/* SPDX-License-Identifier: BSD-3-Clause
- * Copyright(c) 2001-2018
+ * Copyright(c) 2001-2020 Intel Corporation
*/
#include "ice_sched.h"
-
/**
* ice_sched_add_root_node - Insert the Tx scheduler root node in SW DB
* @pi: port information structure
return ICE_ERR_PARAM;
}
- /* query the current node information from FW before additing it
+ /* query the current node information from FW before adding it
* to the SW DB
*/
status = ice_sched_query_elem(hw, LE32_TO_CPU(info->node_teid), &elem);
/**
* ice_sched_get_first_node - get the first node of the given layer
- * @hw: pointer to the HW struct
+ * @pi: port information structure
* @parent: pointer the base node of the subtree
* @layer: layer number
*
* This function retrieves the first node of the given layer from the subtree
*/
static struct ice_sched_node *
-ice_sched_get_first_node(struct ice_hw *hw, struct ice_sched_node *parent,
- u8 layer)
+ice_sched_get_first_node(struct ice_port_info *pi,
+ struct ice_sched_node *parent, u8 layer)
{
- u8 i;
-
- if (layer < hw->sw_entry_point_layer)
- return NULL;
- for (i = 0; i < parent->num_children; i++) {
- struct ice_sched_node *node = parent->children[i];
-
- if (node) {
- if (node->tx_sched_layer == layer)
- return node;
- /* this recursion is intentional, and wouldn't
- * go more than 9 calls
- */
- return ice_sched_get_first_node(hw, node, layer);
- }
- }
- return NULL;
+ return pi->sib_head[parent->tc_num][layer];
}
/**
{
u8 i;
- if (!pi)
+ if (!pi || !pi->root)
return NULL;
for (i = 0; i < pi->root->num_children; i++)
if (pi->root->children[i]->tc_num == tc)
parent = node->parent;
/* root has no parent */
if (parent) {
- struct ice_sched_node *p, *tc_node;
+ struct ice_sched_node *p;
/* update the parent */
for (i = 0; i < parent->num_children; i++)
break;
}
- /* search for previous sibling that points to this node and
- * remove the reference
- */
- tc_node = ice_sched_get_tc_node(pi, node->tc_num);
- if (!tc_node) {
- ice_debug(hw, ICE_DBG_SCHED,
- "Invalid TC number %d\n", node->tc_num);
- goto err_exit;
- }
- p = ice_sched_get_first_node(hw, tc_node, node->tx_sched_layer);
+ p = ice_sched_get_first_node(pi, node, node->tx_sched_layer);
while (p) {
if (p->sibling == node) {
p->sibling = node->sibling;
}
p = p->sibling;
}
+
+ /* update the sibling head if head is getting removed */
+ if (pi->sib_head[node->tc_num][node->tx_sched_layer] == node)
+ pi->sib_head[node->tc_num][node->tx_sched_layer] =
+ node->sibling;
}
-err_exit:
+
/* leaf nodes have no children */
if (node->children)
ice_free(hw, node->children);
*
* Move scheduling elements (0x0408)
*/
-enum ice_status
+static enum ice_status
ice_aq_move_sched_elems(struct ice_hw *hw, u16 grps_req,
struct ice_aqc_move_elem *buf, u16 buf_size,
u16 *grps_movd, struct ice_sq_cd *cd)
return status;
}
+/**
+ * ice_alloc_lan_q_ctx - allocate LAN queue contexts for the given VSI and TC
+ * @hw: pointer to the HW struct
+ * @vsi_handle: VSI handle
+ * @tc: TC number
+ * @new_numqs: number of queues
+ */
+static enum ice_status
+ice_alloc_lan_q_ctx(struct ice_hw *hw, u16 vsi_handle, u8 tc, u16 new_numqs)
+{
+ struct ice_vsi_ctx *vsi_ctx;
+ struct ice_q_ctx *q_ctx;
+
+ vsi_ctx = ice_get_vsi_ctx(hw, vsi_handle);
+ if (!vsi_ctx)
+ return ICE_ERR_PARAM;
+ /* allocate LAN queue contexts */
+ if (!vsi_ctx->lan_q_ctx[tc]) {
+ vsi_ctx->lan_q_ctx[tc] = (struct ice_q_ctx *)
+ ice_calloc(hw, new_numqs, sizeof(*q_ctx));
+ if (!vsi_ctx->lan_q_ctx[tc])
+ return ICE_ERR_NO_MEMORY;
+ vsi_ctx->num_lan_q_entries[tc] = new_numqs;
+ return ICE_SUCCESS;
+ }
+ /* num queues are increased, update the queue contexts */
+ if (new_numqs > vsi_ctx->num_lan_q_entries[tc]) {
+ u16 prev_num = vsi_ctx->num_lan_q_entries[tc];
+
+ q_ctx = (struct ice_q_ctx *)
+ ice_calloc(hw, new_numqs, sizeof(*q_ctx));
+ if (!q_ctx)
+ return ICE_ERR_NO_MEMORY;
+ ice_memcpy(q_ctx, vsi_ctx->lan_q_ctx[tc],
+ prev_num * sizeof(*q_ctx), ICE_DMA_TO_NONDMA);
+ ice_free(hw, vsi_ctx->lan_q_ctx[tc]);
+ vsi_ctx->lan_q_ctx[tc] = q_ctx;
+ vsi_ctx->num_lan_q_entries[tc] = new_numqs;
+ }
+ return ICE_SUCCESS;
+}
+
/**
* ice_aq_rl_profile - performs a rate limiting task
* @hw: pointer to the HW struct
- * @opcode:opcode for add, query, or remove profile(s)
+ * @opcode: opcode for add, query, or remove profile(s)
* @num_profiles: the number of profiles
* @buf: pointer to buffer
* @buf_size: buffer size in bytes
* @num_processed: number of processed add or remove profile(s) to return
* @cd: pointer to command details structure
*
- * Rl profile function to add, query, or remove profile(s)
+ * RL profile function to add, query, or remove profile(s)
*/
static enum ice_status
ice_aq_rl_profile(struct ice_hw *hw, enum ice_adminq_opc opcode,
buf_size, num_profiles_removed, cd);
}
+/**
+ * ice_sched_del_rl_profile - remove RL profile
+ * @hw: pointer to the HW struct
+ * @rl_info: rate limit profile information
+ *
+ * If the profile ID is not referenced anymore, it removes profile ID with
+ * its associated parameters from HW DB,and locally. The caller needs to
+ * hold scheduler lock.
+ */
+static enum ice_status
+ice_sched_del_rl_profile(struct ice_hw *hw,
+ struct ice_aqc_rl_profile_info *rl_info)
+{
+ struct ice_aqc_rl_profile_generic_elem *buf;
+ u16 num_profiles_removed;
+ enum ice_status status;
+ u16 num_profiles = 1;
+
+ if (rl_info->prof_id_ref != 0)
+ return ICE_ERR_IN_USE;
+
+ /* Safe to remove profile ID */
+ buf = (struct ice_aqc_rl_profile_generic_elem *)
+ &rl_info->profile;
+ status = ice_aq_remove_rl_profile(hw, num_profiles, buf, sizeof(*buf),
+ &num_profiles_removed, NULL);
+ if (status || num_profiles_removed != num_profiles)
+ return ICE_ERR_CFG;
+
+ /* Delete stale entry now */
+ LIST_DEL(&rl_info->list_entry);
+ ice_free(hw, rl_info);
+ return status;
+}
+
/**
* ice_sched_clear_rl_prof - clears RL prof entries
* @pi: port information structure
*/
static void ice_sched_clear_rl_prof(struct ice_port_info *pi)
{
- u8 ln;
+ u16 ln;
for (ln = 0; ln < pi->hw->num_tx_sched_layers; ln++) {
struct ice_aqc_rl_profile_info *rl_prof_elem;
}
/**
- * ice_sched_clear_tx_topo - clears the schduler tree nodes
+ * ice_sched_clear_tx_topo - clears the scheduler tree nodes
* @pi: port information structure
*
* This function removes all the nodes from HW as well as from SW DB.
hw->layer_info = NULL;
}
- if (hw->port_info)
- ice_sched_clear_port(hw->port_info);
+ ice_sched_clear_port(hw->port_info);
hw->num_tx_sched_layers = 0;
hw->num_tx_sched_phys_layers = 0;
return ice_aq_send_cmd(hw, &desc, buf, buf_size, cd);
}
-
/**
* ice_sched_add_elems - add nodes to HW and SW DB
* @pi: port information structure
u16 buf_size;
u32 teid;
- buf_size = sizeof(*buf) + sizeof(*buf->generic) * (num_nodes - 1);
+ buf_size = ice_struct_size(buf, generic, num_nodes - 1);
buf = (struct ice_aqc_add_elem *)ice_malloc(hw, buf_size);
if (!buf)
return ICE_ERR_NO_MEMORY;
/* add it to previous node sibling pointer */
/* Note: siblings are not linked across branches */
- prev = ice_sched_get_first_node(hw, tc_node, layer);
+ prev = ice_sched_get_first_node(pi, tc_node, layer);
if (prev && prev != new_node) {
while (prev->sibling)
prev = prev->sibling;
prev->sibling = new_node;
}
+ /* initialize the sibling head */
+ if (!pi->sib_head[tc_node->tc_num][layer])
+ pi->sib_head[tc_node->tc_num][layer] = new_node;
+
if (i == 0)
*first_node_teid = teid;
}
goto err_init_port;
}
- /* If the last node is a leaf node then the index of the Q group
+ /* If the last node is a leaf node then the index of the queue group
* layer is two less than the number of elements.
*/
if (num_elems > 2 && buf[0].generic[num_elems - 1].data.elem_type ==
goto sched_query_out;
}
-
sched_query_out:
ice_free(hw, buf);
return status;
}
+/**
+ * ice_sched_get_psm_clk_freq - determine the PSM clock frequency
+ * @hw: pointer to the HW struct
+ *
+ * Determine the PSM clock frequency and store in HW struct
+ */
+void ice_sched_get_psm_clk_freq(struct ice_hw *hw)
+{
+ u32 val, clk_src;
+
+ val = rd32(hw, GLGEN_CLKSTAT_SRC);
+ clk_src = (val & GLGEN_CLKSTAT_SRC_PSM_CLK_SRC_M) >>
+ GLGEN_CLKSTAT_SRC_PSM_CLK_SRC_S;
+
+#define PSM_CLK_SRC_367_MHZ 0x0
+#define PSM_CLK_SRC_416_MHZ 0x1
+#define PSM_CLK_SRC_446_MHZ 0x2
+#define PSM_CLK_SRC_390_MHZ 0x3
+
+ switch (clk_src) {
+ case PSM_CLK_SRC_367_MHZ:
+ hw->psm_clk_freq = ICE_PSM_CLK_367MHZ_IN_HZ;
+ break;
+ case PSM_CLK_SRC_416_MHZ:
+ hw->psm_clk_freq = ICE_PSM_CLK_416MHZ_IN_HZ;
+ break;
+ case PSM_CLK_SRC_446_MHZ:
+ hw->psm_clk_freq = ICE_PSM_CLK_446MHZ_IN_HZ;
+ break;
+ case PSM_CLK_SRC_390_MHZ:
+ hw->psm_clk_freq = ICE_PSM_CLK_390MHZ_IN_HZ;
+ break;
+ default:
+ ice_debug(hw, ICE_DBG_SCHED, "PSM clk_src unexpected %u\n",
+ clk_src);
+ /* fall back to a safe default */
+ hw->psm_clk_freq = ICE_PSM_CLK_446MHZ_IN_HZ;
+ }
+}
+
/**
* ice_sched_find_node_in_subtree - Find node in part of base node subtree
* @hw: pointer to the HW struct
goto lan_q_exit;
/* get the first queue group node from VSI sub-tree */
- qgrp_node = ice_sched_get_first_node(pi->hw, vsi_node, qgrp_layer);
+ qgrp_node = ice_sched_get_first_node(pi, vsi_node, qgrp_layer);
while (qgrp_node) {
/* make sure the qgroup node is part of the VSI subtree */
if (ice_sched_find_node_in_subtree(pi->hw, vsi_node, qgrp_node))
/**
* ice_sched_get_vsi_node - Get a VSI node based on VSI ID
- * @hw: pointer to the HW struct
+ * @pi: pointer to the port information structure
* @tc_node: pointer to the TC node
* @vsi_handle: software VSI handle
*
* TC branch
*/
struct ice_sched_node *
-ice_sched_get_vsi_node(struct ice_hw *hw, struct ice_sched_node *tc_node,
+ice_sched_get_vsi_node(struct ice_port_info *pi, struct ice_sched_node *tc_node,
u16 vsi_handle)
{
struct ice_sched_node *node;
u8 vsi_layer;
- vsi_layer = ice_sched_get_vsi_layer(hw);
- node = ice_sched_get_first_node(hw, tc_node, vsi_layer);
+ vsi_layer = ice_sched_get_vsi_layer(pi->hw);
+ node = ice_sched_get_first_node(pi, tc_node, vsi_layer);
/* Check whether it already exists */
while (node) {
/**
* ice_sched_get_agg_node - Get an aggregator node based on aggregator ID
- * @hw: pointer to the HW struct
+ * @pi: pointer to the port information structure
* @tc_node: pointer to the TC node
* @agg_id: aggregator ID
*
* This function retrieves an aggregator node for a given aggregator ID from
* a given TC branch
*/
-struct ice_sched_node *
-ice_sched_get_agg_node(struct ice_hw *hw, struct ice_sched_node *tc_node,
+static struct ice_sched_node *
+ice_sched_get_agg_node(struct ice_port_info *pi, struct ice_sched_node *tc_node,
u32 agg_id)
{
struct ice_sched_node *node;
+ struct ice_hw *hw = pi->hw;
u8 agg_layer;
+ if (!hw)
+ return NULL;
agg_layer = ice_sched_get_agg_layer(hw);
- node = ice_sched_get_first_node(hw, tc_node, agg_layer);
+ node = ice_sched_get_first_node(pi, tc_node, agg_layer);
/* Check whether it already exists */
while (node) {
qgl = ice_sched_get_qgrp_layer(hw);
vsil = ice_sched_get_vsi_layer(hw);
- parent = ice_sched_get_vsi_node(hw, tc_node, vsi_handle);
+ parent = ice_sched_get_vsi_node(pi, tc_node, vsi_handle);
for (i = vsil + 1; i <= qgl; i++) {
if (!parent)
return ICE_ERR_CFG;
/**
* ice_sched_calc_vsi_support_nodes - calculate number of VSI support nodes
- * @hw: pointer to the HW struct
+ * @pi: pointer to the port info structure
* @tc_node: pointer to TC node
* @num_nodes: pointer to num nodes array
*
* layers
*/
static void
-ice_sched_calc_vsi_support_nodes(struct ice_hw *hw,
+ice_sched_calc_vsi_support_nodes(struct ice_port_info *pi,
struct ice_sched_node *tc_node, u16 *num_nodes)
{
struct ice_sched_node *node;
u8 vsil;
int i;
- vsil = ice_sched_get_vsi_layer(hw);
- for (i = vsil; i >= hw->sw_entry_point_layer; i--)
+ vsil = ice_sched_get_vsi_layer(pi->hw);
+ for (i = vsil; i >= pi->hw->sw_entry_point_layer; i--)
/* Add intermediate nodes if TC has no children and
* need at least one node for VSI
*/
/* If intermediate nodes are reached max children
* then add a new one.
*/
- node = ice_sched_get_first_node(hw, tc_node, (u8)i);
+ node = ice_sched_get_first_node(pi, tc_node, (u8)i);
/* scan all the siblings */
while (node) {
- if (node->num_children < hw->max_children[i])
+ if (node->num_children <
+ pi->hw->max_children[i])
break;
node = node->sibling;
}
{
u16 num_nodes[ICE_AQC_TOPO_MAX_LEVEL_NUM] = { 0 };
struct ice_sched_node *tc_node;
- struct ice_hw *hw = pi->hw;
tc_node = ice_sched_get_tc_node(pi, tc);
if (!tc_node)
return ICE_ERR_PARAM;
/* calculate number of supported nodes needed for this VSI */
- ice_sched_calc_vsi_support_nodes(hw, tc_node, num_nodes);
+ ice_sched_calc_vsi_support_nodes(pi, tc_node, num_nodes);
/* add VSI supported nodes to TC subtree */
return ice_sched_add_vsi_support_nodes(pi, vsi_handle, tc_node,
if (!tc_node)
return ICE_ERR_CFG;
- vsi_node = ice_sched_get_vsi_node(hw, tc_node, vsi_handle);
+ vsi_node = ice_sched_get_vsi_node(pi, tc_node, vsi_handle);
if (!vsi_node)
return ICE_ERR_CFG;
if (!vsi_ctx)
return ICE_ERR_PARAM;
- if (owner == ICE_SCHED_NODE_OWNER_LAN)
- prev_numqs = vsi_ctx->sched.max_lanq[tc];
- else
- return ICE_ERR_PARAM;
-
+ prev_numqs = vsi_ctx->sched.max_lanq[tc];
/* num queues are not changed or less than the previous number */
if (new_numqs <= prev_numqs)
return status;
+ status = ice_alloc_lan_q_ctx(hw, vsi_handle, tc, new_numqs);
+ if (status)
+ return status;
+
if (new_numqs)
ice_sched_calc_vsi_child_nodes(hw, new_numqs, new_num_nodes);
/* Keep the max number of queue configuration all the time. Update the
vsi_ctx = ice_get_vsi_ctx(hw, vsi_handle);
if (!vsi_ctx)
return ICE_ERR_PARAM;
- vsi_node = ice_sched_get_vsi_node(hw, tc_node, vsi_handle);
+ vsi_node = ice_sched_get_vsi_node(pi, tc_node, vsi_handle);
/* suspend the VSI if TC is not enabled */
if (!enable) {
if (status)
return status;
- vsi_node = ice_sched_get_vsi_node(hw, tc_node, vsi_handle);
+ vsi_node = ice_sched_get_vsi_node(pi, tc_node, vsi_handle);
if (!vsi_node)
return ICE_ERR_CFG;
* This function removes single aggregator VSI info entry from
* aggregator list.
*/
-static void
-ice_sched_rm_agg_vsi_info(struct ice_port_info *pi, u16 vsi_handle)
+static void ice_sched_rm_agg_vsi_info(struct ice_port_info *pi, u16 vsi_handle)
{
struct ice_sched_agg_info *agg_info;
struct ice_sched_agg_info *atmp;
if (!tc_node)
continue;
- vsi_node = ice_sched_get_vsi_node(pi->hw, tc_node, vsi_handle);
+ vsi_node = ice_sched_get_vsi_node(pi, tc_node, vsi_handle);
if (!vsi_node)
continue;
return ice_sched_rm_vsi_cfg(pi, vsi_handle, ICE_SCHED_NODE_OWNER_LAN);
}
-
/**
* ice_sched_is_tree_balanced - Check tree nodes are identical or not
* @hw: pointer to the HW struct
* This function validates aggregator ID. The function returns info if
* aggregator ID is present in list otherwise it returns null.
*/
-static struct ice_sched_agg_info*
+static struct ice_sched_agg_info *
ice_get_agg_info(struct ice_hw *hw, u32 agg_id)
{
struct ice_sched_agg_info *agg_info;
}
/**
- * ice_move_all_vsi_to_dflt_agg - move all VSI(s) to default aggregator
- * @pi: port information structure
- * @agg_info: aggregator info
- * @tc: traffic class number
- * @rm_vsi_info: true or false
+ * ice_sched_get_free_vsi_parent - Find a free parent node in aggregator subtree
+ * @hw: pointer to the HW struct
+ * @node: pointer to a child node
+ * @num_nodes: num nodes count array
*
- * This function move all the VSI(s) to the default aggregator and delete
- * aggregator VSI info based on passed in boolean parameter rm_vsi_info. The
- * caller holds the scheduler lock.
+ * This function walks through the aggregator subtree to find a free parent
+ * node
*/
-static enum ice_status
-ice_move_all_vsi_to_dflt_agg(struct ice_port_info *pi,
- struct ice_sched_agg_info *agg_info, u8 tc,
- bool rm_vsi_info)
+static struct ice_sched_node *
+ice_sched_get_free_vsi_parent(struct ice_hw *hw, struct ice_sched_node *node,
+ u16 *num_nodes)
{
- struct ice_sched_agg_vsi_info *agg_vsi_info;
- struct ice_sched_agg_vsi_info *tmp;
- enum ice_status status = ICE_SUCCESS;
+ u8 l = node->tx_sched_layer;
+ u8 vsil, i;
- LIST_FOR_EACH_ENTRY_SAFE(agg_vsi_info, tmp, &agg_info->agg_vsi_list,
- ice_sched_agg_vsi_info, list_entry) {
- u16 vsi_handle = agg_vsi_info->vsi_handle;
+ vsil = ice_sched_get_vsi_layer(hw);
- /* Move VSI to default aggregator */
- if (!ice_is_tc_ena(agg_vsi_info->tc_bitmap[0], tc))
- continue;
+ /* Is it VSI parent layer ? */
+ if (l == vsil - 1)
+ return (node->num_children < hw->max_children[l]) ? node : NULL;
- status = ice_sched_move_vsi_to_agg(pi, vsi_handle,
- ICE_DFLT_AGG_ID, tc);
- if (status)
- break;
+ /* We have intermediate nodes. Let's walk through the subtree. If the
+ * intermediate node has space to add a new node then clear the count
+ */
+ if (node->num_children < hw->max_children[l])
+ num_nodes[l] = 0;
+ /* The below recursive call is intentional and wouldn't go more than
+ * 2 or 3 iterations.
+ */
- ice_clear_bit(tc, agg_vsi_info->tc_bitmap);
- if (rm_vsi_info && !agg_vsi_info->tc_bitmap[0]) {
- LIST_DEL(&agg_vsi_info->list_entry);
- ice_free(pi->hw, agg_vsi_info);
- }
+ for (i = 0; i < node->num_children; i++) {
+ struct ice_sched_node *parent;
+
+ parent = ice_sched_get_free_vsi_parent(hw, node->children[i],
+ num_nodes);
+ if (parent)
+ return parent;
}
- return status;
+ return NULL;
}
/**
- * ice_rm_agg_cfg_tc - remove aggregator configuration for TC
- * @pi: port information structure
- * @agg_info: aggregator ID
- * @tc: TC number
- * @rm_vsi_info: bool value true or false
+ * ice_sched_update_parent - update the new parent in SW DB
+ * @new_parent: pointer to a new parent node
+ * @node: pointer to a child node
*
- * This function removes aggregator reference to VSI of given TC. It removes
- * the aggregator configuration completely for requested TC. The caller needs
- * to hold the scheduler lock.
+ * This function removes the child from the old parent and adds it to a new
+ * parent
*/
-static enum ice_status
-ice_rm_agg_cfg_tc(struct ice_port_info *pi, struct ice_sched_agg_info *agg_info,
- u8 tc, bool rm_vsi_info)
+static void
+ice_sched_update_parent(struct ice_sched_node *new_parent,
+ struct ice_sched_node *node)
{
- enum ice_status status = ICE_SUCCESS;
-
- /* If nothing to remove - return success */
- if (!ice_is_tc_ena(agg_info->tc_bitmap[0], tc))
- goto exit_rm_agg_cfg_tc;
+ struct ice_sched_node *old_parent;
+ u8 i, j;
- status = ice_move_all_vsi_to_dflt_agg(pi, agg_info, tc, rm_vsi_info);
- if (status)
- goto exit_rm_agg_cfg_tc;
+ old_parent = node->parent;
- /* Delete aggregator node(s) */
- status = ice_sched_rm_agg_cfg(pi, agg_info->agg_id, tc);
- if (status)
- goto exit_rm_agg_cfg_tc;
+ /* update the old parent children */
+ for (i = 0; i < old_parent->num_children; i++)
+ if (old_parent->children[i] == node) {
+ for (j = i + 1; j < old_parent->num_children; j++)
+ old_parent->children[j - 1] =
+ old_parent->children[j];
+ old_parent->num_children--;
+ break;
+ }
- ice_clear_bit(tc, agg_info->tc_bitmap);
-exit_rm_agg_cfg_tc:
- return status;
+ /* now move the node to a new parent */
+ new_parent->children[new_parent->num_children++] = node;
+ node->parent = new_parent;
+ node->info.parent_teid = new_parent->info.node_teid;
}
/**
- * ice_save_agg_tc_bitmap - save aggregator TC bitmap
+ * ice_sched_move_nodes - move child nodes to a given parent
* @pi: port information structure
- * @agg_id: aggregator ID
- * @tc_bitmap: 8 bits TC bitmap
+ * @parent: pointer to parent node
+ * @num_items: number of child nodes to be moved
+ * @list: pointer to child node teids
*
- * Save aggregator TC bitmap. This function needs to be called with scheduler
- * lock held.
+ * This function move the child nodes to a given parent.
*/
static enum ice_status
-ice_save_agg_tc_bitmap(struct ice_port_info *pi, u32 agg_id,
- ice_bitmap_t *tc_bitmap)
+ice_sched_move_nodes(struct ice_port_info *pi, struct ice_sched_node *parent,
+ u16 num_items, u32 *list)
{
- struct ice_sched_agg_info *agg_info;
+ enum ice_status status = ICE_SUCCESS;
+ struct ice_aqc_move_elem *buf;
+ struct ice_sched_node *node;
+ u16 i, grps_movd = 0;
+ struct ice_hw *hw;
- agg_info = ice_get_agg_info(pi->hw, agg_id);
- if (!agg_info)
+ hw = pi->hw;
+
+ if (!parent || !num_items)
return ICE_ERR_PARAM;
- ice_cp_bitmap(agg_info->replay_tc_bitmap, tc_bitmap,
- ICE_MAX_TRAFFIC_CLASS);
- return ICE_SUCCESS;
-}
-/**
- * ice_sched_cfg_agg - configure aggregator node
- * @pi: port information structure
- * @agg_id: aggregator ID
- * @agg_type: aggregator type queue, VSI, or aggregator group
- * @tc_bitmap: bits TC bitmap
- *
- * It registers a unique aggregator node into scheduler services. It
- * allows a user to register with a unique ID to track it's resources.
- * The aggregator type determines if this is a queue group, VSI group
- * or aggregator group. It then creates the aggregator node(s) for requested
- * TC(s) or removes an existing aggregator node including its configuration
- * if indicated via tc_bitmap. Call ice_rm_agg_cfg to release aggregator
- * resources and remove aggregator ID.
- * This function needs to be called with scheduler lock held.
- */
-static enum ice_status
-ice_sched_cfg_agg(struct ice_port_info *pi, u32 agg_id,
- enum ice_agg_type agg_type, ice_bitmap_t *tc_bitmap)
-{
- struct ice_sched_agg_info *agg_info;
- enum ice_status status = ICE_SUCCESS;
- struct ice_hw *hw = pi->hw;
- u8 tc;
-
- agg_info = ice_get_agg_info(hw, agg_id);
- if (!agg_info) {
- /* Create new entry for new aggregator ID */
- agg_info = (struct ice_sched_agg_info *)
- ice_malloc(hw, sizeof(*agg_info));
- if (!agg_info) {
- status = ICE_ERR_NO_MEMORY;
- goto exit_reg_agg;
- }
- agg_info->agg_id = agg_id;
- agg_info->agg_type = agg_type;
- agg_info->tc_bitmap[0] = 0;
+ /* Does parent have enough space */
+ if (parent->num_children + num_items >=
+ hw->max_children[parent->tx_sched_layer])
+ return ICE_ERR_AQ_FULL;
- /* Initialize the aggregator VSI list head */
- INIT_LIST_HEAD(&agg_info->agg_vsi_list);
+ buf = (struct ice_aqc_move_elem *)ice_malloc(hw, sizeof(*buf));
+ if (!buf)
+ return ICE_ERR_NO_MEMORY;
- /* Add new entry in aggregator list */
- LIST_ADD(&agg_info->list_entry, &hw->agg_list);
- }
- /* Create aggregator node(s) for requested TC(s) */
- ice_for_each_traffic_class(tc) {
- if (!ice_is_tc_ena(*tc_bitmap, tc)) {
- /* Delete aggregator cfg TC if it exists previously */
- status = ice_rm_agg_cfg_tc(pi, agg_info, tc, false);
- if (status)
- break;
- continue;
+ for (i = 0; i < num_items; i++) {
+ node = ice_sched_find_node_by_teid(pi->root, list[i]);
+ if (!node) {
+ status = ICE_ERR_PARAM;
+ goto move_err_exit;
}
- /* Check if aggregator node for TC already exists */
- if (ice_is_tc_ena(agg_info->tc_bitmap[0], tc))
- continue;
-
- /* Create new aggregator node for TC */
- status = ice_sched_add_agg_cfg(pi, agg_id, tc);
- if (status)
- break;
+ buf->hdr.src_parent_teid = node->info.parent_teid;
+ buf->hdr.dest_parent_teid = parent->info.node_teid;
+ buf->teid[0] = node->info.node_teid;
+ buf->hdr.num_elems = CPU_TO_LE16(1);
+ status = ice_aq_move_sched_elems(hw, 1, buf, sizeof(*buf),
+ &grps_movd, NULL);
+ if (status && grps_movd != 1) {
+ status = ICE_ERR_CFG;
+ goto move_err_exit;
+ }
- /* Save aggregator node's TC information */
- ice_set_bit(tc, agg_info->tc_bitmap);
+ /* update the SW DB */
+ ice_sched_update_parent(parent, node);
}
-exit_reg_agg:
+
+move_err_exit:
+ ice_free(hw, buf);
return status;
}
/**
- * ice_cfg_agg - config aggregator node
+ * ice_sched_move_vsi_to_agg - move VSI to aggregator node
* @pi: port information structure
+ * @vsi_handle: software VSI handle
* @agg_id: aggregator ID
- * @agg_type: aggregator type queue, VSI, or aggregator group
- * @tc_bitmap: bits TC bitmap
+ * @tc: TC number
*
- * This function configures aggregator node(s).
+ * This function moves a VSI to an aggregator node or its subtree.
+ * Intermediate nodes may be created if required.
*/
-enum ice_status
-ice_cfg_agg(struct ice_port_info *pi, u32 agg_id, enum ice_agg_type agg_type,
- u8 tc_bitmap)
+static enum ice_status
+ice_sched_move_vsi_to_agg(struct ice_port_info *pi, u16 vsi_handle, u32 agg_id,
+ u8 tc)
{
- ice_bitmap_t bitmap = tc_bitmap;
+ struct ice_sched_node *vsi_node, *agg_node, *tc_node, *parent;
+ u16 num_nodes[ICE_AQC_TOPO_MAX_LEVEL_NUM] = { 0 };
+ u32 first_node_teid, vsi_teid;
enum ice_status status;
+ u16 num_nodes_added;
+ u8 aggl, vsil, i;
- ice_acquire_lock(&pi->sched_lock);
- status = ice_sched_cfg_agg(pi, agg_id, agg_type,
- (ice_bitmap_t *)&bitmap);
- if (!status)
- status = ice_save_agg_tc_bitmap(pi, agg_id,
- (ice_bitmap_t *)&bitmap);
- ice_release_lock(&pi->sched_lock);
- return status;
+ tc_node = ice_sched_get_tc_node(pi, tc);
+ if (!tc_node)
+ return ICE_ERR_CFG;
+
+ agg_node = ice_sched_get_agg_node(pi, tc_node, agg_id);
+ if (!agg_node)
+ return ICE_ERR_DOES_NOT_EXIST;
+
+ vsi_node = ice_sched_get_vsi_node(pi, tc_node, vsi_handle);
+ if (!vsi_node)
+ return ICE_ERR_DOES_NOT_EXIST;
+
+ aggl = ice_sched_get_agg_layer(pi->hw);
+ vsil = ice_sched_get_vsi_layer(pi->hw);
+
+ /* set intermediate node count to 1 between aggregator and VSI layers */
+ for (i = aggl + 1; i < vsil; i++)
+ num_nodes[i] = 1;
+
+ /* Check if the aggregator subtree has any free node to add the VSI */
+ for (i = 0; i < agg_node->num_children; i++) {
+ parent = ice_sched_get_free_vsi_parent(pi->hw,
+ agg_node->children[i],
+ num_nodes);
+ if (parent)
+ goto move_nodes;
+ }
+
+ /* add new nodes */
+ parent = agg_node;
+ for (i = aggl + 1; i < vsil; i++) {
+ status = ice_sched_add_nodes_to_layer(pi, tc_node, parent, i,
+ num_nodes[i],
+ &first_node_teid,
+ &num_nodes_added);
+ if (status != ICE_SUCCESS || num_nodes[i] != num_nodes_added)
+ return ICE_ERR_CFG;
+
+ /* The newly added node can be a new parent for the next
+ * layer nodes
+ */
+ if (num_nodes_added)
+ parent = ice_sched_find_node_by_teid(tc_node,
+ first_node_teid);
+ else
+ parent = parent->children[0];
+
+ if (!parent)
+ return ICE_ERR_CFG;
+ }
+
+move_nodes:
+ vsi_teid = LE32_TO_CPU(vsi_node->info.node_teid);
+ return ice_sched_move_nodes(pi, parent, 1, &vsi_teid);
}
/**
- * ice_get_agg_vsi_info - get the aggregator ID
+ * ice_move_all_vsi_to_dflt_agg - move all VSI(s) to default aggregator
+ * @pi: port information structure
* @agg_info: aggregator info
- * @vsi_handle: software VSI handle
+ * @tc: traffic class number
+ * @rm_vsi_info: true or false
*
- * The function returns aggregator VSI info based on VSI handle. This function
- * needs to be called with scheduler lock held.
+ * This function move all the VSI(s) to the default aggregator and delete
+ * aggregator VSI info based on passed in boolean parameter rm_vsi_info. The
+ * caller holds the scheduler lock.
*/
-static struct ice_sched_agg_vsi_info*
-ice_get_agg_vsi_info(struct ice_sched_agg_info *agg_info, u16 vsi_handle)
+static enum ice_status
+ice_move_all_vsi_to_dflt_agg(struct ice_port_info *pi,
+ struct ice_sched_agg_info *agg_info, u8 tc,
+ bool rm_vsi_info)
{
struct ice_sched_agg_vsi_info *agg_vsi_info;
+ struct ice_sched_agg_vsi_info *tmp;
+ enum ice_status status = ICE_SUCCESS;
- LIST_FOR_EACH_ENTRY(agg_vsi_info, &agg_info->agg_vsi_list,
- ice_sched_agg_vsi_info, list_entry)
- if (agg_vsi_info->vsi_handle == vsi_handle)
- return agg_vsi_info;
+ LIST_FOR_EACH_ENTRY_SAFE(agg_vsi_info, tmp, &agg_info->agg_vsi_list,
+ ice_sched_agg_vsi_info, list_entry) {
+ u16 vsi_handle = agg_vsi_info->vsi_handle;
- return NULL;
+ /* Move VSI to default aggregator */
+ if (!ice_is_tc_ena(agg_vsi_info->tc_bitmap[0], tc))
+ continue;
+
+ status = ice_sched_move_vsi_to_agg(pi, vsi_handle,
+ ICE_DFLT_AGG_ID, tc);
+ if (status)
+ break;
+
+ ice_clear_bit(tc, agg_vsi_info->tc_bitmap);
+ if (rm_vsi_info && !agg_vsi_info->tc_bitmap[0]) {
+ LIST_DEL(&agg_vsi_info->list_entry);
+ ice_free(pi->hw, agg_vsi_info);
+ }
+ }
+
+ return status;
}
/**
- * ice_get_vsi_agg_info - get the aggregator info of VSI
- * @hw: pointer to the hardware structure
- * @vsi_handle: Sw VSI handle
+ * ice_sched_is_agg_inuse - check whether the aggregator is in use or not
+ * @pi: port information structure
+ * @node: node pointer
*
- * The function returns aggregator info of VSI represented via vsi_handle. The
- * VSI has in this case a different aggregator than the default one. This
- * function needs to be called with scheduler lock held.
+ * This function checks whether the aggregator is attached with any VSI or not.
*/
-static struct ice_sched_agg_info*
-ice_get_vsi_agg_info(struct ice_hw *hw, u16 vsi_handle)
+static bool
+ice_sched_is_agg_inuse(struct ice_port_info *pi, struct ice_sched_node *node)
{
- struct ice_sched_agg_info *agg_info;
-
- LIST_FOR_EACH_ENTRY(agg_info, &hw->agg_list, ice_sched_agg_info,
- list_entry) {
- struct ice_sched_agg_vsi_info *agg_vsi_info;
+ u8 vsil, i;
- agg_vsi_info = ice_get_agg_vsi_info(agg_info, vsi_handle);
- if (agg_vsi_info)
- return agg_info;
+ vsil = ice_sched_get_vsi_layer(pi->hw);
+ if (node->tx_sched_layer < vsil - 1) {
+ for (i = 0; i < node->num_children; i++)
+ if (ice_sched_is_agg_inuse(pi, node->children[i]))
+ return true;
+ return false;
+ } else {
+ return node->num_children ? true : false;
}
- return NULL;
}
/**
- * ice_save_agg_vsi_tc_bitmap - save aggregator VSI TC bitmap
+ * ice_sched_rm_agg_cfg - remove the aggregator node
* @pi: port information structure
* @agg_id: aggregator ID
- * @vsi_handle: software VSI handle
- * @tc_bitmap: TC bitmap of enabled TC(s)
+ * @tc: TC number
*
- * Save VSI to aggregator TC bitmap. This function needs to call with scheduler
- * lock held.
+ * This function removes the aggregator node and intermediate nodes if any
+ * from the given TC
*/
static enum ice_status
-ice_save_agg_vsi_tc_bitmap(struct ice_port_info *pi, u32 agg_id, u16 vsi_handle,
- ice_bitmap_t *tc_bitmap)
+ice_sched_rm_agg_cfg(struct ice_port_info *pi, u32 agg_id, u8 tc)
{
- struct ice_sched_agg_vsi_info *agg_vsi_info;
- struct ice_sched_agg_info *agg_info;
+ struct ice_sched_node *tc_node, *agg_node;
+ struct ice_hw *hw = pi->hw;
- agg_info = ice_get_agg_info(pi->hw, agg_id);
- if (!agg_info)
- return ICE_ERR_PARAM;
- /* check if entry already exist */
- agg_vsi_info = ice_get_agg_vsi_info(agg_info, vsi_handle);
- if (!agg_vsi_info)
- return ICE_ERR_PARAM;
- ice_cp_bitmap(agg_vsi_info->replay_tc_bitmap, tc_bitmap,
- ICE_MAX_TRAFFIC_CLASS);
- return ICE_SUCCESS;
+ tc_node = ice_sched_get_tc_node(pi, tc);
+ if (!tc_node)
+ return ICE_ERR_CFG;
+
+ agg_node = ice_sched_get_agg_node(pi, tc_node, agg_id);
+ if (!agg_node)
+ return ICE_ERR_DOES_NOT_EXIST;
+
+ /* Can't remove the aggregator node if it has children */
+ if (ice_sched_is_agg_inuse(pi, agg_node))
+ return ICE_ERR_IN_USE;
+
+ /* need to remove the whole subtree if aggregator node is the
+ * only child.
+ */
+ while (agg_node->tx_sched_layer > hw->sw_entry_point_layer) {
+ struct ice_sched_node *parent = agg_node->parent;
+
+ if (!parent)
+ return ICE_ERR_CFG;
+
+ if (parent->num_children > 1)
+ break;
+
+ agg_node = parent;
+ }
+
+ ice_free_sched_node(pi, agg_node);
+ return ICE_SUCCESS;
}
/**
- * ice_sched_assoc_vsi_to_agg - associate/move VSI to new/default aggregator
+ * ice_rm_agg_cfg_tc - remove aggregator configuration for TC
* @pi: port information structure
- * @agg_id: aggregator ID
- * @vsi_handle: software VSI handle
- * @tc_bitmap: TC bitmap of enabled TC(s)
+ * @agg_info: aggregator ID
+ * @tc: TC number
+ * @rm_vsi_info: bool value true or false
*
- * This function moves VSI to a new or default aggregator node. If VSI is
- * already associated to the aggregator node then no operation is performed on
- * the tree. This function needs to be called with scheduler lock held.
+ * This function removes aggregator reference to VSI of given TC. It removes
+ * the aggregator configuration completely for requested TC. The caller needs
+ * to hold the scheduler lock.
*/
static enum ice_status
-ice_sched_assoc_vsi_to_agg(struct ice_port_info *pi, u32 agg_id,
- u16 vsi_handle, ice_bitmap_t *tc_bitmap)
+ice_rm_agg_cfg_tc(struct ice_port_info *pi, struct ice_sched_agg_info *agg_info,
+ u8 tc, bool rm_vsi_info)
{
- struct ice_sched_agg_vsi_info *agg_vsi_info;
- struct ice_sched_agg_info *agg_info;
enum ice_status status = ICE_SUCCESS;
- struct ice_hw *hw = pi->hw;
- u8 tc;
- if (!ice_is_vsi_valid(pi->hw, vsi_handle))
- return ICE_ERR_PARAM;
- agg_info = ice_get_agg_info(hw, agg_id);
- if (!agg_info)
- return ICE_ERR_PARAM;
- /* check if entry already exist */
- agg_vsi_info = ice_get_agg_vsi_info(agg_info, vsi_handle);
- if (!agg_vsi_info) {
- /* Create new entry for VSI under aggregator list */
- agg_vsi_info = (struct ice_sched_agg_vsi_info *)
- ice_malloc(hw, sizeof(*agg_vsi_info));
- if (!agg_vsi_info)
- return ICE_ERR_PARAM;
+ /* If nothing to remove - return success */
+ if (!ice_is_tc_ena(agg_info->tc_bitmap[0], tc))
+ goto exit_rm_agg_cfg_tc;
- /* add VSI ID into the aggregator list */
- agg_vsi_info->vsi_handle = vsi_handle;
- LIST_ADD(&agg_vsi_info->list_entry, &agg_info->agg_vsi_list);
- }
- /* Move VSI node to new aggregator node for requested TC(s) */
- ice_for_each_traffic_class(tc) {
- if (!ice_is_tc_ena(*tc_bitmap, tc))
- continue;
+ status = ice_move_all_vsi_to_dflt_agg(pi, agg_info, tc, rm_vsi_info);
+ if (status)
+ goto exit_rm_agg_cfg_tc;
- /* Move VSI to new aggregator */
- status = ice_sched_move_vsi_to_agg(pi, vsi_handle, agg_id, tc);
- if (status)
- break;
+ /* Delete aggregator node(s) */
+ status = ice_sched_rm_agg_cfg(pi, agg_info->agg_id, tc);
+ if (status)
+ goto exit_rm_agg_cfg_tc;
- if (agg_id != ICE_DFLT_AGG_ID)
- ice_set_bit(tc, agg_vsi_info->tc_bitmap);
- else
- ice_clear_bit(tc, agg_vsi_info->tc_bitmap);
- }
- /* If VSI moved back to default aggregator, delete agg_vsi_info. */
- if (!ice_is_any_bit_set(agg_vsi_info->tc_bitmap,
- ICE_MAX_TRAFFIC_CLASS)) {
- LIST_DEL(&agg_vsi_info->list_entry);
- ice_free(hw, agg_vsi_info);
- }
+ ice_clear_bit(tc, agg_info->tc_bitmap);
+exit_rm_agg_cfg_tc:
return status;
}
/**
- * ice_move_vsi_to_agg - moves VSI to new or default aggregator
+ * ice_save_agg_tc_bitmap - save aggregator TC bitmap
* @pi: port information structure
* @agg_id: aggregator ID
- * @vsi_handle: software VSI handle
- * @tc_bitmap: TC bitmap of enabled TC(s)
+ * @tc_bitmap: 8 bits TC bitmap
*
- * Move or associate VSI to a new or default aggregator node.
+ * Save aggregator TC bitmap. This function needs to be called with scheduler
+ * lock held.
*/
-enum ice_status
-ice_move_vsi_to_agg(struct ice_port_info *pi, u32 agg_id, u16 vsi_handle,
- u8 tc_bitmap)
+static enum ice_status
+ice_save_agg_tc_bitmap(struct ice_port_info *pi, u32 agg_id,
+ ice_bitmap_t *tc_bitmap)
{
- ice_bitmap_t bitmap = tc_bitmap;
- enum ice_status status;
+ struct ice_sched_agg_info *agg_info;
- ice_acquire_lock(&pi->sched_lock);
- status = ice_sched_assoc_vsi_to_agg(pi, agg_id, vsi_handle,
- (ice_bitmap_t *)&bitmap);
- if (!status)
- status = ice_save_agg_vsi_tc_bitmap(pi, agg_id, vsi_handle,
- (ice_bitmap_t *)&bitmap);
- ice_release_lock(&pi->sched_lock);
- return status;
+ agg_info = ice_get_agg_info(pi->hw, agg_id);
+ if (!agg_info)
+ return ICE_ERR_PARAM;
+ ice_cp_bitmap(agg_info->replay_tc_bitmap, tc_bitmap,
+ ICE_MAX_TRAFFIC_CLASS);
+ return ICE_SUCCESS;
}
/**
- * ice_rm_agg_cfg - remove aggregator configuration
+ * ice_sched_add_agg_cfg - create an aggregator node
* @pi: port information structure
* @agg_id: aggregator ID
+ * @tc: TC number
*
- * This function removes aggregator reference to VSI and delete aggregator ID
- * info. It removes the aggregator configuration completely.
+ * This function creates an aggregator node and intermediate nodes if required
+ * for the given TC
*/
-enum ice_status ice_rm_agg_cfg(struct ice_port_info *pi, u32 agg_id)
+static enum ice_status
+ice_sched_add_agg_cfg(struct ice_port_info *pi, u32 agg_id, u8 tc)
{
- struct ice_sched_agg_info *agg_info;
+ struct ice_sched_node *parent, *agg_node, *tc_node;
+ u16 num_nodes[ICE_AQC_TOPO_MAX_LEVEL_NUM] = { 0 };
enum ice_status status = ICE_SUCCESS;
- u8 tc;
+ struct ice_hw *hw = pi->hw;
+ u32 first_node_teid;
+ u16 num_nodes_added;
+ u8 i, aggl;
- ice_acquire_lock(&pi->sched_lock);
- agg_info = ice_get_agg_info(pi->hw, agg_id);
- if (!agg_info) {
- status = ICE_ERR_DOES_NOT_EXIST;
- goto exit_ice_rm_agg_cfg;
- }
+ tc_node = ice_sched_get_tc_node(pi, tc);
+ if (!tc_node)
+ return ICE_ERR_CFG;
- ice_for_each_traffic_class(tc) {
- status = ice_rm_agg_cfg_tc(pi, agg_info, tc, true);
- if (status)
- goto exit_ice_rm_agg_cfg;
- }
+ agg_node = ice_sched_get_agg_node(pi, tc_node, agg_id);
+ /* Does Agg node already exist ? */
+ if (agg_node)
+ return status;
- if (ice_is_any_bit_set(agg_info->tc_bitmap, ICE_MAX_TRAFFIC_CLASS)) {
- status = ICE_ERR_IN_USE;
- goto exit_ice_rm_agg_cfg;
+ aggl = ice_sched_get_agg_layer(hw);
+
+ /* need one node in Agg layer */
+ num_nodes[aggl] = 1;
+
+ /* Check whether the intermediate nodes have space to add the
+ * new aggregator. If they are full, then SW needs to allocate a new
+ * intermediate node on those layers
+ */
+ for (i = hw->sw_entry_point_layer; i < aggl; i++) {
+ parent = ice_sched_get_first_node(pi, tc_node, i);
+
+ /* scan all the siblings */
+ while (parent) {
+ if (parent->num_children < hw->max_children[i])
+ break;
+ parent = parent->sibling;
+ }
+
+ /* all the nodes are full, reserve one for this layer */
+ if (!parent)
+ num_nodes[i]++;
}
- /* Safe to delete entry now */
- LIST_DEL(&agg_info->list_entry);
- ice_free(pi->hw, agg_info);
+ /* add the aggregator node */
+ parent = tc_node;
+ for (i = hw->sw_entry_point_layer; i <= aggl; i++) {
+ if (!parent)
+ return ICE_ERR_CFG;
- /* Remove unused RL profile IDs from HW and SW DB */
- ice_sched_rm_unused_rl_prof(pi);
+ status = ice_sched_add_nodes_to_layer(pi, tc_node, parent, i,
+ num_nodes[i],
+ &first_node_teid,
+ &num_nodes_added);
+ if (status != ICE_SUCCESS || num_nodes[i] != num_nodes_added)
+ return ICE_ERR_CFG;
-exit_ice_rm_agg_cfg:
- ice_release_lock(&pi->sched_lock);
- return status;
-}
+ /* The newly added node can be a new parent for the next
+ * layer nodes
+ */
+ if (num_nodes_added) {
+ parent = ice_sched_find_node_by_teid(tc_node,
+ first_node_teid);
+ /* register aggregator ID with the aggregator node */
+ if (parent && i == aggl)
+ parent->agg_id = agg_id;
+ } else {
+ parent = parent->children[0];
+ }
+ }
-/**
- * ice_set_clear_cir_bw_alloc - set or clear CIR BW alloc information
- * @bw_t_info: bandwidth type information structure
- * @bw_alloc: Bandwidth allocation information
- *
- * Save or clear CIR BW alloc information (bw_alloc) in the passed param
- * bw_t_info.
- */
-static void
-ice_set_clear_cir_bw_alloc(struct ice_bw_type_info *bw_t_info, u16 bw_alloc)
-{
- bw_t_info->cir_bw.bw_alloc = bw_alloc;
- if (bw_t_info->cir_bw.bw_alloc)
- ice_set_bit(ICE_BW_TYPE_CIR_WT, bw_t_info->bw_t_bitmap);
- else
- ice_clear_bit(ICE_BW_TYPE_CIR_WT, bw_t_info->bw_t_bitmap);
+ return ICE_SUCCESS;
}
/**
- * ice_set_clear_eir_bw_alloc - set or clear EIR BW alloc information
- * @bw_t_info: bandwidth type information structure
- * @bw_alloc: Bandwidth allocation information
+ * ice_sched_cfg_agg - configure aggregator node
+ * @pi: port information structure
+ * @agg_id: aggregator ID
+ * @agg_type: aggregator type queue, VSI, or aggregator group
+ * @tc_bitmap: bits TC bitmap
*
- * Save or clear EIR BW alloc information (bw_alloc) in the passed param
- * bw_t_info.
+ * It registers a unique aggregator node into scheduler services. It
+ * allows a user to register with a unique ID to track it's resources.
+ * The aggregator type determines if this is a queue group, VSI group
+ * or aggregator group. It then creates the aggregator node(s) for requested
+ * TC(s) or removes an existing aggregator node including its configuration
+ * if indicated via tc_bitmap. Call ice_rm_agg_cfg to release aggregator
+ * resources and remove aggregator ID.
+ * This function needs to be called with scheduler lock held.
*/
-static void
-ice_set_clear_eir_bw_alloc(struct ice_bw_type_info *bw_t_info, u16 bw_alloc)
+static enum ice_status
+ice_sched_cfg_agg(struct ice_port_info *pi, u32 agg_id,
+ enum ice_agg_type agg_type, ice_bitmap_t *tc_bitmap)
{
- bw_t_info->eir_bw.bw_alloc = bw_alloc;
- if (bw_t_info->eir_bw.bw_alloc)
- ice_set_bit(ICE_BW_TYPE_EIR_WT, bw_t_info->bw_t_bitmap);
- else
- ice_clear_bit(ICE_BW_TYPE_EIR_WT, bw_t_info->bw_t_bitmap);
-}
+ struct ice_sched_agg_info *agg_info;
+ enum ice_status status = ICE_SUCCESS;
+ struct ice_hw *hw = pi->hw;
+ u8 tc;
-/**
- * ice_sched_save_vsi_bw_alloc - save VSI node's BW alloc information
- * @pi: port information structure
- * @vsi_handle: sw VSI handle
- * @tc: traffic class
- * @rl_type: rate limit type min or max
- * @bw_alloc: Bandwidth allocation information
- *
- * Save BW alloc information of VSI type node for post replay use.
- */
-static enum ice_status
-ice_sched_save_vsi_bw_alloc(struct ice_port_info *pi, u16 vsi_handle, u8 tc,
- enum ice_rl_type rl_type, u16 bw_alloc)
-{
- struct ice_vsi_ctx *vsi_ctx;
+ agg_info = ice_get_agg_info(hw, agg_id);
+ if (!agg_info) {
+ /* Create new entry for new aggregator ID */
+ agg_info = (struct ice_sched_agg_info *)
+ ice_malloc(hw, sizeof(*agg_info));
+ if (!agg_info) {
+ status = ICE_ERR_NO_MEMORY;
+ goto exit_reg_agg;
+ }
+ agg_info->agg_id = agg_id;
+ agg_info->agg_type = agg_type;
+ agg_info->tc_bitmap[0] = 0;
- if (!ice_is_vsi_valid(pi->hw, vsi_handle))
- return ICE_ERR_PARAM;
- vsi_ctx = ice_get_vsi_ctx(pi->hw, vsi_handle);
- if (!vsi_ctx)
- return ICE_ERR_PARAM;
- switch (rl_type) {
- case ICE_MIN_BW:
- ice_set_clear_cir_bw_alloc(&vsi_ctx->sched.bw_t_info[tc],
- bw_alloc);
- break;
- case ICE_MAX_BW:
- ice_set_clear_eir_bw_alloc(&vsi_ctx->sched.bw_t_info[tc],
- bw_alloc);
- break;
- default:
- return ICE_ERR_PARAM;
+ /* Initialize the aggregator VSI list head */
+ INIT_LIST_HEAD(&agg_info->agg_vsi_list);
+
+ /* Add new entry in aggregator list */
+ LIST_ADD(&agg_info->list_entry, &hw->agg_list);
}
- return ICE_SUCCESS;
+ /* Create aggregator node(s) for requested TC(s) */
+ ice_for_each_traffic_class(tc) {
+ if (!ice_is_tc_ena(*tc_bitmap, tc)) {
+ /* Delete aggregator cfg TC if it exists previously */
+ status = ice_rm_agg_cfg_tc(pi, agg_info, tc, false);
+ if (status)
+ break;
+ continue;
+ }
+
+ /* Check if aggregator node for TC already exists */
+ if (ice_is_tc_ena(agg_info->tc_bitmap[0], tc))
+ continue;
+
+ /* Create new aggregator node for TC */
+ status = ice_sched_add_agg_cfg(pi, agg_id, tc);
+ if (status)
+ break;
+
+ /* Save aggregator node's TC information */
+ ice_set_bit(tc, agg_info->tc_bitmap);
+ }
+exit_reg_agg:
+ return status;
}
/**
- * ice_set_clear_cir_bw - set or clear CIR BW
- * @bw_t_info: bandwidth type information structure
- * @bw: bandwidth in Kbps - Kilo bits per sec
+ * ice_cfg_agg - config aggregator node
+ * @pi: port information structure
+ * @agg_id: aggregator ID
+ * @agg_type: aggregator type queue, VSI, or aggregator group
+ * @tc_bitmap: bits TC bitmap
*
- * Save or clear CIR bandwidth (BW) in the passed param bw_t_info.
+ * This function configures aggregator node(s).
*/
-static void
-ice_set_clear_cir_bw(struct ice_bw_type_info *bw_t_info, u32 bw)
+enum ice_status
+ice_cfg_agg(struct ice_port_info *pi, u32 agg_id, enum ice_agg_type agg_type,
+ u8 tc_bitmap)
{
- if (bw == ICE_SCHED_DFLT_BW) {
- ice_clear_bit(ICE_BW_TYPE_CIR, bw_t_info->bw_t_bitmap);
- bw_t_info->cir_bw.bw = 0;
- } else {
- /* Save type of BW information */
- ice_set_bit(ICE_BW_TYPE_CIR, bw_t_info->bw_t_bitmap);
- bw_t_info->cir_bw.bw = bw;
- }
+ ice_bitmap_t bitmap = tc_bitmap;
+ enum ice_status status;
+
+ ice_acquire_lock(&pi->sched_lock);
+ status = ice_sched_cfg_agg(pi, agg_id, agg_type,
+ (ice_bitmap_t *)&bitmap);
+ if (!status)
+ status = ice_save_agg_tc_bitmap(pi, agg_id,
+ (ice_bitmap_t *)&bitmap);
+ ice_release_lock(&pi->sched_lock);
+ return status;
}
/**
- * ice_set_clear_eir_bw - set or clear EIR BW
- * @bw_t_info: bandwidth type information structure
- * @bw: bandwidth in Kbps - Kilo bits per sec
+ * ice_get_agg_vsi_info - get the aggregator ID
+ * @agg_info: aggregator info
+ * @vsi_handle: software VSI handle
*
- * Save or clear EIR bandwidth (BW) in the passed param bw_t_info.
+ * The function returns aggregator VSI info based on VSI handle. This function
+ * needs to be called with scheduler lock held.
*/
-static void
-ice_set_clear_eir_bw(struct ice_bw_type_info *bw_t_info, u32 bw)
+static struct ice_sched_agg_vsi_info *
+ice_get_agg_vsi_info(struct ice_sched_agg_info *agg_info, u16 vsi_handle)
{
- if (bw == ICE_SCHED_DFLT_BW) {
- ice_clear_bit(ICE_BW_TYPE_EIR, bw_t_info->bw_t_bitmap);
- bw_t_info->eir_bw.bw = 0;
- } else {
- /* EIR BW and Shared BW profiles are mutually exclusive and
- * hence only one of them may be set for any given element.
- * First clear earlier saved shared BW information.
- */
- ice_clear_bit(ICE_BW_TYPE_SHARED, bw_t_info->bw_t_bitmap);
- bw_t_info->shared_bw = 0;
- /* save EIR BW information */
- ice_set_bit(ICE_BW_TYPE_EIR, bw_t_info->bw_t_bitmap);
- bw_t_info->eir_bw.bw = bw;
- }
+ struct ice_sched_agg_vsi_info *agg_vsi_info;
+
+ LIST_FOR_EACH_ENTRY(agg_vsi_info, &agg_info->agg_vsi_list,
+ ice_sched_agg_vsi_info, list_entry)
+ if (agg_vsi_info->vsi_handle == vsi_handle)
+ return agg_vsi_info;
+
+ return NULL;
}
/**
- * ice_set_clear_shared_bw - set or clear shared BW
- * @bw_t_info: bandwidth type information structure
- * @bw: bandwidth in Kbps - Kilo bits per sec
+ * ice_get_vsi_agg_info - get the aggregator info of VSI
+ * @hw: pointer to the hardware structure
+ * @vsi_handle: Sw VSI handle
*
- * Save or clear shared bandwidth (BW) in the passed param bw_t_info.
+ * The function returns aggregator info of VSI represented via vsi_handle. The
+ * VSI has in this case a different aggregator than the default one. This
+ * function needs to be called with scheduler lock held.
*/
-static void
-ice_set_clear_shared_bw(struct ice_bw_type_info *bw_t_info, u32 bw)
+static struct ice_sched_agg_info *
+ice_get_vsi_agg_info(struct ice_hw *hw, u16 vsi_handle)
{
- if (bw == ICE_SCHED_DFLT_BW) {
- ice_clear_bit(ICE_BW_TYPE_SHARED, bw_t_info->bw_t_bitmap);
- bw_t_info->shared_bw = 0;
- } else {
- /* EIR BW and Shared BW profiles are mutually exclusive and
- * hence only one of them may be set for any given element.
- * First clear earlier saved EIR BW information.
- */
- ice_clear_bit(ICE_BW_TYPE_EIR, bw_t_info->bw_t_bitmap);
- bw_t_info->eir_bw.bw = 0;
- /* save shared BW information */
- ice_set_bit(ICE_BW_TYPE_SHARED, bw_t_info->bw_t_bitmap);
- bw_t_info->shared_bw = bw;
+ struct ice_sched_agg_info *agg_info;
+
+ LIST_FOR_EACH_ENTRY(agg_info, &hw->agg_list, ice_sched_agg_info,
+ list_entry) {
+ struct ice_sched_agg_vsi_info *agg_vsi_info;
+
+ agg_vsi_info = ice_get_agg_vsi_info(agg_info, vsi_handle);
+ if (agg_vsi_info)
+ return agg_info;
}
+ return NULL;
}
/**
- * ice_sched_save_vsi_bw - save VSI node's BW information
+ * ice_save_agg_vsi_tc_bitmap - save aggregator VSI TC bitmap
* @pi: port information structure
- * @vsi_handle: sw VSI handle
- * @tc: traffic class
- * @rl_type: rate limit type min, max, or shared
- * @bw: bandwidth in Kbps - Kilo bits per sec
+ * @agg_id: aggregator ID
+ * @vsi_handle: software VSI handle
+ * @tc_bitmap: TC bitmap of enabled TC(s)
*
- * Save BW information of VSI type node for post replay use.
+ * Save VSI to aggregator TC bitmap. This function needs to call with scheduler
+ * lock held.
*/
static enum ice_status
-ice_sched_save_vsi_bw(struct ice_port_info *pi, u16 vsi_handle, u8 tc,
- enum ice_rl_type rl_type, u32 bw)
+ice_save_agg_vsi_tc_bitmap(struct ice_port_info *pi, u32 agg_id, u16 vsi_handle,
+ ice_bitmap_t *tc_bitmap)
{
- struct ice_vsi_ctx *vsi_ctx;
+ struct ice_sched_agg_vsi_info *agg_vsi_info;
+ struct ice_sched_agg_info *agg_info;
- if (!ice_is_vsi_valid(pi->hw, vsi_handle))
- return ICE_ERR_PARAM;
- vsi_ctx = ice_get_vsi_ctx(pi->hw, vsi_handle);
- if (!vsi_ctx)
+ agg_info = ice_get_agg_info(pi->hw, agg_id);
+ if (!agg_info)
return ICE_ERR_PARAM;
- switch (rl_type) {
- case ICE_MIN_BW:
- ice_set_clear_cir_bw(&vsi_ctx->sched.bw_t_info[tc], bw);
- break;
- case ICE_MAX_BW:
- ice_set_clear_eir_bw(&vsi_ctx->sched.bw_t_info[tc], bw);
- break;
- case ICE_SHARED_BW:
- ice_set_clear_shared_bw(&vsi_ctx->sched.bw_t_info[tc], bw);
- break;
- default:
+ /* check if entry already exist */
+ agg_vsi_info = ice_get_agg_vsi_info(agg_info, vsi_handle);
+ if (!agg_vsi_info)
return ICE_ERR_PARAM;
- }
+ ice_cp_bitmap(agg_vsi_info->replay_tc_bitmap, tc_bitmap,
+ ICE_MAX_TRAFFIC_CLASS);
return ICE_SUCCESS;
}
/**
- * ice_set_clear_prio - set or clear priority information
- * @bw_t_info: bandwidth type information structure
- * @prio: priority to save
- *
- * Save or clear priority (prio) in the passed param bw_t_info.
- */
-static void
-ice_set_clear_prio(struct ice_bw_type_info *bw_t_info, u8 prio)
-{
- bw_t_info->generic = prio;
- if (bw_t_info->generic)
- ice_set_bit(ICE_BW_TYPE_PRIO, bw_t_info->bw_t_bitmap);
- else
- ice_clear_bit(ICE_BW_TYPE_PRIO, bw_t_info->bw_t_bitmap);
-}
-
-/**
- * ice_sched_save_vsi_prio - save VSI node's priority information
+ * ice_sched_assoc_vsi_to_agg - associate/move VSI to new/default aggregator
* @pi: port information structure
- * @vsi_handle: Software VSI handle
- * @tc: traffic class
- * @prio: priority to save
+ * @agg_id: aggregator ID
+ * @vsi_handle: software VSI handle
+ * @tc_bitmap: TC bitmap of enabled TC(s)
*
- * Save priority information of VSI type node for post replay use.
+ * This function moves VSI to a new or default aggregator node. If VSI is
+ * already associated to the aggregator node then no operation is performed on
+ * the tree. This function needs to be called with scheduler lock held.
*/
static enum ice_status
-ice_sched_save_vsi_prio(struct ice_port_info *pi, u16 vsi_handle, u8 tc,
- u8 prio)
+ice_sched_assoc_vsi_to_agg(struct ice_port_info *pi, u32 agg_id,
+ u16 vsi_handle, ice_bitmap_t *tc_bitmap)
{
- struct ice_vsi_ctx *vsi_ctx;
+ struct ice_sched_agg_vsi_info *agg_vsi_info;
+ struct ice_sched_agg_info *agg_info;
+ enum ice_status status = ICE_SUCCESS;
+ struct ice_hw *hw = pi->hw;
+ u8 tc;
if (!ice_is_vsi_valid(pi->hw, vsi_handle))
return ICE_ERR_PARAM;
- vsi_ctx = ice_get_vsi_ctx(pi->hw, vsi_handle);
- if (!vsi_ctx)
- return ICE_ERR_PARAM;
- if (tc >= ICE_MAX_TRAFFIC_CLASS)
+ agg_info = ice_get_agg_info(hw, agg_id);
+ if (!agg_info)
return ICE_ERR_PARAM;
- ice_set_clear_prio(&vsi_ctx->sched.bw_t_info[tc], prio);
- return ICE_SUCCESS;
-}
+ /* check if entry already exist */
+ agg_vsi_info = ice_get_agg_vsi_info(agg_info, vsi_handle);
+ if (!agg_vsi_info) {
+ /* Create new entry for VSI under aggregator list */
+ agg_vsi_info = (struct ice_sched_agg_vsi_info *)
+ ice_malloc(hw, sizeof(*agg_vsi_info));
+ if (!agg_vsi_info)
+ return ICE_ERR_PARAM;
-/**
- * ice_sched_save_agg_bw_alloc - save aggregator node's BW alloc information
- * @pi: port information structure
- * @agg_id: node aggregator ID
- * @tc: traffic class
- * @rl_type: rate limit type min or max
- * @bw_alloc: bandwidth alloc information
- *
- * Save BW alloc information of AGG type node for post replay use.
- */
-static enum ice_status
-ice_sched_save_agg_bw_alloc(struct ice_port_info *pi, u32 agg_id, u8 tc,
- enum ice_rl_type rl_type, u16 bw_alloc)
-{
- struct ice_sched_agg_info *agg_info;
+ /* add VSI ID into the aggregator list */
+ agg_vsi_info->vsi_handle = vsi_handle;
+ LIST_ADD(&agg_vsi_info->list_entry, &agg_info->agg_vsi_list);
+ }
+ /* Move VSI node to new aggregator node for requested TC(s) */
+ ice_for_each_traffic_class(tc) {
+ if (!ice_is_tc_ena(*tc_bitmap, tc))
+ continue;
- agg_info = ice_get_agg_info(pi->hw, agg_id);
- if (!agg_info)
- return ICE_ERR_PARAM;
- if (!ice_is_tc_ena(agg_info->tc_bitmap[0], tc))
- return ICE_ERR_PARAM;
- switch (rl_type) {
- case ICE_MIN_BW:
- ice_set_clear_cir_bw_alloc(&agg_info->bw_t_info[tc], bw_alloc);
- break;
- case ICE_MAX_BW:
- ice_set_clear_eir_bw_alloc(&agg_info->bw_t_info[tc], bw_alloc);
- break;
- default:
- return ICE_ERR_PARAM;
+ /* Move VSI to new aggregator */
+ status = ice_sched_move_vsi_to_agg(pi, vsi_handle, agg_id, tc);
+ if (status)
+ break;
+
+ if (agg_id != ICE_DFLT_AGG_ID)
+ ice_set_bit(tc, agg_vsi_info->tc_bitmap);
+ else
+ ice_clear_bit(tc, agg_vsi_info->tc_bitmap);
}
- return ICE_SUCCESS;
+ /* If VSI moved back to default aggregator, delete agg_vsi_info. */
+ if (!ice_is_any_bit_set(agg_vsi_info->tc_bitmap,
+ ICE_MAX_TRAFFIC_CLASS)) {
+ LIST_DEL(&agg_vsi_info->list_entry);
+ ice_free(hw, agg_vsi_info);
+ }
+ return status;
}
/**
- * ice_sched_save_agg_bw - save aggregator node's BW information
+ * ice_sched_rm_unused_rl_prof - remove unused RL profile
* @pi: port information structure
- * @agg_id: node aggregator ID
- * @tc: traffic class
- * @rl_type: rate limit type min, max, or shared
- * @bw: bandwidth in Kbps - Kilo bits per sec
*
- * Save BW information of AGG type node for post replay use.
+ * This function removes unused rate limit profiles from the HW and
+ * SW DB. The caller needs to hold scheduler lock.
*/
-static enum ice_status
-ice_sched_save_agg_bw(struct ice_port_info *pi, u32 agg_id, u8 tc,
- enum ice_rl_type rl_type, u32 bw)
+static void ice_sched_rm_unused_rl_prof(struct ice_port_info *pi)
{
- struct ice_sched_agg_info *agg_info;
+ u16 ln;
- agg_info = ice_get_agg_info(pi->hw, agg_id);
- if (!agg_info)
- return ICE_ERR_PARAM;
- if (!ice_is_tc_ena(agg_info->tc_bitmap[0], tc))
- return ICE_ERR_PARAM;
- switch (rl_type) {
- case ICE_MIN_BW:
- ice_set_clear_cir_bw(&agg_info->bw_t_info[tc], bw);
- break;
- case ICE_MAX_BW:
- ice_set_clear_eir_bw(&agg_info->bw_t_info[tc], bw);
- break;
- case ICE_SHARED_BW:
- ice_set_clear_shared_bw(&agg_info->bw_t_info[tc], bw);
- break;
- default:
- return ICE_ERR_PARAM;
+ for (ln = 0; ln < pi->hw->num_tx_sched_layers; ln++) {
+ struct ice_aqc_rl_profile_info *rl_prof_elem;
+ struct ice_aqc_rl_profile_info *rl_prof_tmp;
+
+ LIST_FOR_EACH_ENTRY_SAFE(rl_prof_elem, rl_prof_tmp,
+ &pi->rl_prof_list[ln],
+ ice_aqc_rl_profile_info, list_entry) {
+ if (!ice_sched_del_rl_profile(pi->hw, rl_prof_elem))
+ ice_debug(pi->hw, ICE_DBG_SCHED,
+ "Removed rl profile\n");
+ }
}
- return ICE_SUCCESS;
}
/**
- * ice_cfg_vsi_bw_lmt_per_tc - configure VSI BW limit per TC
- * @pi: port information structure
- * @vsi_handle: software VSI handle
- * @tc: traffic class
- * @rl_type: min or max
- * @bw: bandwidth in Kbps
+ * ice_sched_update_elem - update element
+ * @hw: pointer to the HW struct
+ * @node: pointer to node
+ * @info: node info to update
*
- * This function configures BW limit of VSI scheduling node based on TC
- * information.
+ * It updates the HW DB, and local SW DB of node. It updates the scheduling
+ * parameters of node from argument info data buffer (Info->data buf) and
+ * returns success or error on config sched element failure. The caller
+ * needs to hold scheduler lock.
*/
-enum ice_status
-ice_cfg_vsi_bw_lmt_per_tc(struct ice_port_info *pi, u16 vsi_handle, u8 tc,
- enum ice_rl_type rl_type, u32 bw)
+static enum ice_status
+ice_sched_update_elem(struct ice_hw *hw, struct ice_sched_node *node,
+ struct ice_aqc_txsched_elem_data *info)
{
+ struct ice_aqc_conf_elem buf;
enum ice_status status;
+ u16 elem_cfgd = 0;
+ u16 num_elems = 1;
- status = ice_sched_set_node_bw_lmt_per_tc(pi, vsi_handle,
- ICE_AGG_TYPE_VSI,
- tc, rl_type, bw);
- if (!status) {
- ice_acquire_lock(&pi->sched_lock);
- status = ice_sched_save_vsi_bw(pi, vsi_handle, tc, rl_type, bw);
- ice_release_lock(&pi->sched_lock);
+ buf.generic[0] = *info;
+ /* Parent TEID is reserved field in this aq call */
+ buf.generic[0].parent_teid = 0;
+ /* Element type is reserved field in this aq call */
+ buf.generic[0].data.elem_type = 0;
+ /* Flags is reserved field in this aq call */
+ buf.generic[0].data.flags = 0;
+
+ /* Update HW DB */
+ /* Configure element node */
+ status = ice_aq_cfg_sched_elems(hw, num_elems, &buf, sizeof(buf),
+ &elem_cfgd, NULL);
+ if (status || elem_cfgd != num_elems) {
+ ice_debug(hw, ICE_DBG_SCHED, "Config sched elem error\n");
+ return ICE_ERR_CFG;
}
+
+ /* Config success case */
+ /* Now update local SW DB */
+ /* Only copy the data portion of info buffer */
+ node->info.data = info->data;
return status;
}
/**
- * ice_cfg_dflt_vsi_bw_lmt_per_tc - configure default VSI BW limit per TC
- * @pi: port information structure
- * @vsi_handle: software VSI handle
- * @tc: traffic class
- * @rl_type: min or max
+ * ice_sched_cfg_node_bw_alloc - configure node BW weight/alloc params
+ * @hw: pointer to the HW struct
+ * @node: sched node to configure
+ * @rl_type: rate limit type CIR, EIR, or shared
+ * @bw_alloc: BW weight/allocation
*
- * This function configures default BW limit of VSI scheduling node based on TC
- * information.
+ * This function configures node element's BW allocation.
*/
-enum ice_status
-ice_cfg_vsi_bw_dflt_lmt_per_tc(struct ice_port_info *pi, u16 vsi_handle, u8 tc,
- enum ice_rl_type rl_type)
+static enum ice_status
+ice_sched_cfg_node_bw_alloc(struct ice_hw *hw, struct ice_sched_node *node,
+ enum ice_rl_type rl_type, u16 bw_alloc)
{
+ struct ice_aqc_txsched_elem_data buf;
+ struct ice_aqc_txsched_elem *data;
enum ice_status status;
- status = ice_sched_set_node_bw_lmt_per_tc(pi, vsi_handle,
- ICE_AGG_TYPE_VSI,
- tc, rl_type,
- ICE_SCHED_DFLT_BW);
- if (!status) {
- ice_acquire_lock(&pi->sched_lock);
- status = ice_sched_save_vsi_bw(pi, vsi_handle, tc, rl_type,
- ICE_SCHED_DFLT_BW);
- ice_release_lock(&pi->sched_lock);
+ buf = node->info;
+ data = &buf.data;
+ if (rl_type == ICE_MIN_BW) {
+ data->valid_sections |= ICE_AQC_ELEM_VALID_CIR;
+ data->cir_bw.bw_alloc = CPU_TO_LE16(bw_alloc);
+ } else if (rl_type == ICE_MAX_BW) {
+ data->valid_sections |= ICE_AQC_ELEM_VALID_EIR;
+ data->eir_bw.bw_alloc = CPU_TO_LE16(bw_alloc);
+ } else {
+ return ICE_ERR_PARAM;
}
+
+ /* Configure element */
+ status = ice_sched_update_elem(hw, node, &buf);
return status;
}
/**
- * ice_cfg_agg_bw_lmt_per_tc - configure aggregator BW limit per TC
+ * ice_move_vsi_to_agg - moves VSI to new or default aggregator
* @pi: port information structure
* @agg_id: aggregator ID
- * @tc: traffic class
- * @rl_type: min or max
- * @bw: bandwidth in Kbps
+ * @vsi_handle: software VSI handle
+ * @tc_bitmap: TC bitmap of enabled TC(s)
*
- * This function applies BW limit to aggregator scheduling node based on TC
- * information.
+ * Move or associate VSI to a new or default aggregator node.
*/
enum ice_status
-ice_cfg_agg_bw_lmt_per_tc(struct ice_port_info *pi, u32 agg_id, u8 tc,
- enum ice_rl_type rl_type, u32 bw)
+ice_move_vsi_to_agg(struct ice_port_info *pi, u32 agg_id, u16 vsi_handle,
+ u8 tc_bitmap)
{
+ ice_bitmap_t bitmap = tc_bitmap;
enum ice_status status;
- status = ice_sched_set_node_bw_lmt_per_tc(pi, agg_id, ICE_AGG_TYPE_AGG,
- tc, rl_type, bw);
- if (!status) {
- ice_acquire_lock(&pi->sched_lock);
- status = ice_sched_save_agg_bw(pi, agg_id, tc, rl_type, bw);
- ice_release_lock(&pi->sched_lock);
- }
+ ice_acquire_lock(&pi->sched_lock);
+ status = ice_sched_assoc_vsi_to_agg(pi, agg_id, vsi_handle,
+ (ice_bitmap_t *)&bitmap);
+ if (!status)
+ status = ice_save_agg_vsi_tc_bitmap(pi, agg_id, vsi_handle,
+ (ice_bitmap_t *)&bitmap);
+ ice_release_lock(&pi->sched_lock);
return status;
}
/**
- * ice_cfg_agg_bw_dflt_lmt_per_tc - configure aggregator BW default limit per TC
+ * ice_rm_agg_cfg - remove aggregator configuration
* @pi: port information structure
* @agg_id: aggregator ID
- * @tc: traffic class
- * @rl_type: min or max
*
- * This function applies default BW limit to aggregator scheduling node based
- * on TC information.
+ * This function removes aggregator reference to VSI and delete aggregator ID
+ * info. It removes the aggregator configuration completely.
*/
-enum ice_status
-ice_cfg_agg_bw_dflt_lmt_per_tc(struct ice_port_info *pi, u32 agg_id, u8 tc,
- enum ice_rl_type rl_type)
+enum ice_status ice_rm_agg_cfg(struct ice_port_info *pi, u32 agg_id)
{
- enum ice_status status;
+ struct ice_sched_agg_info *agg_info;
+ enum ice_status status = ICE_SUCCESS;
+ u8 tc;
- status = ice_sched_set_node_bw_lmt_per_tc(pi, agg_id, ICE_AGG_TYPE_AGG,
- tc, rl_type,
- ICE_SCHED_DFLT_BW);
- if (!status) {
- ice_acquire_lock(&pi->sched_lock);
- status = ice_sched_save_agg_bw(pi, agg_id, tc, rl_type,
- ICE_SCHED_DFLT_BW);
- ice_release_lock(&pi->sched_lock);
+ ice_acquire_lock(&pi->sched_lock);
+ agg_info = ice_get_agg_info(pi->hw, agg_id);
+ if (!agg_info) {
+ status = ICE_ERR_DOES_NOT_EXIST;
+ goto exit_ice_rm_agg_cfg;
+ }
+
+ ice_for_each_traffic_class(tc) {
+ status = ice_rm_agg_cfg_tc(pi, agg_info, tc, true);
+ if (status)
+ goto exit_ice_rm_agg_cfg;
+ }
+
+ if (ice_is_any_bit_set(agg_info->tc_bitmap, ICE_MAX_TRAFFIC_CLASS)) {
+ status = ICE_ERR_IN_USE;
+ goto exit_ice_rm_agg_cfg;
}
+
+ /* Safe to delete entry now */
+ LIST_DEL(&agg_info->list_entry);
+ ice_free(pi->hw, agg_info);
+
+ /* Remove unused RL profile IDs from HW and SW DB */
+ ice_sched_rm_unused_rl_prof(pi);
+
+exit_ice_rm_agg_cfg:
+ ice_release_lock(&pi->sched_lock);
return status;
}
/**
- * ice_cfg_vsi_bw_shared_lmt - configure VSI BW shared limit
- * @pi: port information structure
- * @vsi_handle: software VSI handle
- * @bw: bandwidth in Kbps
+ * ice_set_clear_cir_bw_alloc - set or clear CIR BW alloc information
+ * @bw_t_info: bandwidth type information structure
+ * @bw_alloc: Bandwidth allocation information
*
- * This function Configures shared rate limiter(SRL) of all VSI type nodes
- * across all traffic classes for VSI matching handle.
+ * Save or clear CIR BW alloc information (bw_alloc) in the passed param
+ * bw_t_info.
*/
-enum ice_status
-ice_cfg_vsi_bw_shared_lmt(struct ice_port_info *pi, u16 vsi_handle, u32 bw)
+static void
+ice_set_clear_cir_bw_alloc(struct ice_bw_type_info *bw_t_info, u16 bw_alloc)
{
- return ice_sched_set_vsi_bw_shared_lmt(pi, vsi_handle, bw);
+ bw_t_info->cir_bw.bw_alloc = bw_alloc;
+ if (bw_t_info->cir_bw.bw_alloc)
+ ice_set_bit(ICE_BW_TYPE_CIR_WT, bw_t_info->bw_t_bitmap);
+ else
+ ice_clear_bit(ICE_BW_TYPE_CIR_WT, bw_t_info->bw_t_bitmap);
}
/**
- * ice_cfg_vsi_bw_no_shared_lmt - configure VSI BW for no shared limiter
- * @pi: port information structure
- * @vsi_handle: software VSI handle
+ * ice_set_clear_eir_bw_alloc - set or clear EIR BW alloc information
+ * @bw_t_info: bandwidth type information structure
+ * @bw_alloc: Bandwidth allocation information
*
- * This function removes the shared rate limiter(SRL) of all VSI type nodes
- * across all traffic classes for VSI matching handle.
+ * Save or clear EIR BW alloc information (bw_alloc) in the passed param
+ * bw_t_info.
*/
-enum ice_status
-ice_cfg_vsi_bw_no_shared_lmt(struct ice_port_info *pi, u16 vsi_handle)
+static void
+ice_set_clear_eir_bw_alloc(struct ice_bw_type_info *bw_t_info, u16 bw_alloc)
{
- return ice_sched_set_vsi_bw_shared_lmt(pi, vsi_handle,
- ICE_SCHED_DFLT_BW);
+ bw_t_info->eir_bw.bw_alloc = bw_alloc;
+ if (bw_t_info->eir_bw.bw_alloc)
+ ice_set_bit(ICE_BW_TYPE_EIR_WT, bw_t_info->bw_t_bitmap);
+ else
+ ice_clear_bit(ICE_BW_TYPE_EIR_WT, bw_t_info->bw_t_bitmap);
}
/**
- * ice_cfg_agg_bw_shared_lmt - configure aggregator BW shared limit
+ * ice_sched_save_vsi_bw_alloc - save VSI node's BW alloc information
* @pi: port information structure
- * @agg_id: aggregator ID
- * @bw: bandwidth in Kbps
+ * @vsi_handle: sw VSI handle
+ * @tc: traffic class
+ * @rl_type: rate limit type min or max
+ * @bw_alloc: Bandwidth allocation information
*
- * This function configures the shared rate limiter(SRL) of all aggregator type
- * nodes across all traffic classes for aggregator matching agg_id.
+ * Save BW alloc information of VSI type node for post replay use.
*/
-enum ice_status
-ice_cfg_agg_bw_shared_lmt(struct ice_port_info *pi, u32 agg_id, u32 bw)
+static enum ice_status
+ice_sched_save_vsi_bw_alloc(struct ice_port_info *pi, u16 vsi_handle, u8 tc,
+ enum ice_rl_type rl_type, u16 bw_alloc)
{
- return ice_sched_set_agg_bw_shared_lmt(pi, agg_id, bw);
+ struct ice_vsi_ctx *vsi_ctx;
+
+ if (!ice_is_vsi_valid(pi->hw, vsi_handle))
+ return ICE_ERR_PARAM;
+ vsi_ctx = ice_get_vsi_ctx(pi->hw, vsi_handle);
+ if (!vsi_ctx)
+ return ICE_ERR_PARAM;
+ switch (rl_type) {
+ case ICE_MIN_BW:
+ ice_set_clear_cir_bw_alloc(&vsi_ctx->sched.bw_t_info[tc],
+ bw_alloc);
+ break;
+ case ICE_MAX_BW:
+ ice_set_clear_eir_bw_alloc(&vsi_ctx->sched.bw_t_info[tc],
+ bw_alloc);
+ break;
+ default:
+ return ICE_ERR_PARAM;
+ }
+ return ICE_SUCCESS;
}
/**
- * ice_cfg_agg_bw_no_shared_lmt - configure aggregator BW for no shared limiter
- * @pi: port information structure
- * @agg_id: aggregator ID
+ * ice_set_clear_cir_bw - set or clear CIR BW
+ * @bw_t_info: bandwidth type information structure
+ * @bw: bandwidth in Kbps - Kilo bits per sec
*
- * This function removes the shared rate limiter(SRL) of all aggregator type
- * nodes across all traffic classes for aggregator matching agg_id.
+ * Save or clear CIR bandwidth (BW) in the passed param bw_t_info.
*/
-enum ice_status
-ice_cfg_agg_bw_no_shared_lmt(struct ice_port_info *pi, u32 agg_id)
+static void ice_set_clear_cir_bw(struct ice_bw_type_info *bw_t_info, u32 bw)
{
- return ice_sched_set_agg_bw_shared_lmt(pi, agg_id, ICE_SCHED_DFLT_BW);
+ if (bw == ICE_SCHED_DFLT_BW) {
+ ice_clear_bit(ICE_BW_TYPE_CIR, bw_t_info->bw_t_bitmap);
+ bw_t_info->cir_bw.bw = 0;
+ } else {
+ /* Save type of BW information */
+ ice_set_bit(ICE_BW_TYPE_CIR, bw_t_info->bw_t_bitmap);
+ bw_t_info->cir_bw.bw = bw;
+ }
}
/**
- * ice_config_vsi_queue_priority - config VSI queue priority of node
- * @pi: port information structure
- * @num_qs: number of VSI queues
- * @q_ids: queue IDs array
- * @q_ids: queue IDs array
- * @q_prio: queue priority array
+ * ice_set_clear_eir_bw - set or clear EIR BW
+ * @bw_t_info: bandwidth type information structure
+ * @bw: bandwidth in Kbps - Kilo bits per sec
*
- * This function configures the queue node priority (Sibling Priority) of the
- * passed in VSI's queue(s) for a given traffic class (TC).
+ * Save or clear EIR bandwidth (BW) in the passed param bw_t_info.
*/
-enum ice_status
-ice_cfg_vsi_q_priority(struct ice_port_info *pi, u16 num_qs, u32 *q_ids,
- u8 *q_prio)
+static void ice_set_clear_eir_bw(struct ice_bw_type_info *bw_t_info, u32 bw)
{
- enum ice_status status = ICE_ERR_PARAM;
- struct ice_hw *hw = pi->hw;
- u16 i;
-
- ice_acquire_lock(&pi->sched_lock);
-
- for (i = 0; i < num_qs; i++) {
- struct ice_sched_node *node;
-
- node = ice_sched_find_node_by_teid(pi->root, q_ids[i]);
- if (!node || node->info.data.elem_type !=
- ICE_AQC_ELEM_TYPE_LEAF) {
- status = ICE_ERR_PARAM;
- break;
- }
- /* Configure Priority */
- status = ice_sched_cfg_sibl_node_prio(hw, node, q_prio[i]);
- if (status)
- break;
+ if (bw == ICE_SCHED_DFLT_BW) {
+ ice_clear_bit(ICE_BW_TYPE_EIR, bw_t_info->bw_t_bitmap);
+ bw_t_info->eir_bw.bw = 0;
+ } else {
+ /* EIR BW and Shared BW profiles are mutually exclusive and
+ * hence only one of them may be set for any given element.
+ * First clear earlier saved shared BW information.
+ */
+ ice_clear_bit(ICE_BW_TYPE_SHARED, bw_t_info->bw_t_bitmap);
+ bw_t_info->shared_bw = 0;
+ /* save EIR BW information */
+ ice_set_bit(ICE_BW_TYPE_EIR, bw_t_info->bw_t_bitmap);
+ bw_t_info->eir_bw.bw = bw;
}
+}
- ice_release_lock(&pi->sched_lock);
- return status;
+/**
+ * ice_set_clear_shared_bw - set or clear shared BW
+ * @bw_t_info: bandwidth type information structure
+ * @bw: bandwidth in Kbps - Kilo bits per sec
+ *
+ * Save or clear shared bandwidth (BW) in the passed param bw_t_info.
+ */
+static void ice_set_clear_shared_bw(struct ice_bw_type_info *bw_t_info, u32 bw)
+{
+ if (bw == ICE_SCHED_DFLT_BW) {
+ ice_clear_bit(ICE_BW_TYPE_SHARED, bw_t_info->bw_t_bitmap);
+ bw_t_info->shared_bw = 0;
+ } else {
+ /* EIR BW and Shared BW profiles are mutually exclusive and
+ * hence only one of them may be set for any given element.
+ * First clear earlier saved EIR BW information.
+ */
+ ice_clear_bit(ICE_BW_TYPE_EIR, bw_t_info->bw_t_bitmap);
+ bw_t_info->eir_bw.bw = 0;
+ /* save shared BW information */
+ ice_set_bit(ICE_BW_TYPE_SHARED, bw_t_info->bw_t_bitmap);
+ bw_t_info->shared_bw = bw;
+ }
}
/**
- * ice_cfg_agg_vsi_priority_per_tc - config aggregator's VSI priority per TC
+ * ice_sched_save_vsi_bw - save VSI node's BW information
* @pi: port information structure
- * @agg_id: Aggregator ID
- * @num_vsis: number of VSI(s)
- * @vsi_handle_arr: array of software VSI handles
- * @node_prio: pointer to node priority
+ * @vsi_handle: sw VSI handle
* @tc: traffic class
+ * @rl_type: rate limit type min, max, or shared
+ * @bw: bandwidth in Kbps - Kilo bits per sec
*
- * This function configures the node priority (Sibling Priority) of the
- * passed in VSI's for a given traffic class (TC) of an Aggregator ID.
+ * Save BW information of VSI type node for post replay use.
*/
-enum ice_status
-ice_cfg_agg_vsi_priority_per_tc(struct ice_port_info *pi, u32 agg_id,
- u16 num_vsis, u16 *vsi_handle_arr,
- u8 *node_prio, u8 tc)
+static enum ice_status
+ice_sched_save_vsi_bw(struct ice_port_info *pi, u16 vsi_handle, u8 tc,
+ enum ice_rl_type rl_type, u32 bw)
{
- struct ice_sched_agg_vsi_info *agg_vsi_info;
- struct ice_sched_node *tc_node, *agg_node;
- enum ice_status status = ICE_ERR_PARAM;
- struct ice_sched_agg_info *agg_info;
- bool agg_id_present = false;
- struct ice_hw *hw = pi->hw;
- u16 i;
-
- ice_acquire_lock(&pi->sched_lock);
- LIST_FOR_EACH_ENTRY(agg_info, &hw->agg_list, ice_sched_agg_info,
- list_entry)
- if (agg_info->agg_id == agg_id) {
- agg_id_present = true;
- break;
- }
- if (!agg_id_present)
- goto exit_agg_priority_per_tc;
-
- tc_node = ice_sched_get_tc_node(pi, tc);
- if (!tc_node)
- goto exit_agg_priority_per_tc;
-
- agg_node = ice_sched_get_agg_node(hw, tc_node, agg_id);
- if (!agg_node)
- goto exit_agg_priority_per_tc;
-
- if (num_vsis > hw->max_children[agg_node->tx_sched_layer])
- goto exit_agg_priority_per_tc;
-
- for (i = 0; i < num_vsis; i++) {
- struct ice_sched_node *vsi_node;
- bool vsi_handle_valid = false;
- u16 vsi_handle;
+ struct ice_vsi_ctx *vsi_ctx;
- status = ICE_ERR_PARAM;
- vsi_handle = vsi_handle_arr[i];
- if (!ice_is_vsi_valid(hw, vsi_handle))
- goto exit_agg_priority_per_tc;
- /* Verify child nodes before applying settings */
- LIST_FOR_EACH_ENTRY(agg_vsi_info, &agg_info->agg_vsi_list,
- ice_sched_agg_vsi_info, list_entry)
- if (agg_vsi_info->vsi_handle == vsi_handle) {
- vsi_handle_valid = true;
- break;
- }
- if (!vsi_handle_valid)
- goto exit_agg_priority_per_tc;
-
- vsi_node = ice_sched_get_vsi_node(hw, tc_node, vsi_handle);
- if (!vsi_node)
- goto exit_agg_priority_per_tc;
-
- if (ice_sched_find_node_in_subtree(hw, agg_node, vsi_node)) {
- /* Configure Priority */
- status = ice_sched_cfg_sibl_node_prio(hw, vsi_node,
- node_prio[i]);
- if (status)
- break;
- status = ice_sched_save_vsi_prio(pi, vsi_handle, tc,
- node_prio[i]);
- if (status)
- break;
- }
+ if (!ice_is_vsi_valid(pi->hw, vsi_handle))
+ return ICE_ERR_PARAM;
+ vsi_ctx = ice_get_vsi_ctx(pi->hw, vsi_handle);
+ if (!vsi_ctx)
+ return ICE_ERR_PARAM;
+ switch (rl_type) {
+ case ICE_MIN_BW:
+ ice_set_clear_cir_bw(&vsi_ctx->sched.bw_t_info[tc], bw);
+ break;
+ case ICE_MAX_BW:
+ ice_set_clear_eir_bw(&vsi_ctx->sched.bw_t_info[tc], bw);
+ break;
+ case ICE_SHARED_BW:
+ ice_set_clear_shared_bw(&vsi_ctx->sched.bw_t_info[tc], bw);
+ break;
+ default:
+ return ICE_ERR_PARAM;
}
+ return ICE_SUCCESS;
+}
-exit_agg_priority_per_tc:
- ice_release_lock(&pi->sched_lock);
- return status;
+/**
+ * ice_set_clear_prio - set or clear priority information
+ * @bw_t_info: bandwidth type information structure
+ * @prio: priority to save
+ *
+ * Save or clear priority (prio) in the passed param bw_t_info.
+ */
+static void ice_set_clear_prio(struct ice_bw_type_info *bw_t_info, u8 prio)
+{
+ bw_t_info->generic = prio;
+ if (bw_t_info->generic)
+ ice_set_bit(ICE_BW_TYPE_PRIO, bw_t_info->bw_t_bitmap);
+ else
+ ice_clear_bit(ICE_BW_TYPE_PRIO, bw_t_info->bw_t_bitmap);
}
/**
- * ice_cfg_vsi_bw_alloc - config VSI BW alloc per TC
+ * ice_sched_save_vsi_prio - save VSI node's priority information
* @pi: port information structure
- * @vsi_handle: software VSI handle
- * @ena_tcmap: enabled TC map
- * @rl_type: Rate limit type CIR/EIR
- * @bw_alloc: Array of BW alloc
+ * @vsi_handle: Software VSI handle
+ * @tc: traffic class
+ * @prio: priority to save
*
- * This function configures the BW allocation of the passed in VSI's
- * node(s) for enabled traffic class.
+ * Save priority information of VSI type node for post replay use.
*/
-enum ice_status
-ice_cfg_vsi_bw_alloc(struct ice_port_info *pi, u16 vsi_handle, u8 ena_tcmap,
- enum ice_rl_type rl_type, u8 *bw_alloc)
+static enum ice_status
+ice_sched_save_vsi_prio(struct ice_port_info *pi, u16 vsi_handle, u8 tc,
+ u8 prio)
{
- enum ice_status status = ICE_SUCCESS;
- u8 tc;
+ struct ice_vsi_ctx *vsi_ctx;
if (!ice_is_vsi_valid(pi->hw, vsi_handle))
return ICE_ERR_PARAM;
+ vsi_ctx = ice_get_vsi_ctx(pi->hw, vsi_handle);
+ if (!vsi_ctx)
+ return ICE_ERR_PARAM;
+ if (tc >= ICE_MAX_TRAFFIC_CLASS)
+ return ICE_ERR_PARAM;
+ ice_set_clear_prio(&vsi_ctx->sched.bw_t_info[tc], prio);
+ return ICE_SUCCESS;
+}
- ice_acquire_lock(&pi->sched_lock);
-
- /* Return success if no nodes are present across TC */
- ice_for_each_traffic_class(tc) {
- struct ice_sched_node *tc_node, *vsi_node;
-
- if (!ice_is_tc_ena(ena_tcmap, tc))
- continue;
-
- tc_node = ice_sched_get_tc_node(pi, tc);
- if (!tc_node)
- continue;
-
- vsi_node = ice_sched_get_vsi_node(pi->hw, tc_node, vsi_handle);
- if (!vsi_node)
- continue;
+/**
+ * ice_sched_save_agg_bw_alloc - save aggregator node's BW alloc information
+ * @pi: port information structure
+ * @agg_id: node aggregator ID
+ * @tc: traffic class
+ * @rl_type: rate limit type min or max
+ * @bw_alloc: bandwidth alloc information
+ *
+ * Save BW alloc information of AGG type node for post replay use.
+ */
+static enum ice_status
+ice_sched_save_agg_bw_alloc(struct ice_port_info *pi, u32 agg_id, u8 tc,
+ enum ice_rl_type rl_type, u16 bw_alloc)
+{
+ struct ice_sched_agg_info *agg_info;
- status = ice_sched_cfg_node_bw_alloc(pi->hw, vsi_node, rl_type,
- bw_alloc[tc]);
- if (status)
- break;
- status = ice_sched_save_vsi_bw_alloc(pi, vsi_handle, tc,
- rl_type, bw_alloc[tc]);
- if (status)
- break;
+ agg_info = ice_get_agg_info(pi->hw, agg_id);
+ if (!agg_info)
+ return ICE_ERR_PARAM;
+ if (!ice_is_tc_ena(agg_info->tc_bitmap[0], tc))
+ return ICE_ERR_PARAM;
+ switch (rl_type) {
+ case ICE_MIN_BW:
+ ice_set_clear_cir_bw_alloc(&agg_info->bw_t_info[tc], bw_alloc);
+ break;
+ case ICE_MAX_BW:
+ ice_set_clear_eir_bw_alloc(&agg_info->bw_t_info[tc], bw_alloc);
+ break;
+ default:
+ return ICE_ERR_PARAM;
}
-
- ice_release_lock(&pi->sched_lock);
- return status;
+ return ICE_SUCCESS;
}
/**
- * ice_cfg_agg_bw_alloc - config aggregator BW alloc
+ * ice_sched_save_agg_bw - save aggregator node's BW information
* @pi: port information structure
- * @agg_id: aggregator ID
- * @ena_tcmap: enabled TC map
- * @rl_type: rate limit type CIR/EIR
- * @bw_alloc: array of BW alloc
+ * @agg_id: node aggregator ID
+ * @tc: traffic class
+ * @rl_type: rate limit type min, max, or shared
+ * @bw: bandwidth in Kbps - Kilo bits per sec
*
- * This function configures the BW allocation of passed in aggregator for
- * enabled traffic class(s).
+ * Save BW information of AGG type node for post replay use.
*/
-enum ice_status
-ice_cfg_agg_bw_alloc(struct ice_port_info *pi, u32 agg_id, u8 ena_tcmap,
- enum ice_rl_type rl_type, u8 *bw_alloc)
+static enum ice_status
+ice_sched_save_agg_bw(struct ice_port_info *pi, u32 agg_id, u8 tc,
+ enum ice_rl_type rl_type, u32 bw)
{
struct ice_sched_agg_info *agg_info;
- bool agg_id_present = false;
- enum ice_status status = ICE_SUCCESS;
- struct ice_hw *hw = pi->hw;
- u8 tc;
- ice_acquire_lock(&pi->sched_lock);
- LIST_FOR_EACH_ENTRY(agg_info, &hw->agg_list, ice_sched_agg_info,
- list_entry)
- if (agg_info->agg_id == agg_id) {
- agg_id_present = true;
- break;
- }
- if (!agg_id_present) {
- status = ICE_ERR_PARAM;
- goto exit_cfg_agg_bw_alloc;
+ agg_info = ice_get_agg_info(pi->hw, agg_id);
+ if (!agg_info)
+ return ICE_ERR_PARAM;
+ if (!ice_is_tc_ena(agg_info->tc_bitmap[0], tc))
+ return ICE_ERR_PARAM;
+ switch (rl_type) {
+ case ICE_MIN_BW:
+ ice_set_clear_cir_bw(&agg_info->bw_t_info[tc], bw);
+ break;
+ case ICE_MAX_BW:
+ ice_set_clear_eir_bw(&agg_info->bw_t_info[tc], bw);
+ break;
+ case ICE_SHARED_BW:
+ ice_set_clear_shared_bw(&agg_info->bw_t_info[tc], bw);
+ break;
+ default:
+ return ICE_ERR_PARAM;
}
+ return ICE_SUCCESS;
+}
- /* Return success if no nodes are present across TC */
- ice_for_each_traffic_class(tc) {
- struct ice_sched_node *tc_node, *agg_node;
-
- if (!ice_is_tc_ena(ena_tcmap, tc))
- continue;
-
- tc_node = ice_sched_get_tc_node(pi, tc);
- if (!tc_node)
- continue;
-
- agg_node = ice_sched_get_agg_node(hw, tc_node, agg_id);
- if (!agg_node)
- continue;
+/**
+ * ice_cfg_vsi_bw_lmt_per_tc - configure VSI BW limit per TC
+ * @pi: port information structure
+ * @vsi_handle: software VSI handle
+ * @tc: traffic class
+ * @rl_type: min or max
+ * @bw: bandwidth in Kbps
+ *
+ * This function configures BW limit of VSI scheduling node based on TC
+ * information.
+ */
+enum ice_status
+ice_cfg_vsi_bw_lmt_per_tc(struct ice_port_info *pi, u16 vsi_handle, u8 tc,
+ enum ice_rl_type rl_type, u32 bw)
+{
+ enum ice_status status;
- status = ice_sched_cfg_node_bw_alloc(hw, agg_node, rl_type,
- bw_alloc[tc]);
- if (status)
- break;
- status = ice_sched_save_agg_bw_alloc(pi, agg_id, tc, rl_type,
- bw_alloc[tc]);
- if (status)
- break;
+ status = ice_sched_set_node_bw_lmt_per_tc(pi, vsi_handle,
+ ICE_AGG_TYPE_VSI,
+ tc, rl_type, bw);
+ if (!status) {
+ ice_acquire_lock(&pi->sched_lock);
+ status = ice_sched_save_vsi_bw(pi, vsi_handle, tc, rl_type, bw);
+ ice_release_lock(&pi->sched_lock);
}
-
-exit_cfg_agg_bw_alloc:
- ice_release_lock(&pi->sched_lock);
return status;
}
/**
- * ice_sched_calc_wakeup - calculate RL profile wakeup parameter
- * @bw: bandwidth in Kbps
+ * ice_cfg_dflt_vsi_bw_lmt_per_tc - configure default VSI BW limit per TC
+ * @pi: port information structure
+ * @vsi_handle: software VSI handle
+ * @tc: traffic class
+ * @rl_type: min or max
*
- * This function calculates the wakeup parameter of RL profile.
+ * This function configures default BW limit of VSI scheduling node based on TC
+ * information.
*/
-static u16 ice_sched_calc_wakeup(s32 bw)
-{
- s64 bytes_per_sec, wakeup_int, wakeup_a, wakeup_b, wakeup_f;
- s32 wakeup_f_int;
- u16 wakeup = 0;
-
- /* Get the wakeup integer value */
- bytes_per_sec = DIV_64BIT(((s64)bw * 1000), BITS_PER_BYTE);
- wakeup_int = DIV_64BIT(ICE_RL_PROF_FREQUENCY, bytes_per_sec);
- if (wakeup_int > 63) {
- wakeup = (u16)((1 << 15) | wakeup_int);
- } else {
- /* Calculate fraction value up to 4 decimals
- * Convert Integer value to a constant multiplier
- */
- wakeup_b = (s64)ICE_RL_PROF_MULTIPLIER * wakeup_int;
- wakeup_a = DIV_64BIT((s64)ICE_RL_PROF_MULTIPLIER *
- ICE_RL_PROF_FREQUENCY, bytes_per_sec);
-
- /* Get Fraction value */
- wakeup_f = wakeup_a - wakeup_b;
-
- /* Round up the Fractional value via Ceil(Fractional value) */
- if (wakeup_f > DIV_64BIT(ICE_RL_PROF_MULTIPLIER, 2))
- wakeup_f += 1;
+enum ice_status
+ice_cfg_vsi_bw_dflt_lmt_per_tc(struct ice_port_info *pi, u16 vsi_handle, u8 tc,
+ enum ice_rl_type rl_type)
+{
+ enum ice_status status;
- wakeup_f_int = (s32)DIV_64BIT(wakeup_f * ICE_RL_PROF_FRACTION,
- ICE_RL_PROF_MULTIPLIER);
- wakeup |= (u16)(wakeup_int << 9);
- wakeup |= (u16)(0x1ff & wakeup_f_int);
+ status = ice_sched_set_node_bw_lmt_per_tc(pi, vsi_handle,
+ ICE_AGG_TYPE_VSI,
+ tc, rl_type,
+ ICE_SCHED_DFLT_BW);
+ if (!status) {
+ ice_acquire_lock(&pi->sched_lock);
+ status = ice_sched_save_vsi_bw(pi, vsi_handle, tc, rl_type,
+ ICE_SCHED_DFLT_BW);
+ ice_release_lock(&pi->sched_lock);
}
-
- return wakeup;
+ return status;
}
/**
- * ice_sched_bw_to_rl_profile - convert BW to profile parameters
+ * ice_cfg_agg_bw_lmt_per_tc - configure aggregator BW limit per TC
+ * @pi: port information structure
+ * @agg_id: aggregator ID
+ * @tc: traffic class
+ * @rl_type: min or max
* @bw: bandwidth in Kbps
- * @profile: profile parameters to return
*
- * This function converts the BW to profile structure format.
+ * This function applies BW limit to aggregator scheduling node based on TC
+ * information.
*/
-static enum ice_status
-ice_sched_bw_to_rl_profile(u32 bw, struct ice_aqc_rl_profile_elem *profile)
+enum ice_status
+ice_cfg_agg_bw_lmt_per_tc(struct ice_port_info *pi, u32 agg_id, u8 tc,
+ enum ice_rl_type rl_type, u32 bw)
{
- enum ice_status status = ICE_ERR_PARAM;
- s64 bytes_per_sec, ts_rate, mv_tmp;
- bool found = false;
- s32 encode = 0;
- s64 mv = 0;
- s32 i;
-
- /* Bw settings range is from 0.5Mb/sec to 100Gb/sec */
- if (bw < ICE_SCHED_MIN_BW || bw > ICE_SCHED_MAX_BW)
- return status;
-
- /* Bytes per second from Kbps */
- bytes_per_sec = DIV_64BIT(((s64)bw * 1000), BITS_PER_BYTE);
-
- /* encode is 6 bits but really useful are 5 bits */
- for (i = 0; i < 64; i++) {
- u64 pow_result = BIT_ULL(i);
-
- ts_rate = DIV_64BIT((s64)ICE_RL_PROF_FREQUENCY,
- pow_result * ICE_RL_PROF_TS_MULTIPLIER);
- if (ts_rate <= 0)
- continue;
-
- /* Multiplier value */
- mv_tmp = DIV_64BIT(bytes_per_sec * ICE_RL_PROF_MULTIPLIER,
- ts_rate);
-
- /* Round to the nearest ICE_RL_PROF_MULTIPLIER */
- mv = round_up_64bit(mv_tmp, ICE_RL_PROF_MULTIPLIER);
-
- /* First multiplier value greater than the given
- * accuracy bytes
- */
- if (mv > ICE_RL_PROF_ACCURACY_BYTES) {
- encode = i;
- found = true;
- break;
- }
- }
- if (found) {
- u16 wm;
+ enum ice_status status;
- wm = ice_sched_calc_wakeup(bw);
- profile->rl_multiply = CPU_TO_LE16(mv);
- profile->wake_up_calc = CPU_TO_LE16(wm);
- profile->rl_encode = CPU_TO_LE16(encode);
- status = ICE_SUCCESS;
- } else {
- status = ICE_ERR_DOES_NOT_EXIST;
+ status = ice_sched_set_node_bw_lmt_per_tc(pi, agg_id, ICE_AGG_TYPE_AGG,
+ tc, rl_type, bw);
+ if (!status) {
+ ice_acquire_lock(&pi->sched_lock);
+ status = ice_sched_save_agg_bw(pi, agg_id, tc, rl_type, bw);
+ ice_release_lock(&pi->sched_lock);
}
-
return status;
}
/**
- * ice_sched_add_rl_profile - add RL profile
+ * ice_cfg_agg_bw_dflt_lmt_per_tc - configure aggregator BW default limit per TC
* @pi: port information structure
- * @rl_type: type of rate limit BW - min, max, or shared
- * @bw: bandwidth in Kbps - Kilo bits per sec
- * @layer_num: specifies in which layer to create profile
+ * @agg_id: aggregator ID
+ * @tc: traffic class
+ * @rl_type: min or max
*
- * This function first checks the existing list for corresponding BW
- * parameter. If it exists, it returns the associated profile otherwise
- * it creates a new rate limit profile for requested BW, and adds it to
- * the HW DB and local list. It returns the new profile or null on error.
- * The caller needs to hold the scheduler lock.
+ * This function applies default BW limit to aggregator scheduling node based
+ * on TC information.
*/
-static struct ice_aqc_rl_profile_info *
-ice_sched_add_rl_profile(struct ice_port_info *pi,
- enum ice_rl_type rl_type, u32 bw, u8 layer_num)
+enum ice_status
+ice_cfg_agg_bw_dflt_lmt_per_tc(struct ice_port_info *pi, u32 agg_id, u8 tc,
+ enum ice_rl_type rl_type)
{
- struct ice_aqc_rl_profile_generic_elem *buf;
- struct ice_aqc_rl_profile_info *rl_prof_elem;
- u16 profiles_added = 0, num_profiles = 1;
- enum ice_status status = ICE_ERR_PARAM;
- struct ice_hw *hw;
- u8 profile_type;
+ enum ice_status status;
- switch (rl_type) {
- case ICE_MIN_BW:
- profile_type = ICE_AQC_RL_PROFILE_TYPE_CIR;
- break;
- case ICE_MAX_BW:
- profile_type = ICE_AQC_RL_PROFILE_TYPE_EIR;
- break;
- case ICE_SHARED_BW:
- profile_type = ICE_AQC_RL_PROFILE_TYPE_SRL;
- break;
- default:
- return NULL;
+ status = ice_sched_set_node_bw_lmt_per_tc(pi, agg_id, ICE_AGG_TYPE_AGG,
+ tc, rl_type,
+ ICE_SCHED_DFLT_BW);
+ if (!status) {
+ ice_acquire_lock(&pi->sched_lock);
+ status = ice_sched_save_agg_bw(pi, agg_id, tc, rl_type,
+ ICE_SCHED_DFLT_BW);
+ ice_release_lock(&pi->sched_lock);
}
-
- if (!pi)
- return NULL;
- hw = pi->hw;
- LIST_FOR_EACH_ENTRY(rl_prof_elem, &pi->rl_prof_list[layer_num],
- ice_aqc_rl_profile_info, list_entry)
- if (rl_prof_elem->profile.flags == profile_type &&
- rl_prof_elem->bw == bw)
- /* Return existing profile ID info */
- return rl_prof_elem;
-
- /* Create new profile ID */
- rl_prof_elem = (struct ice_aqc_rl_profile_info *)
- ice_malloc(hw, sizeof(*rl_prof_elem));
-
- if (!rl_prof_elem)
- return NULL;
-
- status = ice_sched_bw_to_rl_profile(bw, &rl_prof_elem->profile);
- if (status != ICE_SUCCESS)
- goto exit_add_rl_prof;
-
- rl_prof_elem->bw = bw;
- /* layer_num is zero relative, and fw expects level from 1 to 9 */
- rl_prof_elem->profile.level = layer_num + 1;
- rl_prof_elem->profile.flags = profile_type;
- rl_prof_elem->profile.max_burst_size = CPU_TO_LE16(hw->max_burst_size);
-
- /* Create new entry in HW DB */
- buf = (struct ice_aqc_rl_profile_generic_elem *)
- &rl_prof_elem->profile;
- status = ice_aq_add_rl_profile(hw, num_profiles, buf, sizeof(*buf),
- &profiles_added, NULL);
- if (status || profiles_added != num_profiles)
- goto exit_add_rl_prof;
-
- /* Good entry - add in the list */
- rl_prof_elem->prof_id_ref = 0;
- LIST_ADD(&rl_prof_elem->list_entry, &pi->rl_prof_list[layer_num]);
- return rl_prof_elem;
-
-exit_add_rl_prof:
- ice_free(hw, rl_prof_elem);
- return NULL;
+ return status;
}
/**
- * ice_sched_del_rl_profile - remove rl profile
- * @hw: pointer to the hw struct
- * @rl_info: rate limit profile information
+ * ice_cfg_vsi_bw_shared_lmt - configure VSI BW shared limit
+ * @pi: port information structure
+ * @vsi_handle: software VSI handle
+ * @bw: bandwidth in Kbps
*
- * If the profile id is not referenced anymore, it removes profile id with
- * its associated parameters from hw db,and locally. The caller needs to
- * hold scheduler lock.
+ * This function Configures shared rate limiter(SRL) of all VSI type nodes
+ * across all traffic classes for VSI matching handle.
*/
enum ice_status
-ice_sched_del_rl_profile(struct ice_hw *hw,
- struct ice_aqc_rl_profile_info *rl_info)
+ice_cfg_vsi_bw_shared_lmt(struct ice_port_info *pi, u16 vsi_handle, u32 bw)
{
- struct ice_aqc_rl_profile_generic_elem *buf;
- u16 num_profiles_removed;
- enum ice_status status;
- u16 num_profiles = 1;
-
- if (rl_info->prof_id_ref != 0)
- return ICE_ERR_IN_USE;
-
- /* Safe to remove profile id */
- buf = (struct ice_aqc_rl_profile_generic_elem *)
- &rl_info->profile;
- status = ice_aq_remove_rl_profile(hw, num_profiles, buf, sizeof(*buf),
- &num_profiles_removed, NULL);
- if (status || num_profiles_removed != num_profiles)
- return ICE_ERR_CFG;
-
- /* Delete stale entry now */
- LIST_DEL(&rl_info->list_entry);
- ice_free(hw, rl_info);
- return status;
+ return ice_sched_set_vsi_bw_shared_lmt(pi, vsi_handle, bw);
}
/**
- * ice_sched_rm_unused_rl_prof - remove unused rl profile
+ * ice_cfg_vsi_bw_no_shared_lmt - configure VSI BW for no shared limiter
* @pi: port information structure
+ * @vsi_handle: software VSI handle
*
- * This function removes unused rate limit profiles from the hw and
- * SW DB. The caller needs to hold scheduler lock.
+ * This function removes the shared rate limiter(SRL) of all VSI type nodes
+ * across all traffic classes for VSI matching handle.
*/
-void ice_sched_rm_unused_rl_prof(struct ice_port_info *pi)
+enum ice_status
+ice_cfg_vsi_bw_no_shared_lmt(struct ice_port_info *pi, u16 vsi_handle)
{
- u8 ln;
-
- for (ln = 0; ln < pi->hw->num_tx_sched_layers; ln++) {
- struct ice_aqc_rl_profile_info *rl_prof_elem;
- struct ice_aqc_rl_profile_info *rl_prof_tmp;
-
- LIST_FOR_EACH_ENTRY_SAFE(rl_prof_elem, rl_prof_tmp,
- &pi->rl_prof_list[ln],
- ice_aqc_rl_profile_info, list_entry) {
- if (!ice_sched_del_rl_profile(pi->hw, rl_prof_elem))
- ice_debug(pi->hw, ICE_DBG_SCHED,
- "Removed rl profile\n");
- }
- }
+ return ice_sched_set_vsi_bw_shared_lmt(pi, vsi_handle,
+ ICE_SCHED_DFLT_BW);
}
/**
- * ice_sched_update_elem - update element
- * @hw: pointer to the hw struct
- * @node: pointer to node
- * @info: node info to update
+ * ice_cfg_agg_bw_shared_lmt - configure aggregator BW shared limit
+ * @pi: port information structure
+ * @agg_id: aggregator ID
+ * @bw: bandwidth in Kbps
*
- * It updates the HW DB, and local SW DB of node. It updates the scheduling
- * parameters of node from argument info data buffer (Info->data buf) and
- * returns success or error on config sched element failure. The caller
- * needs to hold scheduler lock.
+ * This function configures the shared rate limiter(SRL) of all aggregator type
+ * nodes across all traffic classes for aggregator matching agg_id.
*/
-static enum ice_status
-ice_sched_update_elem(struct ice_hw *hw, struct ice_sched_node *node,
- struct ice_aqc_txsched_elem_data *info)
+enum ice_status
+ice_cfg_agg_bw_shared_lmt(struct ice_port_info *pi, u32 agg_id, u32 bw)
{
- struct ice_aqc_conf_elem buf;
- enum ice_status status;
- u16 elem_cfgd = 0;
- u16 num_elems = 1;
-
- buf.generic[0] = *info;
- /* Parent teid is reserved field in this aq call */
- buf.generic[0].parent_teid = 0;
- /* Element type is reserved field in this aq call */
- buf.generic[0].data.elem_type = 0;
- /* Flags is reserved field in this aq call */
- buf.generic[0].data.flags = 0;
-
- /* Update HW DB */
- /* Configure element node */
- status = ice_aq_cfg_sched_elems(hw, num_elems, &buf, sizeof(buf),
- &elem_cfgd, NULL);
- if (status || elem_cfgd != num_elems) {
- ice_debug(hw, ICE_DBG_SCHED, "Config sched elem error\n");
- return ICE_ERR_CFG;
- }
+ return ice_sched_set_agg_bw_shared_lmt(pi, agg_id, bw);
+}
- /* Config success case */
- /* Now update local SW DB */
- /* Only copy the data portion of info buffer */
- node->info.data = info->data;
- return status;
+/**
+ * ice_cfg_agg_bw_no_shared_lmt - configure aggregator BW for no shared limiter
+ * @pi: port information structure
+ * @agg_id: aggregator ID
+ *
+ * This function removes the shared rate limiter(SRL) of all aggregator type
+ * nodes across all traffic classes for aggregator matching agg_id.
+ */
+enum ice_status
+ice_cfg_agg_bw_no_shared_lmt(struct ice_port_info *pi, u32 agg_id)
+{
+ return ice_sched_set_agg_bw_shared_lmt(pi, agg_id, ICE_SCHED_DFLT_BW);
}
/**
- * ice_sched_cfg_node_bw_lmt - configure node sched params
- * @hw: pointer to the HW struct
- * @node: sched node to configure
- * @rl_type: rate limit type CIR, EIR, or shared
- * @rl_prof_id: rate limit profile ID
+ * ice_config_vsi_queue_priority - config VSI queue priority of node
+ * @pi: port information structure
+ * @num_qs: number of VSI queues
+ * @q_ids: queue IDs array
+ * @q_prio: queue priority array
*
- * This function configures node element's BW limit.
+ * This function configures the queue node priority (Sibling Priority) of the
+ * passed in VSI's queue(s) for a given traffic class (TC).
*/
-static enum ice_status
-ice_sched_cfg_node_bw_lmt(struct ice_hw *hw, struct ice_sched_node *node,
- enum ice_rl_type rl_type, u16 rl_prof_id)
+enum ice_status
+ice_cfg_vsi_q_priority(struct ice_port_info *pi, u16 num_qs, u32 *q_ids,
+ u8 *q_prio)
{
- struct ice_aqc_txsched_elem_data buf;
- struct ice_aqc_txsched_elem *data;
+ enum ice_status status = ICE_ERR_PARAM;
+ u16 i;
- buf = node->info;
- data = &buf.data;
- switch (rl_type) {
- case ICE_MIN_BW:
- data->valid_sections |= ICE_AQC_ELEM_VALID_CIR;
- data->cir_bw.bw_profile_idx = CPU_TO_LE16(rl_prof_id);
- break;
- case ICE_MAX_BW:
- /* EIR BW and Shared BW profiles are mutually exclusive and
- * hence only one of them may be set for any given element
- */
- if (data->valid_sections & ICE_AQC_ELEM_VALID_SHARED)
- return ICE_ERR_CFG;
- data->valid_sections |= ICE_AQC_ELEM_VALID_EIR;
- data->eir_bw.bw_profile_idx = CPU_TO_LE16(rl_prof_id);
- break;
- case ICE_SHARED_BW:
- /* Check for removing shared BW */
- if (rl_prof_id == ICE_SCHED_NO_SHARED_RL_PROF_ID) {
- /* remove shared profile */
- data->valid_sections &= ~ICE_AQC_ELEM_VALID_SHARED;
- data->srl_id = 0; /* clear SRL field */
+ ice_acquire_lock(&pi->sched_lock);
- /* enable back EIR to default profile */
- data->valid_sections |= ICE_AQC_ELEM_VALID_EIR;
- data->eir_bw.bw_profile_idx =
- CPU_TO_LE16(ICE_SCHED_DFLT_RL_PROF_ID);
+ for (i = 0; i < num_qs; i++) {
+ struct ice_sched_node *node;
+
+ node = ice_sched_find_node_by_teid(pi->root, q_ids[i]);
+ if (!node || node->info.data.elem_type !=
+ ICE_AQC_ELEM_TYPE_LEAF) {
+ status = ICE_ERR_PARAM;
break;
}
- /* EIR BW and Shared BW profiles are mutually exclusive and
- * hence only one of them may be set for any given element
- */
- if ((data->valid_sections & ICE_AQC_ELEM_VALID_EIR) &&
- (LE16_TO_CPU(data->eir_bw.bw_profile_idx) !=
- ICE_SCHED_DFLT_RL_PROF_ID))
- return ICE_ERR_CFG;
- /* EIR BW is set to default, disable it */
- data->valid_sections &= ~ICE_AQC_ELEM_VALID_EIR;
- /* Okay to enable shared BW now */
- data->valid_sections |= ICE_AQC_ELEM_VALID_SHARED;
- data->srl_id = CPU_TO_LE16(rl_prof_id);
- break;
- default:
- /* Unknown rate limit type */
- return ICE_ERR_PARAM;
+ /* Configure Priority */
+ status = ice_sched_cfg_sibl_node_prio(pi, node, q_prio[i]);
+ if (status)
+ break;
}
- /* Configure element */
- return ice_sched_update_elem(hw, node, &buf);
+ ice_release_lock(&pi->sched_lock);
+ return status;
}
/**
- * ice_sched_get_node_rl_prof_id - get node's rate limit profile ID
- * @node: sched node
- * @rl_type: rate limit type
+ * ice_cfg_agg_vsi_priority_per_tc - config aggregator's VSI priority per TC
+ * @pi: port information structure
+ * @agg_id: Aggregator ID
+ * @num_vsis: number of VSI(s)
+ * @vsi_handle_arr: array of software VSI handles
+ * @node_prio: pointer to node priority
+ * @tc: traffic class
*
- * If existing profile matches, it returns the corresponding rate
- * limit profile ID, otherwise it returns an invalid ID as error.
+ * This function configures the node priority (Sibling Priority) of the
+ * passed in VSI's for a given traffic class (TC) of an Aggregator ID.
*/
-static u16
-ice_sched_get_node_rl_prof_id(struct ice_sched_node *node,
- enum ice_rl_type rl_type)
+enum ice_status
+ice_cfg_agg_vsi_priority_per_tc(struct ice_port_info *pi, u32 agg_id,
+ u16 num_vsis, u16 *vsi_handle_arr,
+ u8 *node_prio, u8 tc)
{
- u16 rl_prof_id = ICE_SCHED_INVAL_PROF_ID;
- struct ice_aqc_txsched_elem *data;
+ struct ice_sched_agg_vsi_info *agg_vsi_info;
+ struct ice_sched_node *tc_node, *agg_node;
+ enum ice_status status = ICE_ERR_PARAM;
+ struct ice_sched_agg_info *agg_info;
+ bool agg_id_present = false;
+ struct ice_hw *hw = pi->hw;
+ u16 i;
- data = &node->info.data;
- switch (rl_type) {
- case ICE_MIN_BW:
- if (data->valid_sections & ICE_AQC_ELEM_VALID_CIR)
- rl_prof_id = LE16_TO_CPU(data->cir_bw.bw_profile_idx);
- break;
- case ICE_MAX_BW:
- if (data->valid_sections & ICE_AQC_ELEM_VALID_EIR)
- rl_prof_id = LE16_TO_CPU(data->eir_bw.bw_profile_idx);
- break;
- case ICE_SHARED_BW:
- if (data->valid_sections & ICE_AQC_ELEM_VALID_SHARED)
- rl_prof_id = LE16_TO_CPU(data->srl_id);
- break;
- default:
- break;
+ ice_acquire_lock(&pi->sched_lock);
+ LIST_FOR_EACH_ENTRY(agg_info, &hw->agg_list, ice_sched_agg_info,
+ list_entry)
+ if (agg_info->agg_id == agg_id) {
+ agg_id_present = true;
+ break;
+ }
+ if (!agg_id_present)
+ goto exit_agg_priority_per_tc;
+
+ tc_node = ice_sched_get_tc_node(pi, tc);
+ if (!tc_node)
+ goto exit_agg_priority_per_tc;
+
+ agg_node = ice_sched_get_agg_node(pi, tc_node, agg_id);
+ if (!agg_node)
+ goto exit_agg_priority_per_tc;
+
+ if (num_vsis > hw->max_children[agg_node->tx_sched_layer])
+ goto exit_agg_priority_per_tc;
+
+ for (i = 0; i < num_vsis; i++) {
+ struct ice_sched_node *vsi_node;
+ bool vsi_handle_valid = false;
+ u16 vsi_handle;
+
+ status = ICE_ERR_PARAM;
+ vsi_handle = vsi_handle_arr[i];
+ if (!ice_is_vsi_valid(hw, vsi_handle))
+ goto exit_agg_priority_per_tc;
+ /* Verify child nodes before applying settings */
+ LIST_FOR_EACH_ENTRY(agg_vsi_info, &agg_info->agg_vsi_list,
+ ice_sched_agg_vsi_info, list_entry)
+ if (agg_vsi_info->vsi_handle == vsi_handle) {
+ /* cppcheck-suppress unreadVariable */
+ vsi_handle_valid = true;
+ break;
+ }
+
+ if (!vsi_handle_valid)
+ goto exit_agg_priority_per_tc;
+
+ vsi_node = ice_sched_get_vsi_node(pi, tc_node, vsi_handle);
+ if (!vsi_node)
+ goto exit_agg_priority_per_tc;
+
+ if (ice_sched_find_node_in_subtree(hw, agg_node, vsi_node)) {
+ /* Configure Priority */
+ status = ice_sched_cfg_sibl_node_prio(pi, vsi_node,
+ node_prio[i]);
+ if (status)
+ break;
+ status = ice_sched_save_vsi_prio(pi, vsi_handle, tc,
+ node_prio[i]);
+ if (status)
+ break;
+ }
}
- return rl_prof_id;
+exit_agg_priority_per_tc:
+ ice_release_lock(&pi->sched_lock);
+ return status;
}
/**
- * ice_sched_get_rl_prof_layer - selects rate limit profile creation layer
+ * ice_cfg_vsi_bw_alloc - config VSI BW alloc per TC
* @pi: port information structure
- * @rl_type: type of rate limit BW - min, max, or shared
- * @layer_index: layer index
+ * @vsi_handle: software VSI handle
+ * @ena_tcmap: enabled TC map
+ * @rl_type: Rate limit type CIR/EIR
+ * @bw_alloc: Array of BW alloc
*
- * This function returns requested profile creation layer.
+ * This function configures the BW allocation of the passed in VSI's
+ * node(s) for enabled traffic class.
*/
-static u8
-ice_sched_get_rl_prof_layer(struct ice_port_info *pi, enum ice_rl_type rl_type,
- u8 layer_index)
+enum ice_status
+ice_cfg_vsi_bw_alloc(struct ice_port_info *pi, u16 vsi_handle, u8 ena_tcmap,
+ enum ice_rl_type rl_type, u8 *bw_alloc)
{
- struct ice_hw *hw = pi->hw;
-
- if (layer_index >= hw->num_tx_sched_layers)
- return ICE_SCHED_INVAL_LAYER_NUM;
- switch (rl_type) {
- case ICE_MIN_BW:
- if (hw->layer_info[layer_index].max_cir_rl_profiles)
- return layer_index;
- break;
- case ICE_MAX_BW:
- if (hw->layer_info[layer_index].max_eir_rl_profiles)
- return layer_index;
- break;
- case ICE_SHARED_BW:
- /* if current layer doesn't support SRL profile creation
- * then try a layer up or down.
- */
- if (hw->layer_info[layer_index].max_srl_profiles)
- return layer_index;
- else if (layer_index < hw->num_tx_sched_layers - 1 &&
- hw->layer_info[layer_index + 1].max_srl_profiles)
- return layer_index + 1;
- else if (layer_index > 0 &&
- hw->layer_info[layer_index - 1].max_srl_profiles)
- return layer_index - 1;
- break;
- default:
- break;
+ enum ice_status status = ICE_SUCCESS;
+ u8 tc;
+
+ if (!ice_is_vsi_valid(pi->hw, vsi_handle))
+ return ICE_ERR_PARAM;
+
+ ice_acquire_lock(&pi->sched_lock);
+
+ /* Return success if no nodes are present across TC */
+ ice_for_each_traffic_class(tc) {
+ struct ice_sched_node *tc_node, *vsi_node;
+
+ if (!ice_is_tc_ena(ena_tcmap, tc))
+ continue;
+
+ tc_node = ice_sched_get_tc_node(pi, tc);
+ if (!tc_node)
+ continue;
+
+ vsi_node = ice_sched_get_vsi_node(pi, tc_node, vsi_handle);
+ if (!vsi_node)
+ continue;
+
+ status = ice_sched_cfg_node_bw_alloc(pi->hw, vsi_node, rl_type,
+ bw_alloc[tc]);
+ if (status)
+ break;
+ status = ice_sched_save_vsi_bw_alloc(pi, vsi_handle, tc,
+ rl_type, bw_alloc[tc]);
+ if (status)
+ break;
}
- return ICE_SCHED_INVAL_LAYER_NUM;
-}
-/**
- * ice_sched_get_srl_node - get shared rate limit node
- * @node: tree node
- * @srl_layer: shared rate limit layer
- *
- * This function returns SRL node to be used for shared rate limit purpose.
- * The caller needs to hold scheduler lock.
- */
-static struct ice_sched_node *
-ice_sched_get_srl_node(struct ice_sched_node *node, u8 srl_layer)
-{
- if (srl_layer > node->tx_sched_layer)
- return node->children[0];
- else if (srl_layer < node->tx_sched_layer)
- /* Node can't be created without a parent. It will always
- * have a valid parent except root node.
- */
- return node->parent;
- else
- return node;
+ ice_release_lock(&pi->sched_lock);
+ return status;
}
/**
- * ice_sched_rm_rl_profile - remove RL profile ID
+ * ice_cfg_agg_bw_alloc - config aggregator BW alloc
* @pi: port information structure
- * @layer_num: layer number where profiles are saved
- * @profile_type: profile type like EIR, CIR, or SRL
- * @profile_id: profile ID to remove
+ * @agg_id: aggregator ID
+ * @ena_tcmap: enabled TC map
+ * @rl_type: rate limit type CIR/EIR
+ * @bw_alloc: array of BW alloc
*
- * This function removes rate limit profile from layer 'layer_num' of type
- * 'profile_type' and profile ID as 'profile_id'. The caller needs to hold
- * scheduler lock.
+ * This function configures the BW allocation of passed in aggregator for
+ * enabled traffic class(s).
*/
-static enum ice_status
-ice_sched_rm_rl_profile(struct ice_port_info *pi, u8 layer_num, u8 profile_type,
- u16 profile_id)
+enum ice_status
+ice_cfg_agg_bw_alloc(struct ice_port_info *pi, u32 agg_id, u8 ena_tcmap,
+ enum ice_rl_type rl_type, u8 *bw_alloc)
{
- struct ice_aqc_rl_profile_info *rl_prof_elem;
+ struct ice_sched_agg_info *agg_info;
+ bool agg_id_present = false;
enum ice_status status = ICE_SUCCESS;
+ struct ice_hw *hw = pi->hw;
+ u8 tc;
- /* Check the existing list for RL profile */
- LIST_FOR_EACH_ENTRY(rl_prof_elem, &pi->rl_prof_list[layer_num],
- ice_aqc_rl_profile_info, list_entry)
- if (rl_prof_elem->profile.flags == profile_type &&
- LE16_TO_CPU(rl_prof_elem->profile.profile_id) ==
- profile_id) {
- if (rl_prof_elem->prof_id_ref)
- rl_prof_elem->prof_id_ref--;
-
- /* Remove old profile ID from database */
- status = ice_sched_del_rl_profile(pi->hw, rl_prof_elem);
- if (status && status != ICE_ERR_IN_USE)
- ice_debug(pi->hw, ICE_DBG_SCHED,
- "Remove rl profile failed\n");
+ ice_acquire_lock(&pi->sched_lock);
+ LIST_FOR_EACH_ENTRY(agg_info, &hw->agg_list, ice_sched_agg_info,
+ list_entry)
+ if (agg_info->agg_id == agg_id) {
+ agg_id_present = true;
break;
}
- if (status == ICE_ERR_IN_USE)
- status = ICE_SUCCESS;
+ if (!agg_id_present) {
+ status = ICE_ERR_PARAM;
+ goto exit_cfg_agg_bw_alloc;
+ }
+
+ /* Return success if no nodes are present across TC */
+ ice_for_each_traffic_class(tc) {
+ struct ice_sched_node *tc_node, *agg_node;
+
+ if (!ice_is_tc_ena(ena_tcmap, tc))
+ continue;
+
+ tc_node = ice_sched_get_tc_node(pi, tc);
+ if (!tc_node)
+ continue;
+
+ agg_node = ice_sched_get_agg_node(pi, tc_node, agg_id);
+ if (!agg_node)
+ continue;
+
+ status = ice_sched_cfg_node_bw_alloc(hw, agg_node, rl_type,
+ bw_alloc[tc]);
+ if (status)
+ break;
+ status = ice_sched_save_agg_bw_alloc(pi, agg_id, tc, rl_type,
+ bw_alloc[tc]);
+ if (status)
+ break;
+ }
+
+exit_cfg_agg_bw_alloc:
+ ice_release_lock(&pi->sched_lock);
return status;
}
/**
- * ice_sched_set_node_bw_dflt - set node's bandwidth limit to default
- * @pi: port information structure
- * @node: pointer to node structure
- * @rl_type: rate limit type min, max, or shared
- * @layer_num: layer number where RL profiles are saved
+ * ice_sched_calc_wakeup - calculate RL profile wakeup parameter
+ * @hw: pointer to the HW struct
+ * @bw: bandwidth in Kbps
*
- * This function configures node element's BW rate limit profile ID of
- * type CIR, EIR, or SRL to default. This function needs to be called
- * with the scheduler lock held.
+ * This function calculates the wakeup parameter of RL profile.
*/
-static enum ice_status
-ice_sched_set_node_bw_dflt(struct ice_port_info *pi,
- struct ice_sched_node *node,
- enum ice_rl_type rl_type, u8 layer_num)
+static u16 ice_sched_calc_wakeup(struct ice_hw *hw, s32 bw)
{
- enum ice_status status;
- struct ice_hw *hw;
- u8 profile_type;
- u16 rl_prof_id;
- u16 old_id;
+ s64 bytes_per_sec, wakeup_int, wakeup_a, wakeup_b, wakeup_f;
+ s32 wakeup_f_int;
+ u16 wakeup = 0;
- hw = pi->hw;
- switch (rl_type) {
- case ICE_MIN_BW:
- profile_type = ICE_AQC_RL_PROFILE_TYPE_CIR;
- rl_prof_id = ICE_SCHED_DFLT_RL_PROF_ID;
- break;
- case ICE_MAX_BW:
- profile_type = ICE_AQC_RL_PROFILE_TYPE_EIR;
- rl_prof_id = ICE_SCHED_DFLT_RL_PROF_ID;
- break;
- case ICE_SHARED_BW:
- profile_type = ICE_AQC_RL_PROFILE_TYPE_SRL;
- /* No SRL is configured for default case */
- rl_prof_id = ICE_SCHED_NO_SHARED_RL_PROF_ID;
- break;
- default:
- return ICE_ERR_PARAM;
- }
- /* Save existing RL prof ID for later clean up */
- old_id = ice_sched_get_node_rl_prof_id(node, rl_type);
- /* Configure BW scheduling parameters */
- status = ice_sched_cfg_node_bw_lmt(hw, node, rl_type, rl_prof_id);
- if (status)
- return status;
+ /* Get the wakeup integer value */
+ bytes_per_sec = DIV_64BIT(((s64)bw * 1000), BITS_PER_BYTE);
+ wakeup_int = DIV_64BIT(hw->psm_clk_freq, bytes_per_sec);
+ if (wakeup_int > 63) {
+ wakeup = (u16)((1 << 15) | wakeup_int);
+ } else {
+ /* Calculate fraction value up to 4 decimals
+ * Convert Integer value to a constant multiplier
+ */
+ wakeup_b = (s64)ICE_RL_PROF_MULTIPLIER * wakeup_int;
+ wakeup_a = DIV_64BIT((s64)ICE_RL_PROF_MULTIPLIER *
+ hw->psm_clk_freq, bytes_per_sec);
- /* Remove stale RL profile ID */
- if (old_id == ICE_SCHED_DFLT_RL_PROF_ID ||
- old_id == ICE_SCHED_INVAL_PROF_ID)
- return ICE_SUCCESS;
+ /* Get Fraction value */
+ wakeup_f = wakeup_a - wakeup_b;
- return ice_sched_rm_rl_profile(pi, layer_num, profile_type, old_id);
+ /* Round up the Fractional value via Ceil(Fractional value) */
+ if (wakeup_f > DIV_64BIT(ICE_RL_PROF_MULTIPLIER, 2))
+ wakeup_f += 1;
+
+ wakeup_f_int = (s32)DIV_64BIT(wakeup_f * ICE_RL_PROF_FRACTION,
+ ICE_RL_PROF_MULTIPLIER);
+ wakeup |= (u16)(wakeup_int << 9);
+ wakeup |= (u16)(0x1ff & wakeup_f_int);
+ }
+
+ return wakeup;
}
/**
- * ice_sched_set_eir_srl_excl - set EIR/SRL exclusiveness
- * @pi: port information structure
- * @node: pointer to node structure
- * @layer_num: layer number where rate limit profiles are saved
- * @rl_type: rate limit type min, max, or shared
- * @bw: bandwidth value
+ * ice_sched_bw_to_rl_profile - convert BW to profile parameters
+ * @hw: pointer to the HW struct
+ * @bw: bandwidth in Kbps
+ * @profile: profile parameters to return
*
- * This function prepares node element's bandwidth to SRL or EIR exclusively.
- * EIR BW and Shared BW profiles are mutually exclusive and hence only one of
- * them may be set for any given element. This function needs to be called
- * with the scheduler lock held.
+ * This function converts the BW to profile structure format.
*/
static enum ice_status
-ice_sched_set_eir_srl_excl(struct ice_port_info *pi,
- struct ice_sched_node *node,
- u8 layer_num, enum ice_rl_type rl_type, u32 bw)
+ice_sched_bw_to_rl_profile(struct ice_hw *hw, u32 bw,
+ struct ice_aqc_rl_profile_elem *profile)
{
- if (rl_type == ICE_SHARED_BW) {
- /* SRL node passed in this case, it may be different node */
- if (bw == ICE_SCHED_DFLT_BW)
- /* SRL being removed, ice_sched_cfg_node_bw_lmt()
- * enables EIR to default. EIR is not set in this
- * case, so no additional action is required.
- */
- return ICE_SUCCESS;
-
- /* SRL being configured, set EIR to default here.
- * ice_sched_cfg_node_bw_lmt() disables EIR when it
- * configures SRL
- */
- return ice_sched_set_node_bw_dflt(pi, node, ICE_MAX_BW,
- layer_num);
- } else if (rl_type == ICE_MAX_BW &&
- node->info.data.valid_sections & ICE_AQC_ELEM_VALID_SHARED) {
- /* Remove Shared profile. Set default shared BW call
- * removes shared profile for a node.
- */
- return ice_sched_set_node_bw_dflt(pi, node,
- ICE_SHARED_BW,
- layer_num);
- }
- return ICE_SUCCESS;
-}
-
-/**
- * ice_sched_set_node_bw - set node's bandwidth
- * @pi: port information structure
- * @node: tree node
- * @rl_type: rate limit type min, max, or shared
- * @bw: bandwidth in Kbps - Kilo bits per sec
- * @layer_num: layer number
- *
- * This function adds new profile corresponding to requested BW, configures
- * node's RL profile ID of type CIR, EIR, or SRL, and removes old profile
- * ID from local database. The caller needs to hold scheduler lock.
- */
-static enum ice_status
-ice_sched_set_node_bw(struct ice_port_info *pi, struct ice_sched_node *node,
- enum ice_rl_type rl_type, u32 bw, u8 layer_num)
-{
- struct ice_aqc_rl_profile_info *rl_prof_info;
enum ice_status status = ICE_ERR_PARAM;
- struct ice_hw *hw = pi->hw;
- u16 old_id, rl_prof_id;
+ s64 bytes_per_sec, ts_rate, mv_tmp;
+ bool found = false;
+ s32 encode = 0;
+ s64 mv = 0;
+ s32 i;
- rl_prof_info = ice_sched_add_rl_profile(pi, rl_type, bw, layer_num);
- if (!rl_prof_info)
+ /* Bw settings range is from 0.5Mb/sec to 100Gb/sec */
+ if (bw < ICE_SCHED_MIN_BW || bw > ICE_SCHED_MAX_BW)
return status;
- rl_prof_id = LE16_TO_CPU(rl_prof_info->profile.profile_id);
+ /* Bytes per second from Kbps */
+ bytes_per_sec = DIV_64BIT(((s64)bw * 1000), BITS_PER_BYTE);
- /* Save existing RL prof ID for later clean up */
- old_id = ice_sched_get_node_rl_prof_id(node, rl_type);
- /* Configure BW scheduling parameters */
- status = ice_sched_cfg_node_bw_lmt(hw, node, rl_type, rl_prof_id);
- if (status)
- return status;
+ /* encode is 6 bits but really useful are 5 bits */
+ for (i = 0; i < 64; i++) {
+ u64 pow_result = BIT_ULL(i);
- /* New changes has been applied */
- /* Increment the profile ID reference count */
- rl_prof_info->prof_id_ref++;
+ ts_rate = DIV_64BIT((s64)hw->psm_clk_freq,
+ pow_result * ICE_RL_PROF_TS_MULTIPLIER);
+ if (ts_rate <= 0)
+ continue;
- /* Check for old ID removal */
- if ((old_id == ICE_SCHED_DFLT_RL_PROF_ID && rl_type != ICE_SHARED_BW) ||
- old_id == ICE_SCHED_INVAL_PROF_ID || old_id == rl_prof_id)
- return ICE_SUCCESS;
+ /* Multiplier value */
+ mv_tmp = DIV_64BIT(bytes_per_sec * ICE_RL_PROF_MULTIPLIER,
+ ts_rate);
- return ice_sched_rm_rl_profile(pi, layer_num,
- rl_prof_info->profile.flags,
- old_id);
+ /* Round to the nearest ICE_RL_PROF_MULTIPLIER */
+ mv = round_up_64bit(mv_tmp, ICE_RL_PROF_MULTIPLIER);
+
+ /* First multiplier value greater than the given
+ * accuracy bytes
+ */
+ if (mv > ICE_RL_PROF_ACCURACY_BYTES) {
+ encode = i;
+ found = true;
+ break;
+ }
+ }
+ if (found) {
+ u16 wm;
+
+ wm = ice_sched_calc_wakeup(hw, bw);
+ profile->rl_multiply = CPU_TO_LE16(mv);
+ profile->wake_up_calc = CPU_TO_LE16(wm);
+ profile->rl_encode = CPU_TO_LE16(encode);
+ status = ICE_SUCCESS;
+ } else {
+ status = ICE_ERR_DOES_NOT_EXIST;
+ }
+
+ return status;
}
/**
- * ice_sched_set_node_bw_lmt - set node's BW limit
+ * ice_sched_add_rl_profile - add RL profile
* @pi: port information structure
- * @node: tree node
- * @rl_type: rate limit type min, max, or shared
+ * @rl_type: type of rate limit BW - min, max, or shared
* @bw: bandwidth in Kbps - Kilo bits per sec
+ * @layer_num: specifies in which layer to create profile
*
- * It updates node's BW limit parameters like BW RL profile ID of type CIR,
- * EIR, or SRL. The caller needs to hold scheduler lock.
+ * This function first checks the existing list for corresponding BW
+ * parameter. If it exists, it returns the associated profile otherwise
+ * it creates a new rate limit profile for requested BW, and adds it to
+ * the HW DB and local list. It returns the new profile or null on error.
+ * The caller needs to hold the scheduler lock.
*/
-enum ice_status
-ice_sched_set_node_bw_lmt(struct ice_port_info *pi, struct ice_sched_node *node,
- enum ice_rl_type rl_type, u32 bw)
+static struct ice_aqc_rl_profile_info *
+ice_sched_add_rl_profile(struct ice_port_info *pi,
+ enum ice_rl_type rl_type, u32 bw, u8 layer_num)
{
- struct ice_sched_node *cfg_node = node;
+ struct ice_aqc_rl_profile_generic_elem *buf;
+ struct ice_aqc_rl_profile_info *rl_prof_elem;
+ u16 profiles_added = 0, num_profiles = 1;
enum ice_status status;
-
struct ice_hw *hw;
- u8 layer_num;
+ u8 profile_type;
+
+ if (layer_num >= ICE_AQC_TOPO_MAX_LEVEL_NUM)
+ return NULL;
+ switch (rl_type) {
+ case ICE_MIN_BW:
+ profile_type = ICE_AQC_RL_PROFILE_TYPE_CIR;
+ break;
+ case ICE_MAX_BW:
+ profile_type = ICE_AQC_RL_PROFILE_TYPE_EIR;
+ break;
+ case ICE_SHARED_BW:
+ profile_type = ICE_AQC_RL_PROFILE_TYPE_SRL;
+ break;
+ default:
+ return NULL;
+ }
if (!pi)
- return ICE_ERR_PARAM;
+ return NULL;
hw = pi->hw;
- /* Remove unused RL profile IDs from HW and SW DB */
- ice_sched_rm_unused_rl_prof(pi);
- layer_num = ice_sched_get_rl_prof_layer(pi, rl_type,
- node->tx_sched_layer);
- if (layer_num >= hw->num_tx_sched_layers)
- return ICE_ERR_PARAM;
+ LIST_FOR_EACH_ENTRY(rl_prof_elem, &pi->rl_prof_list[layer_num],
+ ice_aqc_rl_profile_info, list_entry)
+ if ((rl_prof_elem->profile.flags & ICE_AQC_RL_PROFILE_TYPE_M) ==
+ profile_type && rl_prof_elem->bw == bw)
+ /* Return existing profile ID info */
+ return rl_prof_elem;
- if (rl_type == ICE_SHARED_BW) {
- /* SRL node may be different */
- cfg_node = ice_sched_get_srl_node(node, layer_num);
- if (!cfg_node)
- return ICE_ERR_CFG;
- }
- /* EIR BW and Shared BW profiles are mutually exclusive and
- * hence only one of them may be set for any given element
- */
- status = ice_sched_set_eir_srl_excl(pi, cfg_node, layer_num, rl_type,
- bw);
- if (status)
- return status;
- if (bw == ICE_SCHED_DFLT_BW)
- return ice_sched_set_node_bw_dflt(pi, cfg_node, rl_type,
- layer_num);
- return ice_sched_set_node_bw(pi, cfg_node, rl_type, bw, layer_num);
-}
+ /* Create new profile ID */
+ rl_prof_elem = (struct ice_aqc_rl_profile_info *)
+ ice_malloc(hw, sizeof(*rl_prof_elem));
-/**
- * ice_sched_set_node_bw_dflt_lmt - set node's BW limit to default
- * @pi: port information structure
- * @node: pointer to node structure
- * @rl_type: rate limit type min, max, or shared
- *
- * This function configures node element's BW rate limit profile ID of
- * type CIR, EIR, or SRL to default. This function needs to be called
- * with the scheduler lock held.
- */
-static enum ice_status
-ice_sched_set_node_bw_dflt_lmt(struct ice_port_info *pi,
- struct ice_sched_node *node,
- enum ice_rl_type rl_type)
-{
- return ice_sched_set_node_bw_lmt(pi, node, rl_type,
- ICE_SCHED_DFLT_BW);
-}
+ if (!rl_prof_elem)
+ return NULL;
-/**
- * ice_sched_validate_srl_node - Check node for SRL applicability
- * @node: sched node to configure
- * @sel_layer: selected SRL layer
- *
- * This function checks if the SRL can be applied to a selceted layer node on
- * behalf of the requested node (first argument). This function needs to be
- * called with scheduler lock held.
- */
-static enum ice_status
-ice_sched_validate_srl_node(struct ice_sched_node *node, u8 sel_layer)
-{
- /* SRL profiles are not available on all layers. Check if the
- * SRL profile can be applied to a node above or below the
- * requested node. SRL configuration is possible only if the
- * selected layer's node has single child.
- */
- if (sel_layer == node->tx_sched_layer ||
- ((sel_layer == node->tx_sched_layer + 1) &&
- node->num_children == 1) ||
- ((sel_layer == node->tx_sched_layer - 1) &&
- (node->parent && node->parent->num_children == 1)))
- return ICE_SUCCESS;
+ status = ice_sched_bw_to_rl_profile(hw, bw, &rl_prof_elem->profile);
+ if (status != ICE_SUCCESS)
+ goto exit_add_rl_prof;
- return ICE_ERR_CFG;
+ rl_prof_elem->bw = bw;
+ /* layer_num is zero relative, and fw expects level from 1 to 9 */
+ rl_prof_elem->profile.level = layer_num + 1;
+ rl_prof_elem->profile.flags = profile_type;
+ rl_prof_elem->profile.max_burst_size = CPU_TO_LE16(hw->max_burst_size);
+
+ /* Create new entry in HW DB */
+ buf = (struct ice_aqc_rl_profile_generic_elem *)
+ &rl_prof_elem->profile;
+ status = ice_aq_add_rl_profile(hw, num_profiles, buf, sizeof(*buf),
+ &profiles_added, NULL);
+ if (status || profiles_added != num_profiles)
+ goto exit_add_rl_prof;
+
+ /* Good entry - add in the list */
+ rl_prof_elem->prof_id_ref = 0;
+ LIST_ADD(&rl_prof_elem->list_entry, &pi->rl_prof_list[layer_num]);
+ return rl_prof_elem;
+
+exit_add_rl_prof:
+ ice_free(hw, rl_prof_elem);
+ return NULL;
}
/**
- * ice_sched_set_q_bw_lmt - sets queue BW limit
- * @pi: port information structure
- * @q_id: queue ID (leaf node TEID)
- * @rl_type: min, max, or shared
- * @bw: bandwidth in Kbps
+ * ice_sched_cfg_node_bw_lmt - configure node sched params
+ * @hw: pointer to the HW struct
+ * @node: sched node to configure
+ * @rl_type: rate limit type CIR, EIR, or shared
+ * @rl_prof_id: rate limit profile ID
*
- * This function sets BW limit of queue scheduling node.
+ * This function configures node element's BW limit.
*/
static enum ice_status
-ice_sched_set_q_bw_lmt(struct ice_port_info *pi, u32 q_id,
- enum ice_rl_type rl_type, u32 bw)
+ice_sched_cfg_node_bw_lmt(struct ice_hw *hw, struct ice_sched_node *node,
+ enum ice_rl_type rl_type, u16 rl_prof_id)
{
- enum ice_status status = ICE_ERR_PARAM;
- struct ice_sched_node *node;
-
- ice_acquire_lock(&pi->sched_lock);
-
- node = ice_sched_find_node_by_teid(pi->root, q_id);
- if (!node) {
- ice_debug(pi->hw, ICE_DBG_SCHED, "Wrong q_id\n");
- goto exit_q_bw_lmt;
- }
-
- /* Return error if it is not a leaf node */
- if (node->info.data.elem_type != ICE_AQC_ELEM_TYPE_LEAF)
- goto exit_q_bw_lmt;
+ struct ice_aqc_txsched_elem_data buf;
+ struct ice_aqc_txsched_elem *data;
- /* SRL bandwidth layer selection */
- if (rl_type == ICE_SHARED_BW) {
- u8 sel_layer; /* selected layer */
+ buf = node->info;
+ data = &buf.data;
+ switch (rl_type) {
+ case ICE_MIN_BW:
+ data->valid_sections |= ICE_AQC_ELEM_VALID_CIR;
+ data->cir_bw.bw_profile_idx = CPU_TO_LE16(rl_prof_id);
+ break;
+ case ICE_MAX_BW:
+ /* EIR BW and Shared BW profiles are mutually exclusive and
+ * hence only one of them may be set for any given element
+ */
+ if (data->valid_sections & ICE_AQC_ELEM_VALID_SHARED)
+ return ICE_ERR_CFG;
+ data->valid_sections |= ICE_AQC_ELEM_VALID_EIR;
+ data->eir_bw.bw_profile_idx = CPU_TO_LE16(rl_prof_id);
+ break;
+ case ICE_SHARED_BW:
+ /* Check for removing shared BW */
+ if (rl_prof_id == ICE_SCHED_NO_SHARED_RL_PROF_ID) {
+ /* remove shared profile */
+ data->valid_sections &= ~ICE_AQC_ELEM_VALID_SHARED;
+ data->srl_id = 0; /* clear SRL field */
- sel_layer = ice_sched_get_rl_prof_layer(pi, rl_type,
- node->tx_sched_layer);
- if (sel_layer >= pi->hw->num_tx_sched_layers) {
- status = ICE_ERR_PARAM;
- goto exit_q_bw_lmt;
+ /* enable back EIR to default profile */
+ data->valid_sections |= ICE_AQC_ELEM_VALID_EIR;
+ data->eir_bw.bw_profile_idx =
+ CPU_TO_LE16(ICE_SCHED_DFLT_RL_PROF_ID);
+ break;
}
- status = ice_sched_validate_srl_node(node, sel_layer);
- if (status)
- goto exit_q_bw_lmt;
- }
-
- if (bw == ICE_SCHED_DFLT_BW)
- status = ice_sched_set_node_bw_dflt_lmt(pi, node, rl_type);
- else
- status = ice_sched_set_node_bw_lmt(pi, node, rl_type, bw);
-
-exit_q_bw_lmt:
- ice_release_lock(&pi->sched_lock);
- return status;
-}
-
-/**
- * ice_cfg_q_bw_lmt - configure queue BW limit
- * @pi: port information structure
- * @q_id: queue ID (leaf node TEID)
- * @rl_type: min, max, or shared
- * @bw: bandwidth in Kbps
- *
- * This function configures BW limit of queue scheduling node.
- */
-enum ice_status
-ice_cfg_q_bw_lmt(struct ice_port_info *pi, u32 q_id, enum ice_rl_type rl_type,
- u32 bw)
-{
- return ice_sched_set_q_bw_lmt(pi, q_id, rl_type, bw);
+ /* EIR BW and Shared BW profiles are mutually exclusive and
+ * hence only one of them may be set for any given element
+ */
+ if ((data->valid_sections & ICE_AQC_ELEM_VALID_EIR) &&
+ (LE16_TO_CPU(data->eir_bw.bw_profile_idx) !=
+ ICE_SCHED_DFLT_RL_PROF_ID))
+ return ICE_ERR_CFG;
+ /* EIR BW is set to default, disable it */
+ data->valid_sections &= ~ICE_AQC_ELEM_VALID_EIR;
+ /* Okay to enable shared BW now */
+ data->valid_sections |= ICE_AQC_ELEM_VALID_SHARED;
+ data->srl_id = CPU_TO_LE16(rl_prof_id);
+ break;
+ default:
+ /* Unknown rate limit type */
+ return ICE_ERR_PARAM;
+ }
+
+ /* Configure element */
+ return ice_sched_update_elem(hw, node, &buf);
}
/**
- * ice_cfg_q_bw_dflt_lmt - configure queue BW default limit
- * @pi: port information structure
- * @q_id: queue ID (leaf node TEID)
- * @rl_type: min, max, or shared
+ * ice_sched_get_node_rl_prof_id - get node's rate limit profile ID
+ * @node: sched node
+ * @rl_type: rate limit type
*
- * This function configures BW default limit of queue scheduling node.
+ * If existing profile matches, it returns the corresponding rate
+ * limit profile ID, otherwise it returns an invalid ID as error.
*/
-enum ice_status
-ice_cfg_q_bw_dflt_lmt(struct ice_port_info *pi, u32 q_id,
- enum ice_rl_type rl_type)
+static u16
+ice_sched_get_node_rl_prof_id(struct ice_sched_node *node,
+ enum ice_rl_type rl_type)
{
- return ice_sched_set_q_bw_lmt(pi, q_id, rl_type, ICE_SCHED_DFLT_BW);
+ u16 rl_prof_id = ICE_SCHED_INVAL_PROF_ID;
+ struct ice_aqc_txsched_elem *data;
+
+ data = &node->info.data;
+ switch (rl_type) {
+ case ICE_MIN_BW:
+ if (data->valid_sections & ICE_AQC_ELEM_VALID_CIR)
+ rl_prof_id = LE16_TO_CPU(data->cir_bw.bw_profile_idx);
+ break;
+ case ICE_MAX_BW:
+ if (data->valid_sections & ICE_AQC_ELEM_VALID_EIR)
+ rl_prof_id = LE16_TO_CPU(data->eir_bw.bw_profile_idx);
+ break;
+ case ICE_SHARED_BW:
+ if (data->valid_sections & ICE_AQC_ELEM_VALID_SHARED)
+ rl_prof_id = LE16_TO_CPU(data->srl_id);
+ break;
+ default:
+ break;
+ }
+
+ return rl_prof_id;
}
/**
- * ice_sched_save_tc_node_bw - save TC node BW limit
+ * ice_sched_get_rl_prof_layer - selects rate limit profile creation layer
* @pi: port information structure
- * @tc: TC number
- * @rl_type: min or max
- * @bw: bandwidth in Kbps
+ * @rl_type: type of rate limit BW - min, max, or shared
+ * @layer_index: layer index
*
- * This function saves the modified values of bandwidth settings for later
- * replay purpose (restore) after reset.
+ * This function returns requested profile creation layer.
*/
-static enum ice_status
-ice_sched_save_tc_node_bw(struct ice_port_info *pi, u8 tc,
- enum ice_rl_type rl_type, u32 bw)
+static u8
+ice_sched_get_rl_prof_layer(struct ice_port_info *pi, enum ice_rl_type rl_type,
+ u8 layer_index)
{
struct ice_hw *hw = pi->hw;
- if (tc >= ICE_MAX_TRAFFIC_CLASS)
- return ICE_ERR_PARAM;
+ if (layer_index >= hw->num_tx_sched_layers)
+ return ICE_SCHED_INVAL_LAYER_NUM;
switch (rl_type) {
case ICE_MIN_BW:
- ice_set_clear_cir_bw(&hw->tc_node_bw_t_info[tc], bw);
+ if (hw->layer_info[layer_index].max_cir_rl_profiles)
+ return layer_index;
break;
case ICE_MAX_BW:
- ice_set_clear_eir_bw(&hw->tc_node_bw_t_info[tc], bw);
+ if (hw->layer_info[layer_index].max_eir_rl_profiles)
+ return layer_index;
break;
case ICE_SHARED_BW:
- ice_set_clear_shared_bw(&hw->tc_node_bw_t_info[tc], bw);
+ /* if current layer doesn't support SRL profile creation
+ * then try a layer up or down.
+ */
+ if (hw->layer_info[layer_index].max_srl_profiles)
+ return layer_index;
+ else if (layer_index < hw->num_tx_sched_layers - 1 &&
+ hw->layer_info[layer_index + 1].max_srl_profiles)
+ return layer_index + 1;
+ else if (layer_index > 0 &&
+ hw->layer_info[layer_index - 1].max_srl_profiles)
+ return layer_index - 1;
break;
default:
- return ICE_ERR_PARAM;
+ break;
}
- return ICE_SUCCESS;
+ return ICE_SCHED_INVAL_LAYER_NUM;
}
/**
- * ice_sched_set_tc_node_bw_lmt - sets TC node BW limit
+ * ice_sched_get_srl_node - get shared rate limit node
+ * @node: tree node
+ * @srl_layer: shared rate limit layer
+ *
+ * This function returns SRL node to be used for shared rate limit purpose.
+ * The caller needs to hold scheduler lock.
+ */
+static struct ice_sched_node *
+ice_sched_get_srl_node(struct ice_sched_node *node, u8 srl_layer)
+{
+ if (srl_layer > node->tx_sched_layer)
+ return node->children[0];
+ else if (srl_layer < node->tx_sched_layer)
+ /* Node can't be created without a parent. It will always
+ * have a valid parent except root node.
+ */
+ return node->parent;
+ else
+ return node;
+}
+
+/**
+ * ice_sched_rm_rl_profile - remove RL profile ID
* @pi: port information structure
- * @tc: TC number
- * @rl_type: min or max
- * @bw: bandwidth in Kbps
+ * @layer_num: layer number where profiles are saved
+ * @profile_type: profile type like EIR, CIR, or SRL
+ * @profile_id: profile ID to remove
*
- * This function configures bandwidth limit of TC node.
+ * This function removes rate limit profile from layer 'layer_num' of type
+ * 'profile_type' and profile ID as 'profile_id'. The caller needs to hold
+ * scheduler lock.
*/
static enum ice_status
-ice_sched_set_tc_node_bw_lmt(struct ice_port_info *pi, u8 tc,
- enum ice_rl_type rl_type, u32 bw)
+ice_sched_rm_rl_profile(struct ice_port_info *pi, u8 layer_num, u8 profile_type,
+ u16 profile_id)
{
- enum ice_status status = ICE_ERR_PARAM;
- struct ice_sched_node *tc_node;
+ struct ice_aqc_rl_profile_info *rl_prof_elem;
+ enum ice_status status = ICE_SUCCESS;
- if (tc >= ICE_MAX_TRAFFIC_CLASS)
- return status;
- ice_acquire_lock(&pi->sched_lock);
- tc_node = ice_sched_get_tc_node(pi, tc);
- if (!tc_node)
- goto exit_set_tc_node_bw;
- if (bw == ICE_SCHED_DFLT_BW)
- status = ice_sched_set_node_bw_dflt_lmt(pi, tc_node, rl_type);
- else
- status = ice_sched_set_node_bw_lmt(pi, tc_node, rl_type, bw);
- if (!status)
- status = ice_sched_save_tc_node_bw(pi, tc, rl_type, bw);
+ if (layer_num >= ICE_AQC_TOPO_MAX_LEVEL_NUM)
+ return ICE_ERR_PARAM;
+ /* Check the existing list for RL profile */
+ LIST_FOR_EACH_ENTRY(rl_prof_elem, &pi->rl_prof_list[layer_num],
+ ice_aqc_rl_profile_info, list_entry)
+ if ((rl_prof_elem->profile.flags & ICE_AQC_RL_PROFILE_TYPE_M) ==
+ profile_type &&
+ LE16_TO_CPU(rl_prof_elem->profile.profile_id) ==
+ profile_id) {
+ if (rl_prof_elem->prof_id_ref)
+ rl_prof_elem->prof_id_ref--;
-exit_set_tc_node_bw:
- ice_release_lock(&pi->sched_lock);
+ /* Remove old profile ID from database */
+ status = ice_sched_del_rl_profile(pi->hw, rl_prof_elem);
+ if (status && status != ICE_ERR_IN_USE)
+ ice_debug(pi->hw, ICE_DBG_SCHED,
+ "Remove rl profile failed\n");
+ break;
+ }
+ if (status == ICE_ERR_IN_USE)
+ status = ICE_SUCCESS;
return status;
}
/**
- * ice_cfg_tc_node_bw_lmt - configure TC node BW limit
+ * ice_sched_set_node_bw_dflt - set node's bandwidth limit to default
* @pi: port information structure
- * @tc: TC number
- * @rl_type: min or max
- * @bw: bandwidth in Kbps
+ * @node: pointer to node structure
+ * @rl_type: rate limit type min, max, or shared
+ * @layer_num: layer number where RL profiles are saved
*
- * This function configures BW limit of TC node.
- * Note: The minimum guaranteed reservation is done via DCBX.
+ * This function configures node element's BW rate limit profile ID of
+ * type CIR, EIR, or SRL to default. This function needs to be called
+ * with the scheduler lock held.
*/
-enum ice_status
-ice_cfg_tc_node_bw_lmt(struct ice_port_info *pi, u8 tc,
- enum ice_rl_type rl_type, u32 bw)
+static enum ice_status
+ice_sched_set_node_bw_dflt(struct ice_port_info *pi,
+ struct ice_sched_node *node,
+ enum ice_rl_type rl_type, u8 layer_num)
{
- return ice_sched_set_tc_node_bw_lmt(pi, tc, rl_type, bw);
+ enum ice_status status;
+ struct ice_hw *hw;
+ u8 profile_type;
+ u16 rl_prof_id;
+ u16 old_id;
+
+ hw = pi->hw;
+ switch (rl_type) {
+ case ICE_MIN_BW:
+ profile_type = ICE_AQC_RL_PROFILE_TYPE_CIR;
+ rl_prof_id = ICE_SCHED_DFLT_RL_PROF_ID;
+ break;
+ case ICE_MAX_BW:
+ profile_type = ICE_AQC_RL_PROFILE_TYPE_EIR;
+ rl_prof_id = ICE_SCHED_DFLT_RL_PROF_ID;
+ break;
+ case ICE_SHARED_BW:
+ profile_type = ICE_AQC_RL_PROFILE_TYPE_SRL;
+ /* No SRL is configured for default case */
+ rl_prof_id = ICE_SCHED_NO_SHARED_RL_PROF_ID;
+ break;
+ default:
+ return ICE_ERR_PARAM;
+ }
+ /* Save existing RL prof ID for later clean up */
+ old_id = ice_sched_get_node_rl_prof_id(node, rl_type);
+ /* Configure BW scheduling parameters */
+ status = ice_sched_cfg_node_bw_lmt(hw, node, rl_type, rl_prof_id);
+ if (status)
+ return status;
+
+ /* Remove stale RL profile ID */
+ if (old_id == ICE_SCHED_DFLT_RL_PROF_ID ||
+ old_id == ICE_SCHED_INVAL_PROF_ID)
+ return ICE_SUCCESS;
+
+ return ice_sched_rm_rl_profile(pi, layer_num, profile_type, old_id);
}
/**
- * ice_cfg_tc_node_bw_dflt_lmt - configure TC node BW default limit
+ * ice_sched_set_eir_srl_excl - set EIR/SRL exclusiveness
* @pi: port information structure
- * @tc: TC number
- * @rl_type: min or max
+ * @node: pointer to node structure
+ * @layer_num: layer number where rate limit profiles are saved
+ * @rl_type: rate limit type min, max, or shared
+ * @bw: bandwidth value
*
- * This function configures BW default limit of TC node.
+ * This function prepares node element's bandwidth to SRL or EIR exclusively.
+ * EIR BW and Shared BW profiles are mutually exclusive and hence only one of
+ * them may be set for any given element. This function needs to be called
+ * with the scheduler lock held.
*/
-enum ice_status
-ice_cfg_tc_node_bw_dflt_lmt(struct ice_port_info *pi, u8 tc,
- enum ice_rl_type rl_type)
+static enum ice_status
+ice_sched_set_eir_srl_excl(struct ice_port_info *pi,
+ struct ice_sched_node *node,
+ u8 layer_num, enum ice_rl_type rl_type, u32 bw)
{
- return ice_sched_set_tc_node_bw_lmt(pi, tc, rl_type, ICE_SCHED_DFLT_BW);
+ if (rl_type == ICE_SHARED_BW) {
+ /* SRL node passed in this case, it may be different node */
+ if (bw == ICE_SCHED_DFLT_BW)
+ /* SRL being removed, ice_sched_cfg_node_bw_lmt()
+ * enables EIR to default. EIR is not set in this
+ * case, so no additional action is required.
+ */
+ return ICE_SUCCESS;
+
+ /* SRL being configured, set EIR to default here.
+ * ice_sched_cfg_node_bw_lmt() disables EIR when it
+ * configures SRL
+ */
+ return ice_sched_set_node_bw_dflt(pi, node, ICE_MAX_BW,
+ layer_num);
+ } else if (rl_type == ICE_MAX_BW &&
+ node->info.data.valid_sections & ICE_AQC_ELEM_VALID_SHARED) {
+ /* Remove Shared profile. Set default shared BW call
+ * removes shared profile for a node.
+ */
+ return ice_sched_set_node_bw_dflt(pi, node,
+ ICE_SHARED_BW,
+ layer_num);
+ }
+ return ICE_SUCCESS;
}
/**
- * ice_sched_save_tc_node_bw_alloc - save TC node's BW alloc information
+ * ice_sched_set_node_bw - set node's bandwidth
* @pi: port information structure
- * @tc: traffic class
- * @rl_type: rate limit type min or max
- * @bw_alloc: Bandwidth allocation information
+ * @node: tree node
+ * @rl_type: rate limit type min, max, or shared
+ * @bw: bandwidth in Kbps - Kilo bits per sec
+ * @layer_num: layer number
*
- * Save BW alloc information of VSI type node for post replay use.
+ * This function adds new profile corresponding to requested BW, configures
+ * node's RL profile ID of type CIR, EIR, or SRL, and removes old profile
+ * ID from local database. The caller needs to hold scheduler lock.
*/
static enum ice_status
-ice_sched_save_tc_node_bw_alloc(struct ice_port_info *pi, u8 tc,
- enum ice_rl_type rl_type, u16 bw_alloc)
+ice_sched_set_node_bw(struct ice_port_info *pi, struct ice_sched_node *node,
+ enum ice_rl_type rl_type, u32 bw, u8 layer_num)
{
+ struct ice_aqc_rl_profile_info *rl_prof_info;
+ enum ice_status status = ICE_ERR_PARAM;
struct ice_hw *hw = pi->hw;
+ u16 old_id, rl_prof_id;
- if (tc >= ICE_MAX_TRAFFIC_CLASS)
- return ICE_ERR_PARAM;
- switch (rl_type) {
- case ICE_MIN_BW:
- ice_set_clear_cir_bw_alloc(&hw->tc_node_bw_t_info[tc],
- bw_alloc);
- break;
- case ICE_MAX_BW:
- ice_set_clear_eir_bw_alloc(&hw->tc_node_bw_t_info[tc],
- bw_alloc);
- break;
- default:
- return ICE_ERR_PARAM;
- }
- return ICE_SUCCESS;
+ rl_prof_info = ice_sched_add_rl_profile(pi, rl_type, bw, layer_num);
+ if (!rl_prof_info)
+ return status;
+
+ rl_prof_id = LE16_TO_CPU(rl_prof_info->profile.profile_id);
+
+ /* Save existing RL prof ID for later clean up */
+ old_id = ice_sched_get_node_rl_prof_id(node, rl_type);
+ /* Configure BW scheduling parameters */
+ status = ice_sched_cfg_node_bw_lmt(hw, node, rl_type, rl_prof_id);
+ if (status)
+ return status;
+
+ /* New changes has been applied */
+ /* Increment the profile ID reference count */
+ rl_prof_info->prof_id_ref++;
+
+ /* Check for old ID removal */
+ if ((old_id == ICE_SCHED_DFLT_RL_PROF_ID && rl_type != ICE_SHARED_BW) ||
+ old_id == ICE_SCHED_INVAL_PROF_ID || old_id == rl_prof_id)
+ return ICE_SUCCESS;
+
+ return ice_sched_rm_rl_profile(pi, layer_num,
+ rl_prof_info->profile.flags &
+ ICE_AQC_RL_PROFILE_TYPE_M, old_id);
}
/**
- * ice_sched_set_tc_node_bw_alloc - set TC node BW alloc
+ * ice_sched_set_node_bw_lmt - set node's BW limit
* @pi: port information structure
- * @tc: TC number
- * @rl_type: min or max
- * @bw_alloc: bandwidth alloc
+ * @node: tree node
+ * @rl_type: rate limit type min, max, or shared
+ * @bw: bandwidth in Kbps - Kilo bits per sec
*
- * This function configures bandwidth alloc of TC node, also saves the
- * changed settings for replay purpose, and return success if it succeeds
- * in modifying bandwidth alloc setting.
+ * It updates node's BW limit parameters like BW RL profile ID of type CIR,
+ * EIR, or SRL. The caller needs to hold scheduler lock.
*/
static enum ice_status
-ice_sched_set_tc_node_bw_alloc(struct ice_port_info *pi, u8 tc,
- enum ice_rl_type rl_type, u8 bw_alloc)
+ice_sched_set_node_bw_lmt(struct ice_port_info *pi, struct ice_sched_node *node,
+ enum ice_rl_type rl_type, u32 bw)
{
- enum ice_status status = ICE_ERR_PARAM;
- struct ice_sched_node *tc_node;
+ struct ice_sched_node *cfg_node = node;
+ enum ice_status status;
- if (tc >= ICE_MAX_TRAFFIC_CLASS)
- return status;
- ice_acquire_lock(&pi->sched_lock);
- tc_node = ice_sched_get_tc_node(pi, tc);
- if (!tc_node)
- goto exit_set_tc_node_bw_alloc;
- status = ice_sched_cfg_node_bw_alloc(pi->hw, tc_node, rl_type,
- bw_alloc);
- if (status)
- goto exit_set_tc_node_bw_alloc;
- status = ice_sched_save_tc_node_bw_alloc(pi, tc, rl_type, bw_alloc);
+ struct ice_hw *hw;
+ u8 layer_num;
-exit_set_tc_node_bw_alloc:
- ice_release_lock(&pi->sched_lock);
- return status;
+ if (!pi)
+ return ICE_ERR_PARAM;
+ hw = pi->hw;
+ /* Remove unused RL profile IDs from HW and SW DB */
+ ice_sched_rm_unused_rl_prof(pi);
+ layer_num = ice_sched_get_rl_prof_layer(pi, rl_type,
+ node->tx_sched_layer);
+ if (layer_num >= hw->num_tx_sched_layers)
+ return ICE_ERR_PARAM;
+
+ if (rl_type == ICE_SHARED_BW) {
+ /* SRL node may be different */
+ cfg_node = ice_sched_get_srl_node(node, layer_num);
+ if (!cfg_node)
+ return ICE_ERR_CFG;
+ }
+ /* EIR BW and Shared BW profiles are mutually exclusive and
+ * hence only one of them may be set for any given element
+ */
+ status = ice_sched_set_eir_srl_excl(pi, cfg_node, layer_num, rl_type,
+ bw);
+ if (status)
+ return status;
+ if (bw == ICE_SCHED_DFLT_BW)
+ return ice_sched_set_node_bw_dflt(pi, cfg_node, rl_type,
+ layer_num);
+ return ice_sched_set_node_bw(pi, cfg_node, rl_type, bw, layer_num);
}
/**
- * ice_cfg_tc_node_bw_alloc - configure TC node BW alloc
+ * ice_sched_set_node_bw_dflt_lmt - set node's BW limit to default
* @pi: port information structure
- * @tc: TC number
- * @rl_type: min or max
- * @bw_alloc: bandwidth alloc
+ * @node: pointer to node structure
+ * @rl_type: rate limit type min, max, or shared
*
- * This function configures BW limit of TC node.
- * Note: The minimum guaranteed reservation is done via DCBX.
+ * This function configures node element's BW rate limit profile ID of
+ * type CIR, EIR, or SRL to default. This function needs to be called
+ * with the scheduler lock held.
*/
-enum ice_status
-ice_cfg_tc_node_bw_alloc(struct ice_port_info *pi, u8 tc,
- enum ice_rl_type rl_type, u8 bw_alloc)
+static enum ice_status
+ice_sched_set_node_bw_dflt_lmt(struct ice_port_info *pi,
+ struct ice_sched_node *node,
+ enum ice_rl_type rl_type)
{
- return ice_sched_set_tc_node_bw_alloc(pi, tc, rl_type, bw_alloc);
+ return ice_sched_set_node_bw_lmt(pi, node, rl_type,
+ ICE_SCHED_DFLT_BW);
}
/**
- * ice_sched_set_agg_bw_dflt_lmt - set aggregator node's BW limit to default
- * @pi: port information structure
- * @vsi_handle: software VSI handle
+ * ice_sched_validate_srl_node - Check node for SRL applicability
+ * @node: sched node to configure
+ * @sel_layer: selected SRL layer
*
- * This function retrieves the aggregator ID based on VSI ID and TC,
- * and sets node's BW limit to default. This function needs to be
- * called with the scheduler lock held.
+ * This function checks if the SRL can be applied to a selceted layer node on
+ * behalf of the requested node (first argument). This function needs to be
+ * called with scheduler lock held.
*/
-enum ice_status
-ice_sched_set_agg_bw_dflt_lmt(struct ice_port_info *pi, u16 vsi_handle)
+static enum ice_status
+ice_sched_validate_srl_node(struct ice_sched_node *node, u8 sel_layer)
{
- struct ice_vsi_ctx *vsi_ctx;
- enum ice_status status = ICE_SUCCESS;
- u8 tc;
-
- if (!ice_is_vsi_valid(pi->hw, vsi_handle))
- return ICE_ERR_PARAM;
- vsi_ctx = ice_get_vsi_ctx(pi->hw, vsi_handle);
- if (!vsi_ctx)
- return ICE_ERR_PARAM;
-
- ice_for_each_traffic_class(tc) {
- struct ice_sched_node *node;
-
- node = vsi_ctx->sched.ag_node[tc];
- if (!node)
- continue;
-
- /* Set min profile to default */
- status = ice_sched_set_node_bw_dflt_lmt(pi, node, ICE_MIN_BW);
- if (status)
- break;
-
- /* Set max profile to default */
- status = ice_sched_set_node_bw_dflt_lmt(pi, node, ICE_MAX_BW);
- if (status)
- break;
-
- /* Remove shared profile, if there is one */
- status = ice_sched_set_node_bw_dflt_lmt(pi, node,
- ICE_SHARED_BW);
- if (status)
- break;
- }
+ /* SRL profiles are not available on all layers. Check if the
+ * SRL profile can be applied to a node above or below the
+ * requested node. SRL configuration is possible only if the
+ * selected layer's node has single child.
+ */
+ if (sel_layer == node->tx_sched_layer ||
+ ((sel_layer == node->tx_sched_layer + 1) &&
+ node->num_children == 1) ||
+ ((sel_layer == node->tx_sched_layer - 1) &&
+ (node->parent && node->parent->num_children == 1)))
+ return ICE_SUCCESS;
- return status;
+ return ICE_ERR_CFG;
}
/**
- * ice_sched_get_node_by_id_type - get node from ID type
- * @pi: port information structure
- * @id: identifier
- * @agg_type: type of aggregator
- * @tc: traffic class
+ * ice_sched_save_q_bw - save queue node's BW information
+ * @q_ctx: queue context structure
+ * @rl_type: rate limit type min, max, or shared
+ * @bw: bandwidth in Kbps - Kilo bits per sec
*
- * This function returns node identified by ID of type aggregator, and
- * based on traffic class (TC). This function needs to be called with
- * the scheduler lock held.
+ * Save BW information of queue type node for post replay use.
*/
-static struct ice_sched_node *
-ice_sched_get_node_by_id_type(struct ice_port_info *pi, u32 id,
- enum ice_agg_type agg_type, u8 tc)
+static enum ice_status
+ice_sched_save_q_bw(struct ice_q_ctx *q_ctx, enum ice_rl_type rl_type, u32 bw)
{
- struct ice_sched_node *node = NULL;
- struct ice_sched_node *child_node;
-
- switch (agg_type) {
- case ICE_AGG_TYPE_VSI: {
- struct ice_vsi_ctx *vsi_ctx;
- u16 vsi_handle = (u16)id;
-
- if (!ice_is_vsi_valid(pi->hw, vsi_handle))
- break;
- /* Get sched_vsi_info */
- vsi_ctx = ice_get_vsi_ctx(pi->hw, vsi_handle);
- if (!vsi_ctx)
- break;
- node = vsi_ctx->sched.vsi_node[tc];
- break;
- }
-
- case ICE_AGG_TYPE_AGG: {
- struct ice_sched_node *tc_node;
-
- tc_node = ice_sched_get_tc_node(pi, tc);
- if (tc_node)
- node = ice_sched_get_agg_node(pi->hw, tc_node, id);
- break;
- }
-
- case ICE_AGG_TYPE_Q:
- /* The current implementation allows single queue to modify */
- node = ice_sched_get_node(pi, id);
- break;
-
- case ICE_AGG_TYPE_QG:
- /* The current implementation allows single qg to modify */
- child_node = ice_sched_get_node(pi, id);
- if (!child_node)
- break;
- node = child_node->parent;
+ switch (rl_type) {
+ case ICE_MIN_BW:
+ ice_set_clear_cir_bw(&q_ctx->bw_t_info, bw);
break;
-
- default:
+ case ICE_MAX_BW:
+ ice_set_clear_eir_bw(&q_ctx->bw_t_info, bw);
+ break;
+ case ICE_SHARED_BW:
+ ice_set_clear_shared_bw(&q_ctx->bw_t_info, bw);
break;
+ default:
+ return ICE_ERR_PARAM;
}
-
- return node;
+ return ICE_SUCCESS;
}
/**
- * ice_sched_set_node_bw_lmt_per_tc - set node BW limit per TC
+ * ice_sched_set_q_bw_lmt - sets queue BW limit
* @pi: port information structure
- * @id: ID (software VSI handle or AGG ID)
- * @agg_type: aggregator type (VSI or AGG type node)
+ * @vsi_handle: sw VSI handle
* @tc: traffic class
- * @rl_type: min or max
+ * @q_handle: software queue handle
+ * @rl_type: min, max, or shared
* @bw: bandwidth in Kbps
*
- * This function sets BW limit of VSI or Aggregator scheduling node
- * based on TC information from passed in argument BW.
+ * This function sets BW limit of queue scheduling node.
*/
-enum ice_status
-ice_sched_set_node_bw_lmt_per_tc(struct ice_port_info *pi, u32 id,
- enum ice_agg_type agg_type, u8 tc,
- enum ice_rl_type rl_type, u32 bw)
+static enum ice_status
+ice_sched_set_q_bw_lmt(struct ice_port_info *pi, u16 vsi_handle, u8 tc,
+ u16 q_handle, enum ice_rl_type rl_type, u32 bw)
{
enum ice_status status = ICE_ERR_PARAM;
struct ice_sched_node *node;
+ struct ice_q_ctx *q_ctx;
- if (!pi)
- return status;
-
- if (rl_type == ICE_UNKNOWN_BW)
- return status;
-
+ if (!ice_is_vsi_valid(pi->hw, vsi_handle))
+ return ICE_ERR_PARAM;
ice_acquire_lock(&pi->sched_lock);
- node = ice_sched_get_node_by_id_type(pi, id, agg_type, tc);
+ q_ctx = ice_get_lan_q_ctx(pi->hw, vsi_handle, tc, q_handle);
+ if (!q_ctx)
+ goto exit_q_bw_lmt;
+ node = ice_sched_find_node_by_teid(pi->root, q_ctx->q_teid);
if (!node) {
- ice_debug(pi->hw, ICE_DBG_SCHED, "Wrong id, agg type, or tc\n");
- goto exit_set_node_bw_lmt_per_tc;
+ ice_debug(pi->hw, ICE_DBG_SCHED, "Wrong q_teid\n");
+ goto exit_q_bw_lmt;
+ }
+
+ /* Return error if it is not a leaf node */
+ if (node->info.data.elem_type != ICE_AQC_ELEM_TYPE_LEAF)
+ goto exit_q_bw_lmt;
+
+ /* SRL bandwidth layer selection */
+ if (rl_type == ICE_SHARED_BW) {
+ u8 sel_layer; /* selected layer */
+
+ sel_layer = ice_sched_get_rl_prof_layer(pi, rl_type,
+ node->tx_sched_layer);
+ if (sel_layer >= pi->hw->num_tx_sched_layers) {
+ status = ICE_ERR_PARAM;
+ goto exit_q_bw_lmt;
+ }
+ status = ice_sched_validate_srl_node(node, sel_layer);
+ if (status)
+ goto exit_q_bw_lmt;
}
+
if (bw == ICE_SCHED_DFLT_BW)
status = ice_sched_set_node_bw_dflt_lmt(pi, node, rl_type);
else
status = ice_sched_set_node_bw_lmt(pi, node, rl_type, bw);
-exit_set_node_bw_lmt_per_tc:
+ if (!status)
+ status = ice_sched_save_q_bw(q_ctx, rl_type, bw);
+
+exit_q_bw_lmt:
ice_release_lock(&pi->sched_lock);
return status;
}
/**
- * ice_sched_validate_vsi_srl_node - validate VSI SRL node
+ * ice_cfg_q_bw_lmt - configure queue BW limit
* @pi: port information structure
- * @vsi_handle: software VSI handle
+ * @vsi_handle: sw VSI handle
+ * @tc: traffic class
+ * @q_handle: software queue handle
+ * @rl_type: min, max, or shared
+ * @bw: bandwidth in Kbps
*
- * This function validates SRL node of the VSI node if available SRL layer is
- * different than the VSI node layer on all TC(s).This function needs to be
- * called with scheduler lock held.
+ * This function configures BW limit of queue scheduling node.
*/
-static enum ice_status
-ice_sched_validate_vsi_srl_node(struct ice_port_info *pi, u16 vsi_handle)
+enum ice_status
+ice_cfg_q_bw_lmt(struct ice_port_info *pi, u16 vsi_handle, u8 tc,
+ u16 q_handle, enum ice_rl_type rl_type, u32 bw)
{
- u8 sel_layer = ICE_SCHED_INVAL_LAYER_NUM;
- u8 tc;
-
- if (!ice_is_vsi_valid(pi->hw, vsi_handle))
- return ICE_ERR_PARAM;
-
- /* Return success if no nodes are present across TC */
- ice_for_each_traffic_class(tc) {
- struct ice_sched_node *tc_node, *vsi_node;
- enum ice_rl_type rl_type = ICE_SHARED_BW;
- enum ice_status status;
-
- tc_node = ice_sched_get_tc_node(pi, tc);
- if (!tc_node)
- continue;
-
- vsi_node = ice_sched_get_vsi_node(pi->hw, tc_node, vsi_handle);
- if (!vsi_node)
- continue;
-
- /* SRL bandwidth layer selection */
- if (sel_layer == ICE_SCHED_INVAL_LAYER_NUM) {
- u8 node_layer = vsi_node->tx_sched_layer;
- u8 layer_num;
-
- layer_num = ice_sched_get_rl_prof_layer(pi, rl_type,
- node_layer);
- if (layer_num >= pi->hw->num_tx_sched_layers)
- return ICE_ERR_PARAM;
- sel_layer = layer_num;
- }
-
- status = ice_sched_validate_srl_node(vsi_node, sel_layer);
- if (status)
- return status;
- }
- return ICE_SUCCESS;
+ return ice_sched_set_q_bw_lmt(pi, vsi_handle, tc, q_handle, rl_type,
+ bw);
}
/**
- * ice_sched_set_vsi_bw_shared_lmt - set VSI BW shared limit
+ * ice_cfg_q_bw_dflt_lmt - configure queue BW default limit
* @pi: port information structure
- * @vsi_handle: software VSI handle
- * @bw: bandwidth in Kbps
+ * @vsi_handle: sw VSI handle
+ * @tc: traffic class
+ * @q_handle: software queue handle
+ * @rl_type: min, max, or shared
*
- * This function Configures shared rate limiter(SRL) of all VSI type nodes
- * across all traffic classes for VSI matching handle. When BW value of
- * ICE_SCHED_DFLT_BW is passed, it removes the SRL from the node.
+ * This function configures BW default limit of queue scheduling node.
*/
enum ice_status
-ice_sched_set_vsi_bw_shared_lmt(struct ice_port_info *pi, u16 vsi_handle,
- u32 bw)
+ice_cfg_q_bw_dflt_lmt(struct ice_port_info *pi, u16 vsi_handle, u8 tc,
+ u16 q_handle, enum ice_rl_type rl_type)
{
- enum ice_status status = ICE_SUCCESS;
- u8 tc;
+ return ice_sched_set_q_bw_lmt(pi, vsi_handle, tc, q_handle, rl_type,
+ ICE_SCHED_DFLT_BW);
+}
- if (!pi)
+/**
+ * ice_sched_save_tc_node_bw - save TC node BW limit
+ * @pi: port information structure
+ * @tc: TC number
+ * @rl_type: min or max
+ * @bw: bandwidth in Kbps
+ *
+ * This function saves the modified values of bandwidth settings for later
+ * replay purpose (restore) after reset.
+ */
+static enum ice_status
+ice_sched_save_tc_node_bw(struct ice_port_info *pi, u8 tc,
+ enum ice_rl_type rl_type, u32 bw)
+{
+ if (tc >= ICE_MAX_TRAFFIC_CLASS)
return ICE_ERR_PARAM;
-
- if (!ice_is_vsi_valid(pi->hw, vsi_handle))
+ switch (rl_type) {
+ case ICE_MIN_BW:
+ ice_set_clear_cir_bw(&pi->tc_node_bw_t_info[tc], bw);
+ break;
+ case ICE_MAX_BW:
+ ice_set_clear_eir_bw(&pi->tc_node_bw_t_info[tc], bw);
+ break;
+ case ICE_SHARED_BW:
+ ice_set_clear_shared_bw(&pi->tc_node_bw_t_info[tc], bw);
+ break;
+ default:
return ICE_ERR_PARAM;
-
- ice_acquire_lock(&pi->sched_lock);
- status = ice_sched_validate_vsi_srl_node(pi, vsi_handle);
- if (status)
- goto exit_set_vsi_bw_shared_lmt;
- /* Return success if no nodes are present across TC */
- ice_for_each_traffic_class(tc) {
- struct ice_sched_node *tc_node, *vsi_node;
- enum ice_rl_type rl_type = ICE_SHARED_BW;
-
- tc_node = ice_sched_get_tc_node(pi, tc);
- if (!tc_node)
- continue;
-
- vsi_node = ice_sched_get_vsi_node(pi->hw, tc_node, vsi_handle);
- if (!vsi_node)
- continue;
-
- if (bw == ICE_SCHED_DFLT_BW)
- /* It removes existing SRL from the node */
- status = ice_sched_set_node_bw_dflt_lmt(pi, vsi_node,
- rl_type);
- else
- status = ice_sched_set_node_bw_lmt(pi, vsi_node,
- rl_type, bw);
- if (status)
- break;
- status = ice_sched_save_vsi_bw(pi, vsi_handle, tc, rl_type, bw);
- if (status)
- break;
}
-
-exit_set_vsi_bw_shared_lmt:
- ice_release_lock(&pi->sched_lock);
- return status;
+ return ICE_SUCCESS;
}
/**
- * ice_sched_validate_agg_srl_node - validate AGG SRL node
+ * ice_sched_set_tc_node_bw_lmt - sets TC node BW limit
* @pi: port information structure
- * @agg_id: aggregator ID
+ * @tc: TC number
+ * @rl_type: min or max
+ * @bw: bandwidth in Kbps
*
- * This function validates SRL node of the AGG node if available SRL layer is
- * different than the AGG node layer on all TC(s).This function needs to be
- * called with scheduler lock held.
+ * This function configures bandwidth limit of TC node.
*/
static enum ice_status
-ice_sched_validate_agg_srl_node(struct ice_port_info *pi, u32 agg_id)
+ice_sched_set_tc_node_bw_lmt(struct ice_port_info *pi, u8 tc,
+ enum ice_rl_type rl_type, u32 bw)
{
- u8 sel_layer = ICE_SCHED_INVAL_LAYER_NUM;
- struct ice_sched_agg_info *agg_info;
- bool agg_id_present = false;
- enum ice_status status = ICE_SUCCESS;
- u8 tc;
-
- LIST_FOR_EACH_ENTRY(agg_info, &pi->hw->agg_list, ice_sched_agg_info,
- list_entry)
- if (agg_info->agg_id == agg_id) {
- agg_id_present = true;
- break;
- }
- if (!agg_id_present)
- return ICE_ERR_PARAM;
- /* Return success if no nodes are present across TC */
- ice_for_each_traffic_class(tc) {
- struct ice_sched_node *tc_node, *agg_node;
- enum ice_rl_type rl_type = ICE_SHARED_BW;
-
- tc_node = ice_sched_get_tc_node(pi, tc);
- if (!tc_node)
- continue;
-
- agg_node = ice_sched_get_agg_node(pi->hw, tc_node, agg_id);
- if (!agg_node)
- continue;
- /* SRL bandwidth layer selection */
- if (sel_layer == ICE_SCHED_INVAL_LAYER_NUM) {
- u8 node_layer = agg_node->tx_sched_layer;
- u8 layer_num;
-
- layer_num = ice_sched_get_rl_prof_layer(pi, rl_type,
- node_layer);
- if (layer_num >= pi->hw->num_tx_sched_layers)
- return ICE_ERR_PARAM;
- sel_layer = layer_num;
- }
+ enum ice_status status = ICE_ERR_PARAM;
+ struct ice_sched_node *tc_node;
- status = ice_sched_validate_srl_node(agg_node, sel_layer);
- if (status)
- break;
- }
+ if (tc >= ICE_MAX_TRAFFIC_CLASS)
+ return status;
+ ice_acquire_lock(&pi->sched_lock);
+ tc_node = ice_sched_get_tc_node(pi, tc);
+ if (!tc_node)
+ goto exit_set_tc_node_bw;
+ if (bw == ICE_SCHED_DFLT_BW)
+ status = ice_sched_set_node_bw_dflt_lmt(pi, tc_node, rl_type);
+ else
+ status = ice_sched_set_node_bw_lmt(pi, tc_node, rl_type, bw);
+ if (!status)
+ status = ice_sched_save_tc_node_bw(pi, tc, rl_type, bw);
+
+exit_set_tc_node_bw:
+ ice_release_lock(&pi->sched_lock);
return status;
}
/**
- * ice_sched_set_agg_bw_shared_lmt - set aggregator BW shared limit
+ * ice_cfg_tc_node_bw_lmt - configure TC node BW limit
* @pi: port information structure
- * @agg_id: aggregator ID
+ * @tc: TC number
+ * @rl_type: min or max
* @bw: bandwidth in Kbps
*
- * This function configures the shared rate limiter(SRL) of all aggregator type
- * nodes across all traffic classes for aggregator matching agg_id. When
- * BW value of ICE_SCHED_DFLT_BW is passed, it removes SRL from the
- * node(s).
+ * This function configures BW limit of TC node.
+ * Note: The minimum guaranteed reservation is done via DCBX.
*/
enum ice_status
-ice_sched_set_agg_bw_shared_lmt(struct ice_port_info *pi, u32 agg_id, u32 bw)
+ice_cfg_tc_node_bw_lmt(struct ice_port_info *pi, u8 tc,
+ enum ice_rl_type rl_type, u32 bw)
{
- struct ice_sched_agg_info *agg_info;
- struct ice_sched_agg_info *tmp;
- bool agg_id_present = false;
- enum ice_status status = ICE_SUCCESS;
- u8 tc;
-
- if (!pi)
- return ICE_ERR_PARAM;
-
- ice_acquire_lock(&pi->sched_lock);
- status = ice_sched_validate_agg_srl_node(pi, agg_id);
- if (status)
- goto exit_agg_bw_shared_lmt;
+ return ice_sched_set_tc_node_bw_lmt(pi, tc, rl_type, bw);
+}
- LIST_FOR_EACH_ENTRY_SAFE(agg_info, tmp, &pi->hw->agg_list,
- ice_sched_agg_info, list_entry)
- if (agg_info->agg_id == agg_id) {
- agg_id_present = true;
- break;
- }
+/**
+ * ice_cfg_tc_node_bw_dflt_lmt - configure TC node BW default limit
+ * @pi: port information structure
+ * @tc: TC number
+ * @rl_type: min or max
+ *
+ * This function configures BW default limit of TC node.
+ */
+enum ice_status
+ice_cfg_tc_node_bw_dflt_lmt(struct ice_port_info *pi, u8 tc,
+ enum ice_rl_type rl_type)
+{
+ return ice_sched_set_tc_node_bw_lmt(pi, tc, rl_type, ICE_SCHED_DFLT_BW);
+}
- if (!agg_id_present) {
- status = ICE_ERR_PARAM;
- goto exit_agg_bw_shared_lmt;
+/**
+ * ice_sched_save_tc_node_bw_alloc - save TC node's BW alloc information
+ * @pi: port information structure
+ * @tc: traffic class
+ * @rl_type: rate limit type min or max
+ * @bw_alloc: Bandwidth allocation information
+ *
+ * Save BW alloc information of VSI type node for post replay use.
+ */
+static enum ice_status
+ice_sched_save_tc_node_bw_alloc(struct ice_port_info *pi, u8 tc,
+ enum ice_rl_type rl_type, u16 bw_alloc)
+{
+ if (tc >= ICE_MAX_TRAFFIC_CLASS)
+ return ICE_ERR_PARAM;
+ switch (rl_type) {
+ case ICE_MIN_BW:
+ ice_set_clear_cir_bw_alloc(&pi->tc_node_bw_t_info[tc],
+ bw_alloc);
+ break;
+ case ICE_MAX_BW:
+ ice_set_clear_eir_bw_alloc(&pi->tc_node_bw_t_info[tc],
+ bw_alloc);
+ break;
+ default:
+ return ICE_ERR_PARAM;
}
+ return ICE_SUCCESS;
+}
- /* Return success if no nodes are present across TC */
- ice_for_each_traffic_class(tc) {
- enum ice_rl_type rl_type = ICE_SHARED_BW;
- struct ice_sched_node *tc_node, *agg_node;
-
- tc_node = ice_sched_get_tc_node(pi, tc);
- if (!tc_node)
- continue;
-
- agg_node = ice_sched_get_agg_node(pi->hw, tc_node, agg_id);
- if (!agg_node)
- continue;
+/**
+ * ice_sched_set_tc_node_bw_alloc - set TC node BW alloc
+ * @pi: port information structure
+ * @tc: TC number
+ * @rl_type: min or max
+ * @bw_alloc: bandwidth alloc
+ *
+ * This function configures bandwidth alloc of TC node, also saves the
+ * changed settings for replay purpose, and return success if it succeeds
+ * in modifying bandwidth alloc setting.
+ */
+static enum ice_status
+ice_sched_set_tc_node_bw_alloc(struct ice_port_info *pi, u8 tc,
+ enum ice_rl_type rl_type, u8 bw_alloc)
+{
+ enum ice_status status = ICE_ERR_PARAM;
+ struct ice_sched_node *tc_node;
- if (bw == ICE_SCHED_DFLT_BW)
- /* It removes existing SRL from the node */
- status = ice_sched_set_node_bw_dflt_lmt(pi, agg_node,
- rl_type);
- else
- status = ice_sched_set_node_bw_lmt(pi, agg_node,
- rl_type, bw);
- if (status)
- break;
- status = ice_sched_save_agg_bw(pi, agg_id, tc, rl_type, bw);
- if (status)
- break;
- }
+ if (tc >= ICE_MAX_TRAFFIC_CLASS)
+ return status;
+ ice_acquire_lock(&pi->sched_lock);
+ tc_node = ice_sched_get_tc_node(pi, tc);
+ if (!tc_node)
+ goto exit_set_tc_node_bw_alloc;
+ status = ice_sched_cfg_node_bw_alloc(pi->hw, tc_node, rl_type,
+ bw_alloc);
+ if (status)
+ goto exit_set_tc_node_bw_alloc;
+ status = ice_sched_save_tc_node_bw_alloc(pi, tc, rl_type, bw_alloc);
-exit_agg_bw_shared_lmt:
+exit_set_tc_node_bw_alloc:
ice_release_lock(&pi->sched_lock);
return status;
}
/**
- * ice_sched_cfg_sibl_node_prio - configure node sibling priority
- * @hw: pointer to the hw struct
- * @node: sched node to configure
- * @priority: sibling priority
+ * ice_cfg_tc_node_bw_alloc - configure TC node BW alloc
+ * @pi: port information structure
+ * @tc: TC number
+ * @rl_type: min or max
+ * @bw_alloc: bandwidth alloc
*
- * This function configures node element's sibling priority only. This
- * function needs to be called with scheduler lock held.
+ * This function configures BW limit of TC node.
+ * Note: The minimum guaranteed reservation is done via DCBX.
*/
enum ice_status
-ice_sched_cfg_sibl_node_prio(struct ice_hw *hw, struct ice_sched_node *node,
- u8 priority)
+ice_cfg_tc_node_bw_alloc(struct ice_port_info *pi, u8 tc,
+ enum ice_rl_type rl_type, u8 bw_alloc)
{
- struct ice_aqc_txsched_elem_data buf;
- struct ice_aqc_txsched_elem *data;
- enum ice_status status;
-
- buf = node->info;
- data = &buf.data;
- data->valid_sections |= ICE_AQC_ELEM_VALID_GENERIC;
- priority = (priority << ICE_AQC_ELEM_GENERIC_PRIO_S) &
- ICE_AQC_ELEM_GENERIC_PRIO_M;
- data->generic &= ~ICE_AQC_ELEM_GENERIC_PRIO_M;
- data->generic |= priority;
-
- /* Configure element */
- status = ice_sched_update_elem(hw, node, &buf);
- return status;
+ return ice_sched_set_tc_node_bw_alloc(pi, tc, rl_type, bw_alloc);
}
/**
- * ice_sched_cfg_node_bw_alloc - configure node bw weight/alloc params
- * @hw: pointer to the hw struct
- * @node: sched node to configure
- * @rl_type: rate limit type cir, eir, or shared
- * @bw_alloc: bw weight/allocation
+ * ice_sched_set_agg_bw_dflt_lmt - set aggregator node's BW limit to default
+ * @pi: port information structure
+ * @vsi_handle: software VSI handle
*
- * This function configures node element's bw allocation.
+ * This function retrieves the aggregator ID based on VSI ID and TC,
+ * and sets node's BW limit to default. This function needs to be
+ * called with the scheduler lock held.
*/
enum ice_status
-ice_sched_cfg_node_bw_alloc(struct ice_hw *hw, struct ice_sched_node *node,
- enum ice_rl_type rl_type, u8 bw_alloc)
+ice_sched_set_agg_bw_dflt_lmt(struct ice_port_info *pi, u16 vsi_handle)
{
- struct ice_aqc_txsched_elem_data buf;
- struct ice_aqc_txsched_elem *data;
- enum ice_status status;
+ struct ice_vsi_ctx *vsi_ctx;
+ enum ice_status status = ICE_SUCCESS;
+ u8 tc;
- buf = node->info;
- data = &buf.data;
- if (rl_type == ICE_MIN_BW) {
- data->valid_sections |= ICE_AQC_ELEM_VALID_CIR;
- data->cir_bw.bw_alloc = CPU_TO_LE16(bw_alloc);
- } else if (rl_type == ICE_MAX_BW) {
- data->valid_sections |= ICE_AQC_ELEM_VALID_EIR;
- data->eir_bw.bw_alloc = CPU_TO_LE16(bw_alloc);
- } else {
+ if (!ice_is_vsi_valid(pi->hw, vsi_handle))
+ return ICE_ERR_PARAM;
+ vsi_ctx = ice_get_vsi_ctx(pi->hw, vsi_handle);
+ if (!vsi_ctx)
return ICE_ERR_PARAM;
+
+ ice_for_each_traffic_class(tc) {
+ struct ice_sched_node *node;
+
+ node = vsi_ctx->sched.ag_node[tc];
+ if (!node)
+ continue;
+
+ /* Set min profile to default */
+ status = ice_sched_set_node_bw_dflt_lmt(pi, node, ICE_MIN_BW);
+ if (status)
+ break;
+
+ /* Set max profile to default */
+ status = ice_sched_set_node_bw_dflt_lmt(pi, node, ICE_MAX_BW);
+ if (status)
+ break;
+
+ /* Remove shared profile, if there is one */
+ status = ice_sched_set_node_bw_dflt_lmt(pi, node,
+ ICE_SHARED_BW);
+ if (status)
+ break;
}
- /* Configure element */
- status = ice_sched_update_elem(hw, node, &buf);
return status;
}
/**
- * ice_sched_add_agg_cfg - create an aggregator node
+ * ice_sched_get_node_by_id_type - get node from ID type
* @pi: port information structure
- * @agg_id: aggregator id
- * @tc: TC number
+ * @id: identifier
+ * @agg_type: type of aggregator
+ * @tc: traffic class
*
- * This function creates an aggregator node and intermediate nodes if required
- * for the given TC
+ * This function returns node identified by ID of type aggregator, and
+ * based on traffic class (TC). This function needs to be called with
+ * the scheduler lock held.
*/
-enum ice_status
-ice_sched_add_agg_cfg(struct ice_port_info *pi, u32 agg_id, u8 tc)
+static struct ice_sched_node *
+ice_sched_get_node_by_id_type(struct ice_port_info *pi, u32 id,
+ enum ice_agg_type agg_type, u8 tc)
{
- struct ice_sched_node *parent, *agg_node, *tc_node;
- u16 num_nodes[ICE_AQC_TOPO_MAX_LEVEL_NUM] = { 0 };
- enum ice_status status = ICE_SUCCESS;
- struct ice_hw *hw = pi->hw;
- u32 first_node_teid;
- u16 num_nodes_added;
- u8 i, aggl;
-
- tc_node = ice_sched_get_tc_node(pi, tc);
- if (!tc_node)
- return ICE_ERR_CFG;
-
- agg_node = ice_sched_get_agg_node(hw, tc_node, agg_id);
- /* Does Agg node already exist ? */
- if (agg_node)
- return status;
-
- aggl = ice_sched_get_agg_layer(hw);
+ struct ice_sched_node *node = NULL;
+ struct ice_sched_node *child_node;
- /* need one node in Agg layer */
- num_nodes[aggl] = 1;
+ switch (agg_type) {
+ case ICE_AGG_TYPE_VSI: {
+ struct ice_vsi_ctx *vsi_ctx;
+ u16 vsi_handle = (u16)id;
- /* Check whether the intermediate nodes have space to add the
- * new agg. If they are full, then SW needs to allocate a new
- * intermediate node on those layers
- */
- for (i = hw->sw_entry_point_layer; i < aggl; i++) {
- parent = ice_sched_get_first_node(hw, tc_node, i);
+ if (!ice_is_vsi_valid(pi->hw, vsi_handle))
+ break;
+ /* Get sched_vsi_info */
+ vsi_ctx = ice_get_vsi_ctx(pi->hw, vsi_handle);
+ if (!vsi_ctx)
+ break;
+ node = vsi_ctx->sched.vsi_node[tc];
+ break;
+ }
- /* scan all the siblings */
- while (parent) {
- if (parent->num_children < hw->max_children[i])
- break;
- parent = parent->sibling;
- }
+ case ICE_AGG_TYPE_AGG: {
+ struct ice_sched_node *tc_node;
- /* all the nodes are full, reserve one for this layer */
- if (!parent)
- num_nodes[i]++;
+ tc_node = ice_sched_get_tc_node(pi, tc);
+ if (tc_node)
+ node = ice_sched_get_agg_node(pi, tc_node, id);
+ break;
}
- /* add the agg node */
- parent = tc_node;
- for (i = hw->sw_entry_point_layer; i <= aggl; i++) {
- if (!parent)
- return ICE_ERR_CFG;
+ case ICE_AGG_TYPE_Q:
+ /* The current implementation allows single queue to modify */
+ node = ice_sched_get_node(pi, id);
+ break;
- status = ice_sched_add_nodes_to_layer(pi, tc_node, parent, i,
- num_nodes[i],
- &first_node_teid,
- &num_nodes_added);
- if (status != ICE_SUCCESS || num_nodes[i] != num_nodes_added)
- return ICE_ERR_CFG;
+ case ICE_AGG_TYPE_QG:
+ /* The current implementation allows single qg to modify */
+ child_node = ice_sched_get_node(pi, id);
+ if (!child_node)
+ break;
+ node = child_node->parent;
+ break;
- /* The newly added node can be a new parent for the next
- * layer nodes
- */
- if (num_nodes_added) {
- parent = ice_sched_find_node_by_teid(tc_node,
- first_node_teid);
- /* register the aggregator id with the agg node */
- if (parent && i == aggl)
- parent->agg_id = agg_id;
- } else {
- parent = parent->children[0];
- }
+ default:
+ break;
}
- return ICE_SUCCESS;
+ return node;
}
/**
- * ice_sched_is_agg_inuse - check whether the agg is in use or not
+ * ice_sched_set_node_bw_lmt_per_tc - set node BW limit per TC
* @pi: port information structure
- * @node: node pointer
+ * @id: ID (software VSI handle or AGG ID)
+ * @agg_type: aggregator type (VSI or AGG type node)
+ * @tc: traffic class
+ * @rl_type: min or max
+ * @bw: bandwidth in Kbps
*
- * This function checks whether the agg is attached with any vsi or not.
+ * This function sets BW limit of VSI or Aggregator scheduling node
+ * based on TC information from passed in argument BW.
*/
-static bool
-ice_sched_is_agg_inuse(struct ice_port_info *pi, struct ice_sched_node *node)
+enum ice_status
+ice_sched_set_node_bw_lmt_per_tc(struct ice_port_info *pi, u32 id,
+ enum ice_agg_type agg_type, u8 tc,
+ enum ice_rl_type rl_type, u32 bw)
{
- u8 vsil, i;
+ enum ice_status status = ICE_ERR_PARAM;
+ struct ice_sched_node *node;
- vsil = ice_sched_get_vsi_layer(pi->hw);
- if (node->tx_sched_layer < vsil - 1) {
- for (i = 0; i < node->num_children; i++)
- if (ice_sched_is_agg_inuse(pi, node->children[i]))
- return true;
- return false;
- } else {
- return node->num_children ? true : false;
+ if (!pi)
+ return status;
+
+ if (rl_type == ICE_UNKNOWN_BW)
+ return status;
+
+ ice_acquire_lock(&pi->sched_lock);
+ node = ice_sched_get_node_by_id_type(pi, id, agg_type, tc);
+ if (!node) {
+ ice_debug(pi->hw, ICE_DBG_SCHED, "Wrong id, agg type, or tc\n");
+ goto exit_set_node_bw_lmt_per_tc;
}
+ if (bw == ICE_SCHED_DFLT_BW)
+ status = ice_sched_set_node_bw_dflt_lmt(pi, node, rl_type);
+ else
+ status = ice_sched_set_node_bw_lmt(pi, node, rl_type, bw);
+
+exit_set_node_bw_lmt_per_tc:
+ ice_release_lock(&pi->sched_lock);
+ return status;
}
/**
- * ice_sched_rm_agg_cfg - remove the aggregator node
+ * ice_sched_validate_vsi_srl_node - validate VSI SRL node
* @pi: port information structure
- * @agg_id: aggregator id
- * @tc: TC number
+ * @vsi_handle: software VSI handle
*
- * This function removes the aggregator node and intermediate nodes if any
- * from the given TC
+ * This function validates SRL node of the VSI node if available SRL layer is
+ * different than the VSI node layer on all TC(s).This function needs to be
+ * called with scheduler lock held.
*/
-enum ice_status
-ice_sched_rm_agg_cfg(struct ice_port_info *pi, u32 agg_id, u8 tc)
+static enum ice_status
+ice_sched_validate_vsi_srl_node(struct ice_port_info *pi, u16 vsi_handle)
{
- struct ice_sched_node *tc_node, *agg_node;
- struct ice_hw *hw = pi->hw;
+ u8 sel_layer = ICE_SCHED_INVAL_LAYER_NUM;
+ u8 tc;
- tc_node = ice_sched_get_tc_node(pi, tc);
- if (!tc_node)
- return ICE_ERR_CFG;
+ if (!ice_is_vsi_valid(pi->hw, vsi_handle))
+ return ICE_ERR_PARAM;
- agg_node = ice_sched_get_agg_node(hw, tc_node, agg_id);
- if (!agg_node)
- return ICE_ERR_DOES_NOT_EXIST;
+ /* Return success if no nodes are present across TC */
+ ice_for_each_traffic_class(tc) {
+ struct ice_sched_node *tc_node, *vsi_node;
+ enum ice_rl_type rl_type = ICE_SHARED_BW;
+ enum ice_status status;
- /* Can't remove the agg node if it has children */
- if (ice_sched_is_agg_inuse(pi, agg_node))
- return ICE_ERR_IN_USE;
+ tc_node = ice_sched_get_tc_node(pi, tc);
+ if (!tc_node)
+ continue;
- /* need to remove the whole subtree if agg node is the
- * only child.
- */
- while (agg_node->tx_sched_layer > hw->sw_entry_point_layer) {
- struct ice_sched_node *parent = agg_node->parent;
+ vsi_node = ice_sched_get_vsi_node(pi, tc_node, vsi_handle);
+ if (!vsi_node)
+ continue;
- if (!parent)
- return ICE_ERR_CFG;
+ /* SRL bandwidth layer selection */
+ if (sel_layer == ICE_SCHED_INVAL_LAYER_NUM) {
+ u8 node_layer = vsi_node->tx_sched_layer;
+ u8 layer_num;
- if (parent->num_children > 1)
- break;
+ layer_num = ice_sched_get_rl_prof_layer(pi, rl_type,
+ node_layer);
+ if (layer_num >= pi->hw->num_tx_sched_layers)
+ return ICE_ERR_PARAM;
+ sel_layer = layer_num;
+ }
- agg_node = parent;
+ status = ice_sched_validate_srl_node(vsi_node, sel_layer);
+ if (status)
+ return status;
}
-
- ice_free_sched_node(pi, agg_node);
return ICE_SUCCESS;
}
/**
- * ice_sched_get_free_vsi_parent - Find a free parent node in agg subtree
- * @hw: pointer to the hw struct
- * @node: pointer to a child node
- * @num_nodes: num nodes count array
+ * ice_sched_set_vsi_bw_shared_lmt - set VSI BW shared limit
+ * @pi: port information structure
+ * @vsi_handle: software VSI handle
+ * @bw: bandwidth in Kbps
*
- * This function walks through the aggregator subtree to find a free parent
- * node
+ * This function Configures shared rate limiter(SRL) of all VSI type nodes
+ * across all traffic classes for VSI matching handle. When BW value of
+ * ICE_SCHED_DFLT_BW is passed, it removes the SRL from the node.
*/
-static struct ice_sched_node *
-ice_sched_get_free_vsi_parent(struct ice_hw *hw, struct ice_sched_node *node,
- u16 *num_nodes)
+enum ice_status
+ice_sched_set_vsi_bw_shared_lmt(struct ice_port_info *pi, u16 vsi_handle,
+ u32 bw)
{
- u8 l = node->tx_sched_layer;
- u8 vsil, i;
-
- vsil = ice_sched_get_vsi_layer(hw);
-
- /* Is it VSI parent layer ? */
- if (l == vsil - 1)
- return (node->num_children < hw->max_children[l]) ? node : NULL;
-
- /* We have intermediate nodes. Let's walk through the subtree. If the
- * intermediate node has space to add a new node then clear the count
- */
- if (node->num_children < hw->max_children[l])
- num_nodes[l] = 0;
- /* The below recursive call is intentional and wouldn't go more than
- * 2 or 3 iterations.
- */
+ enum ice_status status = ICE_SUCCESS;
+ u8 tc;
- for (i = 0; i < node->num_children; i++) {
- struct ice_sched_node *parent;
+ if (!pi)
+ return ICE_ERR_PARAM;
- parent = ice_sched_get_free_vsi_parent(hw, node->children[i],
- num_nodes);
- if (parent)
- return parent;
- }
+ if (!ice_is_vsi_valid(pi->hw, vsi_handle))
+ return ICE_ERR_PARAM;
- return NULL;
-}
+ ice_acquire_lock(&pi->sched_lock);
+ status = ice_sched_validate_vsi_srl_node(pi, vsi_handle);
+ if (status)
+ goto exit_set_vsi_bw_shared_lmt;
+ /* Return success if no nodes are present across TC */
+ ice_for_each_traffic_class(tc) {
+ struct ice_sched_node *tc_node, *vsi_node;
+ enum ice_rl_type rl_type = ICE_SHARED_BW;
-/**
- * ice_sched_update_new_parent - update the new parent in SW DB
- * @new_parent: pointer to a new parent node
- * @node: pointer to a child node
- *
- * This function removes the child from the old parent and adds it to a new
- * parent
- */
-static void
-ice_sched_update_parent(struct ice_sched_node *new_parent,
- struct ice_sched_node *node)
-{
- struct ice_sched_node *old_parent;
- u8 i, j;
+ tc_node = ice_sched_get_tc_node(pi, tc);
+ if (!tc_node)
+ continue;
- old_parent = node->parent;
+ vsi_node = ice_sched_get_vsi_node(pi, tc_node, vsi_handle);
+ if (!vsi_node)
+ continue;
- /* update the old parent children */
- for (i = 0; i < old_parent->num_children; i++)
- if (old_parent->children[i] == node) {
- for (j = i + 1; j < old_parent->num_children; j++)
- old_parent->children[j - 1] =
- old_parent->children[j];
- old_parent->num_children--;
+ if (bw == ICE_SCHED_DFLT_BW)
+ /* It removes existing SRL from the node */
+ status = ice_sched_set_node_bw_dflt_lmt(pi, vsi_node,
+ rl_type);
+ else
+ status = ice_sched_set_node_bw_lmt(pi, vsi_node,
+ rl_type, bw);
+ if (status)
break;
- }
+ status = ice_sched_save_vsi_bw(pi, vsi_handle, tc, rl_type, bw);
+ if (status)
+ break;
+ }
- /* now move the node to a new parent */
- new_parent->children[new_parent->num_children++] = node;
- node->parent = new_parent;
- node->info.parent_teid = new_parent->info.node_teid;
+exit_set_vsi_bw_shared_lmt:
+ ice_release_lock(&pi->sched_lock);
+ return status;
}
/**
- * ice_sched_move_nodes - move child nodes to a given parent
+ * ice_sched_validate_agg_srl_node - validate AGG SRL node
* @pi: port information structure
- * @parent: pointer to parent node
- * @num_items: number of child nodes to be moved
- * @list: pointer to child node teids
+ * @agg_id: aggregator ID
*
- * This function move the child nodes to a given parent.
+ * This function validates SRL node of the AGG node if available SRL layer is
+ * different than the AGG node layer on all TC(s).This function needs to be
+ * called with scheduler lock held.
*/
static enum ice_status
-ice_sched_move_nodes(struct ice_port_info *pi, struct ice_sched_node *parent,
- u16 num_items, u32 *list)
+ice_sched_validate_agg_srl_node(struct ice_port_info *pi, u32 agg_id)
{
- struct ice_aqc_move_elem *buf;
- struct ice_sched_node *node;
+ u8 sel_layer = ICE_SCHED_INVAL_LAYER_NUM;
+ struct ice_sched_agg_info *agg_info;
+ bool agg_id_present = false;
enum ice_status status = ICE_SUCCESS;
- struct ice_hw *hw;
- u16 grps_movd = 0;
- u8 i;
-
- hw = pi->hw;
+ u8 tc;
- if (!parent || !num_items)
+ LIST_FOR_EACH_ENTRY(agg_info, &pi->hw->agg_list, ice_sched_agg_info,
+ list_entry)
+ if (agg_info->agg_id == agg_id) {
+ agg_id_present = true;
+ break;
+ }
+ if (!agg_id_present)
return ICE_ERR_PARAM;
+ /* Return success if no nodes are present across TC */
+ ice_for_each_traffic_class(tc) {
+ struct ice_sched_node *tc_node, *agg_node;
+ enum ice_rl_type rl_type = ICE_SHARED_BW;
- /* Does parent have enough space */
- if (parent->num_children + num_items >=
- hw->max_children[parent->tx_sched_layer])
- return ICE_ERR_AQ_FULL;
-
- buf = (struct ice_aqc_move_elem *) ice_malloc(hw, sizeof(*buf));
- if (!buf)
- return ICE_ERR_NO_MEMORY;
+ tc_node = ice_sched_get_tc_node(pi, tc);
+ if (!tc_node)
+ continue;
- for (i = 0; i < num_items; i++) {
- node = ice_sched_find_node_by_teid(pi->root, list[i]);
- if (!node) {
- status = ICE_ERR_PARAM;
- goto move_err_exit;
- }
+ agg_node = ice_sched_get_agg_node(pi, tc_node, agg_id);
+ if (!agg_node)
+ continue;
+ /* SRL bandwidth layer selection */
+ if (sel_layer == ICE_SCHED_INVAL_LAYER_NUM) {
+ u8 node_layer = agg_node->tx_sched_layer;
+ u8 layer_num;
- buf->hdr.src_parent_teid = node->info.parent_teid;
- buf->hdr.dest_parent_teid = parent->info.node_teid;
- buf->teid[0] = node->info.node_teid;
- buf->hdr.num_elems = CPU_TO_LE16(1);
- status = ice_aq_move_sched_elems(hw, 1, buf, sizeof(*buf),
- &grps_movd, NULL);
- if (status && grps_movd != 1) {
- status = ICE_ERR_CFG;
- goto move_err_exit;
+ layer_num = ice_sched_get_rl_prof_layer(pi, rl_type,
+ node_layer);
+ if (layer_num >= pi->hw->num_tx_sched_layers)
+ return ICE_ERR_PARAM;
+ sel_layer = layer_num;
}
- /* update the SW DB */
- ice_sched_update_parent(parent, node);
+ status = ice_sched_validate_srl_node(agg_node, sel_layer);
+ if (status)
+ break;
}
-
-move_err_exit:
- ice_free(hw, buf);
return status;
}
/**
- * ice_sched_move_vsi_to_agg - move VSI to aggregator node
+ * ice_sched_set_agg_bw_shared_lmt - set aggregator BW shared limit
* @pi: port information structure
- * @vsi_handle: software VSI handle
- * @agg_id: aggregator id
- * @tc: TC number
+ * @agg_id: aggregator ID
+ * @bw: bandwidth in Kbps
*
- * This function moves a VSI to an aggregator node or its subtree.
- * Intermediate nodes may be created if required.
+ * This function configures the shared rate limiter(SRL) of all aggregator type
+ * nodes across all traffic classes for aggregator matching agg_id. When
+ * BW value of ICE_SCHED_DFLT_BW is passed, it removes SRL from the
+ * node(s).
*/
enum ice_status
-ice_sched_move_vsi_to_agg(struct ice_port_info *pi, u16 vsi_handle, u32 agg_id,
- u8 tc)
+ice_sched_set_agg_bw_shared_lmt(struct ice_port_info *pi, u32 agg_id, u32 bw)
{
- struct ice_sched_node *vsi_node, *agg_node, *tc_node, *parent;
- u16 num_nodes[ICE_AQC_TOPO_MAX_LEVEL_NUM] = { 0 };
- u32 first_node_teid, vsi_teid;
- enum ice_status status;
- u16 num_nodes_added;
- u8 aggl, vsil, i;
+ struct ice_sched_agg_info *agg_info;
+ struct ice_sched_agg_info *tmp;
+ bool agg_id_present = false;
+ enum ice_status status = ICE_SUCCESS;
+ u8 tc;
- tc_node = ice_sched_get_tc_node(pi, tc);
- if (!tc_node)
- return ICE_ERR_CFG;
+ if (!pi)
+ return ICE_ERR_PARAM;
- agg_node = ice_sched_get_agg_node(pi->hw, tc_node, agg_id);
- if (!agg_node)
- return ICE_ERR_DOES_NOT_EXIST;
+ ice_acquire_lock(&pi->sched_lock);
+ status = ice_sched_validate_agg_srl_node(pi, agg_id);
+ if (status)
+ goto exit_agg_bw_shared_lmt;
- vsi_node = ice_sched_get_vsi_node(pi->hw, tc_node, vsi_handle);
- if (!vsi_node)
- return ICE_ERR_DOES_NOT_EXIST;
+ LIST_FOR_EACH_ENTRY_SAFE(agg_info, tmp, &pi->hw->agg_list,
+ ice_sched_agg_info, list_entry)
+ if (agg_info->agg_id == agg_id) {
+ agg_id_present = true;
+ break;
+ }
- aggl = ice_sched_get_agg_layer(pi->hw);
- vsil = ice_sched_get_vsi_layer(pi->hw);
+ if (!agg_id_present) {
+ status = ICE_ERR_PARAM;
+ goto exit_agg_bw_shared_lmt;
+ }
- /* initialize intermediate node count to 1 between agg and VSI layers */
- for (i = aggl + 1; i < vsil; i++)
- num_nodes[i] = 1;
+ /* Return success if no nodes are present across TC */
+ ice_for_each_traffic_class(tc) {
+ enum ice_rl_type rl_type = ICE_SHARED_BW;
+ struct ice_sched_node *tc_node, *agg_node;
- /* Check whether the agg subtree has any free node to add the VSI */
- for (i = 0; i < agg_node->num_children; i++) {
- parent = ice_sched_get_free_vsi_parent(pi->hw,
- agg_node->children[i],
- num_nodes);
- if (parent)
- goto move_nodes;
- }
+ tc_node = ice_sched_get_tc_node(pi, tc);
+ if (!tc_node)
+ continue;
- /* add new nodes */
- parent = agg_node;
- for (i = aggl + 1; i < vsil; i++) {
- status = ice_sched_add_nodes_to_layer(pi, tc_node, parent, i,
- num_nodes[i],
- &first_node_teid,
- &num_nodes_added);
- if (status != ICE_SUCCESS || num_nodes[i] != num_nodes_added)
- return ICE_ERR_CFG;
+ agg_node = ice_sched_get_agg_node(pi, tc_node, agg_id);
+ if (!agg_node)
+ continue;
- /* The newly added node can be a new parent for the next
- * layer nodes
- */
- if (num_nodes_added)
- parent = ice_sched_find_node_by_teid(tc_node,
- first_node_teid);
+ if (bw == ICE_SCHED_DFLT_BW)
+ /* It removes existing SRL from the node */
+ status = ice_sched_set_node_bw_dflt_lmt(pi, agg_node,
+ rl_type);
else
- parent = parent->children[0];
-
- if (!parent)
- return ICE_ERR_CFG;
+ status = ice_sched_set_node_bw_lmt(pi, agg_node,
+ rl_type, bw);
+ if (status)
+ break;
+ status = ice_sched_save_agg_bw(pi, agg_id, tc, rl_type, bw);
+ if (status)
+ break;
}
-move_nodes:
- vsi_teid = LE32_TO_CPU(vsi_node->info.node_teid);
- return ice_sched_move_nodes(pi, parent, 1, &vsi_teid);
+exit_agg_bw_shared_lmt:
+ ice_release_lock(&pi->sched_lock);
+ return status;
+}
+
+/**
+ * ice_sched_cfg_sibl_node_prio - configure node sibling priority
+ * @pi: port information structure
+ * @node: sched node to configure
+ * @priority: sibling priority
+ *
+ * This function configures node element's sibling priority only. This
+ * function needs to be called with scheduler lock held.
+ */
+enum ice_status
+ice_sched_cfg_sibl_node_prio(struct ice_port_info *pi,
+ struct ice_sched_node *node, u8 priority)
+{
+ struct ice_aqc_txsched_elem_data buf;
+ struct ice_aqc_txsched_elem *data;
+ struct ice_hw *hw = pi->hw;
+ enum ice_status status;
+
+ if (!hw)
+ return ICE_ERR_PARAM;
+ buf = node->info;
+ data = &buf.data;
+ data->valid_sections |= ICE_AQC_ELEM_VALID_GENERIC;
+ priority = (priority << ICE_AQC_ELEM_GENERIC_PRIO_S) &
+ ICE_AQC_ELEM_GENERIC_PRIO_M;
+ data->generic &= ~ICE_AQC_ELEM_GENERIC_PRIO_M;
+ data->generic |= priority;
+
+ /* Configure element */
+ status = ice_sched_update_elem(hw, node, &buf);
+ return status;
}
/**
if (bytes < ICE_MIN_BURST_SIZE_ALLOWED ||
bytes > ICE_MAX_BURST_SIZE_ALLOWED)
return ICE_ERR_PARAM;
- if (bytes <= ICE_MAX_BURST_SIZE_BYTE_GRANULARITY) {
- /* byte granularity case */
+ if (ice_round_to_num(bytes, 64) <=
+ ICE_MAX_BURST_SIZE_64_BYTE_GRANULARITY) {
+ /* 64 byte granularity case */
/* Disable MSB granularity bit */
- burst_size_to_prog = ICE_BYTE_GRANULARITY;
- /* round number to nearest 256 granularity */
- bytes = ice_round_to_num(bytes, 256);
- /* check rounding doesn't go beyond allowed */
- if (bytes > ICE_MAX_BURST_SIZE_BYTE_GRANULARITY)
- bytes = ICE_MAX_BURST_SIZE_BYTE_GRANULARITY;
- burst_size_to_prog |= (u16)bytes;
+ burst_size_to_prog = ICE_64_BYTE_GRANULARITY;
+ /* round number to nearest 64 byte granularity */
+ bytes = ice_round_to_num(bytes, 64);
+ /* The value is in 64 byte chunks */
+ burst_size_to_prog |= (u16)(bytes / 64);
} else {
/* k bytes granularity case */
/* Enable MSB granularity bit */
return ICE_SUCCESS;
}
-/*
+/**
* ice_sched_replay_node_prio - re-configure node priority
* @hw: pointer to the HW struct
* @node: sched node to configure
status = ICE_ERR_PARAM;
break;
}
- agg_node = ice_sched_get_agg_node(hw, tc_node,
+ agg_node = ice_sched_get_agg_node(hw->port_info, tc_node,
agg_info->agg_id);
if (!agg_node) {
status = ICE_ERR_PARAM;
ICE_MAX_TRAFFIC_CLASS);
enum ice_status status;
- ice_zero_bitmap(replay_bitmap,
- sizeof(replay_bitmap) * BITS_PER_BYTE);
+ ice_zero_bitmap(replay_bitmap, ICE_MAX_TRAFFIC_CLASS);
ice_sched_get_ena_tc_bitmap(pi,
agg_info->replay_tc_bitmap,
replay_bitmap);
/**
* ice_sched_replay_tc_node_bw - replay TC node(s) BW
- * @hw: pointer to the HW struct
+ * @pi: port information structure
*
- * This function replay TC nodes. The caller needs to hold the scheduler lock.
+ * This function replay TC nodes.
*/
-enum ice_status
-ice_sched_replay_tc_node_bw(struct ice_hw *hw)
+enum ice_status ice_sched_replay_tc_node_bw(struct ice_port_info *pi)
{
- struct ice_port_info *pi = hw->port_info;
enum ice_status status = ICE_SUCCESS;
u8 tc;
+ if (!pi->hw)
+ return ICE_ERR_PARAM;
ice_acquire_lock(&pi->sched_lock);
ice_for_each_traffic_class(tc) {
struct ice_sched_node *tc_node;
- tc_node = ice_sched_get_tc_node(hw->port_info, tc);
+ tc_node = ice_sched_get_tc_node(pi, tc);
if (!tc_node)
continue; /* TC not present */
- status = ice_sched_replay_node_bw(hw, tc_node,
- &hw->tc_node_bw_t_info[tc]);
+ status = ice_sched_replay_node_bw(pi->hw, tc_node,
+ &pi->tc_node_bw_t_info[tc]);
if (status)
break;
}
tc_node = ice_sched_get_tc_node(pi, tc);
if (!tc_node)
continue;
- vsi_node = ice_sched_get_vsi_node(hw, tc_node, vsi_handle);
+ vsi_node = ice_sched_get_vsi_node(pi, tc_node, vsi_handle);
if (!vsi_node)
continue;
bw_t_info = &vsi_ctx->sched.bw_t_info[tc];
struct ice_sched_agg_info *agg_info;
enum ice_status status;
- ice_zero_bitmap(replay_bitmap, sizeof(replay_bitmap) * BITS_PER_BYTE);
+ ice_zero_bitmap(replay_bitmap, ICE_MAX_TRAFFIC_CLASS);
if (!ice_is_vsi_valid(hw, vsi_handle))
return ICE_ERR_PARAM;
agg_info = ice_get_vsi_agg_info(hw, vsi_handle);
* This function replays association of VSI to aggregator type nodes, and
* node bandwidth information.
*/
-enum ice_status
-ice_replay_vsi_agg(struct ice_hw *hw, u16 vsi_handle)
+enum ice_status ice_replay_vsi_agg(struct ice_hw *hw, u16 vsi_handle)
{
struct ice_port_info *pi = hw->port_info;
enum ice_status status;
ice_release_lock(&pi->sched_lock);
return status;
}
+
+/**
+ * ice_sched_replay_q_bw - replay queue type node BW
+ * @pi: port information structure
+ * @q_ctx: queue context structure
+ *
+ * This function replays queue type node bandwidth. This function needs to be
+ * called with scheduler lock held.
+ */
+enum ice_status
+ice_sched_replay_q_bw(struct ice_port_info *pi, struct ice_q_ctx *q_ctx)
+{
+ struct ice_sched_node *q_node;
+
+ /* Following also checks the presence of node in tree */
+ q_node = ice_sched_find_node_by_teid(pi->root, q_ctx->q_teid);
+ if (!q_node)
+ return ICE_ERR_PARAM;
+ return ice_sched_replay_node_bw(pi->hw, q_node, &q_ctx->bw_t_info);
+}