_map_sg(dev, req->src, src_nents, DMA_TO_DEVICE); if (unlikely(!sgc)) { dev_err(dev, "unable to map source\n"); goto src_fail; } sgc = dma_map_sg(dev, req->dst, dst_nents, DMA_FROM_DEVICE); if (unlikely(!sgc)) { dev_err(dev, "unable to map destination\n"); goto dst_fail; } edesc->sec4_sg = (void *)edesc + sizeof(*edesc) + desclen; sec4_sg_index = 0; if (src_nents > 1) { sg_to_sec4_sg_last(req->src, src_nents, edesc->sec4_sg, 0); sec4_sg_index += src_nents; } if (dst_nents > 1) sg_to_sec4_sg_last(req->dst, dst_nents, edesc->sec4_sg + sec4_sg_index, 0); /* Save nents for later use in Job Descriptor */ edesc->src_nents = src_nents; edesc->dst_nents = dst_nents; if (!sec4_sg_bytes) return edesc; edesc->sec4_sg_dma = dma_map_single(dev, edesc->sec4_sg, sec4_sg_bytes, DMA_TO_DEVICE); if (dma_mapping_error(dev, edesc->sec4_sg_dma)) { dev_err(dev, "unable to map S/G table\n"); goto sec4_sg_fail; } edesc->sec4_sg_bytes = sec4_sg_bytes; return edesc; sec4_sg_fail: dma_unmap_sg(dev, req->dst, dst_nents, DMA_FROM_DEVICE); dst_fail: dma_unmap_sg(dev, req->src, src_nents, DMA_TO_DEVICE); src_fail: kfree(edesc); return ERR_PTR(-ENOMEM); }

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static int set_rsa_pub_pdb(struct akcipher_request *req, struct rsa_edesc *edesc) { struct crypto_akcipher *tfm = crypto_akcipher_reqtfm(req); struct caam_rsa_ctx *ctx = akcipher_tfm_ctx(tfm); struct caam_rsa_key *key = &ctx->key; struct device *dev = ctx->dev; struct rsa_pub_pdb *pdb = &edesc->pdb.pub; int sec4_sg_index = 0; pdb->n_dma = dma_map_single(dev, key->n, key->n_sz, DMA_TO_DEVICE); if (dma_mapping_error(dev, pdb->n_dma)) { dev_err(dev, "Unable to map RSA modulus memory\n"); return -ENOMEM; } pdb->e_dma = dma_map_single(dev, key->e, key->e_sz, DMA_TO_DEVICE); if (dma_mapping_error(dev, pdb->e_dma)) { dev_err(dev, "Unable to map RSA public exponent memory\n"); dma_unmap_single(dev, pdb->n_dma, key->n_sz, DMA_TO_DEVICE); return -ENOMEM; } if (edesc->src_nents > 1) { pdb->sgf |= RSA_PDB_SGF_F; pdb->f_dma = edesc->sec4_sg_dma; sec4_sg_index += edesc->src_nents; } else { pdb->f_dma = sg_dma_address(req->src); } if (edesc->dst_nents > 1) { pdb->sgf |= RSA_PDB_SGF_G; pdb->g_dma = edesc->sec4_sg_dma + sec4_sg_index * sizeof(struct sec4_sg_entry); } else { pdb->g_dma = sg_dma_address(req->dst); } pdb->sgf |= (key->e_sz << RSA_PDB_E_SHIFT) | key->n_sz; pdb->f_len = req->src_len; return 0; }

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static int set_rsa_priv_f1_pdb(struct akcipher_request *req, struct rsa_edesc *edesc) { struct crypto_akcipher *tfm = crypto_akcipher_reqtfm(req); struct caam_rsa_ctx *ctx = akcipher_tfm_ctx(tfm); struct caam_rsa_key *key = &ctx->key; struct device *dev = ctx->dev; struct rsa_priv_f1_pdb *pdb = &edesc->pdb.priv_f1; int sec4_sg_index = 0; pdb->n_dma = dma_map_single(dev, key->n, key->n_sz, DMA_TO_DEVICE); if (dma_mapping_error(dev, pdb->n_dma)) { dev_err(dev, "Unable to map modulus memory\n"); return -ENOMEM; } pdb->d_dma = dma_map_single(dev, key->d, key->d_sz, DMA_TO_DEVICE); if (dma_mapping_error(dev, pdb->d_dma)) { dev_err(dev, "Unable to map RSA private exponent memory\n"); dma_unmap_single(dev, pdb->n_dma, key->n_sz, DMA_TO_DEVICE); return -ENOMEM; } if (edesc->src_nents > 1) { pdb->sgf |= RSA_PRIV_PDB_SGF_G; pdb->g_dma = edesc->sec4_sg_dma; sec4_sg_index += edesc->src_nents; } else { pdb->g_dma = sg_dma_address(req->src); } if (edesc->dst_nents > 1) { pdb->sgf |= RSA_PRIV_PDB_SGF_F; pdb->f_dma = edesc->sec4_sg_dma + sec4_sg_index * sizeof(struct sec4_sg_entry); } else { pdb->f_dma = sg_dma_address(req->dst); } pdb->sgf |= (key->d_sz << RSA_PDB_D_SHIFT) | key->n_sz; return 0; }

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static int caam_rsa_enc(struct akcipher_request *req) { struct crypto_akcipher *tfm = crypto_akcipher_reqtfm(req); struct caam_rsa_ctx *ctx = akcipher_tfm_ctx(tfm); struct caam_rsa_key *key = &ctx->key; struct device *jrdev = ctx->dev; struct rsa_edesc *edesc; int ret; if (unlikely(!key->n || !key->e)) return -EINVAL; if (req->dst_len < key->n_sz) { req->dst_len = key->n_sz; dev_err(jrdev, "Output buffer length less than parameter n\n"); return -EOVERFLOW; } /* Allocate extended descriptor */ edesc = rsa_edesc_alloc(req, DESC_RSA_PUB_LEN); if (IS_ERR(edesc)) return PTR_ERR(edesc); /* Set RSA Encrypt Protocol Data Block */ ret = set_rsa_pub_pdb(req, edesc); if (ret) goto init_fail; /* Initialize Job Descriptor */ init_rsa_pub_desc(edesc->hw_desc, &edesc->pdb.pub); ret = caam_jr_enqueue(jrdev, edesc->hw_desc, rsa_pub_done, req); if (!ret) return -EINPROGRESS; rsa_pub_unmap(jrdev, edesc, req); init_fail: rsa_io_unmap(jrdev, edesc, req); kfree(edesc); return ret; }

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static int caam_rsa_dec(struct akcipher_request *req) { struct crypto_akcipher *tfm = crypto_akcipher_reqtfm(req); struct caam_rsa_ctx *ctx = akcipher_tfm_ctx(tfm); struct caam_rsa_key *key = &ctx->key; struct device *jrdev = ctx->dev; struct rsa_edesc *edesc; int ret; if (unlikely(!key->n || !key->d)) return -EINVAL; if (req->dst_len < key->n_sz) { req->dst_len = key->n_sz; dev_err(jrdev, "Output buffer length less than parameter n\n"); return -EOVERFLOW; } /* Allocate extended descriptor */ edesc = rsa_edesc_alloc(req, DESC_RSA_PRIV_F1_LEN); if (IS_ERR(edesc)) return PTR_ERR(edesc); /* Set RSA Decrypt Protocol Data Block - Private Key Form #1 */ ret = set_rsa_priv_f1_pdb(req, edesc); if (ret) goto init_fail; /* Initialize Job Descriptor */ init_rsa_priv_f1_desc(edesc->hw_desc, &edesc->pdb.priv_f1); ret = caam_jr_enqueue(jrdev, edesc->hw_desc, rsa_priv_f1_done, req); if (!ret) return -EINPROGRESS; rsa_priv_f1_unmap(jrdev, edesc, req); init_fail: rsa_io_unmap(jrdev, edesc, req); kfree(edesc); return ret; }

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static void caam_rsa_free_key(struct caam_rsa_key *key) { kzfree(key->d); kfree(key->e); kfree(key->n); key->d = NULL; key->e = NULL; key->n = NULL; key->d_sz = 0; key->e_sz = 0; key->n_sz = 0; }

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/** * caam_read_raw_data - Read a raw byte stream as a positive integer. * The function skips buffer's leading zeros, copies the remained data * to a buffer allocated in the GFP_DMA | GFP_KERNEL zone and returns * the address of the new buffer. * * @buf : The data to read * @nbytes: The amount of data to read */
static inline u8 *caam_read_raw_data(const u8 *buf, size_t *nbytes) { u8 *val; while (!*buf && *nbytes) { buf++; (*nbytes)--; } val = kzalloc(*nbytes, GFP_DMA | GFP_KERNEL); if (!val) return NULL; memcpy(val, buf, *nbytes); return val; }

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static int caam_rsa_check_key_length(unsigned int len) { if (len > 4096) return -EINVAL; return 0; }

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static int caam_rsa_set_pub_key(struct crypto_akcipher *tfm, const void *key, unsigned int keylen) { struct caam_rsa_ctx *ctx = akcipher_tfm_ctx(tfm); struct rsa_key raw_key = {NULL}; struct caam_rsa_key *rsa_key = &ctx->key; int ret; /* Free the old RSA key if any */ caam_rsa_free_key(rsa_key); ret = rsa_parse_pub_key(&raw_key, key, keylen); if (ret) return ret; /* Copy key in DMA zone */ rsa_key->e = kzalloc(raw_key.e_sz, GFP_DMA | GFP_KERNEL); if (!rsa_key->e) goto err; /* * Skip leading zeros and copy the positive integer to a buffer * allocated in the GFP_DMA | GFP_KERNEL zone. The decryption descriptor * expects a positive integer for the RSA modulus and uses its length as * decryption output length. */ rsa_key->n = caam_read_raw_data(raw_key.n, &raw_key.n_sz); if (!rsa_key->n) goto err; if (caam_rsa_check_key_length(raw_key.n_sz << 3)) { caam_rsa_free_key(rsa_key); return -EINVAL; } rsa_key->e_sz = raw_key.e_sz; rsa_key->n_sz = raw_key.n_sz; memcpy(rsa_key->e, raw_key.e, raw_key.e_sz); return 0; err: caam_rsa_free_key(rsa_key); return -ENOMEM; }

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static int caam_rsa_set_priv_key(struct crypto_akcipher *tfm, const void *key, unsigned int keylen) { struct caam_rsa_ctx *ctx = akcipher_tfm_ctx(tfm); struct rsa_key raw_key = {NULL}; struct caam_rsa_key *rsa_key = &ctx->key; int ret; /* Free the old RSA key if any */ caam_rsa_free_key(rsa_key); ret = rsa_parse_priv_key(&raw_key, key, keylen); if (ret) return ret; /* Copy key in DMA zone */ rsa_key->d = kzalloc(raw_key.d_sz, GFP_DMA | GFP_KERNEL); if (!rsa_key->d) goto err; rsa_key->e = kzalloc(raw_key.e_sz, GFP_DMA | GFP_KERNEL); if (!rsa_key->e) goto err; /* * Skip leading zeros and copy the positive integer to a buffer * allocated in the GFP_DMA | GFP_KERNEL zone. The decryption descriptor * expects a positive integer for the RSA modulus and uses its length as * decryption output length. */ rsa_key->n = caam_read_raw_data(raw_key.n, &raw_key.n_sz); if (!rsa_key->n) goto err; if (caam_rsa_check_key_length(raw_key.n_sz << 3)) { caam_rsa_free_key(rsa_key); return -EINVAL; } rsa_key->d_sz = raw_key.d_sz; rsa_key->e_sz = raw_key.e_sz; rsa_key->n_sz = raw_key.n_sz; memcpy(rsa_key->d, raw_key.d, raw_key.d_sz); memcpy(rsa_key->e, raw_key.e, raw_key.e_sz); return 0; err: caam_rsa_free_key(rsa_key); return -ENOMEM; }

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static int caam_rsa_max_size(struct crypto_akcipher *tfm) { struct caam_rsa_ctx *ctx = akcipher_tfm_ctx(tfm); struct caam_rsa_key *key = &ctx->key; return (key->n) ? key->n_sz : -EINVAL; }

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/* Per session pkc's driver context creation function */
static int caam_rsa_init_tfm(struct crypto_akcipher *tfm) { struct caam_rsa_ctx *ctx = akcipher_tfm_ctx(tfm); ctx->dev = caam_jr_alloc(); if (IS_ERR(ctx->dev)) { pr_err("Job Ring Device allocation for transform failed\n"); return PTR_ERR(ctx->dev); } return 0; }

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/* Per session pkc's driver context cleanup function */
static void caam_rsa_exit_tfm(struct crypto_akcipher *tfm) { struct caam_rsa_ctx *ctx = akcipher_tfm_ctx(tfm); struct caam_rsa_key *key = &ctx->key; caam_rsa_free_key(key); caam_jr_free(ctx->dev); }

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static struct akcipher_alg caam_rsa = { .encrypt = caam_rsa_enc, .decrypt = caam_rsa_dec, .sign = caam_rsa_dec, .verify = caam_rsa_enc, .set_pub_key = caam_rsa_set_pub_key, .set_priv_key = caam_rsa_set_priv_key, .max_size = caam_rsa_max_size, .init = caam_rsa_init_tfm, .exit = caam_rsa_exit_tfm, .base = { .cra_name = "rsa", .cra_driver_name = "rsa-caam", .cra_priority = 3000, .cra_module = THIS_MODULE, .cra_ctxsize = sizeof(struct caam_rsa_ctx), }, }; /* Public Key Cryptography module initialization handler */
static int __init caam_pkc_init(void) { struct device_node *dev_node; struct platform_device *pdev; struct device *ctrldev; struct caam_drv_private *priv; u32 cha_inst, pk_inst; int err; dev_node = of_find_compatible_node(NULL, NULL, "fsl,sec-v4.0"); if (!dev_node) { dev_node = of_find_compatible_node(NULL, NULL, "fsl,sec4.0"); if (!dev_node) return -ENODEV; } pdev = of_find_device_by_node(dev_node); if (!pdev) { of_node_put(dev_node); return -ENODEV; } ctrldev = &pdev->dev; priv = dev_get_drvdata(ctrldev); of_node_put(dev_node); /* * If priv is NULL, it's probably because the caam driver wasn't * properly initialized (e.g. RNG4 init failed). Thus, bail out here. */ if (!priv) return -ENODEV; /* Determine public key hardware accelerator presence. */ cha_inst = rd_reg32(&priv->ctrl->perfmon.cha_num_ls); pk_inst = (cha_inst & CHA_ID_LS_PK_MASK) >> CHA_ID_LS_PK_SHIFT; /* Do not register algorithms if PKHA is not present. */ if (!pk_inst) return -ENODEV; err = crypto_register_akcipher(&caam_rsa); if (err) dev_warn(ctrldev, "%s alg registration failed\n", caam_rsa.base.cra_driver_name); else dev_info(ctrldev, "caam pkc algorithms registered in /proc/crypto\n"); return err; }

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static void __exit caam_pkc_exit(void) { crypto_unregister_akcipher(&caam_rsa); }

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module_init(caam_pkc_init); module_exit(caam_pkc_exit); MODULE_LICENSE("Dual BSD/GPL"); MODULE_DESCRIPTION("FSL CAAM support for PKC functions of crypto API"); MODULE_AUTHOR("Freescale Semiconductor");

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