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Difference between revisions of "Apple Push Service Protocol"
(Command IDs don't necessarily end at 0f) |
(Fix the format of the connection nonce) |
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**<code>0b</code> hardware version (example: iPhone6,1) |
**<code>0b</code> hardware version (example: iPhone6,1) |
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**<code>0c</code> certificate, contains the X.509 "device certificate" obtained during device activation |
**<code>0c</code> certificate, contains the X.509 "device certificate" obtained during device activation |
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− | **<code>0d</code> 17-byte nonce, |
+ | **<code>0d</code> 17-byte nonce, consisting of 1 byte fixed <code>00</code>, 8 bytes timestamp (milliseconds since Unix epoch), 8 bytes random |
− | **<code>0e</code> "signature", consisting of bytes 01 01, followed by RSASSA-PKCS1-SHA1 signature of the nonce (0d) using the public key in the certificate (0c) |
+ | **<code>0e</code> "signature", consisting of fixed bytes 01 01, followed by RSASSA-PKCS1-SHA1 signature of the nonce (0d) using the public key in the certificate (0c) |
**<code>10</code> 2-byte int, possibly protocol version |
**<code>10</code> 2-byte int, possibly protocol version |
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**<code>11</code> 2-byte int, "redirect count" |
**<code>11</code> 2-byte int, "redirect count" |
Revision as of 03:16, 3 August 2021
iOS devices connect to Apple's push servers via port 5223. The protocol is proprietary and has nothing to do with XMPP (which uses the same port to establish SSL-encrypted client connections). The Push service protocol also uses SSL encryption.
As of iOS5, Apple uses a new push protocol. The same protocol is used on the Mac too. With iOS4, the protocol used command IDs 00
to 06
, while the new protocol uses command IDs starting on 07
and all fields in a message (called "items") have a consistent type-length-value encoding.
While every iOS version after that continued adding new commands and items, since iOS 10 there is another new push protocol known as "apnspack", which uses the same command and item IDs but encodes them in a completely different binary format. The client negotiates use of this new protocol with the protocol name "apns-pack-v1" in ALPN. The apnspack format is not yet documented in this page.
Contents
Message Structure
The format of the non-packed APNS protocol is as follows:
- 1 byte message type ("command ID")
- 4 byte payload length
- items, all with
- 1 byte type
- 2 byte length
- value
All integers are big-endian.
Example:
07
command ID (Connect)00 00 00 27
39 byte payload length01
item 100 20
32 byte length8a 73 82 00 82 ac 91 32 88 b6 aa ef 90 91 65 ce 8a 73 82 00 82 ac 91 32 88 b6 aa ef 90 91 65 ce
value 1 (32-byte push token)
02
item 200 01
1 byte length01
value
Commands
Note that some items are optional, either because they're only sent depending on certain conditions, or because they were introduced in a later iOS version and earlier ones don't send it. That will be documented in more detail later.
07 Connect
First command sent after SSL handshake is completed.
When a device is first activated, it doesn't have a push token yet. This command 07 is sent without a token, and the server returns a new token in its command 08 reply. In all future connections, the device sends the token in command 07, and the server doesn't return a token in command 08.
- Direction: device to server
- command ID:
07
- items:
01
32-byte push token02
1 byte "state" (value01
)05
4-byte flags, bitfield (example from iOS 12:00 00 02 6a
)06
1 byte interface (0: cellular, 1: Wi-Fi)08
cellular carrier name (or the string "WiFi")09
OS version (example: 12.4.8)0a
OS build (example: 16G201)0b
hardware version (example: iPhone6,1)0c
certificate, contains the X.509 "device certificate" obtained during device activation0d
17-byte nonce, consisting of 1 byte fixed00
, 8 bytes timestamp (milliseconds since Unix epoch), 8 bytes random0e
"signature", consisting of fixed bytes 01 01, followed by RSASSA-PKCS1-SHA1 signature of the nonce (0d) using the public key in the certificate (0c)10
2-byte int, possibly protocol version11
2-byte int, "redirect count"13
2-byte int, "DNS resolve time" in milliseconds14
2-byte int, "TLS handshake time" in milliseconds
08 Connect Response
- Direction: server to device
- command ID:
08
- items:
01
status (00
ok,02
some error)03
32-byte push token (unless the device sent one in Connect)04
2-byte int, max message size (value10 00
)05
unknown (value00 02
)06
capabilities (bitfield)08
2-byte int, large message size0a
8-byte int, server time, milliseconds since unix epoch0b
2 bytes, geo region (country code)
The lowest significant bit in 'capabilities' seems to mean "dual channel support" (possibly related to the iPhone proxying Apple Watch notifications).
09 Push Topics
- Direction: device to server
- command ID:
09
- items:
02
20-byte ID for enabled topic (like topic for push-enabled app or a specific iCloud service like Find My iPhone)03
20-byte ID for disabled topic
0A Push Notification
- Direction: server to device (for iMessage and possibly others too, also the other way round)
- command ID:
0a
- items:
01
recipient push token02
topic03
notification payload04
response token05
expiry (32-bit UNIX timestamp)06
timestamp (64-bit UNIX timestamp in nanoseconds)07
unknown (00
)
0B Push Notification Response
- Direction: server to device (for iMessage and possibly others too, also the other way round)
- command ID:
0b
- items:
04
response token08
status (00
ok,02
error)
0C Keep-Alive
- Direction: device to server
- command ID:
0c
- items:
01
connection method ("WiFi" or GSM MNC like "31038" for AT&T)02
iOS version, e.g. "5.0"03
iOS build number04
device model, e.g. "iPhone2,1"05
unknown (values like10
,15
or20
)
0D Keep-Alive Confirmation
- Direction: server to device
- command ID:
0d
- no items
0E No Storage
- Direction: server to device
- command ID:
0e
- items:
03
32-byte push token
0F Flush
- Direction: both
- command ID:
0f
- items:
- 2-byte integer indicating length of padding
- padding: NULL-bytes, typical lengths are 64, 128, 256, 512