- 05 Apr, 2017 1 commit
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Krishna Sitaraman authored
This change adds function to invoke for MISC_CCPLEX ARI calls and the corresponding smc handler. This can be used to enable/disable Coresight clock gating. Change-Id: I4bc17aa478a46c29bfe17fd74f839a383ee2b644 Signed-off-by: Krishna Sitaraman <ksitaraman@nvidia.com> Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
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- 30 Mar, 2017 2 commits
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Varun Wadekar authored
Uncore perfmon appears to the CPU as a set of uncore perfmon registers which can be read and written using the ARI interface. The MCE code sequence handles reads and writes to these registers by manipulating the underlying T186 uncore hardware. To access an uncore perfmon register, CPU software writes the ARI request registers to specify * whether the operation is a read or a write, * which uncore perfmon register to access, * the uncore perfmon unit, group, and counter number (if necessary), * the data to write (if the operation is a write). It then initiates an ARI request to run the uncore perfmon sequence in the MCE and reads the resulting value of the uncore perfmon register and any status information from the ARI response registers. The NS world's MCE driver issues MCE_CMD_UNCORE_PERFMON_REQ command for the EL3 layer to start the entire sequence. Once the request completes, the NS world would receive the command status in the X0 register and the command data in the X1 register. Change-Id: I20bf2eca2385f7c8baa81e9445617ae711ecceea Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
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Varun Wadekar authored
This patch adds a helper function to the MCE driver to allow its clients to issue UPDATE_CSTATE_INFO requests, without having to setup the CPU context struct. We introduced a struct to encapsulate the request parameters, that clients can pass on to the MCE driver. The MCE driver gets the parameters from the struct and programs the hardware accordingly. Change-Id: I02bce57506c4ccd90da82127805d6b564375cbf1 Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
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- 23 Mar, 2017 2 commits
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Varun Wadekar authored
This patch checks that the system is running with the supported MCE firmware during boot. In case the firmware version does not match the interface header version, then the system halts. Change-Id: Ib82013fd1c1668efd6f0e4f36cd3662d339ac076 Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
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Varun Wadekar authored
This patch adds a new interface to allow for making an ARI call that will enable LATIC for the chip verification software harness. LATIC allows some MINI ISMs to be read in the CCPLEX. The ISMs are used for various measurements relevant ot particular locations in Silicon. They are small counters which can be polled to determine how fast a particular location in the Silicon is. Original change by Guy Sotomayor <gsotomayor@nvidia.com> Change-Id: Ifb49b8863a009d4cdd5d1ba38a23b5374500a4b3 Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
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- 20 Mar, 2017 1 commit
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Varun Wadekar authored
The CPU Complex (CCPLEX) Power Manager (Denver MCE, or DMCE) is an offload engine for BPMP to do voltage related sequencing and for hardware requests to be handled in a better latency than BPMP-firmware. There are two interfaces to the MCEs - Abstract Request Interface (ARI) and the traditional NVGINDEX/NVGDATA interface. MCE supports various commands which can be used by CPUs - ARM as well as Denver, for power management and reset functionality. Since the linux kernel is the master for all these scenarios, each MCE command can be issued by a corresponding SMC. These SMCs have been moved to SiP SMC space as they are specific to the Tegra186 SoC. Change-Id: I67bee83d2289a8ab63bc5556e5744e5043803e51 Signed-off-by: Varun Wadekar <vwadekar@nvidia.com> Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
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