| ----------------------------------------------- |
| HTX API |
| Version 1.1 |
| ( Last update: 2021-02-24 ) |
| ----------------------------------------------- |
| Author : Christopher Faulet |
| Contact : cfaulet at haproxy dot com |
| |
| 1. Background |
| |
| Historically, HAProxy stored HTTP messages in a raw fashion in buffers, keeping |
| parsing information separately in a "struct http_msg" owned by the stream. It was |
| optimized to the data transfer, but not so much for rewrites. It was also HTTP/1 |
| centered. While it was the only HTTP version supported, it was not a |
| problem. But with the rise of HTTP/2, it starts to be hard to still use this |
| representation. |
| |
| At the first age of the HTTP/2 in HAProxy, H2 messages were converted into |
| H1. This was terribly unefficient because it required two parsing passes, a |
| first one in H2 and a second one in H1, with a conversion in the middle. And of |
| course, the same was also true in the opposite direction. outgoing H1 messages |
| had to be converted back in H2 to be sent. Even worse, because the H2->H1 |
| conversion, only client H2 connections were supported. |
| |
| So, to address all these problems, we decided to replace the old raw |
| representation by a version-agnostic and self-structured internal HTTP |
| representation, the HTX. As an additional benefit, with this new representation, |
| the message parsing and its processing are now separated, making all the HTTP |
| analysis simpler and cleaner. The parsing of HTTP messages is now handled by |
| the multiplexers (h1 or h2). |
| |
| |
| 2. The HTX message |
| |
| The HTX is a structure containing useful information about an HTTP message |
| followed by a contiguous array with some parts of the message. These parts are |
| called blocks. A block is composed of metadata (htx_blk) and an associated |
| payload. Blocks' metadata are stored starting from the end of the array while |
| their payload are stored at the beginning. Blocks' metadata are often simply |
| called blocks. it is a misuse of language that's simplify explanations. |
| |
| Internally, this structure is "hidden" in a buffer. This way, there are few |
| changes into intermediate layers (stream-interface and channels). They still |
| manipulate buffers. Only the multiplexer and the stream have to know how data |
| are really stored. From the HTX perspective, a buffer is just a memory |
| area. When an HTX message is stored in a buffer, this one appears as full. |
| |
| * General view of an HTX message : |
| |
| |
| buffer->area |
| | |
| |<------------ buffer->size == buffer->data ----------------------| |
| | | |
| | |<------------- Blocks array (htx->size) ------------------>| |
| V | | |
| +-----+-----------------+-------------------------+---------------+ |
| | HTX | PAYLOADS ==> | | <== HTX_BLKs | |
| +-----+-----------------+-------------------------+---------------+ |
| | | | | |
| |<-payloads part->|<----- free space ------>|<-blocks part->| |
| (htx->data) |
| |
| |
| The blocks part remains linear and sorted. It may be see as an array with |
| negative indexes. But, instead of using negative indexes, we use positive |
| positions to identify a block. This position is then converted to an address |
| relatively to the beginning of the blocks array. |
| |
| tail head |
| | | |
| V V |
| .....--+----+-----------------------+------+------+ |
| | Bn | ... | B1 | B0 | |
| .....--+----+-----------------------+------+------+ |
| ^ ^ ^ |
| Addr of the block Addr of the block Addr of the block |
| at the position N at the position 1 at the position 0 |
| |
| |
| In the HTX structure, 3 "special" positions are stored : |
| |
| - tail : Position of the newest inserted block |
| - head : Position of the oldest inserted block |
| - first : Position of the first block to (re)start the analyse |
| |
| The blocks part never wrap. If we have no space to allocate a new block and if |
| there is a hole at the beginning of the blocks part (so at the end of the blocks |
| array), we move back all blocks. |
| |
| |
| tail head tail head |
| | | | | |
| V V V V |
| ...+--------------+---------+ blocks ...----------+--------------+ |
| | X== HTX_BLKS | | defrag | <== HTX_BLKS | |
| ...+--------------+---------+ =====> ...----------+--------------+ |
| |
| |
| The payloads part is a raw space that may wrap. A block's payload must never be |
| accessed directly. Instead a block must be selected to retrieve the address of |
| its payload. |
| |
| |
| +------------------------( B0.addr )--------------------------+ |
| | +-------------------( B1.addr )----------------------+ | |
| | | +-----------( B2.addr )----------------+ | | |
| V V V | | | |
| +-----+----+-------+----+--------+-------------+-------+----+----+----+ |
| | HTX | P0 | P1 | P2 | ...==> | | <=... | B2 | B1 | B0 | |
| +-----+----+-------+----+--------+-------------+-------+----+----+----+ |
| |
| |
| Because the payloads part may wrap, there are 2 usable free spaces : |
| |
| - The free space in front of the blocks part. This one is used if and only if |
| the other one was not used yet. |
| |
| - The free space at the beginning of the message. Once this one is used, the |
| other one is never used again, until a message defragmentation. |
| |
| |
| * Linear payloads part : |
| |
| |
| head_addr end_addr tail_addr |
| | | | |
| V V V |
| +-----+--------------------+-------------+--------------------+-------... |
| | HTX | | PAYLOADS | | HTX_BLKs |
| +-----+--------------------+-------------+--------------------+-------... |
| |<-- free space 2 -->| |<-- free space 1 -->| |
| (used if the other is too small) (used in priority) |
| |
| |
| * Wrapping payloads part : |
| |
| |
| head_addr end_addr tail_addr |
| | | | |
| V V V |
| +-----+----+----------------+--------+----------------+-------+-------... |
| | HTX | | PAYLOADS part2 | | PAYLOADS part1 | | HTX_BLKs |
| +-----+----+----------------+--------+----------------+-------+-------... |
| |<-->| |<------>| |<----->| |
| unusable free space unusable |
| free space free space |
| |
| |
| Finally, when the usable free space is not enough to store a new block, unusable |
| parts may be get back with a full defragmentation. The payloads part is then |
| realigned at the beginning of the blocks array and the free space becomes |
| continuous again. |
| |
| |
| 3. The HTX blocks |
| |
| An HTX block can be as well a start-line as a header, a body part or a |
| trailer. For all these types of block, a payload is attached to the block. It |
| can also be a marker, the end-of-headers or end-of-trailers. For these blocks, |
| there is no payload but it counts for a byte. It is important to not skip it |
| when data are forwarded. |
| |
| As already said, a block is composed of metadata and a payload. Metadata are |
| stored in the blocks part and are composed of 2 fields : |
| |
| - info : It a 32 bits field containing the block's type on 4 bits followed |
| by the payload length. See below for details. |
| |
| - addr : The payload's address, if any, relatively to the beginning the |
| array used to store part of the HTTP message itself. |
| |
| |
| * Block's info representation : |
| |
| 0b 0000 0000 0000 0000 0000 0000 0000 0000 |
| ---- ------------------------ --------- |
| type value (1 MB max) name length (header/trailer - 256B max) |
| ---------------------------------- |
| data length (256 MB max) |
| (body, method, path, version, status, reason) |
| |
| |
| Supported types are : |
| |
| - 0000 (0) : The request start-line |
| - 0001 (1) : The response start-line |
| - 0010 (2) : A header block |
| - 0011 (3) : The end-of-headers marker |
| - 0100 (4) : A data block |
| - 0101 (5) : A trailer block |
| - 0110 (6) : The end-of-trailers marker |
| - 1111 (15) : An unused block |
| |
| Other types are unused for now and reserved for futur extensions. |
| |
| An HTX message is typically composed of following blocks, in this order : |
| |
| - a start-line |
| - zero or more header blocks |
| - an end-of-headers marker |
| - zero or more data blocks |
| - zero or more trailer blocks (optional) |
| - an end-of-trailers marker (optional but always set if there is at least |
| one trailer block) |
| |
| Only one HTTP request at a time can be stored in an HTX message. For HTTP |
| response, it is more complicated. Only one "final" response can be stored in an |
| HTX message. It is a response with status-code 101 or greater or equal to |
| 200. But it may be preceded by several 1xx informational responses. Such |
| responses are part of the same HTX message. |
| |
| When the end of the message is reached a special flag is set on the message |
| (HTX_FL_EOM). It means no more data are expected for this message, except |
| tunneled data. But tunneled data will never be mixed with message data to avoid |
| ambiguities. Thus once the flag marking the end of the message is set, it is |
| easy to know the message ends. The end is reached if the HTX message is empty or |
| on the tail HTX block in the HTX message. Once all blocks of the HTX message are |
| consumed, tunneled data, if any, may be transferred. |
| |
| |
| 3.1. The start-line |
| |
| Every HTX message starts with a start-line. Its payload is a "struct htx_sl". In |
| addition to the parts of the HTTP start-line, this structure contains some |
| information about the represented HTTP message, mainly in the form of flags |
| (HTX_SL_F_*). For instance, if an HTTP message contains the header |
| "conten-length", then the flag HTX_SL_F_CLEN is set. |
| |
| Each HTTP message has its own start-line. So an HTX request has one and only one |
| start-line because it must contain only one HTTP request at a time. But an HTX |
| response may have more than one start-line if the final HTTP response is |
| precedeed by some 1xx informational responses. |
| |
| In HTTP/2, there is no start-line. So the H2 multiplexer must create one when it |
| converts an H2 message to HTX : |
| |
| - For the request, it uses the pseudo headers ":method", ":path" or |
| ":authority" depending on the method and the hardcoded version "HTTP/2.0". |
| |
| - For the response, it used the hardcoded version "HTTP/2.0", the |
| pseudo-header ":status" and an empty reason. |
| |
| |
| 3.2. The headers and trailers |
| |
| HTX Headers and trailers are quite similar. Different types are used to simplify |
| headers processing. But from the HTX point of view, there is no real difference, |
| except their position in the HTX message. The header blocks always follow an HTX |
| start-line while trailer blocks come after the data. If there is no data, they |
| follow the end-of-headers marker. |
| |
| Headers and trailers are the only blocks containing a Key/Value payload. The |
| corresponding end-of marker must always be placed after each group to mark, as |
| it name suggests, the end. |
| |
| In HTTP/1, trailers are only present on chunked messages. But chunked messages |
| do not always have trailers. In this case, the end-of-trailers block may or may |
| not be present. Multiplexers must be able to handle both situations. In HTTP/2, |
| trailers are only present if a HEADERS frame is sent after DATA frames. |
| |
| |
| 3.3. The data |
| |
| The payload body of an HTTP message is stored as DATA blocks in the HTX |
| message. For HTTP/1 messages, it is the message body without the chunks |
| formatting, if any. For HTTP/2, it is the payload of DATA frames. |
| |
| The DATA blocks are the only HTX blocks that may be partially processed (copied |
| or removed). All other types of block must be entirely processed. This means |
| DATA blocks can be resized. |
| |
| |
| 3.4. The end-of markers |
| |
| These blocks are used to delimit parts of an HTX message. It exists two |
| markers : |
| |
| - end-of-headers (EOH) |
| - end-of-trailers (EOT) |
| |
| EOH is always present in an HTX message. EOT is optional. |
| |
| |
| 4. The HTX API |
| |
| |
| 4.1. Get/set HTX message from/to the underlying buffer |
| |
| The first thing to do to process an HTX message is to get it from the underlying |
| buffer. There are 2 functions to do so, the second one relying on the first : |
| |
| - htxbuf() returns an HTX message from a buffer. It does not modify the |
| buffer. It only initialize the HTX message if the buffer is empty. |
| |
| - htx_from_buf() uses htxbuf(). But it also updates the underlying buffer so |
| that it appears as full. |
| |
| Both functions return a "zero-sized" HTX message if the buffer is null. This |
| way, the HTX message is always valid. The first function is the default function |
| to use. The second one is only useful when some content will be added. For |
| instance, it used by the HTX analyzers when HAProxy generates a response. Thus, |
| the buffer is in a right state. |
| |
| Once the processing done, if the HTX message has been modified, the underlying |
| buffer must be also updated, except htx_from_buf() was used _AND_ data was only |
| added. For all other cases, the function htx_to_buf() must be called. |
| |
| Finally, the function htx_reset() may be called at any time to reset an HTX |
| message. And the function buf_room_for_htx_data() may be called to know if a raw |
| buffer is full from the HTX perspective. It is used during conversion from/to |
| the HTX. |
| |
| |
| 4.2. Helpers to deal with free space in an HTX message |
| |
| Once with an HTX message, following functions may help to process it : |
| |
| - htx_used_space() and htx_meta_space() return, respectively, the total |
| space used in an HTX message and the space used by block's metadata only. |
| |
| - htx_free_space() and htx_free_data_space() return, respectively, the total |
| free space in an HTX message and the free space available for the payload |
| if a new HTX block is stored (so it is the total free space minus the size |
| of an HTX block). |
| |
| - htx_is_empty() and htx_is_not_empty() are boolean functions to know if an |
| HTX message is empty or not. |
| |
| - htx_get_max_blksz() returns the maximum size available for the payload, |
| not exceeding a maximum, metadata included. |
| |
| - htx_almost_full() should be used to know if an HTX message uses at least |
| 3/4 of its capacity. |
| |
| |
| 4.3. HTX Blocks manipulations |
| |
| Once the available sapce in an HTX message is known, the next step is to add HTX |
| blocks. First of all the function htx_nbblks() returns the number of blocks |
| allocated in an HTX message. Then, there is an add function per block's type : |
| |
| - htx_add_stline() adds a start-line. The type (request or response) and the |
| flags of the start-line must be provided, as well as its three parts |
| (method,uri,version or version,status-code,reason). |
| |
| - htx_add_header() and htx_add_trailers() are similar. The name and the |
| value must be provided. The inserted HTX block is returned on success or |
| NULL if an error occurred. |
| |
| - htx_add_endof() must be used to add any end-of marker. The block's type |
| (EOH or EOT) must be specified. The inserted HTX block is returned on |
| success or NULL if an error occurred. |
| |
| - htx_add_all_headers() and htx_add_all_trailers() add, respectively, a list |
| of headers and a list of trailers, followed by the appropriate end-of |
| marker. On success, this marker is returned. Otherwise, NULL is |
| returned. Note there is no rollback on the HTX message when an error |
| occurred. Some headers or trailers may have been added. So it is the |
| caller responsibility to take care of that. |
| |
| - htx_add_data() must be used to add a DATA block. Unlike previous |
| functions, this one returns the number of bytes copied or 0 if nothing was |
| copied. If possible, the data are appended to the tail block if it is a |
| DATA block. Only a part of the payload may be copied because this function |
| will try to limit the message defragmentation and the wrapping of blocks |
| as far as possible. |
| |
| - htx_add_data_atonce() must be used if all data must be added or nothing. |
| It tries to insert all the payload, this function returns the inserted |
| block on success. Otherwise it returns NULL. |
| |
| When an HTX block is added, it is always the last one (the tail). But, if a |
| block must be added at a specific place, it is not really handy. 2 functions may |
| help (others could be added) : |
| |
| - htx_add_last_data() adds a DATA block just after all other DATA blocks and |
| before any trailers and EOT marker. It relies on htx_add_data_atonce(), so |
| a defragmentation may be performed. |
| |
| - htx_move_blk_before() moves a specific block just after another one. Both |
| blocks must already be in the HTX message and the block to move must |
| always be placed after the "pivot". |
| |
| Once added, there are three functions to update the block's payload : |
| |
| - htx_replace_stline() updates a start-line. The HTX block must be passed as |
| argument. Only string parts of the start-line are updated by this |
| function. On success, it returns the new start-line. So it is pretty easy |
| to update its flags. NULL is returned if an error occurred. |
| |
| - htx_replace_header() fully replaces a header (its name and its value) by a |
| new one. The HTX block must be passed a argument, as well as its new name |
| and its new value. The new header can be smaller or larger than the old |
| one. This function returns the new HTX block on success, or NULL is an |
| error occurred. |
| |
| - htx_replace_blk_value() replaces a part of a block's payload or its |
| totality. It works for HEADERS, TRAILERS or DATA blocks. The HTX block |
| must be provided with the part to remove and the new one. The new part can |
| be smaller or larger than the old one. This function returns the new HTX |
| block on success, or NULL is an error occurred. |
| |
| - htx_change_blk_value_len() changes the size of the value. It is the caller |
| responsibility to change the value itself, make sure there is enough space |
| and update allocated value. This function updates the HTX message |
| accordingly. |
| |
| - htx_set_blk_value_len() changes the size of the value. It is the caller |
| responsibility to change the value itself, make sure there is enough space |
| and update allocated value. Unlike the function |
| htx_change_blk_value_len(), this one does not update the HTX message. So |
| it should be used with caution. |
| |
| - htx_cut_data_blk() removes <n> bytes from the beginning of a DATA |
| block. The block's start address and its length are adjusted, and the |
| htx's total data count is updated. This is used to mark that part of some |
| data were transferred from a DATA block without removing this DATA |
| block. No sanity check is performed, the caller is responsible for doing |
| this exclusively on DATA blocks, and never removing more than the block's |
| size. |
| |
| - htx_remove_blk() removes a block from an HTX message. It returns the |
| following block or NULL if it is the tail block. |
| |
| Finally, a block may be removed using the function htx_remove_blk(). This |
| function returns the block following the one removed or NULL if it is the tail |
| block. |
| |
| |
| 4.4. The HTX start-line |
| |
| Unlike other HTX blocks, the start-line is a bit special because its payload is |
| a structure followed by its three parts : |
| |
| +--------+-------+-------+-------+ |
| | HTX_SL | PART1 | PART2 | PART3 | |
| +--------+-------+-------+-------+ |
| |
| Some macros and functions may help to manipulate these parts : |
| |
| - HTX_SL_P{N}_LEN() and HTX_SL_P{N}_PTR() are macros to get the length of a |
| part and a pointer on it. {N} should be 1, 2 or 3. |
| |
| - HTX_SL_REQ_MLEN(), HTX_SL_REQ_ULEN(), HTX_SL_REQ_VLEN(), |
| HTX_SL_REQ_MPTR(), HTX_SL_REQ_UPTR() and HTX_SL_REQ_VPTR() are macros to |
| get info about a request start-line. These macros only wrap HTX_SL_P* |
| ones. |
| |
| - HTX_SL_RES_VLEN(), HTX_SL_RES_CLEN(), HTX_SL_RES_RLEN(), |
| HTX_SL_RES_VPTR(), HTX_SL_RES_CPTR() and HTX_SL_RES_RPTR() are macros to |
| get info about a response start-line. These macros only wrap HTX_SL_P* |
| ones. |
| |
| - htx_sl_p1(), htx_sl_p2() and htx_sl_p2() are functions to get the ist |
| corresponding to the right part of a start-line. |
| |
| - htx_sl_req_meth(), htx_sl_req_uri() and htx_sl_req_vsn() get the ist |
| corresponding to the right part of a request start-line. |
| |
| - htx_sl_res_vsn(), htx_sl_res_code() and htx_sl_res_reason() get the ist |
| corresponding to the right part of a response start-line. |
| |
| |
| 4.5. Iterate on the HTX message |
| |
| To iterate on an HTX message, the first thing to do is to get the HTX block to |
| start the loop. There are three special blocks in an HTX message that may be |
| good candidates to start a loop : |
| |
| - the head block. It is the oldest inserted block. Multiplexers always start |
| to consume an HTX message from this block. The function htx_get_head() |
| returns its position and htx_get_head_blk() returns the blocks itself. In |
| addition, the function htx_get_head_type() returns its block's type. |
| |
| - the tail block. It is the newest inserted block. The function |
| htx_get_tail() returns its position and htx_get_tail_blk() returns the |
| blocks itself. In addition, the function htx_get_tail_type() returns its |
| block's type. |
| |
| - the first block. It is the block where to (re)start the analyse. It is |
| used as start point by HTX analyzers. The function htx_get_first() returns |
| its position and htx_get_first_blk() returns the blocks itself. In |
| addition, the function htx_get_first_type() returns its block's type. |
| |
| For all these functions, if the HTX message is empty, -1 is returned for the |
| block's position, NULL instead of a block and HTX_BLK_UNUSED for its type. |
| |
| Then to iterate on blocks, foreword or backward : |
| |
| - htx_get_prev() and htx_get_next() return, respectively, the position of |
| the previous block or the next block, given a specific position. Or -1 if |
| an edge is reached. |
| |
| - htx_get_prev_blk() and htx_get_next_blk() return, respectively, the |
| previous block or the next one, given a specific block. Or NULL if an edge |
| is reached. |
| |
| 4.6. Access block content and info |
| |
| Following functions may be used to retrieve information about a specific HTX |
| block : |
| |
| - htx_get_blk_pos() returns the position of a block. It must be in the HTX |
| message. |
| |
| - htx_get_blk_ptr() returns a pointer on the payload of a block. |
| |
| - htx_get_blk_type() returns the type of a block. |
| |
| - htx_get_blksz() returns the payload size of a block |
| |
| - htx_get_blk_name() returns the name of a block, only if it is a header or |
| a trailer. Otherwise, it returns an empty string. |
| |
| - htx_get_blk_value() returns the value of a block, depending on its |
| type. For header and trailer blocks, it is the value field. For markers |
| (EOH or EOT), an empty string is returned. For other blocks an ist |
| pointing on the block payload is returned. |
| |
| - htx_is_unique_blk() may be used to know if a block is the only one |
| remaining inside an HTX message, excluding unused blocks. This function is |
| pretty useful to determine the end of a HTX message, in conjunction with |
| HTX_FL_EOM flag. |
| |
| 4.7. Advanced functions |
| |
| Some more advanced functions may be used to do complex processing on the HTX |
| message. These functions are used by HTX analyzers or by multiplexers. |
| |
| - htx_truncate() removes all blocks after the one containing a specific |
| offset relatively to the head block of the HTX message. If the offset is |
| inside a DATA block, it is truncated. For all other blocks, the removal |
| starts to the next block. |
| |
| - htx_drain() tries to remove a specific amount of bytes of payload. If the |
| tail block is a DATA block, it may be truncated if necessary. All other |
| block are removed at once or kept. This function returns a mixed value, |
| with the first block not removed, or NULL if everything was removed, and |
| the amount of data drained. |
| |
| - htx_xfer_blks() transfers HTX blocks from an HTX message to another, |
| stopping on the first block of a specified type or when a specific amount |
| of bytes, including meta-data, was moved. If the tail block is a DATA |
| block, it may be partially moved. All other block are transferred at once |
| or kept. This function returns a mixed value, with the last block moved, |
| or NULL if nothing was moved, and the amount of data transferred. When |
| HEADERS or TRAILERS blocks must be transferred, this function transfers |
| all of them. Otherwise, if it is not possible, it triggers an error. It is |
| the caller responsibility to transfer all headers or trailers at once. |
| |
| - htx_append_msg() append an HTX message to another one. All the message is |
| copied or nothing. So, if an error occurred, a rollback is performed. This |
| function returns 1 on success and 0 on error. |
| |
| - htx_reserve_max_data() Reserves the maximum possible size for an HTX data |
| block, by extending an existing one or by creating a new one. It returns a |
| compound result with the HTX block and the position where new data must be |
| inserted (0 for a new block). If an error occurs or if there is no space |
| left, NULL is returned instead of a pointer on an HTX block. |
| |
| - htx_find_offset() looks for the HTX block containing a specific offset, |
| starting at the HTX message's head. The function returns the found HTX |
| block and the position inside this block where the offset is. If the |
| offset is outside of the HTX message, NULL is returned. |
| |
| - htx_defrag() defragments an HTX message. It removes unused blocks and |
| unwraps the payloads part. A temporary buffer is used to do so. This |
| function never fails. A referenced block may be provided. If so, the |
| corresponding new block is returned. Otherwise, NULL is returned. |