Modified the copyright year range in code, and corrected "int32_tel"
into "Intel" in two "hypervisor/include/debug/profiling.h" and
"hypervisor/include/debug/profiling_internal.h".
Tracked-On: #7559
Signed-off-by: Ziheng Li <ziheng.li@intel.com>
The following parameters have not used by new design:
1. --vsbl <vsbl_file_path>
2. --part_info <part_info_name>
3. -G, --gvtargs <GVT_args>
4. -s <slot>,pci-gvt
5. -Y, --mptgen
6. -s <slot>,virtio-hdcp
7. -s <slot>,npk
8. -s <slot>,virtio-coreu
9. -i, --ioc_node <ioc_mediator_parameters>
10. --pm_by_vuart [pty|tty],<node_path>
11. --pm_notify_channel <channel>
This patch remove these parameters from usage and comment in code to
explain they are all obsoleted now.
Tracked-On: #6690
Acked-by: Wang, Yu1 <yu1.wang@intel.com>
Signed-off-by: Chenli Wei <chenli.wei@linux.intel.com>
Rename SOS_VM_NUM to SERVICE_VM_NUM.
rename SOS_SOCKET_PORT to SERVICE_VM_SOCKET_PORT.
rename PROCESS_RUN_IN_SOS to PROCESS_RUN_IN_SERVICE_VM.
rename PCI_DEV_TYPE_SOSEMUL to PCI_DEV_TYPE_SERVICE_VM_EMUL.
rename SHUTDOWN_REQ_FROM_SOS to SHUTDOWN_REQ_FROM_SERVICE_VM.
rename PROCESS_RUN_IN_SOS to PROCESS_RUN_IN_SERVICE_VM.
rename SHUTDOWN_REQ_FROM_UOS to SHUTDOWN_REQ_FROM_USER_VM.
rename UOS_SOCKET_PORT to USER_VM_SOCKET_PORT.
rename SOS_CONSOLE to SERVICE_VM_OS_CONSOLE.
rename SOS_LCS_SOCK to SERVICE_VM_LCS_SOCK.
rename SOS_VM_BOOTARGS to SERVICE_VM_OS_BOOTARGS.
rename SOS_ROOTFS to SERVICE_VM_ROOTFS.
rename SOS_IDLE to SERVICE_VM_IDLE.
rename SEVERITY_SOS to SEVERITY_SERVICE_VM.
rename SOS_VM_UUID to SERVICE_VM_UUID.
rename SOS_REQ to SERVICE_VM_REQ.
rename RTCT_NATIVE_FILE_PATH_IN_SOS to RTCT_NATIVE_FILE_PATH_IN_SERVICE_VM.
rename CBC_REQ_T_UOS_ACTIVE to CBC_REQ_T_USER_VM_ACTIVE.
rename CBC_REQ_T_UOS_INACTIVE to CBC_REQ_T_USER_VM_INACTIV.
rename uos_active to user_vm_active.
Tracked-On: #6744
Signed-off-by: Liu Long <long.liu@linux.intel.com>
Reviewed-by: Geoffroy Van Cutsem <geoffroy.vancutsem@intel.com>
Unifies the logs to pr_* interfaces instead of printf for better log management.
Tracked-On: #5267
Signed-off-by: Sun Peng <peng.p.sun@intel.com>
Reviewed-by: Chi Mingqiang <mingqiang.chi@intel.com>
Acked-by: Wang, Yu1 <yu1.wang@intel.com>
DIR handler is referenced after release, need to be adjusted before
released.
Tracked-On: #3821
Signed-off-by: Gao Junhao <junhao.gao@intel.com>
Reviewed-by: Yonghua Huang <yonghua.huang@intel.com>
Acked-by: Yu Wang <yu1.wang@intel.com>
int snprintf(char *str, size_t size, const char *format, ...)
The functions snprintf() write at most size bytes (including the
terminating null byte('\0')) to str.
only when returned value of snprintf is non-negative and less than size,
the string has been completely written.
Tracked-On: #3789
Signed-off-by: Junhao Gao <junhao.gao@intel.com>
Reviewed-by: Yonghua Huang <yonghua.huang@intel.com>
Acked-by: Yu Wang <yu1.wang@intel.com>
The patch fix some string operations issues and also improve readability
of several snippet.
Tracked-On: #2133
Signed-off-by: Shuo A Liu <shuo.a.liu@intel.com>
Reviewed-by: Yonghua Huang <yonghua.huang@intel.com>
Replace sscanf in device model hw directory
Tracked-On: #2079
Signed-off-by: Long Liu <long.liu@intel.com>
Reviewed-by: Shuo A Liu <shuo.a.liu@intel.com>
Reviewed-by: <yonghua.huang@intel.com>
Acked-by: Yu Wang <yu1.wang@intel.com>
Replace function sprintf with snprintf in device model
Tracked-On: #2079
Signed-off-by: Long Liu <long.liu@intel.com>
Reviewed-by: Shuo A Liu <shuo.a.liu@intel.com>
Reviewed-by: <yonghua.huang@intel.com>
Acked-by: Yu Wang <yu1.wang@intel.com>
To align with the configuration of the HOST tool, the SW masters
are organized in slices of 8 masters each.
The slice is also the minimal unit to allocate the SW masters for
each UOS.
The patch is to update the parameter checking function.
Tracked-On: #1138
Signed-off-by: Zhi Jin <zhi.jin@intel.com>
Reviewed-by: Chen Gang <gang.c.chen@intel.com>
The Intel Trace Hub (aka. North Peak, NPK) is a trace aggregator for
Software, Firmware, and Hardware. On the virtualization platform, it
can be used to output the traces from SOS/UOS/Hypervisor/FW together
with unified timestamps.
There are 2 software visible MMIO space in the npk pci device. One is
the CSR which maps the configuration registers, and the other is the
STMR which is organized as many Masters, and used to send the traces.
Each Master has a fixed number of Channels, which is 128 on GP. Each
channel occupies 64B, so the offset of each Master is 8K (64B*128).
Here is the detailed layout of STMR:
M=NPK_SW_MSTR_STP (1024 on GP)
+-------------------+
| m[M],c[C-1] |
Base(M,C-1) +-------------------+
| ... |
+-------------------+
| m[M],c[0] |
Base(M,0) +-------------------+
| ... |
+-------------------+
| m[i+1],c[1] |
Base(i+1,1) +-------------------+
| m[i+1],c[0] |
Base(i+1,0) +-------------------+
| ... |
+-------------------+
| m[i],c[1] |
Base(i,1)=SW_BAR+0x40 +-------------------+
| m[i],c[0] | 64B
Base(i,0)=SW_BAR +-------------------+
i=NPK_SW_MSTR_STRT (256 on GP)
CSR and STMR are treated differently in npk virtualization because:
1. CSR configuration should come from just one OS, instead of each OS.
In our case, it should come from SOS.
2. For performance and timing concern, the traces from each OS should
be written to STMR directly.
Based on these, the npk virtualization is implemented in this way:
1. The physical CSR is owned by SOS, and dm/npk emulates a software
one for the UOS, to keep the npk driver on UOS unchanged. Some CSR
initial values are configured to make the UOS npk driver think it
is working on a real npk. The CSR configuration from UOS is ignored
by dm, and it will not bring any side-effect. Because traces are the
only things needed from UOS, the location to send traces to and the
trace format are not affected by the CSR configuration.
2. Part of the physical STMR will be reserved for the SOS, and the
others will be passed through to the UOS, so that the UOS can write
the traces to the MMIO space directly.
A parameter is needed to indicate the offset and size of the Masters
to pass through to the UOS. For example, "-s 0:2,npk,512/256", there
are 256 Masters from #768 (256+512, #256 is the starting Master for
software tracing) passed through to the UOS.
CSR STMR
SOS: +--------------+ +----------------------------------+
| physical CSR | | Reserved for SOS | |
+--------------+ +----------------------------------+
UOS: +--------------+ +---------------+
| sw CSR by dm | | mapped to UOS |
+--------------+ +---------------+
Here is an overall flow about how it works.
1. System boots up, and the npk driver on SOS is loaded.
2. The dm is launched with parameters to enable npk virtualization.
3. The dm/npk sets up a bar for CSR, and some values are initialized
based on the parameters, for example, the total number of Masters for
the UOS.
4. The dm/npk sets up a bar for STMR, and maps part of the physical
STMR to it with an offset, according to the parameters.
5. The UOS boots up, and the native npk driver on the UOS is loaded.
6. Enable the traces from UOS, and the traces are written directly to
STMR, but not output by npk for now.
7. Enable the npk output on SOS, and now the traces are output by npk
to the selected target.
8. If the memory is the selected target, the traces can be retrieved
from memory on SOS, after stopping the traces.
Signed-off-by: Zhi Jin <zhi.jin@intel.com>
Reviewed-by: Zhang Di <di.zhang@intel.com>
Acked-by: Eddie Dong <eddie.dong@intel.com>
