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|
/**
* Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
* SPDX-License-Identifier: Apache-2.0.
*/
#include <aws/http/private/hpack.h>
/* #TODO test empty strings */
/* #TODO remove all OOM error handling in HTTP/2 & HPACK. make functions void if possible */
/* RFC-7540 6.5.2 */
const size_t s_hpack_dynamic_table_initial_size = 4096;
const size_t s_hpack_dynamic_table_initial_elements = 512;
/* TODO: shouldn't be a hardcoded max_size, it should be driven by SETTINGS_HEADER_TABLE_SIZE */
const size_t s_hpack_dynamic_table_max_size = 16 * 1024 * 1024;
/* Used for growing the dynamic table buffer when it fills up */
const float s_hpack_dynamic_table_buffer_growth_rate = 1.5F;
struct aws_http_header s_static_header_table[] = {
#define HEADER(_index, _name) \
[_index] = { \
.name = AWS_BYTE_CUR_INIT_FROM_STRING_LITERAL(_name), \
},
#define HEADER_WITH_VALUE(_index, _name, _value) \
[_index] = { \
.name = AWS_BYTE_CUR_INIT_FROM_STRING_LITERAL(_name), \
.value = AWS_BYTE_CUR_INIT_FROM_STRING_LITERAL(_value), \
},
#include <aws/http/private/hpack_header_static_table.def>
#undef HEADER
#undef HEADER_WITH_VALUE
};
static const size_t s_static_header_table_size = AWS_ARRAY_SIZE(s_static_header_table);
struct aws_byte_cursor s_static_header_table_name_only[] = {
#define HEADER(_index, _name) [_index] = AWS_BYTE_CUR_INIT_FROM_STRING_LITERAL(_name),
#define HEADER_WITH_VALUE(_index, _name, _value) HEADER(_index, _name)
#include <aws/http/private/hpack_header_static_table.def>
#undef HEADER
#undef HEADER_WITH_VALUE
};
/* aws_http_header * -> size_t */
static struct aws_hash_table s_static_header_reverse_lookup;
/* aws_byte_cursor * -> size_t */
static struct aws_hash_table s_static_header_reverse_lookup_name_only;
static uint64_t s_header_hash(const void *key) {
const struct aws_http_header *header = key;
return aws_hash_combine(aws_hash_byte_cursor_ptr(&header->name), aws_hash_byte_cursor_ptr(&header->value));
}
static bool s_header_eq(const void *a, const void *b) {
const struct aws_http_header *left = a;
const struct aws_http_header *right = b;
if (!aws_byte_cursor_eq(&left->name, &right->name)) {
return false;
}
/* If the header stored in the table doesn't have a value, then it's a match */
return aws_byte_cursor_eq(&left->value, &right->value);
}
void aws_hpack_static_table_init(struct aws_allocator *allocator) {
int result = aws_hash_table_init(
&s_static_header_reverse_lookup,
allocator,
s_static_header_table_size - 1,
s_header_hash,
s_header_eq,
NULL,
NULL);
AWS_FATAL_ASSERT(AWS_OP_SUCCESS == result);
result = aws_hash_table_init(
&s_static_header_reverse_lookup_name_only,
allocator,
s_static_header_table_size - 1,
aws_hash_byte_cursor_ptr,
(aws_hash_callback_eq_fn *)aws_byte_cursor_eq,
NULL,
NULL);
AWS_FATAL_ASSERT(AWS_OP_SUCCESS == result);
/* Process in reverse so that name_only prefers lower indices */
for (size_t i = s_static_header_table_size - 1; i > 0; --i) {
/* the tables are created as 1-based indexing */
result = aws_hash_table_put(&s_static_header_reverse_lookup, &s_static_header_table[i], (void *)i, NULL);
AWS_FATAL_ASSERT(AWS_OP_SUCCESS == result);
result = aws_hash_table_put(
&s_static_header_reverse_lookup_name_only, &s_static_header_table_name_only[i], (void *)(i), NULL);
AWS_FATAL_ASSERT(AWS_OP_SUCCESS == result);
}
}
void aws_hpack_static_table_clean_up() {
aws_hash_table_clean_up(&s_static_header_reverse_lookup);
aws_hash_table_clean_up(&s_static_header_reverse_lookup_name_only);
}
#define HPACK_LOGF(level, hpack, text, ...) \
AWS_LOGF_##level((hpack)->log_subject, "id=%p [HPACK]: " text, (hpack)->log_id, __VA_ARGS__)
#define HPACK_LOG(level, hpack, text) HPACK_LOGF(level, hpack, "%s", text)
void aws_hpack_context_init(
struct aws_hpack_context *context,
struct aws_allocator *allocator,
enum aws_http_log_subject log_subject,
const void *log_id) {
AWS_ZERO_STRUCT(*context);
context->allocator = allocator;
context->log_subject = log_subject;
context->log_id = log_id;
/* Initialize dynamic table */
context->dynamic_table.max_size = s_hpack_dynamic_table_initial_size;
context->dynamic_table.buffer_capacity = s_hpack_dynamic_table_initial_elements;
context->dynamic_table.buffer =
aws_mem_calloc(allocator, context->dynamic_table.buffer_capacity, sizeof(struct aws_http_header));
aws_hash_table_init(
&context->dynamic_table.reverse_lookup,
allocator,
s_hpack_dynamic_table_initial_elements,
s_header_hash,
s_header_eq,
NULL,
NULL);
aws_hash_table_init(
&context->dynamic_table.reverse_lookup_name_only,
allocator,
s_hpack_dynamic_table_initial_elements,
aws_hash_byte_cursor_ptr,
(aws_hash_callback_eq_fn *)aws_byte_cursor_eq,
NULL,
NULL);
}
static struct aws_http_header *s_dynamic_table_get(const struct aws_hpack_context *context, size_t index);
static void s_clean_up_dynamic_table_buffer(struct aws_hpack_context *context) {
while (context->dynamic_table.num_elements > 0) {
struct aws_http_header *back = s_dynamic_table_get(context, context->dynamic_table.num_elements - 1);
context->dynamic_table.num_elements -= 1;
/* clean-up the memory we allocate for it */
aws_mem_release(context->allocator, back->name.ptr);
}
aws_mem_release(context->allocator, context->dynamic_table.buffer);
}
void aws_hpack_context_clean_up(struct aws_hpack_context *context) {
if (context->dynamic_table.buffer) {
s_clean_up_dynamic_table_buffer(context);
}
aws_hash_table_clean_up(&context->dynamic_table.reverse_lookup);
aws_hash_table_clean_up(&context->dynamic_table.reverse_lookup_name_only);
AWS_ZERO_STRUCT(*context);
}
size_t aws_hpack_get_header_size(const struct aws_http_header *header) {
return header->name.len + header->value.len + 32;
}
size_t aws_hpack_get_dynamic_table_num_elements(const struct aws_hpack_context *context) {
return context->dynamic_table.num_elements;
}
size_t aws_hpack_get_dynamic_table_max_size(const struct aws_hpack_context *context) {
return context->dynamic_table.max_size;
}
/*
* Gets the header from the dynamic table.
* NOTE: This function only bounds checks on the buffer size, not the number of elements.
*/
static struct aws_http_header *s_dynamic_table_get(const struct aws_hpack_context *context, size_t index) {
AWS_ASSERT(index < context->dynamic_table.buffer_capacity);
return &context->dynamic_table
.buffer[(context->dynamic_table.index_0 + index) % context->dynamic_table.buffer_capacity];
}
const struct aws_http_header *aws_hpack_get_header(const struct aws_hpack_context *context, size_t index) {
if (index == 0 || index >= s_static_header_table_size + context->dynamic_table.num_elements) {
aws_raise_error(AWS_ERROR_INVALID_INDEX);
return NULL;
}
/* Check static table */
if (index < s_static_header_table_size) {
return &s_static_header_table[index];
}
/* Check dynamic table */
return s_dynamic_table_get(context, index - s_static_header_table_size);
}
/* TODO: remove `bool search_value`, this option has no reason to exist */
size_t aws_hpack_find_index(
const struct aws_hpack_context *context,
const struct aws_http_header *header,
bool search_value,
bool *found_value) {
*found_value = false;
struct aws_hash_element *elem = NULL;
if (search_value) {
/* Check name-and-value first in static table */
aws_hash_table_find(&s_static_header_reverse_lookup, header, &elem);
if (elem) {
/* TODO: Maybe always set found_value to true? Who cares that the value is empty if they matched? */
/* If an element was found, check if it has a value */
*found_value = ((const struct aws_http_header *)elem->key)->value.len;
return (size_t)elem->value;
}
/* Check name-and-value in dynamic table */
aws_hash_table_find(&context->dynamic_table.reverse_lookup, header, &elem);
if (elem) {
/* TODO: Maybe always set found_value to true? Who cares that the value is empty if they matched? */
*found_value = ((const struct aws_http_header *)elem->key)->value.len;
goto trans_index_from_dynamic_table;
}
}
/* Check the name-only table. Note, even if we search for value, when we fail in searching for name-and-value, we
* should also check the name only table */
aws_hash_table_find(&s_static_header_reverse_lookup_name_only, &header->name, &elem);
if (elem) {
return (size_t)elem->value;
}
aws_hash_table_find(&context->dynamic_table.reverse_lookup_name_only, &header->name, &elem);
if (elem) {
goto trans_index_from_dynamic_table;
}
return 0;
trans_index_from_dynamic_table:
AWS_ASSERT(elem);
size_t index;
const size_t absolute_index = (size_t)elem->value;
if (absolute_index >= context->dynamic_table.index_0) {
index = absolute_index - context->dynamic_table.index_0;
} else {
index = (context->dynamic_table.buffer_capacity - context->dynamic_table.index_0) + absolute_index;
}
/* Need to add the static table size to re-base indicies */
index += s_static_header_table_size;
return index;
}
/* Remove elements from the dynamic table until it fits in max_size bytes */
static int s_dynamic_table_shrink(struct aws_hpack_context *context, size_t max_size) {
while (context->dynamic_table.size > max_size && context->dynamic_table.num_elements > 0) {
struct aws_http_header *back = s_dynamic_table_get(context, context->dynamic_table.num_elements - 1);
/* "Remove" the header from the table */
context->dynamic_table.size -= aws_hpack_get_header_size(back);
context->dynamic_table.num_elements -= 1;
/* Remove old header from hash tables */
if (aws_hash_table_remove(&context->dynamic_table.reverse_lookup, back, NULL, NULL)) {
HPACK_LOG(ERROR, context, "Failed to remove header from the reverse lookup table");
goto error;
}
/* If the name-only lookup is pointing to the element we're removing, it needs to go.
* If not, it's pointing to a younger, sexier element. */
struct aws_hash_element *elem = NULL;
aws_hash_table_find(&context->dynamic_table.reverse_lookup_name_only, &back->name, &elem);
if (elem && elem->key == back) {
if (aws_hash_table_remove_element(&context->dynamic_table.reverse_lookup_name_only, elem)) {
HPACK_LOG(ERROR, context, "Failed to remove header from the reverse lookup (name-only) table");
goto error;
}
}
/* clean up the memory we allocated to hold the name and value string*/
aws_mem_release(context->allocator, back->name.ptr);
}
return AWS_OP_SUCCESS;
error:
return AWS_OP_ERR;
}
/*
* Resizes the dynamic table storage buffer to new_max_elements.
* Useful when inserting over capacity, or when downsizing.
* Do shrink first, if you want to remove elements, or memory leak will happen.
*/
static int s_dynamic_table_resize_buffer(struct aws_hpack_context *context, size_t new_max_elements) {
/* Clear the old hash tables */
aws_hash_table_clear(&context->dynamic_table.reverse_lookup);
aws_hash_table_clear(&context->dynamic_table.reverse_lookup_name_only);
struct aws_http_header *new_buffer = NULL;
if (AWS_UNLIKELY(new_max_elements == 0)) {
/* If new buffer is of size 0, don't both initializing, just clean up the old one. */
goto cleanup_old_buffer;
}
/* Allocate the new buffer */
new_buffer = aws_mem_calloc(context->allocator, new_max_elements, sizeof(struct aws_http_header));
if (!new_buffer) {
return AWS_OP_ERR;
}
/* Don't bother copying data if old buffer was of size 0 */
if (AWS_UNLIKELY(context->dynamic_table.num_elements == 0)) {
goto reset_dyn_table_state;
}
/*
* Take a buffer that looks like this:
*
* Index 0
* ^
* +---------------------------+
* | Below Block | Above Block |
* +---------------------------+
* And make it look like this:
*
* Index 0
* ^
* +-------------+-------------+
* | Above Block | Below Block |
* +-------------+-------------+
*/
/* Copy as much the above block as possible */
size_t above_block_size = context->dynamic_table.buffer_capacity - context->dynamic_table.index_0;
if (above_block_size > new_max_elements) {
above_block_size = new_max_elements;
}
memcpy(
new_buffer,
context->dynamic_table.buffer + context->dynamic_table.index_0,
above_block_size * sizeof(struct aws_http_header));
/* Copy as much of below block as possible */
const size_t free_blocks_available = new_max_elements - above_block_size;
const size_t old_blocks_to_copy = context->dynamic_table.buffer_capacity - above_block_size;
const size_t below_block_size = aws_min_size(free_blocks_available, old_blocks_to_copy);
if (below_block_size) {
memcpy(
new_buffer + above_block_size,
context->dynamic_table.buffer,
below_block_size * sizeof(struct aws_http_header));
}
/* Free the old memory */
cleanup_old_buffer:
aws_mem_release(context->allocator, context->dynamic_table.buffer);
/* Reset state */
reset_dyn_table_state:
if (context->dynamic_table.num_elements > new_max_elements) {
context->dynamic_table.num_elements = new_max_elements;
}
context->dynamic_table.buffer_capacity = new_max_elements;
context->dynamic_table.index_0 = 0;
context->dynamic_table.buffer = new_buffer;
/* Re-insert all of the reverse lookup elements */
for (size_t i = 0; i < context->dynamic_table.num_elements; ++i) {
if (aws_hash_table_put(
&context->dynamic_table.reverse_lookup, &context->dynamic_table.buffer[i], (void *)i, NULL)) {
return AWS_OP_ERR;
}
if (aws_hash_table_put(
&context->dynamic_table.reverse_lookup_name_only,
&context->dynamic_table.buffer[i].name,
(void *)i,
NULL)) {
return AWS_OP_ERR;
}
}
return AWS_OP_SUCCESS;
}
int aws_hpack_insert_header(struct aws_hpack_context *context, const struct aws_http_header *header) {
/* Don't move forward if no elements allowed in the dynamic table */
if (AWS_UNLIKELY(context->dynamic_table.max_size == 0)) {
return AWS_OP_SUCCESS;
}
const size_t header_size = aws_hpack_get_header_size(header);
/* If for whatever reason this new header is bigger than the total table size, burn everything to the ground. */
if (AWS_UNLIKELY(header_size > context->dynamic_table.max_size)) {
/* #TODO handle this. It's not an error. It should simply result in an empty table RFC-7541 4.4 */
goto error;
}
/* Rotate out headers until there's room for the new header (this function will return immediately if nothing needs
* to be evicted) */
if (s_dynamic_table_shrink(context, context->dynamic_table.max_size - header_size)) {
goto error;
}
/* If we're out of space in the buffer, grow it */
if (context->dynamic_table.num_elements == context->dynamic_table.buffer_capacity) {
/* If the buffer is currently of 0 size, reset it back to its initial size */
const size_t new_size =
context->dynamic_table.buffer_capacity
? (size_t)(context->dynamic_table.buffer_capacity * s_hpack_dynamic_table_buffer_growth_rate)
: s_hpack_dynamic_table_initial_elements;
if (s_dynamic_table_resize_buffer(context, new_size)) {
goto error;
}
}
/* Decrement index 0, wrapping if necessary */
if (context->dynamic_table.index_0 == 0) {
context->dynamic_table.index_0 = context->dynamic_table.buffer_capacity - 1;
} else {
context->dynamic_table.index_0--;
}
/* Increment num_elements */
context->dynamic_table.num_elements++;
/* Increment the size */
context->dynamic_table.size += header_size;
/* Put the header at the "front" of the table */
struct aws_http_header *table_header = s_dynamic_table_get(context, 0);
/* TODO:: We can optimize this with ring buffer. */
/* allocate memory for the name and value, which will be deallocated whenever the entry is evicted from the table or
* the table is cleaned up. We keep the pointer in the name pointer of each entry */
const size_t buf_memory_size = header->name.len + header->value.len;
if (buf_memory_size) {
uint8_t *buf_memory = aws_mem_acquire(context->allocator, buf_memory_size);
if (!buf_memory) {
return AWS_OP_ERR;
}
struct aws_byte_buf buf = aws_byte_buf_from_empty_array(buf_memory, buf_memory_size);
/* Copy header, then backup strings into our own allocation */
*table_header = *header;
aws_byte_buf_append_and_update(&buf, &table_header->name);
aws_byte_buf_append_and_update(&buf, &table_header->value);
} else {
/* if buf_memory_size is 0, no memory needed, we will insert the empty header into dynamic table */
*table_header = *header;
table_header->name.ptr = NULL;
table_header->value.ptr = NULL;
}
/* Write the new header to the look up tables */
if (aws_hash_table_put(
&context->dynamic_table.reverse_lookup, table_header, (void *)context->dynamic_table.index_0, NULL)) {
goto error;
}
/* Note that we can just blindly put here, we want to overwrite any older entry so it isn't accidentally removed. */
if (aws_hash_table_put(
&context->dynamic_table.reverse_lookup_name_only,
&table_header->name,
(void *)context->dynamic_table.index_0,
NULL)) {
goto error;
}
return AWS_OP_SUCCESS;
error:
/* Do not attempt to handle the error, if something goes wrong, close the connection */
return AWS_OP_ERR;
}
int aws_hpack_resize_dynamic_table(struct aws_hpack_context *context, size_t new_max_size) {
/* Nothing to see here! */
if (new_max_size == context->dynamic_table.max_size) {
return AWS_OP_SUCCESS;
}
if (new_max_size > s_hpack_dynamic_table_max_size) {
HPACK_LOGF(
ERROR,
context,
"New dynamic table max size %zu is greater than the supported max size (%zu)",
new_max_size,
s_hpack_dynamic_table_max_size);
aws_raise_error(AWS_ERROR_OVERFLOW_DETECTED);
goto error;
}
/* If downsizing, remove elements until we're within the new size constraints */
if (s_dynamic_table_shrink(context, new_max_size)) {
goto error;
}
/* Resize the buffer to the current size */
if (s_dynamic_table_resize_buffer(context, context->dynamic_table.num_elements)) {
goto error;
}
/* Update the max size */
context->dynamic_table.max_size = new_max_size;
return AWS_OP_SUCCESS;
error:
return AWS_OP_ERR;
}
|