// SPDX-License-Identifier: GPL-2.0-or-later /* * Client driver for Qualcomm UEFI Secure Application (qcom.tz.uefisecapp). * Provides access to UEFI variables on platforms where they are secured by the * aforementioned Secure Execution Environment (SEE) application. * * Copyright (C) 2023 Maximilian Luz */ #include #include #include #include #include #include #include #include #include #include #include #include #include /* -- Qualcomm "uefisecapp" interface definitions. -------------------------- */ /* Maximum length of name string with null-terminator */ #define QSEE_MAX_NAME_LEN 1024 #define QSEE_CMD_UEFI(x) (0x8000 | (x)) #define QSEE_CMD_UEFI_GET_VARIABLE QSEE_CMD_UEFI(0) #define QSEE_CMD_UEFI_SET_VARIABLE QSEE_CMD_UEFI(1) #define QSEE_CMD_UEFI_GET_NEXT_VARIABLE QSEE_CMD_UEFI(2) #define QSEE_CMD_UEFI_QUERY_VARIABLE_INFO QSEE_CMD_UEFI(3) /** * struct qsee_req_uefi_get_variable - Request for GetVariable command. * @command_id: The ID of the command. Must be %QSEE_CMD_UEFI_GET_VARIABLE. * @length: Length of the request in bytes, including this struct and any * parameters (name, GUID) stored after it as well as any padding * thereof for alignment. * @name_offset: Offset from the start of this struct to where the variable * name is stored (as utf-16 string), in bytes. * @name_size: Size of the name parameter in bytes, including null-terminator. * @guid_offset: Offset from the start of this struct to where the GUID * parameter is stored, in bytes. * @guid_size: Size of the GUID parameter in bytes, i.e. sizeof(efi_guid_t). * @data_size: Size of the output buffer, in bytes. */ struct qsee_req_uefi_get_variable { u32 command_id; u32 length; u32 name_offset; u32 name_size; u32 guid_offset; u32 guid_size; u32 data_size; } __packed; /** * struct qsee_rsp_uefi_get_variable - Response for GetVariable command. * @command_id: The ID of the command. Should be %QSEE_CMD_UEFI_GET_VARIABLE. * @length: Length of the response in bytes, including this struct and the * returned data. * @status: Status of this command. * @attributes: EFI variable attributes. * @data_offset: Offset from the start of this struct to where the data is * stored, in bytes. * @data_size: Size of the returned data, in bytes. In case status indicates * that the buffer is too small, this will be the size required * to store the EFI variable data. */ struct qsee_rsp_uefi_get_variable { u32 command_id; u32 length; u32 status; u32 attributes; u32 data_offset; u32 data_size; } __packed; /** * struct qsee_req_uefi_set_variable - Request for the SetVariable command. * @command_id: The ID of the command. Must be %QSEE_CMD_UEFI_SET_VARIABLE. * @length: Length of the request in bytes, including this struct and any * parameters (name, GUID, data) stored after it as well as any * padding thereof required for alignment. * @name_offset: Offset from the start of this struct to where the variable * name is stored (as utf-16 string), in bytes. * @name_size: Size of the name parameter in bytes, including null-terminator. * @guid_offset: Offset from the start of this struct to where the GUID * parameter is stored, in bytes. * @guid_size: Size of the GUID parameter in bytes, i.e. sizeof(efi_guid_t). * @attributes: The EFI variable attributes to set for this variable. * @data_offset: Offset from the start of this struct to where the EFI variable * data is stored, in bytes. * @data_size: Size of EFI variable data, in bytes. * */ struct qsee_req_uefi_set_variable { u32 command_id; u32 length; u32 name_offset; u32 name_size; u32 guid_offset; u32 guid_size; u32 attributes; u32 data_offset; u32 data_size; } __packed; /** * struct qsee_rsp_uefi_set_variable - Response for the SetVariable command. * @command_id: The ID of the command. Should be %QSEE_CMD_UEFI_SET_VARIABLE. * @length: The length of this response, i.e. the size of this struct in * bytes. * @status: Status of this command. * @_unknown1: Unknown response field. * @_unknown2: Unknown response field. */ struct qsee_rsp_uefi_set_variable { u32 command_id; u32 length; u32 status; u32 _unknown1; u32 _unknown2; } __packed; /** * struct qsee_req_uefi_get_next_variable - Request for the * GetNextVariableName command. * @command_id: The ID of the command. Must be * %QSEE_CMD_UEFI_GET_NEXT_VARIABLE. * @length: Length of the request in bytes, including this struct and any * parameters (name, GUID) stored after it as well as any padding * thereof for alignment. * @guid_offset: Offset from the start of this struct to where the GUID * parameter is stored, in bytes. * @guid_size: Size of the GUID parameter in bytes, i.e. sizeof(efi_guid_t). * @name_offset: Offset from the start of this struct to where the variable * name is stored (as utf-16 string), in bytes. * @name_size: Size of the name parameter in bytes, including null-terminator. */ struct qsee_req_uefi_get_next_variable { u32 command_id; u32 length; u32 guid_offset; u32 guid_size; u32 name_offset; u32 name_size; } __packed; /** * struct qsee_rsp_uefi_get_next_variable - Response for the * GetNextVariableName command. * @command_id: The ID of the command. Should be * %QSEE_CMD_UEFI_GET_NEXT_VARIABLE. * @length: Length of the response in bytes, including this struct and any * parameters (name, GUID) stored after it as well as any padding * thereof for alignment. * @status: Status of this command. * @guid_offset: Offset from the start of this struct to where the GUID * parameter is stored, in bytes. * @guid_size: Size of the GUID parameter in bytes, i.e. sizeof(efi_guid_t). * @name_offset: Offset from the start of this struct to where the variable * name is stored (as utf-16 string), in bytes. * @name_size: Size of the name parameter in bytes, including null-terminator. */ struct qsee_rsp_uefi_get_next_variable { u32 command_id; u32 length; u32 status; u32 guid_offset; u32 guid_size; u32 name_offset; u32 name_size; } __packed; /** * struct qsee_req_uefi_query_variable_info - Response for the * GetNextVariableName command. * @command_id: The ID of the command. Must be * %QSEE_CMD_UEFI_QUERY_VARIABLE_INFO. * @length: The length of this request, i.e. the size of this struct in * bytes. * @attributes: The storage attributes to query the info for. */ struct qsee_req_uefi_query_variable_info { u32 command_id; u32 length; u32 attributes; } __packed; /** * struct qsee_rsp_uefi_query_variable_info - Response for the * GetNextVariableName command. * @command_id: The ID of the command. Must be * %QSEE_CMD_UEFI_QUERY_VARIABLE_INFO. * @length: The length of this response, i.e. the size of this * struct in bytes. * @status: Status of this command. * @_pad: Padding. * @storage_space: Full storage space size, in bytes. * @remaining_space: Free storage space available, in bytes. * @max_variable_size: Maximum variable data size, in bytes. */ struct qsee_rsp_uefi_query_variable_info { u32 command_id; u32 length; u32 status; u32 _pad; u64 storage_space; u64 remaining_space; u64 max_variable_size; } __packed; /* -- Alignment helpers ----------------------------------------------------- */ /* * Helper macro to ensure proper alignment of types (fields and arrays) when * stored in some (contiguous) buffer. * * Note: The driver from which this one has been reverse-engineered expects an * alignment of 8 bytes (64 bits) for GUIDs. Our definition of efi_guid_t, * however, has an alignment of 4 byte (32 bits). So far, this seems to work * fine here. See also the comment on the typedef of efi_guid_t. * * Note: It looks like uefisecapp is quite picky about how the memory passed to * it is structured and aligned. In particular the request/response setup used * for QSEE_CMD_UEFI_GET_VARIABLE. While qcom_qseecom_app_send(), in theory, * accepts separate buffers/addresses for the request and response parts, in * practice, however, it seems to expect them to be both part of a larger * contiguous block. We initially allocated separate buffers for the request * and response but this caused the QSEE_CMD_UEFI_GET_VARIABLE command to * either not write any response to the response buffer or outright crash the * device. Therefore, we now allocate a single contiguous block of DMA memory * for both and properly align the data using the macros below. In particular, * request and response structs are aligned at 8 byte (via __reqdata_offs()), * following the driver that this has been reverse-engineered from. */ #define qcuefi_buf_align_fields(fields...) \ ({ \ size_t __len = 0; \ fields \ __len; \ }) #define __field_impl(size, align, offset) \ ({ \ size_t *__offset = (offset); \ size_t __aligned; \ \ __aligned = ALIGN(__len, align); \ __len = __aligned + (size); \ \ if (__offset) \ *__offset = __aligned; \ }); #define __array_offs(type, count, offset) \ __field_impl(sizeof(type) * (count), __alignof__(type), offset) #define __array_offs_aligned(type, count, align, offset) \ __field_impl(sizeof(type) * (count), align, offset) #define __reqdata_offs(size, offset) \ __array_offs_aligned(u8, size, 8, offset) #define __array(type, count) __array_offs(type, count, NULL) #define __field_offs(type, offset) __array_offs(type, 1, offset) #define __field(type) __array_offs(type, 1, NULL) /* -- UEFI app interface. --------------------------------------------------- */ struct qcuefi_client { struct qseecom_client *client; struct efivars efivars; struct qcom_tzmem_pool *mempool; }; static struct device *qcuefi_dev(struct qcuefi_client *qcuefi) { return &qcuefi->client->aux_dev.dev; } static efi_status_t qsee_uefi_status_to_efi(u32 status) { u64 category = status & 0xf0000000; u64 code = status & 0x0fffffff; return category << (BITS_PER_LONG - 32) | code; } static efi_status_t qsee_uefi_get_variable(struct qcuefi_client *qcuefi, const efi_char16_t *name, const efi_guid_t *guid, u32 *attributes, unsigned long *data_size, void *data) { struct qsee_req_uefi_get_variable *req_data; struct qsee_rsp_uefi_get_variable *rsp_data; void *cmd_buf __free(qcom_tzmem) = NULL; unsigned long buffer_size = *data_size; unsigned long name_length; efi_status_t efi_status; size_t cmd_buf_size; size_t guid_offs; size_t name_offs; size_t req_size; size_t rsp_size; size_t req_offs; size_t rsp_offs; ssize_t status; if (!name || !guid) return EFI_INVALID_PARAMETER; name_length = ucs2_strnlen(name, QSEE_MAX_NAME_LEN) + 1; if (name_length > QSEE_MAX_NAME_LEN) return EFI_INVALID_PARAMETER; if (buffer_size && !data) return EFI_INVALID_PARAMETER; req_size = qcuefi_buf_align_fields( __field(*req_data) __array_offs(*name, name_length, &name_offs) __field_offs(*guid, &guid_offs) ); rsp_size = qcuefi_buf_align_fields( __field(*rsp_data) __array(u8, buffer_size) ); cmd_buf_size = qcuefi_buf_align_fields( __reqdata_offs(req_size, &req_offs) __reqdata_offs(rsp_size, &rsp_offs) ); cmd_buf = qcom_tzmem_alloc(qcuefi->mempool, cmd_buf_size, GFP_KERNEL); if (!cmd_buf) return EFI_OUT_OF_RESOURCES; req_data = cmd_buf + req_offs; rsp_data = cmd_buf + rsp_offs; req_data->command_id = QSEE_CMD_UEFI_GET_VARIABLE; req_data->data_size = buffer_size; req_data->name_offset = name_offs; req_data->name_size = name_length * sizeof(*name); req_data->guid_offset = guid_offs; req_data->guid_size = sizeof(*guid); req_data->length = req_size; status = ucs2_strscpy(((void *)req_data) + req_data->name_offset, name, name_length); if (status < 0) return EFI_INVALID_PARAMETER; memcpy(((void *)req_data) + req_data->guid_offset, guid, req_data->guid_size); status = qcom_qseecom_app_send(qcuefi->client, cmd_buf + req_offs, req_size, cmd_buf + rsp_offs, rsp_size); if (status) return EFI_DEVICE_ERROR; if (rsp_data->command_id != QSEE_CMD_UEFI_GET_VARIABLE) return EFI_DEVICE_ERROR; if (rsp_data->length < sizeof(*rsp_data)) return EFI_DEVICE_ERROR; if (rsp_data->status) { dev_dbg(qcuefi_dev(qcuefi), "%s: uefisecapp error: 0x%x\n", __func__, rsp_data->status); efi_status = qsee_uefi_status_to_efi(rsp_data->status); /* Update size and attributes in case buffer is too small. */ if (efi_status == EFI_BUFFER_TOO_SMALL) { *data_size = rsp_data->data_size; if (attributes) *attributes = rsp_data->attributes; } return qsee_uefi_status_to_efi(rsp_data->status); } if (rsp_data->length > rsp_size) return EFI_DEVICE_ERROR; if (rsp_data->data_offset + rsp_data->data_size > rsp_data->length) return EFI_DEVICE_ERROR; /* * Note: We need to set attributes and data size even if the buffer is * too small and we won't copy any data. This is described in spec, so * that callers can either allocate a buffer properly (with two calls * to this function) or just read back attributes withouth having to * deal with that. * * Specifically: * - If we have a buffer size of zero and no buffer, just return the * attributes, required size, and indicate success. * - If the buffer size is nonzero but too small, indicate that as an * error. * - Otherwise, we are good to copy the data. * * Note that we have already ensured above that the buffer pointer is * non-NULL if its size is nonzero. */ *data_size = rsp_data->data_size; if (attributes) *attributes = rsp_data->attributes; if (buffer_size == 0 && !data) return EFI_SUCCESS; if (buffer_size < rsp_data->data_size) return EFI_BUFFER_TOO_SMALL; memcpy(data, ((void *)rsp_data) + rsp_data->data_offset, rsp_data->data_size); return EFI_SUCCESS; } static efi_status_t qsee_uefi_set_variable(struct qcuefi_client *qcuefi, const efi_char16_t *name, const efi_guid_t *guid, u32 attributes, unsigned long data_size, const void *data) { struct qsee_req_uefi_set_variable *req_data; struct qsee_rsp_uefi_set_variable *rsp_data; void *cmd_buf __free(qcom_tzmem) = NULL; unsigned long name_length; size_t cmd_buf_size; size_t name_offs; size_t guid_offs; size_t data_offs; size_t req_size; size_t req_offs; size_t rsp_offs; ssize_t status; if (!name || !guid) return EFI_INVALID_PARAMETER; name_length = ucs2_strnlen(name, QSEE_MAX_NAME_LEN) + 1; if (name_length > QSEE_MAX_NAME_LEN) return EFI_INVALID_PARAMETER; /* * Make sure we have some data if data_size is nonzero. Note that using * a size of zero is a valid use-case described in spec and deletes the * variable. */ if (data_size && !data) return EFI_INVALID_PARAMETER; req_size = qcuefi_buf_align_fields( __field(*req_data) __array_offs(*name, name_length, &name_offs) __field_offs(*guid, &guid_offs) __array_offs(u8, data_size, &data_offs) ); cmd_buf_size = qcuefi_buf_align_fields( __reqdata_offs(req_size, &req_offs) __reqdata_offs(sizeof(*rsp_data), &rsp_offs) ); cmd_buf = qcom_tzmem_alloc(qcuefi->mempool, cmd_buf_size, GFP_KERNEL); if (!cmd_buf) return EFI_OUT_OF_RESOURCES; req_data = cmd_buf + req_offs; rsp_data = cmd_buf + rsp_offs; req_data->command_id = QSEE_CMD_UEFI_SET_VARIABLE; req_data->attributes = attributes; req_data->name_offset = name_offs; req_data->name_size = name_length * sizeof(*name); req_data->guid_offset = guid_offs; req_data->guid_size = sizeof(*guid); req_data->data_offset = data_offs; req_data->data_size = data_size; req_data->length = req_size; status = ucs2_strscpy(((void *)req_data) + req_data->name_offset, name, name_length); if (status < 0) return EFI_INVALID_PARAMETER; memcpy(((void *)req_data) + req_data->guid_offset, guid, req_data->guid_size); if (data_size) memcpy(((void *)req_data) + req_data->data_offset, data, req_data->data_size); status = qcom_qseecom_app_send(qcuefi->client, cmd_buf + req_offs, req_size, cmd_buf + rsp_offs, sizeof(*rsp_data)); if (status) return EFI_DEVICE_ERROR; if (rsp_data->command_id != QSEE_CMD_UEFI_SET_VARIABLE) return EFI_DEVICE_ERROR; if (rsp_data->length != sizeof(*rsp_data)) return EFI_DEVICE_ERROR; if (rsp_data->status) { dev_dbg(qcuefi_dev(qcuefi), "%s: uefisecapp error: 0x%x\n", __func__, rsp_data->status); return qsee_uefi_status_to_efi(rsp_data->status); } return EFI_SUCCESS; } static efi_status_t qsee_uefi_get_next_variable(struct qcuefi_client *qcuefi, unsigned long *name_size, efi_char16_t *name, efi_guid_t *guid) { struct qsee_req_uefi_get_next_variable *req_data; struct qsee_rsp_uefi_get_next_variable *rsp_data; void *cmd_buf __free(qcom_tzmem) = NULL; efi_status_t efi_status; size_t cmd_buf_size; size_t guid_offs; size_t name_offs; size_t req_size; size_t rsp_size; size_t req_offs; size_t rsp_offs; ssize_t status; if (!name_size || !name || !guid) return EFI_INVALID_PARAMETER; if (*name_size == 0) return EFI_INVALID_PARAMETER; req_size = qcuefi_buf_align_fields( __field(*req_data) __field_offs(*guid, &guid_offs) __array_offs(*name, *name_size / sizeof(*name), &name_offs) ); rsp_size = qcuefi_buf_align_fields( __field(*rsp_data) __field(*guid) __array(*name, *name_size / sizeof(*name)) ); cmd_buf_size = qcuefi_buf_align_fields( __reqdata_offs(req_size, &req_offs) __reqdata_offs(rsp_size, &rsp_offs) ); cmd_buf = qcom_tzmem_alloc(qcuefi->mempool, cmd_buf_size, GFP_KERNEL); if (!cmd_buf) return EFI_OUT_OF_RESOURCES; req_data = cmd_buf + req_offs; rsp_data = cmd_buf + rsp_offs; req_data->command_id = QSEE_CMD_UEFI_GET_NEXT_VARIABLE; req_data->guid_offset = guid_offs; req_data->guid_size = sizeof(*guid); req_data->name_offset = name_offs; req_data->name_size = *name_size; req_data->length = req_size; memcpy(((void *)req_data) + req_data->guid_offset, guid, req_data->guid_size); status = ucs2_strscpy(((void *)req_data) + req_data->name_offset, name, *name_size / sizeof(*name)); if (status < 0) return EFI_INVALID_PARAMETER; status = qcom_qseecom_app_send(qcuefi->client, cmd_buf + req_offs, req_size, cmd_buf + rsp_offs, rsp_size); if (status) return EFI_DEVICE_ERROR; if (rsp_data->command_id != QSEE_CMD_UEFI_GET_NEXT_VARIABLE) return EFI_DEVICE_ERROR; if (rsp_data->length < sizeof(*rsp_data)) return EFI_DEVICE_ERROR; if (rsp_data->status) { dev_dbg(qcuefi_dev(qcuefi), "%s: uefisecapp error: 0x%x\n", __func__, rsp_data->status); efi_status = qsee_uefi_status_to_efi(rsp_data->status); /* * If the buffer to hold the name is too small, update the * name_size with the required size, so that callers can * reallocate it accordingly. */ if (efi_status == EFI_BUFFER_TOO_SMALL) *name_size = rsp_data->name_size; return efi_status; } if (rsp_data->length > rsp_size) return EFI_DEVICE_ERROR; if (rsp_data->name_offset + rsp_data->name_size > rsp_data->length) return EFI_DEVICE_ERROR; if (rsp_data->guid_offset + rsp_data->guid_size > rsp_data->length) return EFI_DEVICE_ERROR; if (rsp_data->name_size > *name_size) { *name_size = rsp_data->name_size; return EFI_BUFFER_TOO_SMALL; } if (rsp_data->guid_size != sizeof(*guid)) return EFI_DEVICE_ERROR; memcpy(guid, ((void *)rsp_data) + rsp_data->guid_offset, rsp_data->guid_size); status = ucs2_strscpy(name, ((void *)rsp_data) + rsp_data->name_offset, rsp_data->name_size / sizeof(*name)); *name_size = rsp_data->name_size; if (status < 0) /* * Return EFI_DEVICE_ERROR here because the buffer size should * have already been validated above, causing this function to * bail with EFI_BUFFER_TOO_SMALL. */ return EFI_DEVICE_ERROR; return EFI_SUCCESS; } static efi_status_t qsee_uefi_query_variable_info(struct qcuefi_client *qcuefi, u32 attr, u64 *storage_space, u64 *remaining_space, u64 *max_variable_size) { struct qsee_req_uefi_query_variable_info *req_data; struct qsee_rsp_uefi_query_variable_info *rsp_data; void *cmd_buf __free(qcom_tzmem) = NULL; size_t cmd_buf_size; size_t req_offs; size_t rsp_offs; int status; cmd_buf_size = qcuefi_buf_align_fields( __reqdata_offs(sizeof(*req_data), &req_offs) __reqdata_offs(sizeof(*rsp_data), &rsp_offs) ); cmd_buf = qcom_tzmem_alloc(qcuefi->mempool, cmd_buf_size, GFP_KERNEL); if (!cmd_buf) return EFI_OUT_OF_RESOURCES; req_data = cmd_buf + req_offs; rsp_data = cmd_buf + rsp_offs; req_data->command_id = QSEE_CMD_UEFI_QUERY_VARIABLE_INFO; req_data->attributes = attr; req_data->length = sizeof(*req_data); status = qcom_qseecom_app_send(qcuefi->client, cmd_buf + req_offs, sizeof(*req_data), cmd_buf + rsp_offs, sizeof(*rsp_data)); if (status) return EFI_DEVICE_ERROR; if (rsp_data->command_id != QSEE_CMD_UEFI_QUERY_VARIABLE_INFO) return EFI_DEVICE_ERROR; if (rsp_data->length != sizeof(*rsp_data)) return EFI_DEVICE_ERROR; if (rsp_data->status) { dev_dbg(qcuefi_dev(qcuefi), "%s: uefisecapp error: 0x%x\n", __func__, rsp_data->status); return qsee_uefi_status_to_efi(rsp_data->status); } if (storage_space) *storage_space = rsp_data->storage_space; if (remaining_space) *remaining_space = rsp_data->remaining_space; if (max_variable_size) *max_variable_size = rsp_data->max_variable_size; return EFI_SUCCESS; } /* -- Global efivar interface. ---------------------------------------------- */ static struct qcuefi_client *__qcuefi; static DEFINE_MUTEX(__qcuefi_lock); static int qcuefi_set_reference(struct qcuefi_client *qcuefi) { mutex_lock(&__qcuefi_lock); if (qcuefi && __qcuefi) { mutex_unlock(&__qcuefi_lock); return -EEXIST; } __qcuefi = qcuefi; mutex_unlock(&__qcuefi_lock); return 0; } static struct qcuefi_client *qcuefi_acquire(void) { mutex_lock(&__qcuefi_lock); if (!__qcuefi) { mutex_unlock(&__qcuefi_lock); return NULL; } return __qcuefi; } static void qcuefi_release(void) { mutex_unlock(&__qcuefi_lock); } static efi_status_t qcuefi_get_variable(efi_char16_t *name, efi_guid_t *vendor, u32 *attr, unsigned long *data_size, void *data) { struct qcuefi_client *qcuefi; efi_status_t status; qcuefi = qcuefi_acquire(); if (!qcuefi) return EFI_NOT_READY; status = qsee_uefi_get_variable(qcuefi, name, vendor, attr, data_size, data); qcuefi_release(); return status; } static efi_status_t qcuefi_set_variable(efi_char16_t *name, efi_guid_t *vendor, u32 attr, unsigned long data_size, void *data) { struct qcuefi_client *qcuefi; efi_status_t status; qcuefi = qcuefi_acquire(); if (!qcuefi) return EFI_NOT_READY; status = qsee_uefi_set_variable(qcuefi, name, vendor, attr, data_size, data); qcuefi_release(); return status; } static efi_status_t qcuefi_get_next_variable(unsigned long *name_size, efi_char16_t *name, efi_guid_t *vendor) { struct qcuefi_client *qcuefi; efi_status_t status; qcuefi = qcuefi_acquire(); if (!qcuefi) return EFI_NOT_READY; status = qsee_uefi_get_next_variable(qcuefi, name_size, name, vendor); qcuefi_release(); return status; } static efi_status_t qcuefi_query_variable_info(u32 attr, u64 *storage_space, u64 *remaining_space, u64 *max_variable_size) { struct qcuefi_client *qcuefi; efi_status_t status; qcuefi = qcuefi_acquire(); if (!qcuefi) return EFI_NOT_READY; status = qsee_uefi_query_variable_info(qcuefi, attr, storage_space, remaining_space, max_variable_size); qcuefi_release(); return status; } static const struct efivar_operations qcom_efivar_ops = { .get_variable = qcuefi_get_variable, .set_variable = qcuefi_set_variable, .get_next_variable = qcuefi_get_next_variable, .query_variable_info = qcuefi_query_variable_info, }; /* -- Driver setup. --------------------------------------------------------- */ static int qcom_uefisecapp_probe(struct auxiliary_device *aux_dev, const struct auxiliary_device_id *aux_dev_id) { struct qcom_tzmem_pool_config pool_config; struct qcuefi_client *qcuefi; int status; qcuefi = devm_kzalloc(&aux_dev->dev, sizeof(*qcuefi), GFP_KERNEL); if (!qcuefi) return -ENOMEM; qcuefi->client = container_of(aux_dev, struct qseecom_client, aux_dev); auxiliary_set_drvdata(aux_dev, qcuefi); status = qcuefi_set_reference(qcuefi); if (status) return status; status = efivars_register(&qcuefi->efivars, &qcom_efivar_ops); if (status) qcuefi_set_reference(NULL); memset(&pool_config, 0, sizeof(pool_config)); pool_config.initial_size = SZ_4K; pool_config.policy = QCOM_TZMEM_POLICY_MULTIPLIER; pool_config.increment = 2; pool_config.max_size = SZ_256K; qcuefi->mempool = devm_qcom_tzmem_pool_new(&aux_dev->dev, &pool_config); if (IS_ERR(qcuefi->mempool)) return PTR_ERR(qcuefi->mempool); return status; } static void qcom_uefisecapp_remove(struct auxiliary_device *aux_dev) { struct qcuefi_client *qcuefi = auxiliary_get_drvdata(aux_dev); efivars_unregister(&qcuefi->efivars); qcuefi_set_reference(NULL); } static const struct auxiliary_device_id qcom_uefisecapp_id_table[] = { { .name = "qcom_qseecom.uefisecapp" }, {} }; MODULE_DEVICE_TABLE(auxiliary, qcom_uefisecapp_id_table); static struct auxiliary_driver qcom_uefisecapp_driver = { .probe = qcom_uefisecapp_probe, .remove = qcom_uefisecapp_remove, .id_table = qcom_uefisecapp_id_table, .driver = { .name = "qcom_qseecom_uefisecapp", .probe_type = PROBE_PREFER_ASYNCHRONOUS, }, }; module_auxiliary_driver(qcom_uefisecapp_driver); MODULE_AUTHOR("Maximilian Luz "); MODULE_DESCRIPTION("Client driver for Qualcomm SEE UEFI Secure App"); MODULE_LICENSE("GPL");