| /rk3399_ARM-atf/plat/arm/board/fvp/sp_min/ |
| H A D | fvp_sp_min_setup.c | 39f0b86a76534d0b7c71dd0c8b34f1a74480386b Tue Mar 15 16:05:58 UTC 2022 Manish V Badarkhe <Manish.Badarkhe@arm.com> feat(fvp): update HW_CONFIG DT loading mechanism
Currently, HW-config is loaded into non-secure memory, which mean
a malicious NS-agent could tamper with it. Ideally, this shouldn't
be an issue since no software runs in non-secure world at this time
(non-secure world has not been started yet).
It does not provide a guarantee though since malicious external
NS-agents can take control of this memory region for update/corruption
after BL2 loads it and before BL31/BL32/SP_MIN consumes it. The threat
is mapped to Threat ID#3 (Bypass authentication scenario) in threat
model [1].
Hence modified the code as below -
1. BL2 loads the HW_CONFIG into secure memory
2. BL2 makes a copy of the HW_CONFIG in the non-secure memory at an
address provided by the newly added property(ns-load-address) in
the 'hw-config' node of the FW_CONFIG
3. SP_MIN receives the FW_CONFIG address from BL2 via arg1 so that
it can retrieve details (address and size) of HW_CONFIG from
FW_CONFIG
4. A secure and non-secure HW_CONFIG address will eventually be used
by BL31/SP_MIN/BL32 and BL33 components respectively
5. BL31/SP_MIN dynamically maps the Secure HW_CONFIG region and reads
information from it to local variables (structures) and then
unmaps it
6. Reduce HW_CONFIG maximum size from 16MB to 1MB; it appears
sufficient, and it will also create a free space for any future
components to be added to memory
[1]: https://trustedfirmware-a.readthedocs.io/en/latest/threat_model/threat_model.html
Change-Id: I1d431f3e640ded60616604b1c33aa638b9a1e55e
Signed-off-by: Manish V Badarkhe <Manish.Badarkhe@arm.com>
|
| H A D | sp_min-fvp.mk | 39f0b86a76534d0b7c71dd0c8b34f1a74480386b Tue Mar 15 16:05:58 UTC 2022 Manish V Badarkhe <Manish.Badarkhe@arm.com> feat(fvp): update HW_CONFIG DT loading mechanism
Currently, HW-config is loaded into non-secure memory, which mean
a malicious NS-agent could tamper with it. Ideally, this shouldn't
be an issue since no software runs in non-secure world at this time
(non-secure world has not been started yet).
It does not provide a guarantee though since malicious external
NS-agents can take control of this memory region for update/corruption
after BL2 loads it and before BL31/BL32/SP_MIN consumes it. The threat
is mapped to Threat ID#3 (Bypass authentication scenario) in threat
model [1].
Hence modified the code as below -
1. BL2 loads the HW_CONFIG into secure memory
2. BL2 makes a copy of the HW_CONFIG in the non-secure memory at an
address provided by the newly added property(ns-load-address) in
the 'hw-config' node of the FW_CONFIG
3. SP_MIN receives the FW_CONFIG address from BL2 via arg1 so that
it can retrieve details (address and size) of HW_CONFIG from
FW_CONFIG
4. A secure and non-secure HW_CONFIG address will eventually be used
by BL31/SP_MIN/BL32 and BL33 components respectively
5. BL31/SP_MIN dynamically maps the Secure HW_CONFIG region and reads
information from it to local variables (structures) and then
unmaps it
6. Reduce HW_CONFIG maximum size from 16MB to 1MB; it appears
sufficient, and it will also create a free space for any future
components to be added to memory
[1]: https://trustedfirmware-a.readthedocs.io/en/latest/threat_model/threat_model.html
Change-Id: I1d431f3e640ded60616604b1c33aa638b9a1e55e
Signed-off-by: Manish V Badarkhe <Manish.Badarkhe@arm.com>
|
| /rk3399_ARM-atf/plat/arm/board/fvp/ |
| H A D | fvp_bl31_setup.c | 39f0b86a76534d0b7c71dd0c8b34f1a74480386b Tue Mar 15 16:05:58 UTC 2022 Manish V Badarkhe <Manish.Badarkhe@arm.com> feat(fvp): update HW_CONFIG DT loading mechanism
Currently, HW-config is loaded into non-secure memory, which mean
a malicious NS-agent could tamper with it. Ideally, this shouldn't
be an issue since no software runs in non-secure world at this time
(non-secure world has not been started yet).
It does not provide a guarantee though since malicious external
NS-agents can take control of this memory region for update/corruption
after BL2 loads it and before BL31/BL32/SP_MIN consumes it. The threat
is mapped to Threat ID#3 (Bypass authentication scenario) in threat
model [1].
Hence modified the code as below -
1. BL2 loads the HW_CONFIG into secure memory
2. BL2 makes a copy of the HW_CONFIG in the non-secure memory at an
address provided by the newly added property(ns-load-address) in
the 'hw-config' node of the FW_CONFIG
3. SP_MIN receives the FW_CONFIG address from BL2 via arg1 so that
it can retrieve details (address and size) of HW_CONFIG from
FW_CONFIG
4. A secure and non-secure HW_CONFIG address will eventually be used
by BL31/SP_MIN/BL32 and BL33 components respectively
5. BL31/SP_MIN dynamically maps the Secure HW_CONFIG region and reads
information from it to local variables (structures) and then
unmaps it
6. Reduce HW_CONFIG maximum size from 16MB to 1MB; it appears
sufficient, and it will also create a free space for any future
components to be added to memory
[1]: https://trustedfirmware-a.readthedocs.io/en/latest/threat_model/threat_model.html
Change-Id: I1d431f3e640ded60616604b1c33aa638b9a1e55e
Signed-off-by: Manish V Badarkhe <Manish.Badarkhe@arm.com>
|
| H A D | fvp_bl2_setup.c | 39f0b86a76534d0b7c71dd0c8b34f1a74480386b Tue Mar 15 16:05:58 UTC 2022 Manish V Badarkhe <Manish.Badarkhe@arm.com> feat(fvp): update HW_CONFIG DT loading mechanism
Currently, HW-config is loaded into non-secure memory, which mean
a malicious NS-agent could tamper with it. Ideally, this shouldn't
be an issue since no software runs in non-secure world at this time
(non-secure world has not been started yet).
It does not provide a guarantee though since malicious external
NS-agents can take control of this memory region for update/corruption
after BL2 loads it and before BL31/BL32/SP_MIN consumes it. The threat
is mapped to Threat ID#3 (Bypass authentication scenario) in threat
model [1].
Hence modified the code as below -
1. BL2 loads the HW_CONFIG into secure memory
2. BL2 makes a copy of the HW_CONFIG in the non-secure memory at an
address provided by the newly added property(ns-load-address) in
the 'hw-config' node of the FW_CONFIG
3. SP_MIN receives the FW_CONFIG address from BL2 via arg1 so that
it can retrieve details (address and size) of HW_CONFIG from
FW_CONFIG
4. A secure and non-secure HW_CONFIG address will eventually be used
by BL31/SP_MIN/BL32 and BL33 components respectively
5. BL31/SP_MIN dynamically maps the Secure HW_CONFIG region and reads
information from it to local variables (structures) and then
unmaps it
6. Reduce HW_CONFIG maximum size from 16MB to 1MB; it appears
sufficient, and it will also create a free space for any future
components to be added to memory
[1]: https://trustedfirmware-a.readthedocs.io/en/latest/threat_model/threat_model.html
Change-Id: I1d431f3e640ded60616604b1c33aa638b9a1e55e
Signed-off-by: Manish V Badarkhe <Manish.Badarkhe@arm.com>
|
| H A D | fvp_common.c | 39f0b86a76534d0b7c71dd0c8b34f1a74480386b Tue Mar 15 16:05:58 UTC 2022 Manish V Badarkhe <Manish.Badarkhe@arm.com> feat(fvp): update HW_CONFIG DT loading mechanism
Currently, HW-config is loaded into non-secure memory, which mean
a malicious NS-agent could tamper with it. Ideally, this shouldn't
be an issue since no software runs in non-secure world at this time
(non-secure world has not been started yet).
It does not provide a guarantee though since malicious external
NS-agents can take control of this memory region for update/corruption
after BL2 loads it and before BL31/BL32/SP_MIN consumes it. The threat
is mapped to Threat ID#3 (Bypass authentication scenario) in threat
model [1].
Hence modified the code as below -
1. BL2 loads the HW_CONFIG into secure memory
2. BL2 makes a copy of the HW_CONFIG in the non-secure memory at an
address provided by the newly added property(ns-load-address) in
the 'hw-config' node of the FW_CONFIG
3. SP_MIN receives the FW_CONFIG address from BL2 via arg1 so that
it can retrieve details (address and size) of HW_CONFIG from
FW_CONFIG
4. A secure and non-secure HW_CONFIG address will eventually be used
by BL31/SP_MIN/BL32 and BL33 components respectively
5. BL31/SP_MIN dynamically maps the Secure HW_CONFIG region and reads
information from it to local variables (structures) and then
unmaps it
6. Reduce HW_CONFIG maximum size from 16MB to 1MB; it appears
sufficient, and it will also create a free space for any future
components to be added to memory
[1]: https://trustedfirmware-a.readthedocs.io/en/latest/threat_model/threat_model.html
Change-Id: I1d431f3e640ded60616604b1c33aa638b9a1e55e
Signed-off-by: Manish V Badarkhe <Manish.Badarkhe@arm.com>
|
| H A D | platform.mk | 39f0b86a76534d0b7c71dd0c8b34f1a74480386b Tue Mar 15 16:05:58 UTC 2022 Manish V Badarkhe <Manish.Badarkhe@arm.com> feat(fvp): update HW_CONFIG DT loading mechanism
Currently, HW-config is loaded into non-secure memory, which mean
a malicious NS-agent could tamper with it. Ideally, this shouldn't
be an issue since no software runs in non-secure world at this time
(non-secure world has not been started yet).
It does not provide a guarantee though since malicious external
NS-agents can take control of this memory region for update/corruption
after BL2 loads it and before BL31/BL32/SP_MIN consumes it. The threat
is mapped to Threat ID#3 (Bypass authentication scenario) in threat
model [1].
Hence modified the code as below -
1. BL2 loads the HW_CONFIG into secure memory
2. BL2 makes a copy of the HW_CONFIG in the non-secure memory at an
address provided by the newly added property(ns-load-address) in
the 'hw-config' node of the FW_CONFIG
3. SP_MIN receives the FW_CONFIG address from BL2 via arg1 so that
it can retrieve details (address and size) of HW_CONFIG from
FW_CONFIG
4. A secure and non-secure HW_CONFIG address will eventually be used
by BL31/SP_MIN/BL32 and BL33 components respectively
5. BL31/SP_MIN dynamically maps the Secure HW_CONFIG region and reads
information from it to local variables (structures) and then
unmaps it
6. Reduce HW_CONFIG maximum size from 16MB to 1MB; it appears
sufficient, and it will also create a free space for any future
components to be added to memory
[1]: https://trustedfirmware-a.readthedocs.io/en/latest/threat_model/threat_model.html
Change-Id: I1d431f3e640ded60616604b1c33aa638b9a1e55e
Signed-off-by: Manish V Badarkhe <Manish.Badarkhe@arm.com>
|
| /rk3399_ARM-atf/plat/arm/board/fvp/fdts/ |
| H A D | fvp_fw_config.dts | 39f0b86a76534d0b7c71dd0c8b34f1a74480386b Tue Mar 15 16:05:58 UTC 2022 Manish V Badarkhe <Manish.Badarkhe@arm.com> feat(fvp): update HW_CONFIG DT loading mechanism
Currently, HW-config is loaded into non-secure memory, which mean
a malicious NS-agent could tamper with it. Ideally, this shouldn't
be an issue since no software runs in non-secure world at this time
(non-secure world has not been started yet).
It does not provide a guarantee though since malicious external
NS-agents can take control of this memory region for update/corruption
after BL2 loads it and before BL31/BL32/SP_MIN consumes it. The threat
is mapped to Threat ID#3 (Bypass authentication scenario) in threat
model [1].
Hence modified the code as below -
1. BL2 loads the HW_CONFIG into secure memory
2. BL2 makes a copy of the HW_CONFIG in the non-secure memory at an
address provided by the newly added property(ns-load-address) in
the 'hw-config' node of the FW_CONFIG
3. SP_MIN receives the FW_CONFIG address from BL2 via arg1 so that
it can retrieve details (address and size) of HW_CONFIG from
FW_CONFIG
4. A secure and non-secure HW_CONFIG address will eventually be used
by BL31/SP_MIN/BL32 and BL33 components respectively
5. BL31/SP_MIN dynamically maps the Secure HW_CONFIG region and reads
information from it to local variables (structures) and then
unmaps it
6. Reduce HW_CONFIG maximum size from 16MB to 1MB; it appears
sufficient, and it will also create a free space for any future
components to be added to memory
[1]: https://trustedfirmware-a.readthedocs.io/en/latest/threat_model/threat_model.html
Change-Id: I1d431f3e640ded60616604b1c33aa638b9a1e55e
Signed-off-by: Manish V Badarkhe <Manish.Badarkhe@arm.com>
|
| /rk3399_ARM-atf/include/plat/arm/common/ |
| H A D | arm_def.h | 39f0b86a76534d0b7c71dd0c8b34f1a74480386b Tue Mar 15 16:05:58 UTC 2022 Manish V Badarkhe <Manish.Badarkhe@arm.com> feat(fvp): update HW_CONFIG DT loading mechanism
Currently, HW-config is loaded into non-secure memory, which mean
a malicious NS-agent could tamper with it. Ideally, this shouldn't
be an issue since no software runs in non-secure world at this time
(non-secure world has not been started yet).
It does not provide a guarantee though since malicious external
NS-agents can take control of this memory region for update/corruption
after BL2 loads it and before BL31/BL32/SP_MIN consumes it. The threat
is mapped to Threat ID#3 (Bypass authentication scenario) in threat
model [1].
Hence modified the code as below -
1. BL2 loads the HW_CONFIG into secure memory
2. BL2 makes a copy of the HW_CONFIG in the non-secure memory at an
address provided by the newly added property(ns-load-address) in
the 'hw-config' node of the FW_CONFIG
3. SP_MIN receives the FW_CONFIG address from BL2 via arg1 so that
it can retrieve details (address and size) of HW_CONFIG from
FW_CONFIG
4. A secure and non-secure HW_CONFIG address will eventually be used
by BL31/SP_MIN/BL32 and BL33 components respectively
5. BL31/SP_MIN dynamically maps the Secure HW_CONFIG region and reads
information from it to local variables (structures) and then
unmaps it
6. Reduce HW_CONFIG maximum size from 16MB to 1MB; it appears
sufficient, and it will also create a free space for any future
components to be added to memory
[1]: https://trustedfirmware-a.readthedocs.io/en/latest/threat_model/threat_model.html
Change-Id: I1d431f3e640ded60616604b1c33aa638b9a1e55e
Signed-off-by: Manish V Badarkhe <Manish.Badarkhe@arm.com>
|
| /rk3399_ARM-atf/plat/arm/board/fvp/include/ |
| H A D | platform_def.h | 39f0b86a76534d0b7c71dd0c8b34f1a74480386b Tue Mar 15 16:05:58 UTC 2022 Manish V Badarkhe <Manish.Badarkhe@arm.com> feat(fvp): update HW_CONFIG DT loading mechanism
Currently, HW-config is loaded into non-secure memory, which mean
a malicious NS-agent could tamper with it. Ideally, this shouldn't
be an issue since no software runs in non-secure world at this time
(non-secure world has not been started yet).
It does not provide a guarantee though since malicious external
NS-agents can take control of this memory region for update/corruption
after BL2 loads it and before BL31/BL32/SP_MIN consumes it. The threat
is mapped to Threat ID#3 (Bypass authentication scenario) in threat
model [1].
Hence modified the code as below -
1. BL2 loads the HW_CONFIG into secure memory
2. BL2 makes a copy of the HW_CONFIG in the non-secure memory at an
address provided by the newly added property(ns-load-address) in
the 'hw-config' node of the FW_CONFIG
3. SP_MIN receives the FW_CONFIG address from BL2 via arg1 so that
it can retrieve details (address and size) of HW_CONFIG from
FW_CONFIG
4. A secure and non-secure HW_CONFIG address will eventually be used
by BL31/SP_MIN/BL32 and BL33 components respectively
5. BL31/SP_MIN dynamically maps the Secure HW_CONFIG region and reads
information from it to local variables (structures) and then
unmaps it
6. Reduce HW_CONFIG maximum size from 16MB to 1MB; it appears
sufficient, and it will also create a free space for any future
components to be added to memory
[1]: https://trustedfirmware-a.readthedocs.io/en/latest/threat_model/threat_model.html
Change-Id: I1d431f3e640ded60616604b1c33aa638b9a1e55e
Signed-off-by: Manish V Badarkhe <Manish.Badarkhe@arm.com>
|