X-Git-Url: http://git.droids-corp.org/?a=blobdiff_plain;f=drivers%2Fnet%2Fbnxt%2Ftf_core%2Ftf_session.h;h=6a5c89403374b4f41d31d2cb1e0f8f1c7839fe5c;hb=3127f99274b679124658afdbfc49210730c50617;hp=92792518b0ea8a715a0815612072d5db0a6dee5e;hpb=a46bbb57605b40201c2bab6386a7890451224836;p=dpdk.git diff --git a/drivers/net/bnxt/tf_core/tf_session.h b/drivers/net/bnxt/tf_core/tf_session.h index 92792518b0..6a5c894033 100644 --- a/drivers/net/bnxt/tf_core/tf_session.h +++ b/drivers/net/bnxt/tf_core/tf_session.h @@ -14,7 +14,9 @@ #include "tf_device.h" #include "tf_rm.h" #include "tf_tbl.h" +#include "tf_resources.h" #include "stack.h" +#include "ll.h" /** * The Session module provides session control support. A session is @@ -28,27 +30,27 @@ /** Session defines */ -#define TF_SESSIONS_MAX 1 /** max # sessions */ #define TF_SESSION_ID_INVALID 0xFFFFFFFF /** Invalid Session ID define */ /** - * Number of EM entries. Static for now will be removed - * when parameter added at a later date. At this stage we - * are using fixed size entries so that each stack entry - * represents 4 RT (f/n)blocks. So we take the total block - * allocation for truflow and divide that by 4. + * At this stage we are using fixed size entries so that each + * stack entry represents either 2 or 4 RT (f/n)blocks. So we + * take the total block allocation for truflow and divide that + * by either 2 or 4. */ -#define TF_SESSION_TOTAL_FN_BLOCKS (1024 * 8) /* 8K blocks */ +#ifdef TF_EM_ENTRY_IPV4_ONLY +#define TF_SESSION_EM_ENTRY_SIZE 2 /* 2 blocks per entry */ +#else #define TF_SESSION_EM_ENTRY_SIZE 4 /* 4 blocks per entry */ -#define TF_SESSION_EM_POOL_SIZE \ - (TF_SESSION_TOTAL_FN_BLOCKS / TF_SESSION_EM_ENTRY_SIZE) +#endif -/** Session +/** + * Session * * Shared memory containing private TruFlow session information. * Through this structure the session can keep track of resource * allocations and (if so configured) any shadow copy of flow - * information. + * information. It also holds info about Session Clients. * * Memory is assigned to the Truflow instance by way of * tf_open_session. Memory is allocated and owned by i.e. ULP. @@ -63,17 +65,10 @@ struct tf_session { */ struct tf_session_version ver; - /** Session ID, allocated by FW on tf_open_session() */ - union tf_session_id session_id; - /** - * String containing name of control channel interface to be - * used for this session to communicate with firmware. - * - * ctrl_chan_name will be used as part of a name for any - * shared memory allocation. + * Session ID, allocated by FW on tf_open_session() */ - char ctrl_chan_name[TF_SESSION_NAME_MAX]; + union tf_session_id session_id; /** * Boolean controlling the use and availability of shadow @@ -90,232 +85,67 @@ struct tf_session { /** * Session Reference Count. To keep track of functions per - * session the ref_count is incremented. There is also a + * session the ref_count is updated. There is also a * parallel TruFlow Firmware ref_count in case the TruFlow * Core goes away without informing the Firmware. */ uint8_t ref_count; - /** Device handle */ - struct tf_dev_info *dev; - - /** Session HW and SRAM resources */ - struct tf_rm_db resc; - - /* Session HW resource pools */ - - /** RX L2 CTXT TCAM Pool */ - BITALLOC_INST(TF_L2_CTXT_TCAM_POOL_NAME_RX, TF_NUM_L2_CTXT_TCAM); - /** TX L2 CTXT TCAM Pool */ - BITALLOC_INST(TF_L2_CTXT_TCAM_POOL_NAME_TX, TF_NUM_L2_CTXT_TCAM); - - /** RX Profile Func Pool */ - BITALLOC_INST(TF_PROF_FUNC_POOL_NAME_RX, TF_NUM_PROF_FUNC); - /** TX Profile Func Pool */ - BITALLOC_INST(TF_PROF_FUNC_POOL_NAME_TX, TF_NUM_PROF_FUNC); - - /** RX Profile TCAM Pool */ - BITALLOC_INST(TF_PROF_TCAM_POOL_NAME_RX, TF_NUM_PROF_TCAM); - /** TX Profile TCAM Pool */ - BITALLOC_INST(TF_PROF_TCAM_POOL_NAME_TX, TF_NUM_PROF_TCAM); - - /** RX EM Profile ID Pool */ - BITALLOC_INST(TF_EM_PROF_ID_POOL_NAME_RX, TF_NUM_EM_PROF_ID); - /** TX EM Key Pool */ - BITALLOC_INST(TF_EM_PROF_ID_POOL_NAME_TX, TF_NUM_EM_PROF_ID); - - /** RX WC Profile Pool */ - BITALLOC_INST(TF_WC_TCAM_PROF_ID_POOL_NAME_RX, TF_NUM_WC_PROF_ID); - /** TX WC Profile Pool */ - BITALLOC_INST(TF_WC_TCAM_PROF_ID_POOL_NAME_TX, TF_NUM_WC_PROF_ID); - - /* TBD, how do we want to handle EM records ?*/ - /* EM Records are not controlled by way of a pool */ - - /** RX WC TCAM Pool */ - BITALLOC_INST(TF_WC_TCAM_POOL_NAME_RX, TF_NUM_WC_TCAM_ROW); - /** TX WC TCAM Pool */ - BITALLOC_INST(TF_WC_TCAM_POOL_NAME_TX, TF_NUM_WC_TCAM_ROW); - - /** RX Meter Profile Pool */ - BITALLOC_INST(TF_METER_PROF_POOL_NAME_RX, TF_NUM_METER_PROF); - /** TX Meter Profile Pool */ - BITALLOC_INST(TF_METER_PROF_POOL_NAME_TX, TF_NUM_METER_PROF); - - /** RX Meter Instance Pool */ - BITALLOC_INST(TF_METER_INST_POOL_NAME_RX, TF_NUM_METER); - /** TX Meter Pool */ - BITALLOC_INST(TF_METER_INST_POOL_NAME_TX, TF_NUM_METER); - - /** RX Mirror Configuration Pool*/ - BITALLOC_INST(TF_MIRROR_POOL_NAME_RX, TF_NUM_MIRROR); - /** RX Mirror Configuration Pool */ - BITALLOC_INST(TF_MIRROR_POOL_NAME_TX, TF_NUM_MIRROR); - - /** RX UPAR Pool */ - BITALLOC_INST(TF_UPAR_POOL_NAME_RX, TF_NUM_UPAR); - /** TX UPAR Pool */ - BITALLOC_INST(TF_UPAR_POOL_NAME_TX, TF_NUM_UPAR); - - /** RX SP TCAM Pool */ - BITALLOC_INST(TF_SP_TCAM_POOL_NAME_RX, TF_NUM_SP_TCAM); - /** TX SP TCAM Pool */ - BITALLOC_INST(TF_SP_TCAM_POOL_NAME_TX, TF_NUM_SP_TCAM); - - /** RX FKB Pool */ - BITALLOC_INST(TF_FKB_POOL_NAME_RX, TF_NUM_FKB); - /** TX FKB Pool */ - BITALLOC_INST(TF_FKB_POOL_NAME_TX, TF_NUM_FKB); - - /** RX Table Scope Pool */ - BITALLOC_INST(TF_TBL_SCOPE_POOL_NAME_RX, TF_NUM_TBL_SCOPE); - /** TX Table Scope Pool */ - BITALLOC_INST(TF_TBL_SCOPE_POOL_NAME_TX, TF_NUM_TBL_SCOPE); - - /** RX L2 Func Pool */ - BITALLOC_INST(TF_L2_FUNC_POOL_NAME_RX, TF_NUM_L2_FUNC); - /** TX L2 Func Pool */ - BITALLOC_INST(TF_L2_FUNC_POOL_NAME_TX, TF_NUM_L2_FUNC); - - /** RX Epoch0 Pool */ - BITALLOC_INST(TF_EPOCH0_POOL_NAME_RX, TF_NUM_EPOCH0); - /** TX Epoch0 Pool */ - BITALLOC_INST(TF_EPOCH0_POOL_NAME_TX, TF_NUM_EPOCH0); - - /** TX Epoch1 Pool */ - BITALLOC_INST(TF_EPOCH1_POOL_NAME_RX, TF_NUM_EPOCH1); - /** TX Epoch1 Pool */ - BITALLOC_INST(TF_EPOCH1_POOL_NAME_TX, TF_NUM_EPOCH1); - - /** RX MetaData Profile Pool */ - BITALLOC_INST(TF_METADATA_POOL_NAME_RX, TF_NUM_METADATA); - /** TX MetaData Profile Pool */ - BITALLOC_INST(TF_METADATA_POOL_NAME_TX, TF_NUM_METADATA); - - /** RX Connection Tracking State Pool */ - BITALLOC_INST(TF_CT_STATE_POOL_NAME_RX, TF_NUM_CT_STATE); - /** TX Connection Tracking State Pool */ - BITALLOC_INST(TF_CT_STATE_POOL_NAME_TX, TF_NUM_CT_STATE); - - /** RX Range Profile Pool */ - BITALLOC_INST(TF_RANGE_PROF_POOL_NAME_RX, TF_NUM_RANGE_PROF); - /** TX Range Profile Pool */ - BITALLOC_INST(TF_RANGE_PROF_POOL_NAME_TX, TF_NUM_RANGE_PROF); - - /** RX Range Pool */ - BITALLOC_INST(TF_RANGE_ENTRY_POOL_NAME_RX, TF_NUM_RANGE_ENTRY); - /** TX Range Pool */ - BITALLOC_INST(TF_RANGE_ENTRY_POOL_NAME_TX, TF_NUM_RANGE_ENTRY); - - /** RX LAG Pool */ - BITALLOC_INST(TF_LAG_ENTRY_POOL_NAME_RX, TF_NUM_LAG_ENTRY); - /** TX LAG Pool */ - BITALLOC_INST(TF_LAG_ENTRY_POOL_NAME_TX, TF_NUM_LAG_ENTRY); - - /* Session SRAM pools */ - - /** RX Full Action Record Pool */ - BITALLOC_INST(TF_SRAM_FULL_ACTION_POOL_NAME_RX, - TF_RSVD_SRAM_FULL_ACTION_RX); - /** TX Full Action Record Pool */ - BITALLOC_INST(TF_SRAM_FULL_ACTION_POOL_NAME_TX, - TF_RSVD_SRAM_FULL_ACTION_TX); - - /** RX Multicast Group Pool, only RX is supported */ - BITALLOC_INST(TF_SRAM_MCG_POOL_NAME_RX, - TF_RSVD_SRAM_MCG_RX); - - /** RX Encap 8B Pool*/ - BITALLOC_INST(TF_SRAM_ENCAP_8B_POOL_NAME_RX, - TF_RSVD_SRAM_ENCAP_8B_RX); - /** TX Encap 8B Pool*/ - BITALLOC_INST(TF_SRAM_ENCAP_8B_POOL_NAME_TX, - TF_RSVD_SRAM_ENCAP_8B_TX); - - /** RX Encap 16B Pool */ - BITALLOC_INST(TF_SRAM_ENCAP_16B_POOL_NAME_RX, - TF_RSVD_SRAM_ENCAP_16B_RX); - /** TX Encap 16B Pool */ - BITALLOC_INST(TF_SRAM_ENCAP_16B_POOL_NAME_TX, - TF_RSVD_SRAM_ENCAP_16B_TX); - - /** TX Encap 64B Pool, only TX is supported */ - BITALLOC_INST(TF_SRAM_ENCAP_64B_POOL_NAME_TX, - TF_RSVD_SRAM_ENCAP_64B_TX); - - /** RX Source Properties SMAC Pool */ - BITALLOC_INST(TF_SRAM_SP_SMAC_POOL_NAME_RX, - TF_RSVD_SRAM_SP_SMAC_RX); - /** TX Source Properties SMAC Pool */ - BITALLOC_INST(TF_SRAM_SP_SMAC_POOL_NAME_TX, - TF_RSVD_SRAM_SP_SMAC_TX); - - /** TX Source Properties SMAC IPv4 Pool, only TX is supported */ - BITALLOC_INST(TF_SRAM_SP_SMAC_IPV4_POOL_NAME_TX, - TF_RSVD_SRAM_SP_SMAC_IPV4_TX); - - /** TX Source Properties SMAC IPv6 Pool, only TX is supported */ - BITALLOC_INST(TF_SRAM_SP_SMAC_IPV6_POOL_NAME_TX, - TF_RSVD_SRAM_SP_SMAC_IPV6_TX); - - /** RX Counter 64B Pool */ - BITALLOC_INST(TF_SRAM_STATS_64B_POOL_NAME_RX, - TF_RSVD_SRAM_COUNTER_64B_RX); - /** TX Counter 64B Pool */ - BITALLOC_INST(TF_SRAM_STATS_64B_POOL_NAME_TX, - TF_RSVD_SRAM_COUNTER_64B_TX); - - /** RX NAT Source Port Pool */ - BITALLOC_INST(TF_SRAM_NAT_SPORT_POOL_NAME_RX, - TF_RSVD_SRAM_NAT_SPORT_RX); - /** TX NAT Source Port Pool */ - BITALLOC_INST(TF_SRAM_NAT_SPORT_POOL_NAME_TX, - TF_RSVD_SRAM_NAT_SPORT_TX); - - /** RX NAT Destination Port Pool */ - BITALLOC_INST(TF_SRAM_NAT_DPORT_POOL_NAME_RX, - TF_RSVD_SRAM_NAT_DPORT_RX); - /** TX NAT Destination Port Pool */ - BITALLOC_INST(TF_SRAM_NAT_DPORT_POOL_NAME_TX, - TF_RSVD_SRAM_NAT_DPORT_TX); - - /** RX NAT Source IPv4 Pool */ - BITALLOC_INST(TF_SRAM_NAT_S_IPV4_POOL_NAME_RX, - TF_RSVD_SRAM_NAT_S_IPV4_RX); - /** TX NAT Source IPv4 Pool */ - BITALLOC_INST(TF_SRAM_NAT_S_IPV4_POOL_NAME_TX, - TF_RSVD_SRAM_NAT_S_IPV4_TX); - - /** RX NAT Destination IPv4 Pool */ - BITALLOC_INST(TF_SRAM_NAT_D_IPV4_POOL_NAME_RX, - TF_RSVD_SRAM_NAT_D_IPV4_RX); - /** TX NAT IPv4 Destination Pool */ - BITALLOC_INST(TF_SRAM_NAT_D_IPV4_POOL_NAME_TX, - TF_RSVD_SRAM_NAT_D_IPV4_TX); + /** + * Session Reference Count for attached sessions. To keep + * track of application sharing of a session the + * ref_count_attach is updated. + */ + uint8_t ref_count_attach; /** - * Pools not allocated from HCAPI RM + * Device handle */ + struct tf_dev_info dev; + /** + * Device init flag. False if Device is not fully initialized, + * else true. + */ + bool dev_init; - /** RX L2 Ctx Remap ID Pool */ - BITALLOC_INST(TF_L2_CTXT_REMAP_POOL_NAME_RX, TF_NUM_L2_CTXT_TCAM); - /** TX L2 Ctx Remap ID Pool */ - BITALLOC_INST(TF_L2_CTXT_REMAP_POOL_NAME_TX, TF_NUM_L2_CTXT_TCAM); + /** + * Linked list of clients registered for this session + */ + struct ll client_ll; +}; - /** CRC32 seed table */ -#define TF_LKUP_SEED_MEM_SIZE 512 - uint32_t lkup_em_seed_mem[TF_DIR_MAX][TF_LKUP_SEED_MEM_SIZE]; +/** + * Session Client + * + * Shared memory for each of the Session Clients. A session can have + * one or more clients. + */ +struct tf_session_client { + /** + * Linked list of clients + */ + struct ll_entry ll_entry; /* For inserting in link list, must be + * first field of struct. + */ - /** Lookup3 init values */ - uint32_t lkup_lkup3_init_cfg[TF_DIR_MAX]; + /** + * String containing name of control channel interface to be + * used for this session to communicate with firmware. + * + * ctrl_chan_name will be used as part of a name for any + * shared memory allocation. + */ + char ctrl_chan_name[TF_SESSION_NAME_MAX]; - /** Table scope array */ - struct tf_tbl_scope_cb tbl_scopes[TF_NUM_TBL_SCOPE]; + /** + * Firmware FID, learned at time of Session Client create. + */ + uint16_t fw_fid; /** - * EM Pools + * Session Client ID, allocated by FW on tf_register_session() */ - struct stack em_pool[TF_DIR_MAX]; + union tf_session_client_id session_client_id; }; /** @@ -342,7 +172,13 @@ struct tf_session_attach_session_parms { * Session close parameter definition */ struct tf_session_close_session_parms { + /** + * [] + */ uint8_t *ref_count; + /** + * [] + */ union tf_session_id *session_id; }; @@ -355,11 +191,23 @@ struct tf_session_close_session_parms { * * @ref tf_session_close_session * + * @ref tf_session_is_fid_supported + * + * @ref tf_session_get_session_internal + * * @ref tf_session_get_session * + * @ref tf_session_get_session_client + * + * @ref tf_session_find_session_client_by_name + * + * @ref tf_session_find_session_client_by_fid + * * @ref tf_session_get_device * * @ref tf_session_get_fw_session_id + * + * @ref tf_session_get_session_id */ /** @@ -395,7 +243,8 @@ int tf_session_attach_session(struct tf *tfp, struct tf_session_attach_session_parms *parms); /** - * Closes a previous created session. + * Closes a previous created session. Only possible if previous + * registered Clients had been unregistered first. * * [in] tfp * Pointer to TF handle @@ -405,13 +254,53 @@ int tf_session_attach_session(struct tf *tfp, * * Returns * - (0) if successful. + * - (-EUSERS) if clients are still registered with the session. * - (-EINVAL) on failure. */ int tf_session_close_session(struct tf *tfp, struct tf_session_close_session_parms *parms); /** - * Looks up the private session information from the TF session info. + * Verifies that the fid is supported by the session. Used to assure + * that a function i.e. client/control channel is registered with the + * session. + * + * [in] tfs + * Pointer to TF Session handle + * + * [in] fid + * FID value to check + * + * Returns + * - (true) if successful, else false + * - (-EINVAL) on failure. + */ +bool +tf_session_is_fid_supported(struct tf_session *tfs, + uint16_t fid); + +/** + * Looks up the private session information from the TF session + * info. Does not perform a fid check against the registered + * clients. Should be used if tf_session_get_session() was used + * previously i.e. at the TF API boundary. + * + * [in] tfp + * Pointer to TF handle + * + * [out] tfs + * Pointer pointer to the session + * + * Returns + * - (0) if successful. + * - (-EINVAL) on failure. + */ +int tf_session_get_session_internal(struct tf *tfp, + struct tf_session **tfs); + +/** + * Looks up the private session information from the TF session + * info. Performs a fid check against the clients on the session. * * [in] tfp * Pointer to TF handle @@ -426,6 +315,53 @@ int tf_session_close_session(struct tf *tfp, int tf_session_get_session(struct tf *tfp, struct tf_session **tfs); +/** + * Looks up client within the session. + * + * [in] tfs + * Pointer pointer to the session + * + * [in] session_client_id + * Client id to look for within the session + * + * Returns + * client if successful. + * - (NULL) on failure, client not found. + */ +struct tf_session_client * +tf_session_get_session_client(struct tf_session *tfs, + union tf_session_client_id session_client_id); + +/** + * Looks up client using name within the session. + * + * [in] session, pointer to the session + * + * [in] session_client_name, name of the client to lookup in the session + * + * Returns: + * - Pointer to the session, if found. + * - (NULL) on failure, client not found. + */ +struct tf_session_client * +tf_session_find_session_client_by_name(struct tf_session *tfs, + const char *ctrl_chan_name); + +/** + * Looks up client using the fid. + * + * [in] session, pointer to the session + * + * [in] fid, fid of the client to find + * + * Returns: + * - Pointer to the session, if found. + * - (NULL) on failure, client not found. + */ +struct tf_session_client * +tf_session_find_session_client_by_fid(struct tf_session *tfs, + uint16_t fid); + /** * Looks up the device information from the TF Session. * @@ -443,8 +379,7 @@ int tf_session_get_device(struct tf_session *tfs, struct tf_dev_info **tfd); /** - * Looks up the FW session id of the firmware connection for the - * requested TF handle. + * Looks up the FW Session id the requested TF handle. * * [in] tfp * Pointer to TF handle @@ -459,4 +394,20 @@ int tf_session_get_device(struct tf_session *tfs, int tf_session_get_fw_session_id(struct tf *tfp, uint8_t *fw_session_id); +/** + * Looks up the Session id the requested TF handle. + * + * [in] tfp + * Pointer to TF handle + * + * [out] session_id + * Pointer to the session_id + * + * Returns + * - (0) if successful. + * - (-EINVAL) on failure. + */ +int tf_session_get_session_id(struct tf *tfp, + union tf_session_id *session_id); + #endif /* _TF_SESSION_H_ */