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nvdimm acpi: introduce _FIT
_FIT is required for hotplug support, guest will inquire the updated device info from it if a hotplug event is received As FIT buffer is not completely mapped into guest address space, so a new function, Read FIT whose UUID is UUID 648B9CF2-CDA1-4312-8AD9-49C4AF32BD62, handle 0x10000, function index is 0x1, is reserved by QEMU to read the piece of FIT buffer. The buffer is concatenated before _FIT return Refer to docs/specs/acpi-nvdimm.txt for detailed design Signed-off-by: Xiao Guangrong <guangrong.xiao@linux.intel.com> Reviewed-by: Michael S. Tsirkin <mst@redhat.com> Signed-off-by: Michael S. Tsirkin <mst@redhat.com>
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@ -127,6 +127,58 @@ _DSM process diagram:
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| result from the page | | |
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+--------------------------+ +--------------+
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_FIT implementation
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-------------------
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TODO (will fill it when nvdimm hotplug is introduced)
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Device Handle Reservation
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-------------------------
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As we mentioned above, byte 0 ~ byte 3 in the DSM memory save NVDIMM device
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handle. The handle is completely QEMU internal thing, the values in range
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[0, 0xFFFF] indicate nvdimm device (O means nvdimm root device named NVDR),
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other values are reserved by other purpose.
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Current reserved handle:
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0x10000 is reserved for QEMU internal DSM function called on the root
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device.
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QEMU internal use only _DSM function
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------------------------------------
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UUID, 648B9CF2-CDA1-4312-8AD9-49C4AF32BD62, is reserved for QEMU internal
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DSM function.
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There is the function introduced by QEMU and only used by QEMU internal.
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1) Read FIT
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As we only reserved one page for NVDIMM ACPI it is impossible to map the
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whole FIT data to guest's address space. This function is used by _FIT
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method to read a piece of FIT data from QEMU.
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Input parameters:
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Arg0 – UUID {set to 648B9CF2-CDA1-4312-8AD9-49C4AF32BD62}
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Arg1 – Revision ID (set to 1)
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Arg2 - Function Index, 0x1
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Arg3 - A package containing a buffer whose layout is as follows:
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+----------+-------------+-------------+-----------------------------------+
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| Filed | Byte Length | Byte Offset | Description |
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+----------+-------------+-------------+-----------------------------------+
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| offset | 4 | 0 | the offset of FIT buffer |
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+----------+-------------+-------------+-----------------------------------+
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Output:
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+----------+-------------+-------------+-----------------------------------+
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| Filed | Byte Length | Byte Offset | Description |
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+----------+-------------+-------------+-----------------------------------+
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| | | | return status codes |
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| | | | 0x100 indicates fit has been |
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| status | 4 | 0 | updated |
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| | | | other follows Chapter 3 in DSM |
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| | | | Spec Rev1 |
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+----------+-------------+-------------+-----------------------------------+
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| fit data | Varies | 4 | FIT data |
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| | | | |
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+----------+-------------+-------------+-----------------------------------+
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The FIT offset is maintained by the caller itself, current offset plugs
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the length returned by the function is the next offset we should read.
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When all the FIT data has been read out, zero length is returned.
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If it returns 0x100, OSPM should restart to read FIT (read from offset 0
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again).
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204
hw/acpi/nvdimm.c
204
hw/acpi/nvdimm.c
@ -496,6 +496,22 @@ typedef struct NvdimmFuncSetLabelDataIn NvdimmFuncSetLabelDataIn;
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QEMU_BUILD_BUG_ON(sizeof(NvdimmFuncSetLabelDataIn) +
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offsetof(NvdimmDsmIn, arg3) > 4096);
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struct NvdimmFuncReadFITIn {
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uint32_t offset; /* the offset of FIT buffer. */
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} QEMU_PACKED;
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typedef struct NvdimmFuncReadFITIn NvdimmFuncReadFITIn;
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QEMU_BUILD_BUG_ON(sizeof(NvdimmFuncReadFITIn) +
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offsetof(NvdimmDsmIn, arg3) > 4096);
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struct NvdimmFuncReadFITOut {
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/* the size of buffer filled by QEMU. */
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uint32_t len;
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uint32_t func_ret_status; /* return status code. */
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uint8_t fit[0]; /* the FIT data. */
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} QEMU_PACKED;
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typedef struct NvdimmFuncReadFITOut NvdimmFuncReadFITOut;
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QEMU_BUILD_BUG_ON(sizeof(NvdimmFuncReadFITOut) > 4096);
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static void
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nvdimm_dsm_function0(uint32_t supported_func, hwaddr dsm_mem_addr)
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{
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@ -516,6 +532,74 @@ nvdimm_dsm_no_payload(uint32_t func_ret_status, hwaddr dsm_mem_addr)
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cpu_physical_memory_write(dsm_mem_addr, &out, sizeof(out));
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}
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#define NVDIMM_QEMU_RSVD_HANDLE_ROOT 0x10000
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/* Read FIT data, defined in docs/specs/acpi_nvdimm.txt. */
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static void nvdimm_dsm_func_read_fit(AcpiNVDIMMState *state, NvdimmDsmIn *in,
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hwaddr dsm_mem_addr)
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{
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NvdimmFitBuffer *fit_buf = &state->fit_buf;
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NvdimmFuncReadFITIn *read_fit;
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NvdimmFuncReadFITOut *read_fit_out;
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GArray *fit;
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uint32_t read_len = 0, func_ret_status;
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int size;
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read_fit = (NvdimmFuncReadFITIn *)in->arg3;
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le32_to_cpus(&read_fit->offset);
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qemu_mutex_lock(&fit_buf->lock);
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fit = fit_buf->fit;
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nvdimm_debug("Read FIT: offset %#x FIT size %#x Dirty %s.\n",
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read_fit->offset, fit->len, fit_buf->dirty ? "Yes" : "No");
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if (read_fit->offset > fit->len) {
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func_ret_status = 3 /* Invalid Input Parameters */;
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goto exit;
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}
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/* It is the first time to read FIT. */
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if (!read_fit->offset) {
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fit_buf->dirty = false;
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} else if (fit_buf->dirty) { /* FIT has been changed during RFIT. */
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func_ret_status = 0x100 /* fit changed */;
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goto exit;
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}
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func_ret_status = 0 /* Success */;
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read_len = MIN(fit->len - read_fit->offset,
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4096 - sizeof(NvdimmFuncReadFITOut));
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exit:
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size = sizeof(NvdimmFuncReadFITOut) + read_len;
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read_fit_out = g_malloc(size);
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read_fit_out->len = cpu_to_le32(size);
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read_fit_out->func_ret_status = cpu_to_le32(func_ret_status);
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memcpy(read_fit_out->fit, fit->data + read_fit->offset, read_len);
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cpu_physical_memory_write(dsm_mem_addr, read_fit_out, size);
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g_free(read_fit_out);
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qemu_mutex_unlock(&fit_buf->lock);
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}
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static void nvdimm_dsm_reserved_root(AcpiNVDIMMState *state, NvdimmDsmIn *in,
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hwaddr dsm_mem_addr)
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{
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switch (in->function) {
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case 0x0:
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nvdimm_dsm_function0(0x1 | 1 << 1 /* Read FIT */, dsm_mem_addr);
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return;
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case 0x1 /*Read FIT */:
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nvdimm_dsm_func_read_fit(state, in, dsm_mem_addr);
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return;
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}
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nvdimm_dsm_no_payload(1 /* Not Supported */, dsm_mem_addr);
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}
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static void nvdimm_dsm_root(NvdimmDsmIn *in, hwaddr dsm_mem_addr)
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{
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/*
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@ -742,6 +826,7 @@ nvdimm_dsm_read(void *opaque, hwaddr addr, unsigned size)
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static void
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nvdimm_dsm_write(void *opaque, hwaddr addr, uint64_t val, unsigned size)
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{
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AcpiNVDIMMState *state = opaque;
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NvdimmDsmIn *in;
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hwaddr dsm_mem_addr = val;
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@ -769,6 +854,11 @@ nvdimm_dsm_write(void *opaque, hwaddr addr, uint64_t val, unsigned size)
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goto exit;
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}
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if (in->handle == NVDIMM_QEMU_RSVD_HANDLE_ROOT) {
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nvdimm_dsm_reserved_root(state, in, dsm_mem_addr);
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goto exit;
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}
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/* Handle 0 is reserved for NVDIMM Root Device. */
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if (!in->handle) {
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nvdimm_dsm_root(in, dsm_mem_addr);
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@ -821,9 +911,13 @@ void nvdimm_init_acpi_state(AcpiNVDIMMState *state, MemoryRegion *io,
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#define NVDIMM_DSM_OUT_BUF_SIZE "RLEN"
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#define NVDIMM_DSM_OUT_BUF "ODAT"
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#define NVDIMM_DSM_RFIT_STATUS "RSTA"
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#define NVDIMM_QEMU_RSVD_UUID "648B9CF2-CDA1-4312-8AD9-49C4AF32BD62"
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static void nvdimm_build_common_dsm(Aml *dev)
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{
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Aml *method, *ifctx, *function, *handle, *uuid, *dsm_mem;
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Aml *method, *ifctx, *function, *handle, *uuid, *dsm_mem, *elsectx2;
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Aml *elsectx, *unsupport, *unpatched, *expected_uuid, *uuid_invalid;
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Aml *pckg, *pckg_index, *pckg_buf, *field, *dsm_out_buf, *dsm_out_buf_size;
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uint8_t byte_list[1];
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@ -912,9 +1006,15 @@ static void nvdimm_build_common_dsm(Aml *dev)
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/* UUID for NVDIMM Root Device */, expected_uuid));
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aml_append(method, ifctx);
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elsectx = aml_else();
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aml_append(elsectx, aml_store(
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ifctx = aml_if(aml_equal(handle, aml_int(NVDIMM_QEMU_RSVD_HANDLE_ROOT)));
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aml_append(ifctx, aml_store(aml_touuid(NVDIMM_QEMU_RSVD_UUID
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/* UUID for QEMU internal use */), expected_uuid));
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aml_append(elsectx, ifctx);
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elsectx2 = aml_else();
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aml_append(elsectx2, aml_store(
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aml_touuid("4309AC30-0D11-11E4-9191-0800200C9A66")
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/* UUID for NVDIMM Devices */, expected_uuid));
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aml_append(elsectx, elsectx2);
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aml_append(method, elsectx);
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uuid_invalid = aml_lnot(aml_equal(uuid, expected_uuid));
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@ -994,6 +1094,105 @@ static void nvdimm_build_device_dsm(Aml *dev, uint32_t handle)
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aml_append(dev, method);
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}
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static void nvdimm_build_fit(Aml *dev)
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{
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Aml *method, *pkg, *buf, *buf_size, *offset, *call_result;
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Aml *whilectx, *ifcond, *ifctx, *elsectx, *fit;
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buf = aml_local(0);
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buf_size = aml_local(1);
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fit = aml_local(2);
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aml_append(dev, aml_create_dword_field(aml_buffer(4, NULL),
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aml_int(0), NVDIMM_DSM_RFIT_STATUS));
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/* build helper function, RFIT. */
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method = aml_method("RFIT", 1, AML_SERIALIZED);
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aml_append(method, aml_create_dword_field(aml_buffer(4, NULL),
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aml_int(0), "OFST"));
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/* prepare input package. */
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pkg = aml_package(1);
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aml_append(method, aml_store(aml_arg(0), aml_name("OFST")));
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aml_append(pkg, aml_name("OFST"));
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/* call Read_FIT function. */
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call_result = aml_call5(NVDIMM_COMMON_DSM,
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aml_touuid(NVDIMM_QEMU_RSVD_UUID),
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aml_int(1) /* Revision 1 */,
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aml_int(0x1) /* Read FIT */,
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pkg, aml_int(NVDIMM_QEMU_RSVD_HANDLE_ROOT));
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aml_append(method, aml_store(call_result, buf));
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/* handle _DSM result. */
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aml_append(method, aml_create_dword_field(buf,
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aml_int(0) /* offset at byte 0 */, "STAU"));
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aml_append(method, aml_store(aml_name("STAU"),
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aml_name(NVDIMM_DSM_RFIT_STATUS)));
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/* if something is wrong during _DSM. */
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ifcond = aml_equal(aml_int(0 /* Success */), aml_name("STAU"));
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ifctx = aml_if(aml_lnot(ifcond));
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aml_append(ifctx, aml_return(aml_buffer(0, NULL)));
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aml_append(method, ifctx);
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aml_append(method, aml_store(aml_sizeof(buf), buf_size));
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aml_append(method, aml_subtract(buf_size,
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aml_int(4) /* the size of "STAU" */,
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buf_size));
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/* if we read the end of fit. */
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ifctx = aml_if(aml_equal(buf_size, aml_int(0)));
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aml_append(ifctx, aml_return(aml_buffer(0, NULL)));
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aml_append(method, ifctx);
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aml_append(method, aml_store(aml_shiftleft(buf_size, aml_int(3)),
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buf_size));
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aml_append(method, aml_create_field(buf,
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aml_int(4 * BITS_PER_BYTE), /* offset at byte 4.*/
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buf_size, "BUFF"));
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aml_append(method, aml_return(aml_name("BUFF")));
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aml_append(dev, method);
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/* build _FIT. */
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method = aml_method("_FIT", 0, AML_SERIALIZED);
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offset = aml_local(3);
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aml_append(method, aml_store(aml_buffer(0, NULL), fit));
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aml_append(method, aml_store(aml_int(0), offset));
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whilectx = aml_while(aml_int(1));
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aml_append(whilectx, aml_store(aml_call1("RFIT", offset), buf));
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aml_append(whilectx, aml_store(aml_sizeof(buf), buf_size));
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/*
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* if fit buffer was changed during RFIT, read from the beginning
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* again.
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*/
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ifctx = aml_if(aml_equal(aml_name(NVDIMM_DSM_RFIT_STATUS),
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aml_int(0x100 /* fit changed */)));
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aml_append(ifctx, aml_store(aml_buffer(0, NULL), fit));
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aml_append(ifctx, aml_store(aml_int(0), offset));
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aml_append(whilectx, ifctx);
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elsectx = aml_else();
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/* finish fit read if no data is read out. */
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ifctx = aml_if(aml_equal(buf_size, aml_int(0)));
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aml_append(ifctx, aml_return(fit));
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aml_append(elsectx, ifctx);
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/* update the offset. */
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aml_append(elsectx, aml_add(offset, buf_size, offset));
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/* append the data we read out to the fit buffer. */
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aml_append(elsectx, aml_concatenate(fit, buf, fit));
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aml_append(whilectx, elsectx);
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aml_append(method, whilectx);
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aml_append(dev, method);
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}
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static void nvdimm_build_nvdimm_devices(Aml *root_dev, uint32_t ram_slots)
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{
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uint32_t slot;
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@ -1052,6 +1251,7 @@ static void nvdimm_build_ssdt(GArray *table_offsets, GArray *table_data,
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/* 0 is reserved for root device. */
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nvdimm_build_device_dsm(dev, 0);
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nvdimm_build_fit(dev);
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nvdimm_build_nvdimm_devices(dev, ram_slots);
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