From: Shahaji Bhosle Date: Wed, 15 Apr 2020 08:18:44 +0000 (+0530) Subject: net/bnxt: add initial TruFlow core resource management X-Git-Url: http://git.droids-corp.org/?a=commitdiff_plain;h=f8b6392ad769670fc1f9219db1f2cb8e4c83a44c;p=dpdk.git net/bnxt: add initial TruFlow core resource management - Add TruFlow public API definitions for resources as well as RM infrastructure Signed-off-by: Shahaji Bhosle Reviewed-by: Randy Schacher Reviewed-by: Ajit Khaparde --- diff --git a/drivers/net/bnxt/Makefile b/drivers/net/bnxt/Makefile index c39c098cbb..02f8c3fc68 100644 --- a/drivers/net/bnxt/Makefile +++ b/drivers/net/bnxt/Makefile @@ -51,6 +51,7 @@ SRCS-$(CONFIG_RTE_LIBRTE_BNXT_PMD) += tf_core/tf_core.c SRCS-$(CONFIG_RTE_LIBRTE_BNXT_PMD) += tf_core/bitalloc.c SRCS-$(CONFIG_RTE_LIBRTE_BNXT_PMD) += tf_core/tf_msg.c SRCS-$(CONFIG_RTE_LIBRTE_BNXT_PMD) += tf_core/rand.c +SRCS-$(CONFIG_RTE_LIBRTE_BNXT_PMD) += tf_core/tf_rm.c SRCS-$(CONFIG_RTE_LIBRTE_BNXT_PMD) += tf_core/tfp.c # diff --git a/drivers/net/bnxt/tf_core/tf_core.c b/drivers/net/bnxt/tf_core/tf_core.c index f26bf28d3b..7d76efa66f 100644 --- a/drivers/net/bnxt/tf_core/tf_core.c +++ b/drivers/net/bnxt/tf_core/tf_core.c @@ -14,6 +14,35 @@ #include "bnxt.h" #include "rand.h" +static inline uint32_t SWAP_WORDS32(uint32_t val32) +{ + return (((val32 & 0x0000ffff) << 16) | + ((val32 & 0xffff0000) >> 16)); +} + +static void tf_seeds_init(struct tf_session *session) +{ + int i; + uint32_t r; + + /* Initialize the lfsr */ + rand_init(); + + /* RX and TX use the same seed values */ + session->lkup_lkup3_init_cfg[TF_DIR_RX] = + session->lkup_lkup3_init_cfg[TF_DIR_TX] = + SWAP_WORDS32(rand32()); + + for (i = 0; i < TF_LKUP_SEED_MEM_SIZE / 2; i++) { + r = SWAP_WORDS32(rand32()); + session->lkup_em_seed_mem[TF_DIR_RX][i * 2] = r; + session->lkup_em_seed_mem[TF_DIR_TX][i * 2] = r; + r = SWAP_WORDS32(rand32()); + session->lkup_em_seed_mem[TF_DIR_RX][i * 2 + 1] = (r & 0x1); + session->lkup_em_seed_mem[TF_DIR_TX][i * 2 + 1] = (r & 0x1); + } +} + int tf_open_session(struct tf *tfp, struct tf_open_session_parms *parms) @@ -103,6 +132,7 @@ tf_open_session(struct tf *tfp, /* Initialize Session */ session->device_type = parms->device_type; + tf_rm_init(tfp); /* Construct the Session ID */ session->session_id.internal.domain = domain; @@ -119,6 +149,16 @@ tf_open_session(struct tf *tfp, goto cleanup_close; } + /* Adjust the Session with what firmware allowed us to get */ + rc = tf_rm_allocate_validate(tfp); + if (rc) { + /* Log error */ + goto cleanup_close; + } + + /* Setup hash seeds */ + tf_seeds_init(session); + session->ref_count++; /* Return session ID */ @@ -189,6 +229,12 @@ tf_close_session(struct tf *tfp) tfs = (struct tf_session *)(tfp->session->core_data); + /* Cleanup if we're last user of the session */ + if (tfs->ref_count == 1) { + /* Cleanup any outstanding resources */ + rc_close = tf_rm_close(tfp); + } + if (tfs->session_id.id != TF_SESSION_ID_INVALID) { rc = tf_msg_session_close(tfp); if (rc) { diff --git a/drivers/net/bnxt/tf_core/tf_core.h b/drivers/net/bnxt/tf_core/tf_core.h index 21a8839664..f5bf0e6dcb 100644 --- a/drivers/net/bnxt/tf_core/tf_core.h +++ b/drivers/net/bnxt/tf_core/tf_core.h @@ -344,4 +344,129 @@ int tf_attach_session(struct tf *tfp, */ int tf_close_session(struct tf *tfp); +/** + * @page ident Identity Management + * + * @ref tf_alloc_identifier + * + * @ref tf_free_identifier + */ +enum tf_identifier_type { + /** The L2 Context is returned from the L2 Ctxt TCAM lookup + * and can be used in WC TCAM or EM keys to virtualize further + * lookups. + */ + TF_IDENT_TYPE_L2_CTXT, + /** The WC profile func is returned from the L2 Ctxt TCAM lookup + * to enable virtualization of the profile TCAM. + */ + TF_IDENT_TYPE_PROF_FUNC, + /** The WC profile ID is included in the WC lookup key + * to enable virtualization of the WC TCAM hardware. + */ + TF_IDENT_TYPE_WC_PROF, + /** The EM profile ID is included in the EM lookup key + * to enable virtualization of the EM hardware. (not required for Brd4 + * as it has table scope) + */ + TF_IDENT_TYPE_EM_PROF, + /** The L2 func is included in the ILT result and from recycling to + * enable virtualization of further lookups. + */ + TF_IDENT_TYPE_L2_FUNC +}; + +/** + * TCAM table type + */ +enum tf_tcam_tbl_type { + TF_TCAM_TBL_TYPE_L2_CTXT_TCAM, + TF_TCAM_TBL_TYPE_PROF_TCAM, + TF_TCAM_TBL_TYPE_WC_TCAM, + TF_TCAM_TBL_TYPE_SP_TCAM, + TF_TCAM_TBL_TYPE_CT_RULE_TCAM, + TF_TCAM_TBL_TYPE_VEB_TCAM, + TF_TCAM_TBL_TYPE_MAX + +}; + +/** + * Enumeration of TruFlow table types. A table type is used to identify a + * resource object. + * + * NOTE: The table type TF_TBL_TYPE_EXT is unique in that it is + * the only table type that is connected with a table scope. + */ +enum tf_tbl_type { + /** Wh+/Brd2 Action Record */ + TF_TBL_TYPE_FULL_ACT_RECORD, + /** Multicast Groups */ + TF_TBL_TYPE_MCAST_GROUPS, + /** Action Encap 8 Bytes */ + TF_TBL_TYPE_ACT_ENCAP_8B, + /** Action Encap 16 Bytes */ + TF_TBL_TYPE_ACT_ENCAP_16B, + /** Action Encap 64 Bytes */ + TF_TBL_TYPE_ACT_ENCAP_32B, + /** Action Encap 64 Bytes */ + TF_TBL_TYPE_ACT_ENCAP_64B, + /** Action Source Properties SMAC */ + TF_TBL_TYPE_ACT_SP_SMAC, + /** Action Source Properties SMAC IPv4 */ + TF_TBL_TYPE_ACT_SP_SMAC_IPV4, + /** Action Source Properties SMAC IPv6 */ + TF_TBL_TYPE_ACT_SP_SMAC_IPV6, + /** Action Statistics 64 Bits */ + TF_TBL_TYPE_ACT_STATS_64, + /** Action Modify L4 Src Port */ + TF_TBL_TYPE_ACT_MODIFY_SPORT, + /** Action Modify L4 Dest Port */ + TF_TBL_TYPE_ACT_MODIFY_DPORT, + /** Action Modify IPv4 Source */ + TF_TBL_TYPE_ACT_MODIFY_IPV4_SRC, + /** Action _Modify L4 Dest Port */ + TF_TBL_TYPE_ACT_MODIFY_IPV4_DEST, + /** Action Modify IPv6 Source */ + TF_TBL_TYPE_ACT_MODIFY_IPV6_SRC, + /** Action Modify IPv6 Destination */ + TF_TBL_TYPE_ACT_MODIFY_IPV6_DEST, + + /* HW */ + + /** Meter Profiles */ + TF_TBL_TYPE_METER_PROF, + /** Meter Instance */ + TF_TBL_TYPE_METER_INST, + /** Mirror Config */ + TF_TBL_TYPE_MIRROR_CONFIG, + /** UPAR */ + TF_TBL_TYPE_UPAR, + /** Brd4 Epoch 0 table */ + TF_TBL_TYPE_EPOCH0, + /** Brd4 Epoch 1 table */ + TF_TBL_TYPE_EPOCH1, + /** Brd4 Metadata */ + TF_TBL_TYPE_METADATA, + /** Brd4 CT State */ + TF_TBL_TYPE_CT_STATE, + /** Brd4 Range Profile */ + TF_TBL_TYPE_RANGE_PROF, + /** Brd4 Range Entry */ + TF_TBL_TYPE_RANGE_ENTRY, + /** Brd4 LAG Entry */ + TF_TBL_TYPE_LAG, + /** Brd4 only VNIC/SVIF Table */ + TF_TBL_TYPE_VNIC_SVIF, + + /* External */ + + /** External table type - initially 1 poolsize entries. + * All External table types are associated with a table + * scope. Internal types are not. + */ + TF_TBL_TYPE_EXT, + /** Future - external pool of size0 entries */ + TF_TBL_TYPE_EXT_0, + TF_TBL_TYPE_MAX +}; #endif /* _TF_CORE_H_ */ diff --git a/drivers/net/bnxt/tf_core/tf_rm.c b/drivers/net/bnxt/tf_core/tf_rm.c new file mode 100644 index 0000000000..56767e7327 --- /dev/null +++ b/drivers/net/bnxt/tf_core/tf_rm.c @@ -0,0 +1,1731 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2019-2020 Broadcom + * All rights reserved. + */ + +#include + +#include + +#include "tf_rm.h" +#include "tf_core.h" +#include "tf_session.h" +#include "tf_resources.h" +#include "tf_msg.h" +#include "bnxt.h" + +/** + * Internal macro to perform HW resource allocation check between what + * firmware reports vs what was statically requested. + * + * Parameters: + * struct tf_rm_hw_query *hquery - Pointer to the hw query result + * enum tf_dir dir - Direction to process + * enum tf_resource_type_hw hcapi_type - HCAPI type, the index element + * in the hw query structure + * define def_value - Define value to check against + * uint32_t *eflag - Result of the check + */ +#define TF_RM_CHECK_HW_ALLOC(hquery, dir, hcapi_type, def_value, eflag) do { \ + if ((dir) == TF_DIR_RX) { \ + if ((hquery)->hw_query[(hcapi_type)].max != def_value ## _RX) \ + *(eflag) |= 1 << (hcapi_type); \ + } else { \ + if ((hquery)->hw_query[(hcapi_type)].max != def_value ## _TX) \ + *(eflag) |= 1 << (hcapi_type); \ + } \ +} while (0) + +/** + * Internal macro to perform HW resource allocation check between what + * firmware reports vs what was statically requested. + * + * Parameters: + * struct tf_rm_sram_query *squery - Pointer to the sram query result + * enum tf_dir dir - Direction to process + * enum tf_resource_type_sram hcapi_type - HCAPI type, the index element + * in the hw query structure + * define def_value - Define value to check against + * uint32_t *eflag - Result of the check + */ +#define TF_RM_CHECK_SRAM_ALLOC(squery, dir, hcapi_type, def_value, eflag) do { \ + if ((dir) == TF_DIR_RX) { \ + if ((squery)->sram_query[(hcapi_type)].max != def_value ## _RX)\ + *(eflag) |= 1 << (hcapi_type); \ + } else { \ + if ((squery)->sram_query[(hcapi_type)].max != def_value ## _TX)\ + *(eflag) |= 1 << (hcapi_type); \ + } \ +} while (0) + +/** + * Internal macro to convert a reserved resource define name to be + * direction specific. + * + * Parameters: + * enum tf_dir dir - Direction to process + * string type - Type name to append RX or TX to + * string dtype - Direction specific type + * + * + */ +#define TF_RESC_RSVD(dir, type, dtype) do { \ + if ((dir) == TF_DIR_RX) \ + (dtype) = type ## _RX; \ + else \ + (dtype) = type ## _TX; \ + } while (0) + +const char +*tf_dir_2_str(enum tf_dir dir) +{ + switch (dir) { + case TF_DIR_RX: + return "RX"; + case TF_DIR_TX: + return "TX"; + default: + return "Invalid direction"; + } +} + +const char +*tf_ident_2_str(enum tf_identifier_type id_type) +{ + switch (id_type) { + case TF_IDENT_TYPE_L2_CTXT: + return "l2_ctxt_remap"; + case TF_IDENT_TYPE_PROF_FUNC: + return "prof_func"; + case TF_IDENT_TYPE_WC_PROF: + return "wc_prof"; + case TF_IDENT_TYPE_EM_PROF: + return "em_prof"; + case TF_IDENT_TYPE_L2_FUNC: + return "l2_func"; + default: + break; + } + return "Invalid identifier"; +} + +const char +*tf_hcapi_sram_2_str(enum tf_resource_type_sram sram_type) +{ + switch (sram_type) { + case TF_RESC_TYPE_SRAM_FULL_ACTION: + return "Full action"; + case TF_RESC_TYPE_SRAM_MCG: + return "MCG"; + case TF_RESC_TYPE_SRAM_ENCAP_8B: + return "Encap 8B"; + case TF_RESC_TYPE_SRAM_ENCAP_16B: + return "Encap 16B"; + case TF_RESC_TYPE_SRAM_ENCAP_64B: + return "Encap 64B"; + case TF_RESC_TYPE_SRAM_SP_SMAC: + return "Source properties SMAC"; + case TF_RESC_TYPE_SRAM_SP_SMAC_IPV4: + return "Source properties SMAC IPv4"; + case TF_RESC_TYPE_SRAM_SP_SMAC_IPV6: + return "Source properties IPv6"; + case TF_RESC_TYPE_SRAM_COUNTER_64B: + return "Counter 64B"; + case TF_RESC_TYPE_SRAM_NAT_SPORT: + return "NAT source port"; + case TF_RESC_TYPE_SRAM_NAT_DPORT: + return "NAT destination port"; + case TF_RESC_TYPE_SRAM_NAT_S_IPV4: + return "NAT source IPv4"; + case TF_RESC_TYPE_SRAM_NAT_D_IPV4: + return "NAT destination IPv4"; + default: + return "Invalid identifier"; + } +} + +/** + * Helper function to perform a SRAM HCAPI resource type lookup + * against the reserved value of the same static type. + * + * Returns: + * -EOPNOTSUPP - Reserved resource type not supported + * Value - Integer value of the reserved value for the requested type + */ +static int +tf_rm_rsvd_sram_value(enum tf_dir dir, enum tf_resource_type_sram index) +{ + uint32_t value = -EOPNOTSUPP; + + switch (index) { + case TF_RESC_TYPE_SRAM_FULL_ACTION: + TF_RESC_RSVD(dir, TF_RSVD_SRAM_FULL_ACTION, value); + break; + case TF_RESC_TYPE_SRAM_MCG: + TF_RESC_RSVD(dir, TF_RSVD_SRAM_MCG, value); + break; + case TF_RESC_TYPE_SRAM_ENCAP_8B: + TF_RESC_RSVD(dir, TF_RSVD_SRAM_ENCAP_8B, value); + break; + case TF_RESC_TYPE_SRAM_ENCAP_16B: + TF_RESC_RSVD(dir, TF_RSVD_SRAM_ENCAP_16B, value); + break; + case TF_RESC_TYPE_SRAM_ENCAP_64B: + TF_RESC_RSVD(dir, TF_RSVD_SRAM_ENCAP_64B, value); + break; + case TF_RESC_TYPE_SRAM_SP_SMAC: + TF_RESC_RSVD(dir, TF_RSVD_SRAM_SP_SMAC, value); + break; + case TF_RESC_TYPE_SRAM_SP_SMAC_IPV4: + TF_RESC_RSVD(dir, TF_RSVD_SRAM_SP_SMAC_IPV4, value); + break; + case TF_RESC_TYPE_SRAM_SP_SMAC_IPV6: + TF_RESC_RSVD(dir, TF_RSVD_SRAM_SP_SMAC_IPV6, value); + break; + case TF_RESC_TYPE_SRAM_COUNTER_64B: + TF_RESC_RSVD(dir, TF_RSVD_SRAM_COUNTER_64B, value); + break; + case TF_RESC_TYPE_SRAM_NAT_SPORT: + TF_RESC_RSVD(dir, TF_RSVD_SRAM_NAT_SPORT, value); + break; + case TF_RESC_TYPE_SRAM_NAT_DPORT: + TF_RESC_RSVD(dir, TF_RSVD_SRAM_NAT_DPORT, value); + break; + case TF_RESC_TYPE_SRAM_NAT_S_IPV4: + TF_RESC_RSVD(dir, TF_RSVD_SRAM_NAT_S_IPV4, value); + break; + case TF_RESC_TYPE_SRAM_NAT_D_IPV4: + TF_RESC_RSVD(dir, TF_RSVD_SRAM_NAT_D_IPV4, value); + break; + default: + break; + } + + return value; +} + +/** + * Helper function to print all the SRAM resource qcaps errors + * reported in the error_flag. + * + * [in] dir + * Receive or transmit direction + * + * [in] error_flag + * Pointer to the sram error flags created at time of the query check + */ +static void +tf_rm_print_sram_qcaps_error(enum tf_dir dir, + struct tf_rm_sram_query *sram_query, + uint32_t *error_flag) +{ + int i; + + PMD_DRV_LOG(ERR, "QCAPS errors SRAM\n"); + PMD_DRV_LOG(ERR, " Direction: %s\n", tf_dir_2_str(dir)); + PMD_DRV_LOG(ERR, " Elements:\n"); + + for (i = 0; i < TF_RESC_TYPE_SRAM_MAX; i++) { + if (*error_flag & 1 << i) + PMD_DRV_LOG(ERR, " %s, %d elem available, req:%d\n", + tf_hcapi_sram_2_str(i), + sram_query->sram_query[i].max, + tf_rm_rsvd_sram_value(dir, i)); + } +} + +/** + * Performs a HW resource check between what firmware capability + * reports and what the core expects is available. + * + * Firmware performs the resource carving at AFM init time and the + * resource capability is reported in the TruFlow qcaps msg. + * + * [in] query + * Pointer to HW Query data structure. Query holds what the firmware + * offers of the HW resources. + * + * [in] dir + * Receive or transmit direction + * + * [in/out] error_flag + * Pointer to a bit array indicating the error of a single HCAPI + * resource type. When a bit is set to 1, the HCAPI resource type + * failed static allocation. + * + * Returns: + * 0 - Success + * -ENOMEM - Failure on one of the allocated resources. Check the + * error_flag for what types are flagged errored. + */ +static int +tf_rm_check_hw_qcaps_static(struct tf_rm_hw_query *query, + enum tf_dir dir, + uint32_t *error_flag) +{ + *error_flag = 0; + TF_RM_CHECK_HW_ALLOC(query, + dir, + TF_RESC_TYPE_HW_RANGE_ENTRY, + TF_RSVD_RANGE_ENTRY, + error_flag); + + if (*error_flag != 0) + return -ENOMEM; + + return 0; +} + +/** + * Performs a SRAM resource check between what firmware capability + * reports and what the core expects is available. + * + * Firmware performs the resource carving at AFM init time and the + * resource capability is reported in the TruFlow qcaps msg. + * + * [in] query + * Pointer to SRAM Query data structure. Query holds what the + * firmware offers of the SRAM resources. + * + * [in] dir + * Receive or transmit direction + * + * [in/out] error_flag + * Pointer to a bit array indicating the error of a single HCAPI + * resource type. When a bit is set to 1, the HCAPI resource type + * failed static allocation. + * + * Returns: + * 0 - Success + * -ENOMEM - Failure on one of the allocated resources. Check the + * error_flag for what types are flagged errored. + */ +static int +tf_rm_check_sram_qcaps_static(struct tf_rm_sram_query *query, + enum tf_dir dir, + uint32_t *error_flag) +{ + *error_flag = 0; + + TF_RM_CHECK_SRAM_ALLOC(query, + dir, + TF_RESC_TYPE_SRAM_FULL_ACTION, + TF_RSVD_SRAM_FULL_ACTION, + error_flag); + + TF_RM_CHECK_SRAM_ALLOC(query, + dir, + TF_RESC_TYPE_SRAM_MCG, + TF_RSVD_SRAM_MCG, + error_flag); + + TF_RM_CHECK_SRAM_ALLOC(query, + dir, + TF_RESC_TYPE_SRAM_ENCAP_8B, + TF_RSVD_SRAM_ENCAP_8B, + error_flag); + + TF_RM_CHECK_SRAM_ALLOC(query, + dir, + TF_RESC_TYPE_SRAM_ENCAP_16B, + TF_RSVD_SRAM_ENCAP_16B, + error_flag); + + TF_RM_CHECK_SRAM_ALLOC(query, + dir, + TF_RESC_TYPE_SRAM_ENCAP_64B, + TF_RSVD_SRAM_ENCAP_64B, + error_flag); + + TF_RM_CHECK_SRAM_ALLOC(query, + dir, + TF_RESC_TYPE_SRAM_SP_SMAC, + TF_RSVD_SRAM_SP_SMAC, + error_flag); + + TF_RM_CHECK_SRAM_ALLOC(query, + dir, + TF_RESC_TYPE_SRAM_SP_SMAC_IPV4, + TF_RSVD_SRAM_SP_SMAC_IPV4, + error_flag); + + TF_RM_CHECK_SRAM_ALLOC(query, + dir, + TF_RESC_TYPE_SRAM_SP_SMAC_IPV6, + TF_RSVD_SRAM_SP_SMAC_IPV6, + error_flag); + + TF_RM_CHECK_SRAM_ALLOC(query, + dir, + TF_RESC_TYPE_SRAM_COUNTER_64B, + TF_RSVD_SRAM_COUNTER_64B, + error_flag); + + TF_RM_CHECK_SRAM_ALLOC(query, + dir, + TF_RESC_TYPE_SRAM_NAT_SPORT, + TF_RSVD_SRAM_NAT_SPORT, + error_flag); + + TF_RM_CHECK_SRAM_ALLOC(query, + dir, + TF_RESC_TYPE_SRAM_NAT_DPORT, + TF_RSVD_SRAM_NAT_DPORT, + error_flag); + + TF_RM_CHECK_SRAM_ALLOC(query, + dir, + TF_RESC_TYPE_SRAM_NAT_S_IPV4, + TF_RSVD_SRAM_NAT_S_IPV4, + error_flag); + + TF_RM_CHECK_SRAM_ALLOC(query, + dir, + TF_RESC_TYPE_SRAM_NAT_D_IPV4, + TF_RSVD_SRAM_NAT_D_IPV4, + error_flag); + + if (*error_flag != 0) + return -ENOMEM; + + return 0; +} + +/** + * Internal function to mark pool entries used. + */ +static void +tf_rm_reserve_range(uint32_t count, + uint32_t rsv_begin, + uint32_t rsv_end, + uint32_t max, + struct bitalloc *pool) +{ + uint32_t i; + + /* If no resources has been requested we mark everything + * 'used' + */ + if (count == 0) { + for (i = 0; i < max; i++) + ba_alloc_index(pool, i); + } else { + /* Support 2 main modes + * Reserved range starts from bottom up (with + * pre-reserved value or not) + * - begin = 0 to end xx + * - begin = 1 to end xx + * + * Reserved range starts from top down + * - begin = yy to end max + */ + + /* Bottom up check, start from 0 */ + if (rsv_begin == 0) { + for (i = rsv_end + 1; i < max; i++) + ba_alloc_index(pool, i); + } + + /* Bottom up check, start from 1 or higher OR + * Top Down + */ + if (rsv_begin >= 1) { + /* Allocate from 0 until start */ + for (i = 0; i < rsv_begin; i++) + ba_alloc_index(pool, i); + + /* Skip and then do the remaining */ + if (rsv_end < max - 1) { + for (i = rsv_end; i < max; i++) + ba_alloc_index(pool, i); + } + } + } +} + +/** + * Internal function to mark all the l2 ctxt allocated that Truflow + * does not own. + */ +static void +tf_rm_rsvd_l2_ctxt(struct tf_session *tfs) +{ + uint32_t index = TF_RESC_TYPE_HW_L2_CTXT_TCAM; + uint32_t end = 0; + + /* l2 ctxt rx direction */ + if (tfs->resc.rx.hw_entry[index].stride > 0) + end = tfs->resc.rx.hw_entry[index].start + + tfs->resc.rx.hw_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.rx.hw_entry[index].stride, + tfs->resc.rx.hw_entry[index].start, + end, + TF_NUM_L2_CTXT_TCAM, + tfs->TF_L2_CTXT_TCAM_POOL_NAME_RX); + + /* l2 ctxt tx direction */ + if (tfs->resc.tx.hw_entry[index].stride > 0) + end = tfs->resc.tx.hw_entry[index].start + + tfs->resc.tx.hw_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.tx.hw_entry[index].stride, + tfs->resc.tx.hw_entry[index].start, + end, + TF_NUM_L2_CTXT_TCAM, + tfs->TF_L2_CTXT_TCAM_POOL_NAME_TX); +} + +/** + * Internal function to mark all the l2 func resources allocated that + * Truflow does not own. + */ +static void +tf_rm_rsvd_l2_func(struct tf_session *tfs) +{ + uint32_t index = TF_RESC_TYPE_HW_L2_FUNC; + uint32_t end = 0; + + /* l2 func rx direction */ + if (tfs->resc.rx.hw_entry[index].stride > 0) + end = tfs->resc.rx.hw_entry[index].start + + tfs->resc.rx.hw_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.rx.hw_entry[index].stride, + tfs->resc.rx.hw_entry[index].start, + end, + TF_NUM_L2_FUNC, + tfs->TF_L2_FUNC_POOL_NAME_RX); + + /* l2 func tx direction */ + if (tfs->resc.tx.hw_entry[index].stride > 0) + end = tfs->resc.tx.hw_entry[index].start + + tfs->resc.tx.hw_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.tx.hw_entry[index].stride, + tfs->resc.tx.hw_entry[index].start, + end, + TF_NUM_L2_FUNC, + tfs->TF_L2_FUNC_POOL_NAME_TX); +} + +/** + * Internal function to mark all the full action resources allocated + * that Truflow does not own. + */ +static void +tf_rm_rsvd_sram_full_action(struct tf_session *tfs) +{ + uint32_t index = TF_RESC_TYPE_SRAM_FULL_ACTION; + uint16_t end = 0; + + /* full action rx direction */ + if (tfs->resc.rx.sram_entry[index].stride > 0) + end = tfs->resc.rx.sram_entry[index].start + + tfs->resc.rx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.rx.sram_entry[index].stride, + TF_RSVD_SRAM_FULL_ACTION_BEGIN_IDX_RX, + end, + TF_RSVD_SRAM_FULL_ACTION_RX, + tfs->TF_SRAM_FULL_ACTION_POOL_NAME_RX); + + /* full action tx direction */ + if (tfs->resc.tx.sram_entry[index].stride > 0) + end = tfs->resc.tx.sram_entry[index].start + + tfs->resc.tx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.tx.sram_entry[index].stride, + TF_RSVD_SRAM_FULL_ACTION_BEGIN_IDX_TX, + end, + TF_RSVD_SRAM_FULL_ACTION_TX, + tfs->TF_SRAM_FULL_ACTION_POOL_NAME_TX); +} + +/** + * Internal function to mark all the multicast group resources + * allocated that Truflow does not own. + */ +static void +tf_rm_rsvd_sram_mcg(struct tf_session *tfs) +{ + uint32_t index = TF_RESC_TYPE_SRAM_MCG; + uint16_t end = 0; + + /* multicast group rx direction */ + if (tfs->resc.rx.sram_entry[index].stride > 0) + end = tfs->resc.rx.sram_entry[index].start + + tfs->resc.rx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.rx.sram_entry[index].stride, + TF_RSVD_SRAM_MCG_BEGIN_IDX_RX, + end, + TF_RSVD_SRAM_MCG_RX, + tfs->TF_SRAM_MCG_POOL_NAME_RX); + + /* Multicast Group on TX is not supported */ +} + +/** + * Internal function to mark all the encap resources allocated that + * Truflow does not own. + */ +static void +tf_rm_rsvd_sram_encap(struct tf_session *tfs) +{ + uint32_t index = TF_RESC_TYPE_SRAM_ENCAP_8B; + uint16_t end = 0; + + /* encap 8b rx direction */ + if (tfs->resc.rx.sram_entry[index].stride > 0) + end = tfs->resc.rx.sram_entry[index].start + + tfs->resc.rx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.rx.sram_entry[index].stride, + TF_RSVD_SRAM_ENCAP_8B_BEGIN_IDX_RX, + end, + TF_RSVD_SRAM_ENCAP_8B_RX, + tfs->TF_SRAM_ENCAP_8B_POOL_NAME_RX); + + /* encap 8b tx direction */ + if (tfs->resc.tx.sram_entry[index].stride > 0) + end = tfs->resc.tx.sram_entry[index].start + + tfs->resc.tx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.tx.sram_entry[index].stride, + TF_RSVD_SRAM_ENCAP_8B_BEGIN_IDX_TX, + end, + TF_RSVD_SRAM_ENCAP_8B_TX, + tfs->TF_SRAM_ENCAP_8B_POOL_NAME_TX); + + index = TF_RESC_TYPE_SRAM_ENCAP_16B; + + /* encap 16b rx direction */ + if (tfs->resc.rx.sram_entry[index].stride > 0) + end = tfs->resc.rx.sram_entry[index].start + + tfs->resc.rx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.rx.sram_entry[index].stride, + TF_RSVD_SRAM_ENCAP_16B_BEGIN_IDX_RX, + end, + TF_RSVD_SRAM_ENCAP_16B_RX, + tfs->TF_SRAM_ENCAP_16B_POOL_NAME_RX); + + /* encap 16b tx direction */ + if (tfs->resc.tx.sram_entry[index].stride > 0) + end = tfs->resc.tx.sram_entry[index].start + + tfs->resc.tx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.tx.sram_entry[index].stride, + TF_RSVD_SRAM_ENCAP_16B_BEGIN_IDX_TX, + end, + TF_RSVD_SRAM_ENCAP_16B_TX, + tfs->TF_SRAM_ENCAP_16B_POOL_NAME_TX); + + index = TF_RESC_TYPE_SRAM_ENCAP_64B; + + /* Encap 64B not supported on RX */ + + /* Encap 64b tx direction */ + if (tfs->resc.tx.sram_entry[index].stride > 0) + end = tfs->resc.tx.sram_entry[index].start + + tfs->resc.tx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.tx.sram_entry[index].stride, + TF_RSVD_SRAM_ENCAP_64B_BEGIN_IDX_TX, + end, + TF_RSVD_SRAM_ENCAP_64B_TX, + tfs->TF_SRAM_ENCAP_64B_POOL_NAME_TX); +} + +/** + * Internal function to mark all the sp resources allocated that + * Truflow does not own. + */ +static void +tf_rm_rsvd_sram_sp(struct tf_session *tfs) +{ + uint32_t index = TF_RESC_TYPE_SRAM_SP_SMAC; + uint16_t end = 0; + + /* sp smac rx direction */ + if (tfs->resc.rx.sram_entry[index].stride > 0) + end = tfs->resc.rx.sram_entry[index].start + + tfs->resc.rx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.rx.sram_entry[index].stride, + TF_RSVD_SRAM_SP_SMAC_BEGIN_IDX_RX, + end, + TF_RSVD_SRAM_SP_SMAC_RX, + tfs->TF_SRAM_SP_SMAC_POOL_NAME_RX); + + /* sp smac tx direction */ + if (tfs->resc.tx.sram_entry[index].stride > 0) + end = tfs->resc.tx.sram_entry[index].start + + tfs->resc.tx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.tx.sram_entry[index].stride, + TF_RSVD_SRAM_SP_SMAC_BEGIN_IDX_TX, + end, + TF_RSVD_SRAM_SP_SMAC_TX, + tfs->TF_SRAM_SP_SMAC_POOL_NAME_TX); + + index = TF_RESC_TYPE_SRAM_SP_SMAC_IPV4; + + /* SP SMAC IPv4 not supported on RX */ + + /* sp smac ipv4 tx direction */ + if (tfs->resc.tx.sram_entry[index].stride > 0) + end = tfs->resc.tx.sram_entry[index].start + + tfs->resc.tx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.tx.sram_entry[index].stride, + TF_RSVD_SRAM_SP_SMAC_IPV4_BEGIN_IDX_TX, + end, + TF_RSVD_SRAM_SP_SMAC_IPV4_TX, + tfs->TF_SRAM_SP_SMAC_IPV4_POOL_NAME_TX); + + index = TF_RESC_TYPE_SRAM_SP_SMAC_IPV6; + + /* SP SMAC IPv6 not supported on RX */ + + /* sp smac ipv6 tx direction */ + if (tfs->resc.tx.sram_entry[index].stride > 0) + end = tfs->resc.tx.sram_entry[index].start + + tfs->resc.tx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.tx.sram_entry[index].stride, + TF_RSVD_SRAM_SP_SMAC_IPV6_BEGIN_IDX_TX, + end, + TF_RSVD_SRAM_SP_SMAC_IPV6_TX, + tfs->TF_SRAM_SP_SMAC_IPV6_POOL_NAME_TX); +} + +/** + * Internal function to mark all the stat resources allocated that + * Truflow does not own. + */ +static void +tf_rm_rsvd_sram_stats(struct tf_session *tfs) +{ + uint32_t index = TF_RESC_TYPE_SRAM_COUNTER_64B; + uint16_t end = 0; + + /* counter 64b rx direction */ + if (tfs->resc.rx.sram_entry[index].stride > 0) + end = tfs->resc.rx.sram_entry[index].start + + tfs->resc.rx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.rx.sram_entry[index].stride, + TF_RSVD_SRAM_COUNTER_64B_BEGIN_IDX_RX, + end, + TF_RSVD_SRAM_COUNTER_64B_RX, + tfs->TF_SRAM_STATS_64B_POOL_NAME_RX); + + /* counter 64b tx direction */ + if (tfs->resc.tx.sram_entry[index].stride > 0) + end = tfs->resc.tx.sram_entry[index].start + + tfs->resc.tx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.tx.sram_entry[index].stride, + TF_RSVD_SRAM_COUNTER_64B_BEGIN_IDX_TX, + end, + TF_RSVD_SRAM_COUNTER_64B_TX, + tfs->TF_SRAM_STATS_64B_POOL_NAME_TX); +} + +/** + * Internal function to mark all the nat resources allocated that + * Truflow does not own. + */ +static void +tf_rm_rsvd_sram_nat(struct tf_session *tfs) +{ + uint32_t index = TF_RESC_TYPE_SRAM_NAT_SPORT; + uint16_t end = 0; + + /* nat source port rx direction */ + if (tfs->resc.rx.sram_entry[index].stride > 0) + end = tfs->resc.rx.sram_entry[index].start + + tfs->resc.rx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.rx.sram_entry[index].stride, + TF_RSVD_SRAM_NAT_SPORT_BEGIN_IDX_RX, + end, + TF_RSVD_SRAM_NAT_SPORT_RX, + tfs->TF_SRAM_NAT_SPORT_POOL_NAME_RX); + + /* nat source port tx direction */ + if (tfs->resc.tx.sram_entry[index].stride > 0) + end = tfs->resc.tx.sram_entry[index].start + + tfs->resc.tx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.tx.sram_entry[index].stride, + TF_RSVD_SRAM_NAT_SPORT_BEGIN_IDX_TX, + end, + TF_RSVD_SRAM_NAT_SPORT_TX, + tfs->TF_SRAM_NAT_SPORT_POOL_NAME_TX); + + index = TF_RESC_TYPE_SRAM_NAT_DPORT; + + /* nat destination port rx direction */ + if (tfs->resc.rx.sram_entry[index].stride > 0) + end = tfs->resc.rx.sram_entry[index].start + + tfs->resc.rx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.rx.sram_entry[index].stride, + TF_RSVD_SRAM_NAT_DPORT_BEGIN_IDX_RX, + end, + TF_RSVD_SRAM_NAT_DPORT_RX, + tfs->TF_SRAM_NAT_DPORT_POOL_NAME_RX); + + /* nat destination port tx direction */ + if (tfs->resc.tx.sram_entry[index].stride > 0) + end = tfs->resc.tx.sram_entry[index].start + + tfs->resc.tx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.tx.sram_entry[index].stride, + TF_RSVD_SRAM_NAT_DPORT_BEGIN_IDX_TX, + end, + TF_RSVD_SRAM_NAT_DPORT_TX, + tfs->TF_SRAM_NAT_DPORT_POOL_NAME_TX); + + index = TF_RESC_TYPE_SRAM_NAT_S_IPV4; + + /* nat source port ipv4 rx direction */ + if (tfs->resc.rx.sram_entry[index].stride > 0) + end = tfs->resc.rx.sram_entry[index].start + + tfs->resc.rx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.rx.sram_entry[index].stride, + TF_RSVD_SRAM_NAT_S_IPV4_BEGIN_IDX_RX, + end, + TF_RSVD_SRAM_NAT_S_IPV4_RX, + tfs->TF_SRAM_NAT_S_IPV4_POOL_NAME_RX); + + /* nat source ipv4 port tx direction */ + if (tfs->resc.tx.sram_entry[index].stride > 0) + end = tfs->resc.tx.sram_entry[index].start + + tfs->resc.tx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.tx.sram_entry[index].stride, + TF_RSVD_SRAM_NAT_S_IPV4_BEGIN_IDX_TX, + end, + TF_RSVD_SRAM_NAT_S_IPV4_TX, + tfs->TF_SRAM_NAT_S_IPV4_POOL_NAME_TX); + + index = TF_RESC_TYPE_SRAM_NAT_D_IPV4; + + /* nat destination port ipv4 rx direction */ + if (tfs->resc.rx.sram_entry[index].stride > 0) + end = tfs->resc.rx.sram_entry[index].start + + tfs->resc.rx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.rx.sram_entry[index].stride, + TF_RSVD_SRAM_NAT_D_IPV4_BEGIN_IDX_RX, + end, + TF_RSVD_SRAM_NAT_D_IPV4_RX, + tfs->TF_SRAM_NAT_D_IPV4_POOL_NAME_RX); + + /* nat destination ipv4 port tx direction */ + if (tfs->resc.tx.sram_entry[index].stride > 0) + end = tfs->resc.tx.sram_entry[index].start + + tfs->resc.tx.sram_entry[index].stride - 1; + + tf_rm_reserve_range(tfs->resc.tx.sram_entry[index].stride, + TF_RSVD_SRAM_NAT_D_IPV4_BEGIN_IDX_TX, + end, + TF_RSVD_SRAM_NAT_D_IPV4_TX, + tfs->TF_SRAM_NAT_D_IPV4_POOL_NAME_TX); +} + +/** + * Internal function used to validate the HW allocated resources + * against the requested values. + */ +static int +tf_rm_hw_alloc_validate(enum tf_dir dir, + struct tf_rm_hw_alloc *hw_alloc, + struct tf_rm_entry *hw_entry) +{ + int error = 0; + int i; + + for (i = 0; i < TF_RESC_TYPE_HW_MAX; i++) { + if (hw_entry[i].stride != hw_alloc->hw_num[i]) { + PMD_DRV_LOG(ERR, + "%s, Alloc failed id:%d expect:%d got:%d\n", + tf_dir_2_str(dir), + i, + hw_alloc->hw_num[i], + hw_entry[i].stride); + error = -1; + } + } + + return error; +} + +/** + * Internal function used to validate the SRAM allocated resources + * against the requested values. + */ +static int +tf_rm_sram_alloc_validate(enum tf_dir dir __rte_unused, + struct tf_rm_sram_alloc *sram_alloc, + struct tf_rm_entry *sram_entry) +{ + int error = 0; + int i; + + for (i = 0; i < TF_RESC_TYPE_SRAM_MAX; i++) { + if (sram_entry[i].stride != sram_alloc->sram_num[i]) { + PMD_DRV_LOG(ERR, + "%s, Alloc failed idx:%d expect:%d got:%d\n", + tf_dir_2_str(dir), + i, + sram_alloc->sram_num[i], + sram_entry[i].stride); + error = -1; + } + } + + return error; +} + +/** + * Internal function used to mark all the HW resources allocated that + * Truflow does not own. + */ +static void +tf_rm_reserve_hw(struct tf *tfp) +{ + struct tf_session *tfs = (struct tf_session *)(tfp->session->core_data); + + /* TBD + * There is no direct AFM resource allocation as it is carved + * statically at AFM boot time. Thus the bit allocators work + * on the full HW resource amount and we just mark everything + * used except the resources that Truflow took ownership off. + */ + tf_rm_rsvd_l2_ctxt(tfs); + tf_rm_rsvd_l2_func(tfs); +} + +/** + * Internal function used to mark all the SRAM resources allocated + * that Truflow does not own. + */ +static void +tf_rm_reserve_sram(struct tf *tfp) +{ + struct tf_session *tfs = (struct tf_session *)(tfp->session->core_data); + + /* TBD + * There is no direct AFM resource allocation as it is carved + * statically at AFM boot time. Thus the bit allocators work + * on the full HW resource amount and we just mark everything + * used except the resources that Truflow took ownership off. + */ + tf_rm_rsvd_sram_full_action(tfs); + tf_rm_rsvd_sram_mcg(tfs); + tf_rm_rsvd_sram_encap(tfs); + tf_rm_rsvd_sram_sp(tfs); + tf_rm_rsvd_sram_stats(tfs); + tf_rm_rsvd_sram_nat(tfs); +} + +/** + * Internal function used to allocate and validate all HW resources. + */ +static int +tf_rm_allocate_validate_hw(struct tf *tfp, + enum tf_dir dir) +{ + int rc; + int i; + struct tf_rm_hw_query hw_query; + struct tf_rm_hw_alloc hw_alloc; + struct tf_session *tfs = (struct tf_session *)(tfp->session->core_data); + struct tf_rm_entry *hw_entries; + uint32_t error_flag; + + if (dir == TF_DIR_RX) + hw_entries = tfs->resc.rx.hw_entry; + else + hw_entries = tfs->resc.tx.hw_entry; + + /* Query for Session HW Resources */ + rc = tf_msg_session_hw_resc_qcaps(tfp, dir, &hw_query); + if (rc) { + /* Log error */ + PMD_DRV_LOG(ERR, + "%s, HW qcaps message send failed\n", + tf_dir_2_str(dir)); + goto cleanup; + } + + rc = tf_rm_check_hw_qcaps_static(&hw_query, dir, &error_flag); + if (rc) { + /* Log error */ + PMD_DRV_LOG(ERR, + "%s, HW QCAPS validation failed, error_flag:0x%x\n", + tf_dir_2_str(dir), + error_flag); + goto cleanup; + } + + /* Post process HW capability */ + for (i = 0; i < TF_RESC_TYPE_HW_MAX; i++) + hw_alloc.hw_num[i] = hw_query.hw_query[i].max; + + /* Allocate Session HW Resources */ + rc = tf_msg_session_hw_resc_alloc(tfp, dir, &hw_alloc, hw_entries); + if (rc) { + /* Log error */ + PMD_DRV_LOG(ERR, + "%s, HW alloc message send failed\n", + tf_dir_2_str(dir)); + goto cleanup; + } + + /* Perform HW allocation validation as its possible the + * resource availability changed between qcaps and alloc + */ + rc = tf_rm_hw_alloc_validate(dir, &hw_alloc, hw_entries); + if (rc) { + /* Log error */ + PMD_DRV_LOG(ERR, + "%s, HW Resource validation failed\n", + tf_dir_2_str(dir)); + goto cleanup; + } + + return 0; + + cleanup: + return -1; +} + +/** + * Internal function used to allocate and validate all SRAM resources. + * + * [in] tfp + * Pointer to TF handle + * + * [in] dir + * Receive or transmit direction + * + * Returns: + * 0 - Success + * -1 - Internal error + */ +static int +tf_rm_allocate_validate_sram(struct tf *tfp, + enum tf_dir dir) +{ + int rc; + int i; + struct tf_rm_sram_query sram_query; + struct tf_rm_sram_alloc sram_alloc; + struct tf_session *tfs = (struct tf_session *)(tfp->session->core_data); + struct tf_rm_entry *sram_entries; + uint32_t error_flag; + + if (dir == TF_DIR_RX) + sram_entries = tfs->resc.rx.sram_entry; + else + sram_entries = tfs->resc.tx.sram_entry; + + /* Query for Session SRAM Resources */ + rc = tf_msg_session_sram_resc_qcaps(tfp, dir, &sram_query); + if (rc) { + /* Log error */ + PMD_DRV_LOG(ERR, + "%s, SRAM qcaps message send failed\n", + tf_dir_2_str(dir)); + goto cleanup; + } + + rc = tf_rm_check_sram_qcaps_static(&sram_query, dir, &error_flag); + if (rc) { + /* Log error */ + PMD_DRV_LOG(ERR, + "%s, SRAM QCAPS validation failed, error_flag:%x\n", + tf_dir_2_str(dir), + error_flag); + tf_rm_print_sram_qcaps_error(dir, &sram_query, &error_flag); + goto cleanup; + } + + /* Post process SRAM capability */ + for (i = 0; i < TF_RESC_TYPE_SRAM_MAX; i++) + sram_alloc.sram_num[i] = sram_query.sram_query[i].max; + + /* Allocate Session SRAM Resources */ + rc = tf_msg_session_sram_resc_alloc(tfp, + dir, + &sram_alloc, + sram_entries); + if (rc) { + /* Log error */ + PMD_DRV_LOG(ERR, + "%s, SRAM alloc message send failed\n", + tf_dir_2_str(dir)); + goto cleanup; + } + + /* Perform SRAM allocation validation as its possible the + * resource availability changed between qcaps and alloc + */ + rc = tf_rm_sram_alloc_validate(dir, &sram_alloc, sram_entries); + if (rc) { + /* Log error */ + PMD_DRV_LOG(ERR, + "%s, SRAM Resource allocation validation failed\n", + tf_dir_2_str(dir)); + goto cleanup; + } + + return 0; + + cleanup: + return -1; +} + +/** + * Helper function used to prune a SRAM resource array to only hold + * elements that needs to be flushed. + * + * [in] tfs + * Session handle + * + * [in] dir + * Receive or transmit direction + * + * [in] hw_entries + * Master SRAM Resource data base + * + * [in/out] flush_entries + * Pruned SRAM Resource database of entries to be flushed. This + * array should be passed in as a complete copy of the master SRAM + * Resource database. The outgoing result will be a pruned version + * based on the result of the requested checking + * + * Returns: + * 0 - Success, no flush required + * 1 - Success, flush required + * -1 - Internal error + */ +static int +tf_rm_sram_to_flush(struct tf_session *tfs, + enum tf_dir dir, + struct tf_rm_entry *sram_entries, + struct tf_rm_entry *flush_entries) +{ + int rc; + int flush_rc = 0; + int free_cnt; + struct bitalloc *pool; + + /* Check all the sram resource pools and check for left over + * elements. Any found will result in the complete pool of a + * type to get invalidated. + */ + + TF_RM_GET_POOLS(tfs, dir, &pool, + TF_SRAM_FULL_ACTION_POOL_NAME, + rc); + if (rc) + return rc; + free_cnt = ba_free_count(pool); + if (free_cnt == sram_entries[TF_RESC_TYPE_SRAM_FULL_ACTION].stride) { + flush_entries[TF_RESC_TYPE_SRAM_FULL_ACTION].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_FULL_ACTION].stride = 0; + } else { + flush_rc = 1; + } + + /* Only pools for RX direction */ + if (dir == TF_DIR_RX) { + TF_RM_GET_POOLS_RX(tfs, &pool, + TF_SRAM_MCG_POOL_NAME); + if (rc) + return rc; + free_cnt = ba_free_count(pool); + if (free_cnt == sram_entries[TF_RESC_TYPE_SRAM_MCG].stride) { + flush_entries[TF_RESC_TYPE_SRAM_MCG].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_MCG].stride = 0; + } else { + flush_rc = 1; + } + } else { + /* Always prune TX direction */ + flush_entries[TF_RESC_TYPE_SRAM_MCG].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_MCG].stride = 0; + } + + TF_RM_GET_POOLS(tfs, dir, &pool, + TF_SRAM_ENCAP_8B_POOL_NAME, + rc); + if (rc) + return rc; + free_cnt = ba_free_count(pool); + if (free_cnt == sram_entries[TF_RESC_TYPE_SRAM_ENCAP_8B].stride) { + flush_entries[TF_RESC_TYPE_SRAM_ENCAP_8B].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_ENCAP_8B].stride = 0; + } else { + flush_rc = 1; + } + + TF_RM_GET_POOLS(tfs, dir, &pool, + TF_SRAM_ENCAP_16B_POOL_NAME, + rc); + if (rc) + return rc; + free_cnt = ba_free_count(pool); + if (free_cnt == sram_entries[TF_RESC_TYPE_SRAM_ENCAP_16B].stride) { + flush_entries[TF_RESC_TYPE_SRAM_ENCAP_16B].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_ENCAP_16B].stride = 0; + } else { + flush_rc = 1; + } + + /* Only pools for TX direction */ + if (dir == TF_DIR_TX) { + TF_RM_GET_POOLS_TX(tfs, &pool, + TF_SRAM_ENCAP_64B_POOL_NAME); + if (rc) + return rc; + free_cnt = ba_free_count(pool); + if (free_cnt == + sram_entries[TF_RESC_TYPE_SRAM_ENCAP_64B].stride) { + flush_entries[TF_RESC_TYPE_SRAM_ENCAP_64B].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_ENCAP_64B].stride = 0; + } else { + flush_rc = 1; + } + } else { + /* Always prune RX direction */ + flush_entries[TF_RESC_TYPE_SRAM_ENCAP_64B].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_ENCAP_64B].stride = 0; + } + + TF_RM_GET_POOLS(tfs, dir, &pool, + TF_SRAM_SP_SMAC_POOL_NAME, + rc); + if (rc) + return rc; + free_cnt = ba_free_count(pool); + if (free_cnt == sram_entries[TF_RESC_TYPE_SRAM_SP_SMAC].stride) { + flush_entries[TF_RESC_TYPE_SRAM_SP_SMAC].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_SP_SMAC].stride = 0; + } else { + flush_rc = 1; + } + + /* Only pools for TX direction */ + if (dir == TF_DIR_TX) { + TF_RM_GET_POOLS_TX(tfs, &pool, + TF_SRAM_SP_SMAC_IPV4_POOL_NAME); + if (rc) + return rc; + free_cnt = ba_free_count(pool); + if (free_cnt == + sram_entries[TF_RESC_TYPE_SRAM_SP_SMAC_IPV4].stride) { + flush_entries[TF_RESC_TYPE_SRAM_SP_SMAC_IPV4].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_SP_SMAC_IPV4].stride = + 0; + } else { + flush_rc = 1; + } + } else { + /* Always prune RX direction */ + flush_entries[TF_RESC_TYPE_SRAM_SP_SMAC_IPV4].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_SP_SMAC_IPV4].stride = 0; + } + + /* Only pools for TX direction */ + if (dir == TF_DIR_TX) { + TF_RM_GET_POOLS_TX(tfs, &pool, + TF_SRAM_SP_SMAC_IPV6_POOL_NAME); + if (rc) + return rc; + free_cnt = ba_free_count(pool); + if (free_cnt == + sram_entries[TF_RESC_TYPE_SRAM_SP_SMAC_IPV6].stride) { + flush_entries[TF_RESC_TYPE_SRAM_SP_SMAC_IPV6].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_SP_SMAC_IPV6].stride = + 0; + } else { + flush_rc = 1; + } + } else { + /* Always prune RX direction */ + flush_entries[TF_RESC_TYPE_SRAM_SP_SMAC_IPV6].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_SP_SMAC_IPV6].stride = 0; + } + + TF_RM_GET_POOLS(tfs, dir, &pool, + TF_SRAM_STATS_64B_POOL_NAME, + rc); + if (rc) + return rc; + free_cnt = ba_free_count(pool); + if (free_cnt == sram_entries[TF_RESC_TYPE_SRAM_COUNTER_64B].stride) { + flush_entries[TF_RESC_TYPE_SRAM_COUNTER_64B].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_COUNTER_64B].stride = 0; + } else { + flush_rc = 1; + } + + TF_RM_GET_POOLS(tfs, dir, &pool, + TF_SRAM_NAT_SPORT_POOL_NAME, + rc); + if (rc) + return rc; + free_cnt = ba_free_count(pool); + if (free_cnt == sram_entries[TF_RESC_TYPE_SRAM_NAT_SPORT].stride) { + flush_entries[TF_RESC_TYPE_SRAM_NAT_SPORT].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_NAT_SPORT].stride = 0; + } else { + flush_rc = 1; + } + + TF_RM_GET_POOLS(tfs, dir, &pool, + TF_SRAM_NAT_DPORT_POOL_NAME, + rc); + if (rc) + return rc; + free_cnt = ba_free_count(pool); + if (free_cnt == sram_entries[TF_RESC_TYPE_SRAM_NAT_DPORT].stride) { + flush_entries[TF_RESC_TYPE_SRAM_NAT_DPORT].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_NAT_DPORT].stride = 0; + } else { + flush_rc = 1; + } + + TF_RM_GET_POOLS(tfs, dir, &pool, + TF_SRAM_NAT_S_IPV4_POOL_NAME, + rc); + if (rc) + return rc; + free_cnt = ba_free_count(pool); + if (free_cnt == sram_entries[TF_RESC_TYPE_SRAM_NAT_S_IPV4].stride) { + flush_entries[TF_RESC_TYPE_SRAM_NAT_S_IPV4].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_NAT_S_IPV4].stride = 0; + } else { + flush_rc = 1; + } + + TF_RM_GET_POOLS(tfs, dir, &pool, + TF_SRAM_NAT_D_IPV4_POOL_NAME, + rc); + if (rc) + return rc; + free_cnt = ba_free_count(pool); + if (free_cnt == sram_entries[TF_RESC_TYPE_SRAM_NAT_D_IPV4].stride) { + flush_entries[TF_RESC_TYPE_SRAM_NAT_D_IPV4].start = 0; + flush_entries[TF_RESC_TYPE_SRAM_NAT_D_IPV4].stride = 0; + } else { + flush_rc = 1; + } + + return flush_rc; +} + +/** + * Helper function used to generate an error log for the SRAM types + * that needs to be flushed. The types should have been cleaned up + * ahead of invoking tf_close_session. + * + * [in] sram_entries + * SRAM Resource database holding elements to be flushed + */ +static void +tf_rm_log_sram_flush(enum tf_dir dir, + struct tf_rm_entry *sram_entries) +{ + int i; + + /* Walk the sram flush array and log the types that wasn't + * cleaned up. + */ + for (i = 0; i < TF_RESC_TYPE_SRAM_MAX; i++) { + if (sram_entries[i].stride != 0) + PMD_DRV_LOG(ERR, + "%s: %s was not cleaned up\n", + tf_dir_2_str(dir), + tf_hcapi_sram_2_str(i)); + } +} + +void +tf_rm_init(struct tf *tfp __rte_unused) +{ + struct tf_session *tfs = + (struct tf_session *)(tfp->session->core_data); + + /* This version is host specific and should be checked against + * when attaching as there is no guarantee that a secondary + * would run from same image version. + */ + tfs->ver.major = TF_SESSION_VER_MAJOR; + tfs->ver.minor = TF_SESSION_VER_MINOR; + tfs->ver.update = TF_SESSION_VER_UPDATE; + + tfs->session_id.id = 0; + tfs->ref_count = 0; + + /* Initialization of Table Scopes */ + /* ll_init(&tfs->tbl_scope_ll); */ + + /* Initialization of HW and SRAM resource DB */ + memset(&tfs->resc, 0, sizeof(struct tf_rm_db)); + + /* Initialization of HW Resource Pools */ + ba_init(tfs->TF_L2_CTXT_TCAM_POOL_NAME_RX, TF_NUM_L2_CTXT_TCAM); + ba_init(tfs->TF_L2_CTXT_TCAM_POOL_NAME_TX, TF_NUM_L2_CTXT_TCAM); + + /* Initialization of SRAM Resource Pools + * These pools are set to the TFLIB defined MAX sizes not + * AFM's HW max as to limit the memory consumption + */ + ba_init(tfs->TF_SRAM_FULL_ACTION_POOL_NAME_RX, + TF_RSVD_SRAM_FULL_ACTION_RX); + ba_init(tfs->TF_SRAM_FULL_ACTION_POOL_NAME_TX, + TF_RSVD_SRAM_FULL_ACTION_TX); + /* Only Multicast Group on RX is supported */ + ba_init(tfs->TF_SRAM_MCG_POOL_NAME_RX, + TF_RSVD_SRAM_MCG_RX); + ba_init(tfs->TF_SRAM_ENCAP_8B_POOL_NAME_RX, + TF_RSVD_SRAM_ENCAP_8B_RX); + ba_init(tfs->TF_SRAM_ENCAP_8B_POOL_NAME_TX, + TF_RSVD_SRAM_ENCAP_8B_TX); + ba_init(tfs->TF_SRAM_ENCAP_16B_POOL_NAME_RX, + TF_RSVD_SRAM_ENCAP_16B_RX); + ba_init(tfs->TF_SRAM_ENCAP_16B_POOL_NAME_TX, + TF_RSVD_SRAM_ENCAP_16B_TX); + /* Only Encap 64B on TX is supported */ + ba_init(tfs->TF_SRAM_ENCAP_64B_POOL_NAME_TX, + TF_RSVD_SRAM_ENCAP_64B_TX); + ba_init(tfs->TF_SRAM_SP_SMAC_POOL_NAME_RX, + TF_RSVD_SRAM_SP_SMAC_RX); + ba_init(tfs->TF_SRAM_SP_SMAC_POOL_NAME_TX, + TF_RSVD_SRAM_SP_SMAC_TX); + /* Only SP SMAC IPv4 on TX is supported */ + ba_init(tfs->TF_SRAM_SP_SMAC_IPV4_POOL_NAME_TX, + TF_RSVD_SRAM_SP_SMAC_IPV4_TX); + /* Only SP SMAC IPv6 on TX is supported */ + ba_init(tfs->TF_SRAM_SP_SMAC_IPV6_POOL_NAME_TX, + TF_RSVD_SRAM_SP_SMAC_IPV6_TX); + ba_init(tfs->TF_SRAM_STATS_64B_POOL_NAME_RX, + TF_RSVD_SRAM_COUNTER_64B_RX); + ba_init(tfs->TF_SRAM_STATS_64B_POOL_NAME_TX, + TF_RSVD_SRAM_COUNTER_64B_TX); + ba_init(tfs->TF_SRAM_NAT_SPORT_POOL_NAME_RX, + TF_RSVD_SRAM_NAT_SPORT_RX); + ba_init(tfs->TF_SRAM_NAT_SPORT_POOL_NAME_TX, + TF_RSVD_SRAM_NAT_SPORT_TX); + ba_init(tfs->TF_SRAM_NAT_DPORT_POOL_NAME_RX, + TF_RSVD_SRAM_NAT_DPORT_RX); + ba_init(tfs->TF_SRAM_NAT_DPORT_POOL_NAME_TX, + TF_RSVD_SRAM_NAT_DPORT_TX); + ba_init(tfs->TF_SRAM_NAT_S_IPV4_POOL_NAME_RX, + TF_RSVD_SRAM_NAT_S_IPV4_RX); + ba_init(tfs->TF_SRAM_NAT_S_IPV4_POOL_NAME_TX, + TF_RSVD_SRAM_NAT_S_IPV4_TX); + ba_init(tfs->TF_SRAM_NAT_D_IPV4_POOL_NAME_RX, + TF_RSVD_SRAM_NAT_D_IPV4_RX); + ba_init(tfs->TF_SRAM_NAT_D_IPV4_POOL_NAME_TX, + TF_RSVD_SRAM_NAT_D_IPV4_TX); + + /* Initialization of pools local to TF Core */ + ba_init(tfs->TF_L2_CTXT_REMAP_POOL_NAME_RX, TF_NUM_L2_CTXT_TCAM); + ba_init(tfs->TF_L2_CTXT_REMAP_POOL_NAME_TX, TF_NUM_L2_CTXT_TCAM); +} + +int +tf_rm_allocate_validate(struct tf *tfp) +{ + int rc; + int i; + + for (i = 0; i < TF_DIR_MAX; i++) { + rc = tf_rm_allocate_validate_hw(tfp, i); + if (rc) + return rc; + rc = tf_rm_allocate_validate_sram(tfp, i); + if (rc) + return rc; + } + + /* With both HW and SRAM allocated and validated we can + * 'scrub' the reservation on the pools. + */ + tf_rm_reserve_hw(tfp); + tf_rm_reserve_sram(tfp); + + return rc; +} + +int +tf_rm_close(struct tf *tfp) +{ + int rc; + int rc_close = 0; + int i; + struct tf_rm_entry *hw_entries; + struct tf_rm_entry *sram_entries; + struct tf_rm_entry *sram_flush_entries; + struct tf_session *tfs __rte_unused = + (struct tf_session *)(tfp->session->core_data); + + struct tf_rm_db flush_resc = tfs->resc; + + /* On close it is assumed that the session has already cleaned + * up all its resources, individually, while destroying its + * flows. No checking is performed thus the behavior is as + * follows. + * + * Session RM will signal FW to release session resources. FW + * will perform invalidation of all the allocated entries + * (assures any outstanding resources has been cleared, then + * free the FW RM instance. + * + * Session will then be freed by tf_close_session() thus there + * is no need to clean each resource pool as the whole session + * is going away. + */ + + for (i = 0; i < TF_DIR_MAX; i++) { + if (i == TF_DIR_RX) { + hw_entries = tfs->resc.rx.hw_entry; + sram_entries = tfs->resc.rx.sram_entry; + sram_flush_entries = flush_resc.rx.sram_entry; + } else { + hw_entries = tfs->resc.tx.hw_entry; + sram_entries = tfs->resc.tx.sram_entry; + sram_flush_entries = flush_resc.tx.sram_entry; + } + + /* Check for any not previously freed SRAM resources + * and flush if required. + */ + rc = tf_rm_sram_to_flush(tfs, + i, + sram_entries, + sram_flush_entries); + if (rc) { + rc_close = -ENOTEMPTY; + /* Log error */ + PMD_DRV_LOG(ERR, + "%s, lingering SRAM resources\n", + tf_dir_2_str(i)); + + /* Log the entries to be flushed */ + tf_rm_log_sram_flush(i, sram_flush_entries); + + rc = tf_msg_session_sram_resc_flush(tfp, + i, + sram_flush_entries); + if (rc) { + rc_close = rc; + /* Log error */ + PMD_DRV_LOG(ERR, + "%s, HW flush failed\n", + tf_dir_2_str(i)); + } + } + + rc = tf_msg_session_hw_resc_free(tfp, i, hw_entries); + if (rc) { + rc_close = rc; + /* Log error */ + PMD_DRV_LOG(ERR, + "%s, HW free failed\n", + tf_dir_2_str(i)); + } + + rc = tf_msg_session_sram_resc_free(tfp, i, sram_entries); + if (rc) { + rc_close = rc; + /* Log error */ + PMD_DRV_LOG(ERR, + "%s, SRAM free failed\n", + tf_dir_2_str(i)); + } + } + + return rc_close; +} + +int +tf_rm_convert_tbl_type(enum tf_tbl_type type, + uint32_t *hcapi_type) +{ + int rc = 0; + + switch (type) { + case TF_TBL_TYPE_FULL_ACT_RECORD: + *hcapi_type = TF_RESC_TYPE_SRAM_FULL_ACTION; + break; + case TF_TBL_TYPE_MCAST_GROUPS: + *hcapi_type = TF_RESC_TYPE_SRAM_MCG; + break; + case TF_TBL_TYPE_ACT_ENCAP_8B: + *hcapi_type = TF_RESC_TYPE_SRAM_ENCAP_8B; + break; + case TF_TBL_TYPE_ACT_ENCAP_16B: + *hcapi_type = TF_RESC_TYPE_SRAM_ENCAP_16B; + break; + case TF_TBL_TYPE_ACT_ENCAP_64B: + *hcapi_type = TF_RESC_TYPE_SRAM_ENCAP_64B; + break; + case TF_TBL_TYPE_ACT_SP_SMAC: + *hcapi_type = TF_RESC_TYPE_SRAM_SP_SMAC; + break; + case TF_TBL_TYPE_ACT_SP_SMAC_IPV4: + *hcapi_type = TF_RESC_TYPE_SRAM_SP_SMAC_IPV4; + break; + case TF_TBL_TYPE_ACT_SP_SMAC_IPV6: + *hcapi_type = TF_RESC_TYPE_SRAM_SP_SMAC_IPV6; + break; + case TF_TBL_TYPE_ACT_STATS_64: + *hcapi_type = TF_RESC_TYPE_SRAM_COUNTER_64B; + break; + case TF_TBL_TYPE_ACT_MODIFY_SPORT: + *hcapi_type = TF_RESC_TYPE_SRAM_NAT_SPORT; + break; + case TF_TBL_TYPE_ACT_MODIFY_DPORT: + *hcapi_type = TF_RESC_TYPE_SRAM_NAT_DPORT; + break; + case TF_TBL_TYPE_ACT_MODIFY_IPV4_SRC: + *hcapi_type = TF_RESC_TYPE_SRAM_NAT_S_IPV4; + break; + case TF_TBL_TYPE_ACT_MODIFY_IPV4_DEST: + *hcapi_type = TF_RESC_TYPE_SRAM_NAT_D_IPV4; + break; + case TF_TBL_TYPE_METER_PROF: + *hcapi_type = TF_RESC_TYPE_HW_METER_PROF; + break; + case TF_TBL_TYPE_METER_INST: + *hcapi_type = TF_RESC_TYPE_HW_METER_INST; + break; + case TF_TBL_TYPE_MIRROR_CONFIG: + *hcapi_type = TF_RESC_TYPE_HW_MIRROR; + break; + case TF_TBL_TYPE_UPAR: + *hcapi_type = TF_RESC_TYPE_HW_UPAR; + break; + case TF_TBL_TYPE_EPOCH0: + *hcapi_type = TF_RESC_TYPE_HW_EPOCH0; + break; + case TF_TBL_TYPE_EPOCH1: + *hcapi_type = TF_RESC_TYPE_HW_EPOCH1; + break; + case TF_TBL_TYPE_METADATA: + *hcapi_type = TF_RESC_TYPE_HW_METADATA; + break; + case TF_TBL_TYPE_CT_STATE: + *hcapi_type = TF_RESC_TYPE_HW_CT_STATE; + break; + case TF_TBL_TYPE_RANGE_PROF: + *hcapi_type = TF_RESC_TYPE_HW_RANGE_PROF; + break; + case TF_TBL_TYPE_RANGE_ENTRY: + *hcapi_type = TF_RESC_TYPE_HW_RANGE_ENTRY; + break; + case TF_TBL_TYPE_LAG: + *hcapi_type = TF_RESC_TYPE_HW_LAG_ENTRY; + break; + /* Not yet supported */ + case TF_TBL_TYPE_ACT_ENCAP_32B: + case TF_TBL_TYPE_ACT_MODIFY_IPV6_DEST: + case TF_TBL_TYPE_ACT_MODIFY_IPV6_SRC: + case TF_TBL_TYPE_VNIC_SVIF: + case TF_TBL_TYPE_EXT: /* No pools for this type */ + case TF_TBL_TYPE_EXT_0: /* No pools for this type */ + default: + *hcapi_type = -1; + rc = -EOPNOTSUPP; + } + + return rc; +} + +int +tf_rm_convert_index(struct tf_session *tfs, + enum tf_dir dir, + enum tf_tbl_type type, + enum tf_rm_convert_type c_type, + uint32_t index, + uint32_t *convert_index) +{ + int rc; + struct tf_rm_resc *resc; + uint32_t hcapi_type; + uint32_t base_index; + + if (dir == TF_DIR_RX) + resc = &tfs->resc.rx; + else if (dir == TF_DIR_TX) + resc = &tfs->resc.tx; + else + return -EOPNOTSUPP; + + rc = tf_rm_convert_tbl_type(type, &hcapi_type); + if (rc) + return -1; + + switch (type) { + case TF_TBL_TYPE_FULL_ACT_RECORD: + case TF_TBL_TYPE_MCAST_GROUPS: + case TF_TBL_TYPE_ACT_ENCAP_8B: + case TF_TBL_TYPE_ACT_ENCAP_16B: + case TF_TBL_TYPE_ACT_ENCAP_32B: + case TF_TBL_TYPE_ACT_ENCAP_64B: + case TF_TBL_TYPE_ACT_SP_SMAC: + case TF_TBL_TYPE_ACT_SP_SMAC_IPV4: + case TF_TBL_TYPE_ACT_SP_SMAC_IPV6: + case TF_TBL_TYPE_ACT_STATS_64: + case TF_TBL_TYPE_ACT_MODIFY_SPORT: + case TF_TBL_TYPE_ACT_MODIFY_DPORT: + case TF_TBL_TYPE_ACT_MODIFY_IPV4_SRC: + case TF_TBL_TYPE_ACT_MODIFY_IPV4_DEST: + base_index = resc->sram_entry[hcapi_type].start; + break; + case TF_TBL_TYPE_MIRROR_CONFIG: + case TF_TBL_TYPE_METER_PROF: + case TF_TBL_TYPE_METER_INST: + case TF_TBL_TYPE_UPAR: + case TF_TBL_TYPE_EPOCH0: + case TF_TBL_TYPE_EPOCH1: + case TF_TBL_TYPE_METADATA: + case TF_TBL_TYPE_CT_STATE: + case TF_TBL_TYPE_RANGE_PROF: + case TF_TBL_TYPE_RANGE_ENTRY: + case TF_TBL_TYPE_LAG: + base_index = resc->hw_entry[hcapi_type].start; + break; + /* Not yet supported */ + case TF_TBL_TYPE_VNIC_SVIF: + case TF_TBL_TYPE_EXT: /* No pools for this type */ + case TF_TBL_TYPE_EXT_0: /* No pools for this type */ + default: + return -EOPNOTSUPP; + } + + switch (c_type) { + case TF_RM_CONVERT_RM_BASE: + *convert_index = index - base_index; + break; + case TF_RM_CONVERT_ADD_BASE: + *convert_index = index + base_index; + break; + default: + return -EOPNOTSUPP; + } + + return 0; +} diff --git a/drivers/net/bnxt/tf_core/tf_rm.h b/drivers/net/bnxt/tf_core/tf_rm.h index 57ce19b7ef..e69d443a8f 100644 --- a/drivers/net/bnxt/tf_core/tf_rm.h +++ b/drivers/net/bnxt/tf_core/tf_rm.h @@ -106,6 +106,54 @@ struct tf_rm_sram_alloc { uint16_t sram_num[TF_RESC_TYPE_SRAM_MAX]; }; +/** + * Resource Manager arrays for a single direction + */ +struct tf_rm_resc { + /** array of HW resource entries */ + struct tf_rm_entry hw_entry[TF_RESC_TYPE_HW_MAX]; + /** array of SRAM resource entries */ + struct tf_rm_entry sram_entry[TF_RESC_TYPE_SRAM_MAX]; +}; + +/** + * Resource Manager Database + */ +struct tf_rm_db { + struct tf_rm_resc rx; + struct tf_rm_resc tx; +}; + +/** + * Helper function converting direction to text string + */ +const char +*tf_dir_2_str(enum tf_dir dir); + +/** + * Helper function converting identifier to text string + */ +const char +*tf_ident_2_str(enum tf_identifier_type id_type); + +/** + * Helper function converting tcam type to text string + */ +const char +*tf_tcam_tbl_2_str(enum tf_tcam_tbl_type tcam_type); + +/** + * Helper function used to convert HW HCAPI resource type to a string. + */ +const char +*tf_hcapi_hw_2_str(enum tf_resource_type_hw hw_type); + +/** + * Helper function used to convert SRAM HCAPI resource type to a string. + */ +const char +*tf_hcapi_sram_2_str(enum tf_resource_type_sram sram_type); + /** * Initializes the Resource Manager and the associated database * entries for HW and SRAM resources. Must be called before any other @@ -143,4 +191,131 @@ int tf_rm_allocate_validate(struct tf *tfp); * - (-ENOTEMPTY) if resources are not cleaned up before close */ int tf_rm_close(struct tf *tfp); + +#if (TF_SHADOW == 1) +/** + * Initializes Shadow DB of configuration elements + * + * [in] tfs + * Pointer to TF Session + * + * Returns: + * 0 - Success + */ +int tf_rm_shadow_db_init(struct tf_session *tfs); +#endif /* TF_SHADOW */ + +/** + * Perform a Session Pool lookup using the Tcam table type. + * + * Function will print error msg if tcam type is unsupported or lookup + * failed. + * + * [in] tfs + * Pointer to TF Session + * + * [in] type + * Type of the object + * + * [in] dir + * Receive or transmit direction + * + * [in/out] session_pool + * Session pool + * + * Returns: + * 0 - Success will set the **pool + * -EOPNOTSUPP - Type is not supported + */ +int +tf_rm_lookup_tcam_type_pool(struct tf_session *tfs, + enum tf_dir dir, + enum tf_tcam_tbl_type type, + struct bitalloc **pool); + +/** + * Perform a Session Pool lookup using the Table type. + * + * Function will print error msg if table type is unsupported or + * lookup failed. + * + * [in] tfs + * Pointer to TF Session + * + * [in] type + * Type of the object + * + * [in] dir + * Receive or transmit direction + * + * [in/out] session_pool + * Session pool + * + * Returns: + * 0 - Success will set the **pool + * -EOPNOTSUPP - Type is not supported + */ +int +tf_rm_lookup_tbl_type_pool(struct tf_session *tfs, + enum tf_dir dir, + enum tf_tbl_type type, + struct bitalloc **pool); + +/** + * Converts the TF Table Type to internal HCAPI_TYPE + * + * [in] type + * Type to be converted + * + * [in/out] hcapi_type + * Converted type + * + * Returns: + * 0 - Success will set the *hcapi_type + * -EOPNOTSUPP - Type is not supported + */ +int +tf_rm_convert_tbl_type(enum tf_tbl_type type, + uint32_t *hcapi_type); + +/** + * TF RM Convert of index methods. + */ +enum tf_rm_convert_type { + /** Adds the base of the Session Pool to the index */ + TF_RM_CONVERT_ADD_BASE, + /** Removes the Session Pool base from the index */ + TF_RM_CONVERT_RM_BASE +}; + +/** + * Provides conversion of the Table Type index in relation to the + * Session Pool base. + * + * [in] tfs + * Pointer to TF Session + * + * [in] dir + * Receive or transmit direction + * + * [in] type + * Type of the object + * + * [in] c_type + * Type of conversion to perform + * + * [in] index + * Index to be converted + * + * [in/out] convert_index + * Pointer to the converted index + */ +int +tf_rm_convert_index(struct tf_session *tfs, + enum tf_dir dir, + enum tf_tbl_type type, + enum tf_rm_convert_type c_type, + uint32_t index, + uint32_t *convert_index); + #endif /* TF_RM_H_ */ diff --git a/drivers/net/bnxt/tf_core/tf_session.h b/drivers/net/bnxt/tf_core/tf_session.h index 651d3ee360..34b6c4121c 100644 --- a/drivers/net/bnxt/tf_core/tf_session.h +++ b/drivers/net/bnxt/tf_core/tf_session.h @@ -76,11 +76,215 @@ struct tf_session { */ uint8_t ref_count; + /** 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); + + /** + * Pools not allocated from HCAPI RM + */ + + /** 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); + /** CRC32 seed table */ #define TF_LKUP_SEED_MEM_SIZE 512 uint32_t lkup_em_seed_mem[TF_DIR_MAX][TF_LKUP_SEED_MEM_SIZE]; + /** Lookup3 init values */ uint32_t lkup_lkup3_init_cfg[TF_DIR_MAX]; - }; + #endif /* _TF_SESSION_H_ */