M7350/kernel/drivers/platform/msm/ipa/ipa_rt.c

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2024-09-09 08:52:07 +00:00
/* Copyright (c) 2012-2013, The Linux Foundation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
* only version 2 as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include <linux/bitops.h>
#include "ipa_i.h"
#define IPA_RT_TABLE_INDEX_NOT_FOUND (-1)
#define IPA_RT_TABLE_WORD_SIZE (4)
#define IPA_RT_INDEX_BITMAP_SIZE (32)
#define IPA_RT_TABLE_MEMORY_ALLIGNMENT (127)
#define IPA_RT_ENTRY_MEMORY_ALLIGNMENT (3)
#define IPA_RT_BIT_MASK (0x1)
#define IPA_RT_STATUS_OF_ADD_FAILED (-1)
#define IPA_RT_STATUS_OF_DEL_FAILED (-1)
/**
* ipa_generate_rt_hw_rule() - generates the routing hardware rule
* @ip: the ip address family type
* @entry: routing entry
* @buf: output buffer, buf == NULL means
* caller wants to know the size of the rule as seen
* by HW so they did not pass a valid buffer, we will use a
* scratch buffer instead.
* With this scheme we are going to
* generate the rule twice, once to know size using scratch
* buffer and second to write the rule to the actual caller
* supplied buffer which is of required size
*
* Returns: 0 on success, negative on failure
*
* caller needs to hold any needed locks to ensure integrity
*
*/
static int ipa_generate_rt_hw_rule(enum ipa_ip_type ip,
struct ipa_rt_entry *entry, u8 *buf)
{
struct ipa_rt_rule_hw_hdr *rule_hdr;
const struct ipa_rt_rule *rule =
(const struct ipa_rt_rule *)&entry->rule;
u16 en_rule = 0;
u32 tmp[IPA_RT_FLT_HW_RULE_BUF_SIZE/4];
u8 *start;
int pipe_idx;
if (buf == NULL) {
memset(tmp, 0, IPA_RT_FLT_HW_RULE_BUF_SIZE);
buf = (u8 *)tmp;
}
start = buf;
rule_hdr = (struct ipa_rt_rule_hw_hdr *)buf;
pipe_idx = ipa_get_ep_mapping(ipa_ctx->mode,
entry->rule.dst);
if (pipe_idx == -1) {
IPAERR("Wrong destination pipe specified in RT rule\n");
WARN_ON(1);
return -EPERM;
}
rule_hdr->u.hdr.pipe_dest_idx = pipe_idx;
rule_hdr->u.hdr.system = !ipa_ctx->hdr_tbl_lcl;
if (entry->hdr) {
rule_hdr->u.hdr.hdr_offset =
entry->hdr->offset_entry->offset >> 2;
} else {
rule_hdr->u.hdr.hdr_offset = 0;
}
buf += sizeof(struct ipa_rt_rule_hw_hdr);
if (ipa_generate_hw_rule(ip, &rule->attrib, &buf, &en_rule)) {
IPAERR("fail to generate hw rule\n");
return -EPERM;
}
IPADBG("en_rule 0x%x\n", en_rule);
rule_hdr->u.hdr.en_rule = en_rule;
ipa_write_32(rule_hdr->u.word, (u8 *)rule_hdr);
if (entry->hw_len == 0) {
entry->hw_len = buf - start;
} else if (entry->hw_len != (buf - start)) {
IPAERR(
"hw_len differs b/w passes passed=0x%x calc=0x%x\n",
entry->hw_len,
(buf - start));
return -EPERM;
}
return 0;
}
/**
* ipa_get_rt_hw_tbl_size() - returns the size of HW routing table
* @ip: the ip address family type
* @hdr_sz: header size
* @max_rt_idx: maximal index
*
* Returns: 0 on success, negative on failure
*
* caller needs to hold any needed locks to ensure integrity
*
* the MSB set in rt_idx_bitmap indicates the size of hdr of routing tbl
*/
static int ipa_get_rt_hw_tbl_size(enum ipa_ip_type ip, u32 *hdr_sz,
int *max_rt_idx)
{
struct ipa_rt_tbl_set *set;
struct ipa_rt_tbl *tbl;
struct ipa_rt_entry *entry;
u32 total_sz = 0;
u32 tbl_sz;
u32 bitmap = ipa_ctx->rt_idx_bitmap[ip];
int highest_bit_set = IPA_RT_TABLE_INDEX_NOT_FOUND;
int i;
*hdr_sz = 0;
set = &ipa_ctx->rt_tbl_set[ip];
for (i = 0; i < IPA_RT_INDEX_BITMAP_SIZE; i++) {
if (bitmap & IPA_RT_BIT_MASK)
highest_bit_set = i;
bitmap >>= 1;
}
*max_rt_idx = highest_bit_set;
if (highest_bit_set == IPA_RT_TABLE_INDEX_NOT_FOUND) {
IPAERR("no rt tbls present\n");
total_sz = IPA_RT_TABLE_WORD_SIZE;
*hdr_sz = IPA_RT_TABLE_WORD_SIZE;
return total_sz;
}
*hdr_sz = (highest_bit_set + 1) * IPA_RT_TABLE_WORD_SIZE;
total_sz += *hdr_sz;
list_for_each_entry(tbl, &set->head_rt_tbl_list, link) {
tbl_sz = 0;
list_for_each_entry(entry, &tbl->head_rt_rule_list, link) {
if (ipa_generate_rt_hw_rule(ip, entry, NULL)) {
IPAERR("failed to find HW RT rule size\n");
return -EPERM;
}
tbl_sz += entry->hw_len;
}
if (tbl_sz)
tbl->sz = tbl_sz + IPA_RT_TABLE_WORD_SIZE;
if (tbl->in_sys)
continue;
if (tbl_sz) {
/* add the terminator */
total_sz += (tbl_sz + IPA_RT_TABLE_WORD_SIZE);
/* every rule-set should start at word boundary */
total_sz = (total_sz + IPA_RT_ENTRY_MEMORY_ALLIGNMENT) &
~IPA_RT_ENTRY_MEMORY_ALLIGNMENT;
}
}
IPADBG("RT HW TBL SZ %d HDR SZ %d IP %d\n", total_sz, *hdr_sz, ip);
return total_sz;
}
/**
* ipa_generate_rt_hw_tbl() - generates the routing hardware table
* @ip: [in] the ip address family type
* @mem: [out] buffer to put the filtering table
*
* Returns: 0 on success, negative on failure
*/
int ipa_generate_rt_hw_tbl(enum ipa_ip_type ip, struct ipa_mem_buffer *mem)
{
struct ipa_rt_tbl *tbl;
struct ipa_rt_entry *entry;
struct ipa_rt_tbl_set *set;
u32 hdr_sz;
u32 offset;
u8 *hdr;
u8 *body;
u8 *base;
struct ipa_mem_buffer rt_tbl_mem;
u8 *rt_tbl_mem_body;
int max_rt_idx;
int i;
mem->size = ipa_get_rt_hw_tbl_size(ip, &hdr_sz, &max_rt_idx);
mem->size = (mem->size + IPA_RT_TABLE_MEMORY_ALLIGNMENT) &
~IPA_RT_TABLE_MEMORY_ALLIGNMENT;
if (mem->size == 0) {
IPAERR("rt tbl empty ip=%d\n", ip);
goto error;
}
mem->base = dma_alloc_coherent(NULL, mem->size, &mem->phys_base,
GFP_KERNEL);
if (!mem->base) {
IPAERR("fail to alloc DMA buff of size %d\n", mem->size);
goto error;
}
memset(mem->base, 0, mem->size);
/* build the rt tbl in the DMA buffer to submit to IPA HW */
base = hdr = (u8 *)mem->base;
body = base + hdr_sz;
/* setup all indices to point to the empty sys rt tbl */
for (i = 0; i <= max_rt_idx; i++)
ipa_write_32(ipa_ctx->empty_rt_tbl_mem.phys_base,
hdr + (i * IPA_RT_TABLE_WORD_SIZE));
set = &ipa_ctx->rt_tbl_set[ip];
list_for_each_entry(tbl, &set->head_rt_tbl_list, link) {
offset = body - base;
if (offset & IPA_RT_ENTRY_MEMORY_ALLIGNMENT) {
IPAERR("offset is not word multiple %d\n", offset);
goto proc_err;
}
if (!tbl->in_sys) {
/* convert offset to words from bytes */
offset &= ~IPA_RT_ENTRY_MEMORY_ALLIGNMENT;
/* rule is at an offset from base */
offset |= IPA_RT_BIT_MASK;
/* update the hdr at the right index */
ipa_write_32(offset, hdr +
(tbl->idx * IPA_RT_TABLE_WORD_SIZE));
/* generate the rule-set */
list_for_each_entry(entry, &tbl->head_rt_rule_list,
link) {
if (ipa_generate_rt_hw_rule(ip, entry, body)) {
IPAERR("failed to gen HW RT rule\n");
goto proc_err;
}
body += entry->hw_len;
}
/* write the rule-set terminator */
body = ipa_write_32(0, body);
if ((u32)body & IPA_RT_ENTRY_MEMORY_ALLIGNMENT)
/* advance body to next word boundary */
body = body + (IPA_RT_TABLE_WORD_SIZE -
((u32)body &
IPA_RT_ENTRY_MEMORY_ALLIGNMENT));
} else {
WARN_ON(tbl->sz == 0);
/* allocate memory for the RT tbl */
rt_tbl_mem.size = tbl->sz;
rt_tbl_mem.base =
dma_alloc_coherent(NULL, rt_tbl_mem.size,
&rt_tbl_mem.phys_base, GFP_KERNEL);
if (!rt_tbl_mem.base) {
IPAERR("fail to alloc DMA buff of size %d\n",
rt_tbl_mem.size);
WARN_ON(1);
goto proc_err;
}
WARN_ON(rt_tbl_mem.phys_base &
IPA_RT_ENTRY_MEMORY_ALLIGNMENT);
rt_tbl_mem_body = rt_tbl_mem.base;
memset(rt_tbl_mem.base, 0, rt_tbl_mem.size);
/* update the hdr at the right index */
ipa_write_32(rt_tbl_mem.phys_base,
hdr + (tbl->idx *
IPA_RT_TABLE_WORD_SIZE));
/* generate the rule-set */
list_for_each_entry(entry, &tbl->head_rt_rule_list,
link) {
if (ipa_generate_rt_hw_rule(ip, entry,
rt_tbl_mem_body)) {
IPAERR("failed to gen HW RT rule\n");
WARN_ON(1);
goto rt_table_mem_alloc_failed;
}
rt_tbl_mem_body += entry->hw_len;
}
/* write the rule-set terminator */
rt_tbl_mem_body = ipa_write_32(0, rt_tbl_mem_body);
if (tbl->curr_mem.phys_base) {
WARN_ON(tbl->prev_mem.phys_base);
tbl->prev_mem = tbl->curr_mem;
}
tbl->curr_mem = rt_tbl_mem;
}
}
return 0;
rt_table_mem_alloc_failed:
dma_free_coherent(NULL, rt_tbl_mem.size,
rt_tbl_mem.base, rt_tbl_mem.phys_base);
proc_err:
dma_free_coherent(NULL, mem->size, mem->base, mem->phys_base);
mem->base = NULL;
error:
return -EPERM;
}
static void __ipa_reap_sys_rt_tbls(enum ipa_ip_type ip)
{
struct ipa_rt_tbl *tbl;
struct ipa_rt_tbl *next;
struct ipa_rt_tbl_set *set;
set = &ipa_ctx->rt_tbl_set[ip];
list_for_each_entry(tbl, &set->head_rt_tbl_list, link) {
if (tbl->prev_mem.phys_base) {
IPADBG("reaping rt tbl name=%s ip=%d\n", tbl->name, ip);
dma_free_coherent(NULL, tbl->prev_mem.size,
tbl->prev_mem.base,
tbl->prev_mem.phys_base);
memset(&tbl->prev_mem, 0, sizeof(tbl->prev_mem));
}
}
set = &ipa_ctx->reap_rt_tbl_set[ip];
list_for_each_entry_safe(tbl, next, &set->head_rt_tbl_list, link) {
list_del(&tbl->link);
WARN_ON(tbl->prev_mem.phys_base != 0);
if (tbl->curr_mem.phys_base) {
IPADBG("reaping sys rt tbl name=%s ip=%d\n", tbl->name,
ip);
dma_free_coherent(NULL, tbl->curr_mem.size,
tbl->curr_mem.base,
tbl->curr_mem.phys_base);
kmem_cache_free(ipa_ctx->rt_tbl_cache, tbl);
}
}
}
static int __ipa_commit_rt(enum ipa_ip_type ip)
{
struct ipa_desc desc = { 0 };
struct ipa_mem_buffer *mem;
void *cmd;
struct ipa_ip_v4_routing_init *v4;
struct ipa_ip_v6_routing_init *v6;
u16 avail;
u16 size;
mem = kmalloc(sizeof(struct ipa_mem_buffer), GFP_KERNEL);
if (!mem) {
IPAERR("failed to alloc memory object\n");
goto fail_alloc_mem;
}
if (ip == IPA_IP_v4) {
avail = ipa_ctx->ip4_rt_tbl_lcl ? IPA_RAM_V4_RT_SIZE :
IPA_RAM_V4_RT_SIZE_DDR;
size = sizeof(struct ipa_ip_v4_routing_init);
} else {
avail = ipa_ctx->ip6_rt_tbl_lcl ? IPA_RAM_V6_RT_SIZE :
IPA_RAM_V6_RT_SIZE_DDR;
size = sizeof(struct ipa_ip_v6_routing_init);
}
cmd = kmalloc(size, GFP_KERNEL);
if (!cmd) {
IPAERR("failed to alloc immediate command object\n");
goto fail_alloc_cmd;
}
if (ipa_generate_rt_hw_tbl(ip, mem)) {
IPAERR("fail to generate RT HW TBL ip %d\n", ip);
goto fail_hw_tbl_gen;
}
if (mem->size > avail) {
IPAERR("tbl too big, needed %d avail %d\n", mem->size, avail);
goto fail_send_cmd;
}
if (ip == IPA_IP_v4) {
v4 = (struct ipa_ip_v4_routing_init *)cmd;
desc.opcode = IPA_IP_V4_ROUTING_INIT;
v4->ipv4_rules_addr = mem->phys_base;
v4->size_ipv4_rules = mem->size;
v4->ipv4_addr = IPA_RAM_V4_RT_OFST;
} else {
v6 = (struct ipa_ip_v6_routing_init *)cmd;
desc.opcode = IPA_IP_V6_ROUTING_INIT;
v6->ipv6_rules_addr = mem->phys_base;
v6->size_ipv6_rules = mem->size;
v6->ipv6_addr = IPA_RAM_V6_RT_OFST;
}
desc.pyld = cmd;
desc.len = size;
desc.type = IPA_IMM_CMD_DESC;
IPA_DUMP_BUFF(mem->base, mem->phys_base, mem->size);
if (ipa_send_cmd(1, &desc)) {
IPAERR("fail to send immediate command\n");
goto fail_send_cmd;
}
__ipa_reap_sys_rt_tbls(ip);
dma_free_coherent(NULL, mem->size, mem->base, mem->phys_base);
kfree(cmd);
kfree(mem);
return 0;
fail_send_cmd:
if (mem->base)
dma_free_coherent(NULL, mem->size, mem->base, mem->phys_base);
fail_hw_tbl_gen:
kfree(cmd);
fail_alloc_cmd:
kfree(mem);
fail_alloc_mem:
return -EPERM;
}
/**
* __ipa_find_rt_tbl() - find the routing table
* which name is given as parameter
* @ip: [in] the ip address family type of the wanted routing table
* @name: [in] the name of the wanted routing table
*
* Returns: the routing table which name is given as parameter, or NULL if it
* doesn't exist
*/
struct ipa_rt_tbl *__ipa_find_rt_tbl(enum ipa_ip_type ip, const char *name)
{
struct ipa_rt_tbl *entry;
struct ipa_rt_tbl_set *set;
set = &ipa_ctx->rt_tbl_set[ip];
list_for_each_entry(entry, &set->head_rt_tbl_list, link) {
if (!strncmp(name, entry->name, IPA_RESOURCE_NAME_MAX))
return entry;
}
return NULL;
}
static struct ipa_rt_tbl *__ipa_add_rt_tbl(enum ipa_ip_type ip,
const char *name)
{
struct ipa_rt_tbl *entry;
struct ipa_rt_tbl_set *set;
struct ipa_tree_node *node;
int i;
node = kmem_cache_zalloc(ipa_ctx->tree_node_cache, GFP_KERNEL);
if (!node) {
IPAERR("failed to alloc tree node object\n");
goto node_alloc_fail;
}
if (ip >= IPA_IP_MAX || name == NULL) {
IPAERR("bad parm\n");
goto error;
}
set = &ipa_ctx->rt_tbl_set[ip];
/* check if this table exists */
entry = __ipa_find_rt_tbl(ip, name);
if (!entry) {
entry = kmem_cache_zalloc(ipa_ctx->rt_tbl_cache, GFP_KERNEL);
if (!entry) {
IPAERR("failed to alloc RT tbl object\n");
goto error;
}
/* find a routing tbl index */
for (i = 0; i < IPA_RT_INDEX_BITMAP_SIZE; i++) {
if (!test_bit(i, &ipa_ctx->rt_idx_bitmap[ip])) {
entry->idx = i;
set_bit(i, &ipa_ctx->rt_idx_bitmap[ip]);
break;
}
}
if (i == IPA_RT_INDEX_BITMAP_SIZE) {
IPAERR("not free RT tbl indices left\n");
goto fail_rt_idx_alloc;
}
INIT_LIST_HEAD(&entry->head_rt_rule_list);
INIT_LIST_HEAD(&entry->link);
strlcpy(entry->name, name, IPA_RESOURCE_NAME_MAX);
entry->set = set;
entry->cookie = IPA_COOKIE;
entry->in_sys = (ip == IPA_IP_v4) ?
!ipa_ctx->ip4_rt_tbl_lcl : !ipa_ctx->ip6_rt_tbl_lcl;
set->tbl_cnt++;
list_add(&entry->link, &set->head_rt_tbl_list);
IPADBG("add rt tbl idx=%d tbl_cnt=%d ip=%d\n", entry->idx,
set->tbl_cnt, ip);
node->hdl = (u32)entry;
if (ipa_insert(&ipa_ctx->rt_tbl_hdl_tree, node)) {
IPAERR("failed to add to tree\n");
WARN_ON(1);
}
} else {
kmem_cache_free(ipa_ctx->tree_node_cache, node);
}
return entry;
fail_rt_idx_alloc:
entry->cookie = 0;
kmem_cache_free(ipa_ctx->rt_tbl_cache, entry);
error:
kmem_cache_free(ipa_ctx->tree_node_cache, node);
node_alloc_fail:
return NULL;
}
static int __ipa_del_rt_tbl(struct ipa_rt_tbl *entry)
{
struct ipa_tree_node *node;
enum ipa_ip_type ip = IPA_IP_MAX;
if (entry == NULL || (entry->cookie != IPA_COOKIE)) {
IPAERR("bad parms\n");
return -EINVAL;
}
node = ipa_search(&ipa_ctx->rt_tbl_hdl_tree, (u32)entry);
if (node == NULL) {
IPAERR("lookup failed\n");
return -EPERM;
}
if (entry->set == &ipa_ctx->rt_tbl_set[IPA_IP_v4])
ip = IPA_IP_v4;
else if (entry->set == &ipa_ctx->rt_tbl_set[IPA_IP_v6])
ip = IPA_IP_v6;
else
WARN_ON(1);
if (!entry->in_sys) {
list_del(&entry->link);
clear_bit(entry->idx, &ipa_ctx->rt_idx_bitmap[ip]);
entry->set->tbl_cnt--;
IPADBG("del rt tbl_idx=%d tbl_cnt=%d\n", entry->idx,
entry->set->tbl_cnt);
kmem_cache_free(ipa_ctx->rt_tbl_cache, entry);
} else {
list_move(&entry->link,
&ipa_ctx->reap_rt_tbl_set[ip].head_rt_tbl_list);
clear_bit(entry->idx, &ipa_ctx->rt_idx_bitmap[ip]);
entry->set->tbl_cnt--;
IPADBG("del sys rt tbl_idx=%d tbl_cnt=%d\n", entry->idx,
entry->set->tbl_cnt);
}
/* remove the handle from the database */
rb_erase(&node->node, &ipa_ctx->rt_tbl_hdl_tree);
kmem_cache_free(ipa_ctx->tree_node_cache, node);
return 0;
}
static int __ipa_add_rt_rule(enum ipa_ip_type ip, const char *name,
const struct ipa_rt_rule *rule, u8 at_rear, u32 *rule_hdl)
{
struct ipa_rt_tbl *tbl;
struct ipa_rt_entry *entry;
struct ipa_tree_node *node;
if (rule->hdr_hdl &&
((ipa_search(&ipa_ctx->hdr_hdl_tree, rule->hdr_hdl) == NULL) ||
((struct ipa_hdr_entry *)rule->hdr_hdl)->cookie != IPA_COOKIE)) {
IPAERR("rt rule does not point to valid hdr\n");
goto error;
}
node = kmem_cache_zalloc(ipa_ctx->tree_node_cache, GFP_KERNEL);
if (!node) {
IPAERR("failed to alloc tree node object\n");
goto error;
}
tbl = __ipa_add_rt_tbl(ip, name);
if (tbl == NULL || (tbl->cookie != IPA_COOKIE)) {
IPAERR("bad params\n");
goto fail_rt_tbl_sanity;
}
/*
* do not allow any rules to be added at end of the "default" routing
* tables
*/
if (!strncmp(tbl->name, IPA_DFLT_RT_TBL_NAME, IPA_RESOURCE_NAME_MAX) &&
(tbl->rule_cnt > 0) && (at_rear != 0)) {
IPAERR("cannot add rule at end of tbl rule_cnt=%d at_rear=%d\n",
tbl->rule_cnt, at_rear);
goto fail_rt_tbl_sanity;
}
entry = kmem_cache_zalloc(ipa_ctx->rt_rule_cache, GFP_KERNEL);
if (!entry) {
IPAERR("failed to alloc RT rule object\n");
goto fail_rt_tbl_sanity;
}
INIT_LIST_HEAD(&entry->link);
entry->cookie = IPA_COOKIE;
entry->rule = *rule;
entry->tbl = tbl;
entry->hdr = (struct ipa_hdr_entry *)rule->hdr_hdl;
if (at_rear)
list_add_tail(&entry->link, &tbl->head_rt_rule_list);
else
list_add(&entry->link, &tbl->head_rt_rule_list);
tbl->rule_cnt++;
if (entry->hdr)
entry->hdr->ref_cnt++;
IPADBG("add rt rule tbl_idx=%d rule_cnt=%d\n", tbl->idx, tbl->rule_cnt);
*rule_hdl = (u32)entry;
node->hdl = *rule_hdl;
if (ipa_insert(&ipa_ctx->rt_rule_hdl_tree, node)) {
IPAERR("failed to add to tree\n");
WARN_ON(1);
goto ipa_insert_failed;
}
return 0;
ipa_insert_failed:
list_del(&entry->link);
kmem_cache_free(ipa_ctx->rt_rule_cache, entry);
fail_rt_tbl_sanity:
kmem_cache_free(ipa_ctx->tree_node_cache, node);
error:
return -EPERM;
}
/**
* ipa_add_rt_rule() - Add the specified routing rules to SW and optionally
* commit to IPA HW
* @rules: [inout] set of routing rules to add
*
* Returns: 0 on success, negative on failure
*
* Note: Should not be called from atomic context
*/
int ipa_add_rt_rule(struct ipa_ioc_add_rt_rule *rules)
{
int i;
int ret;
if (rules == NULL || rules->num_rules == 0 || rules->ip >= IPA_IP_MAX) {
IPAERR("bad parm\n");
return -EINVAL;
}
mutex_lock(&ipa_ctx->lock);
for (i = 0; i < rules->num_rules; i++) {
if (__ipa_add_rt_rule(rules->ip, rules->rt_tbl_name,
&rules->rules[i].rule,
rules->rules[i].at_rear,
&rules->rules[i].rt_rule_hdl)) {
IPAERR("failed to add rt rule %d\n", i);
rules->rules[i].status = IPA_RT_STATUS_OF_ADD_FAILED;
} else {
rules->rules[i].status = 0;
}
}
if (rules->commit)
if (__ipa_commit_rt(rules->ip)) {
ret = -EPERM;
goto bail;
}
ret = 0;
bail:
mutex_unlock(&ipa_ctx->lock);
return ret;
}
EXPORT_SYMBOL(ipa_add_rt_rule);
int __ipa_del_rt_rule(u32 rule_hdl)
{
struct ipa_rt_entry *entry = (struct ipa_rt_entry *)rule_hdl;
struct ipa_tree_node *node;
node = ipa_search(&ipa_ctx->rt_rule_hdl_tree, rule_hdl);
if (node == NULL) {
IPAERR("lookup failed\n");
return -EINVAL;
}
if (entry == NULL || (entry->cookie != IPA_COOKIE)) {
IPAERR("bad params\n");
return -EINVAL;
}
if (entry->hdr)
__ipa_release_hdr((u32)entry->hdr);
list_del(&entry->link);
entry->tbl->rule_cnt--;
IPADBG("del rt rule tbl_idx=%d rule_cnt=%d\n", entry->tbl->idx,
entry->tbl->rule_cnt);
if (entry->tbl->rule_cnt == 0 && entry->tbl->ref_cnt == 0) {
if (__ipa_del_rt_tbl(entry->tbl))
IPAERR("fail to del RT tbl\n");
}
entry->cookie = 0;
kmem_cache_free(ipa_ctx->rt_rule_cache, entry);
/* remove the handle from the database */
rb_erase(&node->node, &ipa_ctx->rt_rule_hdl_tree);
kmem_cache_free(ipa_ctx->tree_node_cache, node);
return 0;
}
/**
* ipa_del_rt_rule() - Remove the specified routing rules to SW and optionally
* commit to IPA HW
* @hdls: [inout] set of routing rules to delete
*
* Returns: 0 on success, negative on failure
*
* Note: Should not be called from atomic context
*/
int ipa_del_rt_rule(struct ipa_ioc_del_rt_rule *hdls)
{
int i;
int ret;
if (hdls == NULL || hdls->num_hdls == 0 || hdls->ip >= IPA_IP_MAX) {
IPAERR("bad parm\n");
return -EINVAL;
}
mutex_lock(&ipa_ctx->lock);
for (i = 0; i < hdls->num_hdls; i++) {
if (__ipa_del_rt_rule(hdls->hdl[i].hdl)) {
IPAERR("failed to del rt rule %i\n", i);
hdls->hdl[i].status = IPA_RT_STATUS_OF_DEL_FAILED;
} else {
hdls->hdl[i].status = 0;
}
}
if (hdls->commit)
if (__ipa_commit_rt(hdls->ip)) {
ret = -EPERM;
goto bail;
}
ret = 0;
bail:
mutex_unlock(&ipa_ctx->lock);
return ret;
}
EXPORT_SYMBOL(ipa_del_rt_rule);
/**
* ipa_commit_rt_rule() - Commit the current SW routing table of specified type
* to IPA HW
* @ip: The family of routing tables
*
* Returns: 0 on success, negative on failure
*
* Note: Should not be called from atomic context
*/
int ipa_commit_rt(enum ipa_ip_type ip)
{
int ret;
if (ip >= IPA_IP_MAX) {
IPAERR("bad parm\n");
return -EINVAL;
}
/*
* issue a commit on the filtering module of same IP type since
* filtering rules point to routing tables
*/
if (ipa_commit_flt(ip))
return -EPERM;
mutex_lock(&ipa_ctx->lock);
if (__ipa_commit_rt(ip)) {
ret = -EPERM;
goto bail;
}
ret = 0;
bail:
mutex_unlock(&ipa_ctx->lock);
return ret;
}
EXPORT_SYMBOL(ipa_commit_rt);
/**
* ipa_reset_rt() - reset the current SW routing table of specified type
* (does not commit to HW)
* @ip: The family of routing tables
*
* Returns: 0 on success, negative on failure
*
* Note: Should not be called from atomic context
*/
int ipa_reset_rt(enum ipa_ip_type ip)
{
struct ipa_rt_tbl *tbl;
struct ipa_rt_tbl *tbl_next;
struct ipa_rt_tbl_set *set;
struct ipa_rt_entry *rule;
struct ipa_rt_entry *rule_next;
struct ipa_tree_node *node;
struct ipa_rt_tbl_set *rset;
if (ip >= IPA_IP_MAX) {
IPAERR("bad parm\n");
return -EINVAL;
}
/*
* issue a reset on the filtering module of same IP type since
* filtering rules point to routing tables
*/
if (ipa_reset_flt(ip))
IPAERR("fail to reset flt ip=%d\n", ip);
set = &ipa_ctx->rt_tbl_set[ip];
rset = &ipa_ctx->reap_rt_tbl_set[ip];
mutex_lock(&ipa_ctx->lock);
IPADBG("reset rt ip=%d\n", ip);
list_for_each_entry_safe(tbl, tbl_next, &set->head_rt_tbl_list, link) {
list_for_each_entry_safe(rule, rule_next,
&tbl->head_rt_rule_list, link) {
node = ipa_search(&ipa_ctx->rt_rule_hdl_tree,
(u32)rule);
if (node == NULL)
WARN_ON(1);
/*
* for the "default" routing tbl, remove all but the
* last rule
*/
if (tbl->idx == 0 && tbl->rule_cnt == 1)
continue;
list_del(&rule->link);
tbl->rule_cnt--;
if (rule->hdr)
__ipa_release_hdr((u32)rule->hdr);
rule->cookie = 0;
kmem_cache_free(ipa_ctx->rt_rule_cache, rule);
/* remove the handle from the database */
rb_erase(&node->node, &ipa_ctx->rt_rule_hdl_tree);
kmem_cache_free(ipa_ctx->tree_node_cache, node);
}
node = ipa_search(&ipa_ctx->rt_tbl_hdl_tree, (u32)tbl);
if (node == NULL)
WARN_ON(1);
/* do not remove the "default" routing tbl which has index 0 */
if (tbl->idx != 0) {
if (!tbl->in_sys) {
list_del(&tbl->link);
set->tbl_cnt--;
clear_bit(tbl->idx,
&ipa_ctx->rt_idx_bitmap[ip]);
IPADBG("rst rt tbl_idx=%d tbl_cnt=%d\n",
tbl->idx, set->tbl_cnt);
kmem_cache_free(ipa_ctx->rt_tbl_cache, tbl);
} else {
list_move(&tbl->link, &rset->head_rt_tbl_list);
clear_bit(tbl->idx,
&ipa_ctx->rt_idx_bitmap[ip]);
set->tbl_cnt--;
IPADBG("rst sys rt tbl_idx=%d tbl_cnt=%d\n",
tbl->idx, set->tbl_cnt);
}
/* remove the handle from the database */
rb_erase(&node->node, &ipa_ctx->rt_tbl_hdl_tree);
kmem_cache_free(ipa_ctx->tree_node_cache, node);
}
}
mutex_unlock(&ipa_ctx->lock);
return 0;
}
EXPORT_SYMBOL(ipa_reset_rt);
/**
* ipa_get_rt_tbl() - lookup the specified routing table and return handle if it
* exists, if lookup succeeds the routing table ref cnt is increased
* @lookup: [inout] routing table to lookup and its handle
*
* Returns: 0 on success, negative on failure
*
* Note: Should not be called from atomic context
* Caller should call ipa_put_rt_tbl later if this function succeeds
*/
int ipa_get_rt_tbl(struct ipa_ioc_get_rt_tbl *lookup)
{
struct ipa_rt_tbl *entry;
int result = -EFAULT;
if (lookup == NULL || lookup->ip >= IPA_IP_MAX) {
IPAERR("bad parm\n");
return -EINVAL;
}
mutex_lock(&ipa_ctx->lock);
entry = __ipa_add_rt_tbl(lookup->ip, lookup->name);
if (entry && entry->cookie == IPA_COOKIE) {
entry->ref_cnt++;
lookup->hdl = (uint32_t)entry;
/* commit for get */
if (__ipa_commit_rt(lookup->ip))
IPAERR("fail to commit RT tbl\n");
result = 0;
}
mutex_unlock(&ipa_ctx->lock);
return result;
}
EXPORT_SYMBOL(ipa_get_rt_tbl);
/**
* ipa_put_rt_tbl() - Release the specified routing table handle
* @rt_tbl_hdl: [in] the routing table handle to release
*
* Returns: 0 on success, negative on failure
*
* Note: Should not be called from atomic context
*/
int ipa_put_rt_tbl(u32 rt_tbl_hdl)
{
struct ipa_rt_tbl *entry = (struct ipa_rt_tbl *)rt_tbl_hdl;
struct ipa_tree_node *node;
enum ipa_ip_type ip = IPA_IP_MAX;
int result;
mutex_lock(&ipa_ctx->lock);
node = ipa_search(&ipa_ctx->rt_tbl_hdl_tree, rt_tbl_hdl);
if (node == NULL) {
IPAERR("lookup failed\n");
result = -EINVAL;
goto ret;
}
if (entry == NULL || (entry->cookie != IPA_COOKIE) ||
entry->ref_cnt == 0) {
IPAERR("bad parms\n");
result = -EINVAL;
goto ret;
}
if (entry->set == &ipa_ctx->rt_tbl_set[IPA_IP_v4])
ip = IPA_IP_v4;
else if (entry->set == &ipa_ctx->rt_tbl_set[IPA_IP_v6])
ip = IPA_IP_v6;
else
WARN_ON(1);
entry->ref_cnt--;
if (entry->ref_cnt == 0 && entry->rule_cnt == 0) {
if (__ipa_del_rt_tbl(entry))
IPAERR("fail to del RT tbl\n");
/* commit for put */
if (__ipa_commit_rt(ip))
IPAERR("fail to commit RT tbl\n");
}
result = 0;
ret:
mutex_unlock(&ipa_ctx->lock);
return result;
}
EXPORT_SYMBOL(ipa_put_rt_tbl);