@@ -19,6 +19,7 @@ LIBS += $(KS2_LIBS)
include_HEADERS = \
$(srcdir)/include/api/odp_buffer.h \
$(srcdir)/include/api/odp_buffer_pool.h \
+ $(srcdir)/include/api/odp_crypto.h \
$(srcdir)/include/api/odp_packet.h \
$(srcdir)/include/api/odp_packet_io.h \
$(srcdir)/include/api/odp_state.h \
@@ -63,6 +64,7 @@ subdirheaders_HEADERS = \
__LIB__libodp_la_SOURCES = \
odp_buffer.c \
odp_buffer_pool.c \
+ odp_crypto.c \
odp_init.c \
odp_packet.c \
odp_packet_io.c \
@@ -7,7 +7,7 @@ SPDX-License-Identifier: BSD-3-Clause
1. Intro
OpenDataPlane implementation for TI Keystone2 SoC's. Current version supports
-HW buffer, queues and Packet IO management. This drop does not target high
+HW buffer, queues, Packet IO and Crypto APIs. This drop does not target high
performance. It is rather proof of ODP API functionality. It still uses
linux-generic's SW scheduler.
new file mode 100644
@@ -0,0 +1,372 @@
+/*
+ * Copyright (c) 2014, Linaro Limited
+ * Copyright (c) 2014, Texas Instruments Incorporated
+ * All rights reserved.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+/**
+ * @file
+ *
+ * ODP crypto
+ */
+
+#ifndef ODP_CRYPTO_H_
+#define ODP_CRYPTO_H_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <odp_std_types.h>
+#include <odp_buffer.h>
+#include <odp_buffer_pool.h>
+#include <odp_queue.h>
+#include <odp_packet.h>
+#include <ti/drv/nwal/nwal.h>
+
+/** Invalid session handle */
+#define ODP_CRYPTO_SESSION_INVALID NULL
+
+/**
+ * Crypto API opaque session handle
+ */
+typedef struct odp_crypto_session_s *odp_crypto_session_t;
+
+/**
+ * Crypto API operation mode
+ */
+enum odp_crypto_op_mode {
+ ODP_CRYPTO_SYNC, /**< Synchronous, return results immediately */
+ ODP_CRYPTO_ASYNC, /**< Aynchronous, return results via posted event */
+};
+
+/**
+ * Crypto API operation type
+ */
+enum odp_crypto_op {
+ ODP_CRYPTO_OP_ENCODE, /**< Encrypt and/or compute authentication ICV */
+ ODP_CRYPTO_OP_DECODE /**< Decrypt and/or verify authentication ICV */
+};
+
+/**
+ * Crypto API cipher algorithm
+ */
+enum odp_cipher_alg {
+ ODP_CIPHER_ALG_NULL = NWAL_SA_EALG_NULL, /**< No cipher */
+ ODP_CIPHER_ALG_DES = NWAL_SA_EALG_DES_CBC, /**< DES cipher block chaining */
+ ODP_CIPHER_ALG_3DES_CBC = NWAL_SA_EALG_3DES_CBC, /**< Triple DES cipher block chaining */
+ ODP_CIPHER_ALG_AES_CBC = NWAL_SA_EALG_AES_CBC, /**< AES cipher block chaining */
+ ODP_CIPHER_ALG_AES_CTR = NWAL_SA_EALG_AES_CTR, /**< AES counter */
+ ODP_CIPHER_ALG_AES_CCM = NWAL_SA_EALG_AES_CCM, /**< AES counter with CBC-MAC */
+ ODP_CIPHER_ALG_AES_GCM = NWAL_SA_EALG_AES_GCM, /**< AES galois counter */
+};
+
+/**
+ * Crypto API authentication algorithm
+ */
+enum odp_auth_alg {
+ ODP_AUTH_ALG_NULL = NWAL_SA_AALG_NULL, /**< No authentication */
+ ODP_AUTH_ALG_MD5_96 = NWAL_SA_AALG_HMAC_MD5, /**< HMAC-MD5 with 96 bit key */
+ ODP_AUTH_ALG_SHA1 = NWAL_SA_AALG_HMAC_SHA1, /**< HMAC-SHA1 */
+};
+
+/**
+ * Crypto API key structure
+ */
+typedef struct odp_crypto_key {
+ uint8_t *data; /**< Key data */
+ uint32_t length; /**< Key length in bytes */
+} odp_crypto_key_t;
+
+/**
+ * Crypto API IV structure
+ */
+typedef struct odp_crypto_iv {
+ uint8_t *data; /**< IV data */
+ uint32_t length; /**< IV length in bytes */
+} odp_crypto_iv_t;
+
+/**
+ * Crypto API data range specifier
+ */
+typedef struct odp_crypto_data_range {
+ uint32_t offset; /**< Offset from beginning of buffer (chain) */
+ uint32_t length; /**< Length of data to operate on */
+} odp_crypto_data_range_t;
+
+/**
+ * Crypto API session creation paramters
+ *
+ * @todo Add "odp_session_proc_info_t"
+ */
+typedef struct odp_crypto_session_params {
+ enum odp_crypto_op op; /**< Encode versus decode */
+ bool auth_cipher_text; /**< Authenticate/cipher ordering */
+ enum odp_crypto_op_mode pref_mode; /**< Preferred sync vs async */
+ enum odp_cipher_alg cipher_alg; /**< Cipher algorithm */
+ odp_crypto_key_t cipher_key; /**< Cipher key */
+ odp_crypto_iv_t iv; /**< Cipher Initialization Vector (IV) */
+ enum odp_auth_alg auth_alg; /**< Authentication algorithm */
+ odp_crypto_key_t auth_key; /**< Authentication key */
+ odp_queue_t compl_queue; /**< Async mode completion event queue */
+ odp_buffer_pool_t output_pool; /**< Output buffer pool */
+} odp_crypto_session_params_t;
+
+/**
+ * @var odp_crypto_session_params_t::auth_cipher_text
+ *
+ * Controls ordering of authentication and cipher operations,
+ * and is relative to the operation (encode vs decode).
+ * When encoding, @c TRUE indicates the authentication operation
+ * should be peformed @b after the cipher operation else before.
+ * When decoding, @c TRUE indicates the reverse order of operation.
+ *
+ * @var odp_crypto_session_params_t::compl_queue
+ *
+ * When the API operates asynchronously, the completion queue is
+ * used to return the completion status of the operation to the
+ * application.
+ *
+ * @var odp_crypto_session_params_t::output_pool
+ *
+ * When the output packet is not specified during the call to
+ * odp_crypto_operation, the output packet buffer will be allocated
+ * from this pool.
+ */
+
+/**
+ * Crypto API per packet operation parameters
+ *
+ * @todo Clarify who zero's ICV and how this relates to "hash_result_offset"
+ */
+typedef struct odp_crypto_op_params {
+ odp_crypto_session_t session; /**< Session handle from creation */
+ odp_packet_t pkt; /**< Input packet buffer */
+ odp_packet_t out_pkt; /**< Output packet buffer */
+ uint8_t *override_iv_ptr; /**< Override session IV pointer */
+ uint32_t hash_result_offset; /**< Offset from start of packet buffer for hash result */
+ odp_crypto_data_range_t cipher_range; /**< Data range to apply cipher */
+ odp_crypto_data_range_t auth_range; /**< Data range to authenticate */
+} odp_crypto_op_params_t;
+
+/**
+ * @var odp_crypto_op_params_t::pkt
+ * Specifies the input packet buffer for the crypto operation. When the
+ * @c out_pkt variable is set to @c ODP_PACKET_INVALID (indicating a new
+ * buffer should be allocated for the resulting packet), the \#define TBD
+ * indicates whether the implementation will free the input packet buffer
+ * or if it becomes the responsibility of the caller.
+ *
+ * @var odp_crypto_op_params_t::out_pkt
+ *
+ * The API supports both "in place" (the original packet "pkt" is
+ * modified) and "copy" (the packet is replicated to a new buffer
+ * which contains the modified data).
+ *
+ * The "in place" mode of operation is indicated by setting @c out_pkt
+ * equal to @c pkt. For the copy mode of operation, setting @c out_pkt
+ * to a valid packet buffer value indicates the caller wishes to specify
+ * the destination buffer. Setting @c out_pkt to @c ODP_PACKET_INVALID
+ * indicates the caller wishes the destination packet buffer be allocated
+ * from the output pool specified during session creation.
+ *
+ * @sa odp_crypto_session_params_t::output_pool.
+ */
+
+/**
+ * Crypto API session creation return code
+ */
+enum odp_crypto_ses_create_err {
+ ODP_CRYPTO_SES_CREATE_ERR_NONE, /**< Session created */
+ ODP_CRYPTO_SES_CREATE_ERR_ENOMEM, /**< Creation failed, no resources */
+ ODP_CRYPTO_SES_CREATE_ERR_INV_CIPHER, /**< Creation failed, bad cipher params */
+ ODP_CRYPTO_SES_CREATE_ERR_INV_AUTH, /**< Creation failed, bad auth params */
+};
+
+/**
+ * Crypto API algorithm return code
+ */
+enum crypto_alg_err {
+ ODP_CRYPTO_ALG_ERR_NONE, /**< Algorithm successful */
+ ODP_CRYPTO_ALG_ERR_DATA_SIZE, /**< Invalid data block size */
+ ODP_CRYPTO_ALG_ERR_KEY_SIZE, /**< Key size invalid for algorithm */
+ ODP_CRYPTO_ALG_ERR_ICV_CHECK, /**< Computed ICV value mismatch */
+};
+
+/**
+ * Crypto API hardware centric return code
+ */
+enum crypto_hw_err {
+ ODP_CRYPTO_HW_ERR_NONE, /**< Operation completed successfully */
+ ODP_CRYPTO_HW_ERR_DMA, /**< Error detected during DMA of data */
+ ODP_CRYPTO_HW_ERR_BP_DEPLETED, /**< Operation failed due to buffer pool depletion */
+};
+
+/**
+ * Cryto API per packet operation completion status
+ */
+typedef struct odp_crypto_compl_status {
+ enum crypto_alg_err alg_err; /**< Algorithm specific return code */
+ enum crypto_hw_err hw_err; /**< Hardware specific return code */
+} odp_crypto_compl_status_t;
+
+
+/**
+ * Crypto session creation (synchronous)
+ *
+ * @param params Session parameters
+ * @param session Created session else ODP_CRYPTO_SESSION_INVALID
+ * @param status Failure code if unsuccessful
+ *
+ * @return 0 if successful else -1
+ */
+int
+odp_crypto_session_create(odp_crypto_session_params_t *params,
+ odp_crypto_session_t *session,
+ enum odp_crypto_ses_create_err *status);
+
+/**
+ * Crypto session destroy (synchronous)
+ *
+ * @param session Session handle to destroy
+ *
+ * @return 0 if successful else -1
+ */
+int odp_crypto_session_destroy(odp_crypto_session_t session);
+
+/**
+ * Crypto session creation (asynchronous)
+ *
+ * Initiate crypto session creation. Results are delivered using
+ * the completion event via the completion queue.
+ *
+ * @param params Session parameters
+ * @param completion_event Event by which the session creation results are
+ * delivered.
+ * @param completion_queue Queue by which the completion event will be
+ * delivered.
+ *
+ * @return 0 if successful else -1
+ *
+ */
+int
+odp_crypto_session_create_async(odp_crypto_session_params_t *params,
+ odp_buffer_t completion_event,
+ odp_queue_t completion_queue);
+
+
+/**
+ * Crypto session creation completion status
+ *
+ * Accessor function for obtaining creation status from the completion event.
+ *
+ * @param completion_event Event containing operation results
+ * @param status Pointer to store creation return code
+ */
+void
+odp_crypto_get_ses_create_compl_status(odp_buffer_t completion_event,
+ enum odp_crypto_ses_create_err *status);
+
+/**
+ * Crypto session creation completion return value
+ *
+ * Accessor function for obtaining handle for newly created session.
+ *
+ * @param completion_event Event containing operation results
+ * @param session Pointer to store session handle
+ */
+void
+odp_crypto_get_ses_create_compl_session(odp_buffer_t completion_event,
+ odp_crypto_session_t *session);
+
+/**
+ * Crypto per packet operation
+ *
+ * Performs the cryptographic operations specified during session creation
+ * on the packet. If the operation is performed synchronously, "posted"
+ * will return FALSE and the result of the operation is immediately available
+ * in the completion event. If "posted" returns TRUE the result will be
+ * delivered via the completion queue specified when the session was created.
+ *
+ * @todo Resolve if completion_event is necessary, can/should the output
+ * packet buffer always be used instead.
+ *
+ * @param params Operation parameters
+ * @param posted Pointer to return posted, TRUE for async operation
+ * @param completion_event Event by which the operation results are delivered.
+ *
+ * @return 0 if successful else -1
+ */
+int
+odp_crypto_operation(odp_crypto_op_params_t *params,
+ bool *posted,
+ odp_buffer_t completion_event);
+
+/**
+ * Crypto per packet operation set user context in completion event
+ *
+ * @param completion_event Event containing operation results
+ * @param ctx User data
+ */
+void
+odp_crypto_set_operation_compl_ctx(odp_buffer_t completion_event,
+ void *ctx);
+
+/**
+ * Crypto per packet operation completion status
+ *
+ * Accessor function for obtaining operation status from the completion event.
+ *
+ * @param completion_event Event containing operation results
+ * @param auth Pointer to store authentication results
+ * @param cipher Pointer to store cipher results
+ */
+void
+odp_crypto_get_operation_compl_status(odp_buffer_t completion_event,
+ odp_crypto_compl_status_t *auth,
+ odp_crypto_compl_status_t *cipher);
+
+/**
+ * Crypto per packet operation query completed operation packet
+ *
+ * Accessor function for obtaining current packet buffer, can be
+ * different from input packet buffer on some systems
+ *
+ * @param completion_event Event containing operation results
+ *
+ * @return Packet structure where data now resides
+ */
+odp_packet_t
+odp_crypto_get_operation_compl_packet(odp_buffer_t completion_event);
+
+/**
+ * Crypto per packet operation query user context in completion event
+ *
+ * @param completion_event Event containing operation results
+ *
+ * @return User data
+ */
+void *
+odp_crypto_get_operation_compl_ctx(odp_buffer_t completion_event);
+
+/**
+ * Generate random byte string
+ *
+ * @param buf Pointer to store result
+ * @param len Pointer to input length value as well as return value
+ * @param use_entropy Use entropy
+ *
+ * @todo Define the implication of the use_entropy parameter
+ *
+ * @return 0 if succesful
+ */
+int
+odp_hw_random_get(uint8_t *buf, size_t *len, bool use_entropy);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif
new file mode 100644
@@ -0,0 +1,84 @@
+/*
+ * Copyright (c) 2014, Linaro Limited
+ * Copyright (c) 2014, Texas Instruments Incorporated
+ * All rights reserved.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+#ifndef ODP_CRYPTO_INTERNAL_H_
+#define ODP_CRYPTO_INTERNAL_H_
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <ti/drv/nwal/nwal.h>
+#include <ti/drv/nwal/nwal_util.h>
+
+#define OP_RESULT_MAGIC 0x91919191
+
+/** Forward declaration of session structure */
+struct odp_crypto_session_s;
+
+/**
+ * Algorithm handler function prototype
+ */
+typedef
+enum crypto_alg_err (*crypto_func_t)(struct odp_crypto_op_params *params,
+ struct odp_crypto_session_s *session);
+
+#define ODP_CRYPTO_MAX_IV_LENGTH 32
+
+struct iv_full {
+ uint8_t data[ODP_CRYPTO_MAX_IV_LENGTH];
+ size_t length;
+};
+
+
+/**
+ * Per crypto session data structure
+ */
+struct odp_crypto_session_s {
+ nwal_Handle dm_handle;
+ nwalTxDmPSCmdInfo_t dm_ps_cmdinfo;
+ odp_buffer_pool_t out_pool;
+ uint32_t out_flow_id;
+ odp_queue_t compl_queue;
+ struct {
+ enum odp_cipher_alg alg;
+ struct iv_full iv;
+ } cipher;
+
+ struct {
+ enum odp_auth_alg alg;
+ struct iv_full iv;
+ uint32_t tag_len;
+ } auth;
+
+ uint32_t index;
+ enum odp_crypto_op op;
+};
+
+/**
+ * Per packet operation result
+ */
+struct odp_operation_result_s {
+ uint32_t magic;
+ struct odp_crypto_compl_status cipher;
+ struct odp_crypto_compl_status auth;
+};
+
+/**
+ * Per session creation operation result
+ */
+struct odp_session_result_s {
+ enum odp_crypto_ses_create_err rc;
+ odp_crypto_session_t session;
+};
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif
@@ -35,6 +35,8 @@ int odp_pktio_init_global(void);
int odp_queue_init_global(void);
+int odp_crypto_init_global(void);
+
int odp_schedule_init_global(void);
int odp_schedule_init_local(void);
new file mode 100644
@@ -0,0 +1,490 @@
+/*
+ * Copyright (c) 2014, Linaro Limited
+ * Copyright (c) 2014, Texas Instruments Incorporated
+ * All rights reserved.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+#include <odp_crypto.h>
+#include <odp_internal.h>
+#include <odp_atomic.h>
+#include <odp_spinlock.h>
+#include <odp_sync.h>
+#include <odp_debug.h>
+#include <odp_align.h>
+#include <odp_hints.h>
+#include <odp_shared_memory.h>
+#include <odp_crypto_internal.h>
+#include <odp_packet_internal.h>
+#include <odp_queue_internal.h>
+#include <odp_byteorder.h>
+
+#include <string.h>
+#include <odp_ti_mcsdk.h>
+
+#define MAX_SESSIONS 32
+
+typedef struct {
+ odp_atomic_u32_t next;
+ uint32_t max;
+ struct odp_crypto_session_s sessions[0];
+} odp_crypto_global_t;
+
+static odp_crypto_global_t *global;
+
+static struct odp_crypto_session_s *alloc_session(void)
+{
+ uint32_t idx;
+ struct odp_crypto_session_s *session = NULL;
+
+ idx = odp_atomic_fetch_inc_u32(&global->next);
+ if (idx < global->max) {
+ session = &global->sessions[idx];
+ session->index = idx;
+ }
+ return session;
+}
+
+static void _print_nwalCreateDmSAParams(nwalCreateDmSAParams_t *dmSaParam)
+{
+ odp_pr_dbg("dmSaParam.dmChnType = %u\n",
+ dmSaParam->dmSaParam.dmChnType);
+ odp_pr_dbg("dmSaParam.authMode = %u\n", dmSaParam->dmSaParam.authMode);
+ odp_pr_dbg("dmSaParam.cipherMode = %u\n",
+ dmSaParam->dmSaParam.cipherMode);
+ odp_pr_dbg("dmSaParam.enc1st = %u\n", dmSaParam->dmSaParam.enc1st);
+ odp_pr_dbg("dmSaParam.macSize = %u\n", dmSaParam->dmSaParam.macSize);
+ odp_pr_dbg("dmSaParam.aadSize = %u\n", dmSaParam->dmSaParam.aadSize);
+ odp_pr_dbg("dmSaParam.replayWindow = %u\n",
+ dmSaParam->dmSaParam.replayWindow);
+
+ if (dmSaParam->dmSaParam.cipherMode != NWAL_SA_EALG_NULL)
+ odp_pr_dbg_mem(dmSaParam->keyParam.pEncKey,
+ dmSaParam->keyParam.encKeySize,
+ "keyParam.pEncKey");
+ if (dmSaParam->dmSaParam.authMode != NWAL_SA_AALG_NULL)
+ odp_pr_dbg_mem(dmSaParam->keyParam.pAuthKey,
+ dmSaParam->keyParam.macKeySize,
+ "keyParam.pAuthKey");
+}
+
+int odp_crypto_session_create(odp_crypto_session_params_t *params,
+ odp_crypto_session_t *session_out,
+ enum odp_crypto_ses_create_err *status)
+{
+ nwal_RetValue nwal_ret;
+ nwalCreateDmSAParams_t sa_params;
+ nwalMbufPool_t rx_pool;
+ Cppi_FlowHnd out_flow;
+ struct odp_crypto_session_s *session;
+
+ ODP_ASSERT((params->cipher_alg != ODP_CIPHER_ALG_NULL ||
+ params->auth_alg != ODP_AUTH_ALG_NULL),
+ "Both algorithms are NULL");
+
+ if (params->cipher_alg == ODP_CIPHER_ALG_NULL) {
+ params->cipher_key.data = NULL;
+ params->cipher_key.length = 0;
+ }
+
+ if (params->auth_alg == ODP_AUTH_ALG_NULL &&
+ params->cipher_alg != ODP_CIPHER_ALG_AES_GCM &&
+ params->cipher_alg != ODP_CIPHER_ALG_AES_CCM) {
+ params->auth_key.data = NULL;
+ params->auth_key.length = 0;
+ }
+
+ /* Default to failure result */
+ *status = ODP_CRYPTO_SES_CREATE_ERR_NONE;
+ *session_out = ODP_CRYPTO_SESSION_INVALID;
+
+
+ /* Allocate memory for this session */
+ session = alloc_session();
+ if (!session) {
+ *status = ODP_CRYPTO_SES_CREATE_ERR_ENOMEM;
+ return -1;
+ }
+
+ /* Copy stuff over */
+ session->op = params->op;
+ session->cipher.alg = params->cipher_alg;
+ session->auth.alg = params->auth_alg;
+ if (sizeof(session->cipher.iv.data) < params->iv.length) {
+ *status = ODP_CRYPTO_SES_CREATE_ERR_INV_CIPHER;
+ return -1;
+ }
+ memcpy(session->cipher.iv.data, params->iv.data, params->iv.length);
+ /** @todo: need separate IV for Auth */
+ memcpy(session->auth.iv.data, params->iv.data, params->iv.length);
+
+ session->compl_queue = params->compl_queue;
+ session->out_pool = params->output_pool;
+
+ rx_pool.numBufPools = 1;
+ rx_pool.bufPool[0].heapHandle = session->out_pool;
+ rx_pool.bufPool[0].bufSize =
+ Pktlib_getMaxBufferSize(session->out_pool);
+ rx_pool.bufPool[0].descSize = TUNE_NETAPI_DESC_SIZE;
+
+ nwal_ret = nwal_SetupFlow(odp_global->nwal.handle,
+ &rx_pool,
+ 0, /* buffer header travels via SA, so no offset */
+ odp_local.nwal.cfg.rxPktTailRoomSz,
+ &out_flow,
+ nwal_FALSE);
+
+ if (nwal_ret != nwal_OK) {
+ *status = ODP_CRYPTO_SES_CREATE_ERR_ENOMEM;
+ return -1;
+ }
+
+ session->out_flow_id = Cppi_getFlowId(out_flow);
+
+ memset(&sa_params, 0, sizeof(nwalCreateDmSAParams_t));
+ sa_params.dmSaParam.dmChnType =
+ (params->op == ODP_CRYPTO_OP_DECODE) ?
+ NWAL_DM_CHAN_DECRYPT :
+ NWAL_DM_CHAN_ENCRYPT;
+ sa_params.dmSaParam.replayWindow = 64; /** @todo: always 64? */
+ sa_params.dmSaParam.authMode = params->auth_alg;
+ sa_params.dmSaParam.cipherMode = params->cipher_alg;
+
+ sa_params.dmSaParam.enc1st = (params->op == ODP_CRYPTO_OP_ENCODE) ?
+ params->auth_cipher_text : !params->auth_cipher_text;
+
+ if ((sa_params.dmSaParam.cipherMode == NWAL_SA_EALG_AES_GCM) ||
+ (sa_params.dmSaParam.cipherMode == NWAL_SA_EALG_AES_CCM) ||
+ (sa_params.dmSaParam.authMode == NWAL_SA_AALG_GMAC)) {
+ sa_params.dmSaParam.macSize = 16;
+ sa_params.dmSaParam.aadSize = 8;
+ /* Enc1st needs to always be true for combined algorithms */
+ sa_params.dmSaParam.enc1st = nwal_TRUE;
+ } else if (sa_params.dmSaParam.authMode != NWAL_SA_AALG_NULL) {
+ sa_params.dmSaParam.macSize = 12;
+ sa_params.dmSaParam.aadSize = 0;
+ } else {
+ sa_params.dmSaParam.enc1st = nwal_TRUE;
+ sa_params.dmSaParam.macSize = 0;
+ }
+
+ sa_params.keyParam.pEncKey = params->cipher_key.data;
+ sa_params.keyParam.encKeySize = params->cipher_key.length;
+ sa_params.keyParam.pAuthKey = params->auth_key.data;
+ sa_params.keyParam.macKeySize = params->auth_key.length;
+
+ session->auth.tag_len = sa_params.dmSaParam.macSize;
+
+ ODP_ASSERT(session->auth.tag_len <=
+ ODP_FIELD_SIZEOF(struct odp_pkthdr, crypto.dec.hash_tag),
+ "Auth tag length is bigger than hash_tag array");
+
+ _print_nwalCreateDmSAParams(&sa_params);
+ odp_pr_dbg("Session addr: %p\n", session);
+ nwal_ret = nwal_setDMSecAssoc(odp_global->nwal.handle,
+ (nwal_AppId) session,
+ &sa_params,
+ &session->dm_handle);
+ if (nwal_ret != nwal_OK) {
+ odp_pr_err("nwal_setDMSecAssoc() returned Error Code %d\n",
+ nwal_ret);
+ *status = ODP_CRYPTO_SES_CREATE_ERR_ENOMEM;
+ return -1;
+ }
+
+ nwal_ret = nwal_initDMPSCmdInfo(odp_global->nwal.handle,
+ session->dm_handle,
+ &session->dm_ps_cmdinfo);
+
+ *status = ODP_CRYPTO_SES_CREATE_ERR_NONE;
+ *session_out = session;
+
+ return 0;
+}
+
+int odp_crypto_session_destroy(odp_crypto_session_t ses)
+{
+ struct odp_crypto_session_s *session = ses;
+ nwal_RetValue nwal_ret;
+ nwal_ret = nwal_delDMSecAssoc(odp_global->nwal.handle,
+ session->dm_handle);
+ return (nwal_ret == nwal_OK) ? 0 : -1;
+}
+
+#define ODP_CRYPTO_BUFFER_PROCESSED_OFFSET (-1)
+
+static inline void hash_copy_be32(uint8_t *dest, const uint32be_t *sa, size_t n)
+{
+ union hash_u {
+ uint32_t hash32;
+ uint8_t hash[4];
+ } hash;
+
+ n /= 4;
+ while (n--) {
+ unsigned int i;
+ hash.hash32 = odp_be_to_cpu_32(*sa++);
+ for (i = 0; i < sizeof(hash.hash); i++)
+ *dest++ = hash.hash[i];
+ };
+}
+
+static inline int hash_compare_be32(const uint32_t *orig, const uint32be_t *sa,
+ size_t n)
+{
+ n /= 4;
+ while (n--) {
+ if (*orig++ != odp_be_to_cpu_32(*sa++))
+ return 1;
+ };
+ return 0;
+}
+
+/**
+ * Set bufPtr to origBuffPtr to pass buffer header via SA
+ *
+ * @return offset value
+ */
+static inline int16_t odp_crypto_buffer_preprocess(odp_buffer_t buf)
+{
+ struct odp_pkthdr *hdr;
+ int16_t offset;
+ Cppi_HostDesc *desc;
+ uint32_t packet_length;
+
+ desc = _odp_buf_to_cppi_desc(buf);
+ hdr = odp_packet_hdr(odp_packet_from_buffer(buf));
+ offset = desc->buffPtr - desc->origBuffPtr;
+ hdr->crypto.saved_buf_offset = offset;
+ odp_pr_dbg("buffPtr: 0x%08x, buffLen: 0x%x, offset: %x\n",
+ desc->buffPtr, desc->buffLen, offset);
+ desc->buffPtr -= offset;
+ desc->buffLen += offset;
+ packet_length = odp_packet_get_len(odp_packet_from_buffer(buf));
+ odp_packet_set_len(odp_packet_from_buffer(buf),
+ packet_length + offset);
+ odp_pr_vdbg_packet(odp_packet_from_buffer(buf));
+ return offset;
+}
+
+/**
+ * Restore bufPtr after SA operation
+ *
+ * @return offset value
+ */
+static inline void odp_crypto_buffer_postprocess(odp_buffer_t buf,
+ enum crypto_alg_err *alg_err)
+{
+ Cppi_HostDesc *desc;
+ int16_t offset;
+ uint8_t *auth_tag = NULL;
+ uint32_t auth_tag_len = 0;
+ struct odp_pkthdr *hdr;
+ struct odp_crypto_session_s *session;
+ Ti_Pkt *pkt;
+ uint32_t packet_length;
+ nwal_Bool_t result;
+ enum crypto_alg_err auth_err = ODP_CRYPTO_ALG_ERR_NONE;
+
+ odp_pr_vdbg_packet(odp_packet_from_buffer(buf));
+ hdr = odp_packet_hdr(odp_packet_from_buffer(buf));
+ offset = hdr->crypto.saved_buf_offset;
+ if (offset == ODP_CRYPTO_BUFFER_PROCESSED_OFFSET) {
+ /* Buffer already post-processed */
+ return;
+ }
+ ODP_ASSERT(offset >= 0, "Wrong saved buffer offset\n");
+
+ hdr->crypto.saved_buf_offset = ODP_CRYPTO_BUFFER_PROCESSED_OFFSET;
+ pkt = _odp_buf_to_ti_pkt(buf);
+ desc = _odp_buf_to_cppi_desc(buf);
+
+ odp_pr_dbg("buffPtr: 0x%08x, buffLen: 0x%x, offset: %x\n",
+ desc->buffPtr, desc->buffLen, offset);
+ desc->buffPtr += offset;
+ desc->buffLen -= offset;
+ packet_length = odp_packet_get_len(odp_packet_from_buffer(buf));
+ odp_packet_set_len(odp_packet_from_buffer(buf),
+ packet_length - offset);
+
+ result = nwal_mGetAppidFmPkt(pkt, (nwal_AppId *)&session);
+ ODP_ASSERT(result == nwal_TRUE, "Can't get crypto session context\n");
+ odp_pr_dbg("Session addr: %p\n", session);
+
+ nwal_mmGetDmAuthTag(pkt, &auth_tag, &auth_tag_len);
+
+ ODP_ASSERT(session->auth.tag_len <= auth_tag_len,
+ "Auth tag length from SA is bigger than ICV length");
+ ODP_ASSERT(!((uintptr_t)auth_tag & 0x3),
+ "Auth tag is not 4 bytes aligned");
+
+ if (session->op == ODP_CRYPTO_OP_ENCODE) {
+ /* Copy hash to packet */
+ uint8_t *data = odp_buffer_addr(buf);
+ data += hdr->crypto.hash_offset;
+ hash_copy_be32(data, (uint32be_t *)(void *)auth_tag,
+ session->auth.tag_len);
+ } else if (hash_compare_be32(hdr->crypto.dec.hash_tag,
+ (uint32be_t *)(void *)auth_tag,
+ session->auth.tag_len)) {
+ odp_pr_dbg("ICV is wrong\n");
+ odp_pr_dbg_mem(hdr->crypto.dec.hash_tag, session->auth.tag_len,
+ "Saved auth tag");
+ odp_pr_dbg_mem(auth_tag, session->auth.tag_len,
+ "Decoded auth tag");
+ auth_err = ODP_CRYPTO_ALG_ERR_ICV_CHECK;
+ }
+
+ if (alg_err)
+ *alg_err = auth_err;
+ return;
+}
+
+int odp_crypto_operation(odp_crypto_op_params_t *params,
+ bool *posted,
+ odp_buffer_t completion_event ODP_UNUSED)
+{
+ nwalTxDmPSCmdInfo_t *dm_cmd_info;
+ Cppi_HostDesc *desc;
+ struct odp_crypto_session_s *session;
+ odp_buffer_t buf = odp_buffer_from_packet(params->pkt);
+ struct odp_pkthdr *hdr = odp_packet_hdr(params->pkt);
+ uint32_t offset;
+ uint8_t *data;
+
+ session = (struct odp_crypto_session_s *)(intptr_t)params->session;
+
+ /* Out packet is allocated from out poll and can't be specified */
+ if (params->out_pkt != ODP_PACKET_INVALID)
+ return -1;
+
+ dm_cmd_info = &session->dm_ps_cmdinfo;
+ dm_cmd_info->rxSbSaQ = _odp_queue_to_qmss_queue(session->compl_queue);
+ dm_cmd_info->rxPktFlowId = session->out_flow_id;
+
+ /* Save hash tag for decode operation and fill hash result with 0's*/
+ data = odp_packet_buf_addr(params->pkt);
+ data += params->hash_result_offset;
+ hdr->crypto.hash_offset = params->hash_result_offset;
+ if (session->op == ODP_CRYPTO_OP_DECODE)
+ memcpy(hdr->crypto.dec.hash_tag, data, session->auth.tag_len);
+ memset(data, 0, session->auth.tag_len);
+
+ offset = odp_crypto_buffer_preprocess(buf);
+
+ nwal_mCmdDMUpdate(_odp_buf_to_ti_pkt(buf),
+ dm_cmd_info,
+ nwal_HANDLE_INVALID,
+ params->cipher_range.offset + offset,
+ params->cipher_range.length,
+ (params->override_iv_ptr) ?
+ params->override_iv_ptr :
+ session->cipher.iv.data,
+ params->auth_range.offset + offset,
+ params->auth_range.length,
+ NULL,
+ 0, /** @todo: Should be aadSize from session? */
+ NULL);
+
+ desc = _odp_buf_to_cppi_desc(buf);
+ desc = Osal_qmssConvertDescVirtToPhy(0, desc);
+
+ Qmss_queuePushDescSizeRaw(dm_cmd_info->txQueue,
+ desc,
+ NWAL_DESC_SIZE);
+
+ *posted = 1;
+ return 0;
+}
+
+
+int odp_crypto_init_global(void)
+{
+ size_t mem_size;
+
+ /* Calculate the memory size we need */
+ mem_size = sizeof(*global);
+ mem_size += (MAX_SESSIONS * sizeof(struct odp_crypto_session_s));
+
+ /* Allocate our globally shared memory */
+ global = odp_shm_reserve("crypto_pool", mem_size, ODP_CACHE_LINE_SIZE);
+
+ /* Clear it out */
+ memset(global, 0, mem_size);
+
+ /* Initialize it */
+ global->max = MAX_SESSIONS;
+
+ return 0;
+}
+
+int odp_hw_random_get(uint8_t *buf, uint32_t *len, bool use_entropy ODP_UNUSED)
+{
+ Sa_RngData_t random;
+ uint8_t *random_buf;
+ uint32_t length = *len;
+ uint32_t i;
+ nwal_RetValue ret;
+
+ ret = nwal_getSARandomNum(odp_global->nwal.handle, &random);
+ if (ret != nwal_OK) {
+ *len = 0;
+ return -1;
+ }
+ random_buf = (uint8_t *)&random;
+ if (length > sizeof(Sa_RngData_t))
+ length = sizeof(Sa_RngData_t);
+
+ for (i = 0; i < length; i++)
+ *buf++ = *random_buf++;
+ *len = length;
+
+ return 0;
+}
+void
+odp_crypto_get_operation_compl_status(odp_buffer_t completion_event,
+ struct odp_crypto_compl_status *auth,
+ struct odp_crypto_compl_status *cipher)
+{
+ auth->hw_err = ODP_CRYPTO_HW_ERR_NONE;
+ auth->alg_err = ODP_CRYPTO_ALG_ERR_NONE;
+ cipher->hw_err = ODP_CRYPTO_HW_ERR_NONE;
+ cipher->alg_err = ODP_CRYPTO_ALG_ERR_NONE;
+
+ odp_crypto_buffer_postprocess(completion_event, &auth->alg_err);
+
+ return;
+}
+
+odp_packet_t
+odp_crypto_get_operation_compl_packet(odp_buffer_t completion_event)
+{
+ odp_crypto_buffer_postprocess(completion_event, NULL);
+ return odp_packet_from_buffer(completion_event);
+}
+
+
+void *odp_crypto_get_operation_compl_ctx(odp_buffer_t completion ODP_UNUSED)
+{
+ /* Not supported */
+ return NULL;
+}
+
+void odp_crypto_get_ses_create_compl_status(odp_buffer_t completion_event,
+ enum odp_crypto_ses_create_err *status)
+{
+ struct odp_session_result_s *result;
+
+ result = odp_buffer_addr(completion_event);
+ *status = result->rc;
+}
+
+void odp_crypto_get_ses_create_compl_session(odp_buffer_t completion_event,
+ odp_crypto_session_t *session)
+{
+ struct odp_session_result_s *result;
+
+ result = odp_buffer_addr(completion_event);
+ *session = result->session;
+}
@@ -52,6 +52,11 @@ int odp_init_global(void)
return -1;
}
+ if (odp_crypto_init_global()) {
+ odp_pr_err("ODP crypto init failed.\n");
+ return -1;
+ }
+
if (odp_timer_init_global()) {
odp_pr_err("ODP timer init failed.\n");
return -1;