From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: Received: from mail-wr0-x232.google.com (mail-wr0-x232.google.com [IPv6:2a00:1450:400c:c0c::232]) (using TLSv1.2 with cipher ECDHE-RSA-AES128-GCM-SHA256 (128/128 bits)) (No client certificate requested) by ml01.01.org (Postfix) with ESMTPS id 8A64120958BCF for ; Mon, 11 Sep 2017 09:09:12 -0700 (PDT) Received: by mail-wr0-x232.google.com with SMTP id o42so15698702wrb.3 for ; Mon, 11 Sep 2017 09:12:08 -0700 (PDT) DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=linaro.org; s=google; h=date:from:to:cc:subject:message-id:references:mime-version :content-disposition:in-reply-to:user-agent; bh=S6jrqM7/F/IuBD5ezbuKvjn2EpTmizJt9C8WqdUCi14=; b=DhUzJFzve1w+osZmVT96EO2w0x2vcqnPKnv8YyDLi4HknjkRJhMi9SC3Iaj2B+BRw8 3TvEwClcR1kciqzJx78HrG0Sp4K3q+NP/fjJ3htH+SOcvUCMNcaI3Nc/tNYDXDbEBIBn 5UtRPziGqVTa+ewXHwjmK6kg7hpg4BqHrNaew= X-Google-DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=1e100.net; s=20161025; h=x-gm-message-state:date:from:to:cc:subject:message-id:references :mime-version:content-disposition:in-reply-to:user-agent; bh=S6jrqM7/F/IuBD5ezbuKvjn2EpTmizJt9C8WqdUCi14=; b=gu6THtMs0ZtV5NjrQpJ9P/fLpXQ+64lgGftO3AQxB7jtZPuTqYMjePzWEdn2km9g2r /aq6S0DDIg9apLBnPZBF40XmQwsiVtBY79z7PWm4N3WWkWDAFzCSBBKnNIhU2WoSLT4V gPOcQ5SUeElWNq61L9QDO7wtOq9N5u8YHmR0eHD7EwkJbDlmU8HchVovS8a2E5hYqtOt ZDyhaDK4zaToNOtmeG0gihwPsA/ZyyhcAJPx9lIVTcCe0eLtgcXd+YU+gaL/AiWDEhjE d3iOQk9uXn6xHuZ377D91Rmic3Jr350QlGjPP55l0SUJYINh1eaoje6Je6eoe9cE2uC0 dmWg== X-Gm-Message-State: AHPjjUjUtEZVGkGPkcWhR/v7XVSv7dd4yYxoB5lwtt4/kRaD5JocIGzV UsTG6+ajb8yHh+U5 X-Google-Smtp-Source: ADKCNb4PVHWYs233YkT4Xc8cN6h0Dq3Pi70efsNL77Cy8sVuE971Rp9fzQs5uXB35rl0gtbvKCqaMw== X-Received: by 10.223.160.68 with SMTP id l4mr9378384wrl.79.1505146325479; Mon, 11 Sep 2017 09:12:05 -0700 (PDT) Received: from bivouac.eciton.net (bivouac.eciton.net. [2a00:1098:0:86:1000:23:0:2]) by smtp.gmail.com with ESMTPSA id r15sm4863034wrc.30.2017.09.11.09.12.03 (version=TLS1_2 cipher=ECDHE-RSA-CHACHA20-POLY1305 bits=256/256); Mon, 11 Sep 2017 09:12:03 -0700 (PDT) Date: Mon, 11 Sep 2017 17:12:01 +0100 From: Leif Lindholm To: Ard Biesheuvel Cc: edk2-devel@lists.01.org, methavanitpong.pipat@socionext.com, masahisa.kojima@linaro.org, masami.hiramatsu@linaro.org Message-ID: <20170911161201.y3lhr3rq5vz433nz@bivouac.eciton.net> References: <20170908182315.9591-1-ard.biesheuvel@linaro.org> <20170908182315.9591-9-ard.biesheuvel@linaro.org> MIME-Version: 1.0 In-Reply-To: <20170908182315.9591-9-ard.biesheuvel@linaro.org> User-Agent: NeoMutt/20170113 (1.7.2) Subject: Re: [PATCH edk2-platforms 08/14] Silicon/Socionext: add driver for NETSEC network controller X-BeenThere: edk2-devel@lists.01.org X-Mailman-Version: 2.1.22 Precedence: list List-Id: EDK II Development List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Mon, 11 Sep 2017 16:09:13 -0000 Content-Type: text/plain; charset=us-ascii Content-Disposition: inline On Fri, Sep 08, 2017 at 07:23:09PM +0100, Ard Biesheuvel wrote: > This adds the NetSecDxe driver provided by Socionext, but reworked > extensively to improve compliance with the SimpleNetworkProtocol API, > and to avoid uncached allocations for streaming DMA. > > Contributed-under: TianoCore Contribution Agreement 1.1 > Signed-off-by: Ard Biesheuvel > --- > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.c | 1000 ++++++++++++++ > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.dec | 47 + > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.h | 88 ++ > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.inf | 69 + > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/include/ogma_api.h | 736 ++++++++++ > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/include/ogma_basic_type.h | 45 + > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/include/ogma_version.h | 24 + > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_basic_access.c | 88 ++ > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_basic_access.h | 52 + > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_desc_ring_access.c | 1391 +++++++++++++++++++ > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_desc_ring_access_internal.h | 111 ++ > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_gmac_access.c | 1454 ++++++++++++++++++++ > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_internal.h | 210 +++ > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_misc.c | 1385 +++++++++++++++++++ > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_misc_internal.h | 38 + > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_reg.h | 219 +++ > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_reg_f_gmac_4mt.h | 222 +++ > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_reg_netsec.h | 368 +++++ > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/ogma_config.h | 25 + > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/pfdep.h | 265 ++++ > Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/pfdep_uefi.c | 176 +++ > 21 files changed, 8013 insertions(+) > > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.c b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.c > new file mode 100644 > index 000000000000..7c3f12362f14 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.c > @@ -0,0 +1,1000 @@ > +/** @file > + > + Copyright (c) 2016 Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#include > +#include > +#include > +#include > +#include > +#include Sorted alphabetically, please? > + > +#include "NetsecDxe.h" > +#include "netsec_for_uefi/pfdep.h" Hmm, could that be folded into NetsecDxe.h? > + > +EFI_CPU_ARCH_PROTOCOL *mCpu; > + > +STATIC NETSEC_DEVICE_PATH NetsecPathTemplate = { > + { > + { > + MESSAGING_DEVICE_PATH, > + MSG_MAC_ADDR_DP, > + { > + (UINT8) (sizeof(MAC_ADDR_DEVICE_PATH)), > + (UINT8) (sizeof(MAC_ADDR_DEVICE_PATH) >> 8) No space after (UINT8), space after sizeof? > + } > + }, > + { > + { > + 0 > + } > + }, > + 0 > + }, > + { > + END_DEVICE_PATH_TYPE, > + END_ENTIRE_DEVICE_PATH_SUBTYPE, > + { > + sizeof(EFI_DEVICE_PATH_PROTOCOL), 0 Space after sizeof? > + } > + } > +}; > + > +STATIC > +VOID > +GetCurrentMacAddress( > + OUT UINT8 *Mac) > +{ > + Mac[0] = MmioRead8(MAC_ADDRESS + 3); > + Mac[1] = MmioRead8(MAC_ADDRESS + 2); > + Mac[2] = MmioRead8(MAC_ADDRESS + 1); > + Mac[3] = MmioRead8(MAC_ADDRESS + 0); > + Mac[4] = MmioRead8(MAC_ADDRESS + 7); > + Mac[5] = MmioRead8(MAC_ADDRESS + 6); Spaces after MmioRead8? > +} > + > +/* > + * Probe() > + */ > +STATIC > +EFI_STATUS > +Probe ( > + IN EFI_HANDLE Handle, > + IN NETSEC_DRIVER *LanDriver > + ) > +{ > + ogma_param_t Param; > + ogma_err_t ogma_err; > + UINT64 dmac_hm_cmd_base, dmac_mh_cmd_base, core_cmd_base; > + UINT32 dmac_hm_cmd_size, dmac_mh_cmd_size, core_cmd_size; > + > + SetMem (&Param, sizeof(Param), 0); Space after sizeof? > + > + Param.use_gmac_flag = OGMA_TRUE; > + > + Param.use_jumbo_pkt_flag = PcdGet8 (PcdJumboPacket); > + > + Param.desc_ring_param[OGMA_DESC_RING_ID_NRM_TX].valid_flag = OGMA_TRUE; > + Param.desc_ring_param[OGMA_DESC_RING_ID_NRM_TX].little_endian_flag = OGMA_TRUE; > + Param.desc_ring_param[OGMA_DESC_RING_ID_NRM_TX].tmr_mode_flag = OGMA_FALSE; > + Param.desc_ring_param[OGMA_DESC_RING_ID_NRM_TX].entry_num = PcdGet16 (PcdEncTxDescNum); > + Param.desc_ring_param[OGMA_DESC_RING_ID_NRM_RX].valid_flag = OGMA_TRUE; > + Param.desc_ring_param[OGMA_DESC_RING_ID_NRM_RX].little_endian_flag = OGMA_TRUE; > + Param.desc_ring_param[OGMA_DESC_RING_ID_NRM_RX].tmr_mode_flag = OGMA_FALSE; > + Param.desc_ring_param[OGMA_DESC_RING_ID_NRM_RX].entry_num = PcdGet16 (PcdDecRxDescNum); > + > + // phy-interface > + Param.gmac_config.phy_interface = OGMA_PHY_INTERFACE_RGMII; > + > + // Read and save the Permanent MAC Address > + GetCurrentMacAddress (LanDriver->SnpMode.PermanentAddress.Addr); > + > + LanDriver->SnpMode.CurrentAddress = LanDriver->SnpMode.PermanentAddress; > + DEBUG ((DEBUG_NET | DEBUG_INFO, > + "Netsec: HW MAC Address: %02x-%02x-%02x-%02x-%02x-%02x\n", > + LanDriver->SnpMode.PermanentAddress.Addr[0], > + LanDriver->SnpMode.PermanentAddress.Addr[1], > + LanDriver->SnpMode.PermanentAddress.Addr[2], > + LanDriver->SnpMode.PermanentAddress.Addr[3], > + LanDriver->SnpMode.PermanentAddress.Addr[4], > + LanDriver->SnpMode.PermanentAddress.Addr[5])); > + > + // Get hm microcode's physical addresses > + dmac_hm_cmd_base = MmioRead32 (HM_ME_ADDRESS_H); > + dmac_hm_cmd_base <<= 32; > + dmac_hm_cmd_base |= MmioRead32 (HM_ME_ADDRESS_L); > + dmac_hm_cmd_size = MmioRead32 (HM_ME_SIZE); > + > + // Get mh microcode's physical addresses > + dmac_mh_cmd_base = MmioRead32 (MH_ME_ADDRESS_H); > + dmac_mh_cmd_base <<= 32; > + dmac_mh_cmd_base |= MmioRead32 (MH_ME_ADDRESS_L); > + dmac_mh_cmd_size = MmioRead32 (MH_ME_SIZE); > + > + // Get core microcode's physical addresses > + core_cmd_base = MmioRead32 (PACKET_ME_ADDRESS); > + core_cmd_size = MmioRead32 (PACKET_ME_SIZE); Could we have some clarifications in comments what hm, mh and core are? Is their microcode self-contained in the component address space, or do they need to come from a separate flash device? > + > + ogma_err = ogma_init ((VOID *)((UINTN)PcdGet32(PcdNetsecDxeBaseAddress)), Space after PcdGet32? I think you mentioned rewriting this to UEFI driver model? Is that coming later? > + Handle, &Param, > + (VOID *)dmac_hm_cmd_base, dmac_hm_cmd_size, > + (VOID *)dmac_mh_cmd_base, dmac_mh_cmd_size, > + (VOID *)core_cmd_base, core_cmd_size, > + &LanDriver->Handle); > + if (ogma_err != OGMA_ERR_OK) { > + DEBUG ((DEBUG_ERROR, "NETSEC: ogma_init() failed with error code %d\n", > + ogma_err)); > + return EFI_DEVICE_ERROR; > + } > + > + ogma_enable_top_irq (LanDriver->Handle, > + OGMA_TOP_IRQ_REG_NRM_RX | OGMA_TOP_IRQ_REG_NRM_TX); > + > + return EFI_SUCCESS; > +} > + > +/* > + * UEFI Stop() function > + */ > +STATIC > +EFI_STATUS > +EFIAPI > +SnpStop ( > + IN EFI_SIMPLE_NETWORK_PROTOCOL *Snp > + ) > +{ > + EFI_TPL SavedTpl; > + EFI_STATUS Status; > + > + // Check Snp Instance > + if (Snp == NULL) { > + return EFI_INVALID_PARAMETER; > + } > + > + // Serialize access to data and registers > + SavedTpl = gBS->RaiseTPL (NETSEC_TPL); Not a fan of having a device-specific alias for which TPL to switch to for all critical sections. Could just search and replace and drop the definition (pointing out only here and at the definition). > + > + // Check state of the driver > + switch (Snp->Mode->State) { > + case EfiSimpleNetworkStarted: > + case EfiSimpleNetworkInitialized: > + break; > + case EfiSimpleNetworkStopped: > + DEBUG ((DEBUG_WARN, "NETSEC: Driver not started\n")); > + ReturnUnlock (EFI_NOT_STARTED); > + default: > + DEBUG ((DEBUG_ERROR, "NETSEC: Driver in an invalid state: %u\n", > + (UINTN)Snp->Mode->State)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + // Change the state > + Snp->Mode->State = EfiSimpleNetworkStopped; > + Status = EFI_SUCCESS; > + > + // Restore TPL and return > +ExitUnlock: > + gBS->RestoreTPL (SavedTpl); > + return Status; > +} > + > +/* > + * UEFI Initialize() function > + */ > +STATIC > +EFI_STATUS > +EFIAPI > +SnpInitialize ( > + IN EFI_SIMPLE_NETWORK_PROTOCOL *Snp, > + IN UINTN RxBufferSize OPTIONAL, > + IN UINTN TxBufferSize OPTIONAL > + ) > +{ > + NETSEC_DRIVER *LanDriver; > + EFI_TPL SavedTpl; > + EFI_STATUS Status; > + > + ogma_phy_link_status_t phy_link_status; > + ogma_err_t ogma_err; > + ogma_gmac_mode_t ogma_gmac_mode; > + > + // Check Snp Instance > + if (Snp == NULL) { > + return EFI_INVALID_PARAMETER; > + } > + > + // Serialize access to data and registers > + SavedTpl = gBS->RaiseTPL (NETSEC_TPL); > + > + // Check that driver was started but not initialised > + switch (Snp->Mode->State) { > + case EfiSimpleNetworkStarted: > + break; > + case EfiSimpleNetworkInitialized: > + DEBUG ((DEBUG_WARN, "NETSEC: Driver already initialized\n")); > + ReturnUnlock (EFI_SUCCESS); > + case EfiSimpleNetworkStopped: > + DEBUG ((DEBUG_WARN, "NETSEC: Driver not started\n")); > + ReturnUnlock (EFI_NOT_STARTED); > + default: > + DEBUG ((DEBUG_ERROR, "NETSEC: Driver in an invalid state: %u\n", > + (UINTN)Snp->Mode->State)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + // Find the LanDriver structure > + LanDriver = INSTANCE_FROM_SNP_THIS(Snp); Space after _THIS? > + > + // ##### open Hmm? A bit more description please. > + ogma_err = ogma_clean_rx_desc_ring (LanDriver->Handle, > + OGMA_DESC_RING_ID_NRM_RX); > + if (ogma_err != OGMA_ERR_OK) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC: ogma_clean_rx_desc_ring() failed with error code %d\n", > + (INT32)ogma_err)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + ogma_err = ogma_clean_tx_desc_ring (LanDriver->Handle, > + OGMA_DESC_RING_ID_NRM_TX); > + if (ogma_err != OGMA_ERR_OK) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC: ogma_clean_tx_desc_ring() failed with error code %d\n", > + (INT32)ogma_err)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + ogma_clear_desc_ring_irq_status (LanDriver->Handle, OGMA_DESC_RING_ID_NRM_TX, > + OGMA_CH_IRQ_REG_EMPTY); > + > + // ##### open_sub A bit more description, please. > + ogma_err = ogma_start_desc_ring (LanDriver->Handle, OGMA_DESC_RING_ID_NRM_RX); > + if (ogma_err != OGMA_ERR_OK) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC: ogma_start_desc_ring(ring_id=%d) failed with error code %d\n", > + OGMA_DESC_RING_ID_NRM_RX, > + (INT32)ogma_err)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + ogma_err = ogma_set_irq_coalesce_param(LanDriver->Handle, > + OGMA_DESC_RING_ID_NRM_RX, > + RXINT_PKTCNT, > + OGMA_FALSE, > + RXINT_TMR_CNT_US); > + if (ogma_err != OGMA_ERR_OK) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC: ogma_set_irq_coalesce_param() failed with error code %d\n", > + (INT32)ogma_err)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + ogma_err = ogma_start_desc_ring (LanDriver->Handle, OGMA_DESC_RING_ID_NRM_TX); > + if (ogma_err != OGMA_ERR_OK) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC: ogma_start_desc_ring(ring_id=%d) failed with error code %d\n", > + OGMA_DESC_RING_ID_NRM_TX, > + (INT32)ogma_err)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + ogma_disable_desc_ring_irq (LanDriver->Handle, OGMA_DESC_RING_ID_NRM_TX, > + OGMA_CH_IRQ_REG_EMPTY); > + > + // ##### configure_mac In general, it feels like each of these comment headers indicate a good place to break a block out into a helper function. > + ogma_err = ogma_stop_gmac(LanDriver->Handle, OGMA_TRUE, OGMA_TRUE); Missing space. > + if (ogma_err != OGMA_ERR_OK) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC: ogma_stop_gmac() failed with error status %d\n", > + ogma_err)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + ogma_err = ogma_get_phy_link_status(LanDriver->Handle, PcdGet8(PcdPhyDevAddr), &phy_link_status); Missing spaces. > + if (ogma_err != OGMA_ERR_OK) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC: ogma_get_phy_link_status() failed error code %d\n", > + (INT32)ogma_err)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + SetMem (&ogma_gmac_mode, sizeof(ogma_gmac_mode_t), 0); Missing space. > + ogma_gmac_mode.link_speed = phy_link_status.link_speed; > + ogma_gmac_mode.half_duplex_flag = (ogma_bool)phy_link_status.half_duplex_flag; > + if ((!phy_link_status.half_duplex_flag) && PcdGet8(PcdFlowCtrl)) { Missing space. > + ogma_gmac_mode.flow_ctrl_enable_flag = (ogma_bool)PcdGet8(PcdFlowCtrl); > + ogma_gmac_mode.flow_ctrl_start_threshold = (ogma_uint16)PcdGet16(PcdFlowCtrlStartThreshold); > + ogma_gmac_mode.flow_ctrl_stop_threshold = (ogma_uint16)PcdGet16(PcdFlowCtrlStopThreshold); > + ogma_gmac_mode.pause_time = (ogma_uint16)PcdGet16(PcdPauseTime); > + } > + > + ogma_err = ogma_set_gmac_mode(LanDriver->Handle, &ogma_gmac_mode); Missing space. > + if(ogma_err != OGMA_ERR_OK) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC: ogma_set_gmac() failed with error status %d\n", > + (INT32)ogma_err)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + ogma_err = ogma_start_gmac(LanDriver->Handle, OGMA_TRUE, OGMA_TRUE); Missing space. > + if(ogma_err != OGMA_ERR_OK) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC: ogma_start_gmac() failed with error status %d\n", > + (INT32)ogma_err)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + // Declare the driver as initialized > + Snp->Mode->State = EfiSimpleNetworkInitialized; > + Status = EFI_SUCCESS; > + > + DEBUG ((DEBUG_INFO | DEBUG_LOAD, "NETSEC: Driver started\n")); > + > + // Restore TPL and return > +ExitUnlock: > + gBS->RestoreTPL (SavedTpl); > + return Status; > +} > + > +/* > + * UEFI Shutdown () function > + */ > +STATIC > +EFI_STATUS > +EFIAPI > +SnpShutdown ( > + IN EFI_SIMPLE_NETWORK_PROTOCOL *Snp > + ) > +{ > + NETSEC_DRIVER *LanDriver; > + EFI_TPL SavedTpl; > + EFI_STATUS Status; > + > + // Check Snp Instance > + if (Snp == NULL) { > + return EFI_INVALID_PARAMETER; > + } > + > + // Serialize access to data and registers > + SavedTpl = gBS->RaiseTPL (NETSEC_TPL); > + > + // First check that driver has already been initialized > + switch (Snp->Mode->State) { > + case EfiSimpleNetworkInitialized: > + break; > + case EfiSimpleNetworkStarted: > + DEBUG ((DEBUG_WARN, "NETSEC: Driver not yet initialized\n")); > + ReturnUnlock (EFI_DEVICE_ERROR); > + case EfiSimpleNetworkStopped: > + DEBUG ((DEBUG_WARN, "NETSEC: Driver in stopped state\n")); > + ReturnUnlock (EFI_NOT_STARTED); > + default: > + DEBUG ((DEBUG_ERROR, "NETSEC: Driver in an invalid state: %u\n", > + (UINTN)Snp->Mode->State)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + // Find the LanDriver structure > + LanDriver = INSTANCE_FROM_SNP_THIS(Snp); > + > + ogma_stop_gmac (LanDriver->Handle, OGMA_TRUE, OGMA_TRUE); > + > + ogma_stop_desc_ring (LanDriver->Handle, OGMA_DESC_RING_ID_NRM_RX); > + ogma_stop_desc_ring (LanDriver->Handle, OGMA_DESC_RING_ID_NRM_TX); > + > + Snp->Mode->State = EfiSimpleNetworkStarted; > + Status = EFI_SUCCESS; > + > + // Restore TPL and return > +ExitUnlock: > + gBS->RestoreTPL (SavedTpl); > + return Status; > +} > + > +STATIC > +VOID > +EFIAPI > +NotifyExitBoot ( > + IN EFI_EVENT Event, > + IN VOID *Context > + ) > +{ > + EFI_SIMPLE_NETWORK_PROTOCOL *Snp; > + EFI_STATUS Status; > + > + Snp = Context; > + > + if (Snp->Mode != EfiSimpleNetworkStopped) { > + Status = SnpShutdown (Snp); > + if (!EFI_ERROR (Status)) { > + SnpStop (Snp); > + } > + } > + gBS->CloseEvent (Event); > +} > + > +/* > + * UEFI Start() function > + */ > +STATIC > +EFI_STATUS > +EFIAPI > +SnpStart ( > + IN EFI_SIMPLE_NETWORK_PROTOCOL *Snp > + ) > +{ > + EFI_SIMPLE_NETWORK_MODE *Mode; > + EFI_TPL SavedTpl; > + EFI_STATUS Status; > + NETSEC_DRIVER *LanDriver; > + > + LanDriver = INSTANCE_FROM_SNP_THIS(Snp); Missing space. > + > + // Check Snp instance > + if (Snp == NULL) { > + return EFI_INVALID_PARAMETER; > + } > + > + // Serialize access to data and registers > + SavedTpl = gBS->RaiseTPL (NETSEC_TPL); > + Mode = Snp->Mode; > + > + // Check state of the driver > + switch (Mode->State) { > + case EfiSimpleNetworkStopped: > + break; > + case EfiSimpleNetworkStarted: > + case EfiSimpleNetworkInitialized: > + DEBUG ((DEBUG_WARN, "NETSEC: Driver already started\n")); > + ReturnUnlock (EFI_ALREADY_STARTED); > + default: > + DEBUG ((DEBUG_ERROR, "NETSEC: Driver in an invalid state: %u\n", > + (UINTN)Snp->Mode->State)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + Status = gBS->CreateEvent (EVT_SIGNAL_EXIT_BOOT_SERVICES, NETSEC_TPL, > + NotifyExitBoot, Snp, &LanDriver->ExitBootEvent); > + ASSERT_EFI_ERROR (Status); > + > + // Change state > + Mode->State = EfiSimpleNetworkStarted; > + Status = EFI_SUCCESS; > + > + // Restore TPL and return > +ExitUnlock: > + gBS->RestoreTPL (SavedTpl); > + return Status; > + > +} > + > +/* > + * UEFI ReceiveFilters() function > + */ > +STATIC > +EFI_STATUS > +EFIAPI > +SnpReceiveFilters ( > + IN EFI_SIMPLE_NETWORK_PROTOCOL *Snp, > + IN UINT32 Enable, > + IN UINT32 Disable, > + IN BOOLEAN Reset, > + IN UINTN NumMfilter OPTIONAL, > + IN EFI_MAC_ADDRESS *Mfilter OPTIONAL > + ) > +{ > + EFI_TPL SavedTpl; > + EFI_STATUS Status; > + > + // Check Snp Instance > + if (Snp == NULL) { > + return EFI_INVALID_PARAMETER; > + } > + > + // Serialize access to data and registers > + SavedTpl = gBS->RaiseTPL (NETSEC_TPL); > + > + // First check that driver has already been initialized > + switch (Snp->Mode->State) { > + case EfiSimpleNetworkInitialized: > + break; > + case EfiSimpleNetworkStarted: > + DEBUG ((DEBUG_WARN, "NETSEC: Driver not yet initialized\n")); > + ReturnUnlock (EFI_DEVICE_ERROR); > + case EfiSimpleNetworkStopped: > + DEBUG ((DEBUG_WARN, "NETSEC: Driver not started\n")); > + ReturnUnlock (EFI_NOT_STARTED); > + default: > + DEBUG ((DEBUG_ERROR, "NETSEC: Driver in an invalid state: %u\n", (UINTN)Snp->Mode->State)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + Status = EFI_SUCCESS; > + > + // Restore TPL and return > +ExitUnlock: > + gBS->RestoreTPL (SavedTpl); > + return Status; > +} > + > +/* > + * UEFI GetStatus () function > + */ > +STATIC > +EFI_STATUS > +EFIAPI > +SnpGetStatus ( > + IN EFI_SIMPLE_NETWORK_PROTOCOL *Snp, > + OUT UINT32 *IrqStat OPTIONAL, > + OUT VOID **TxBuff OPTIONAL > + ) > +{ > + NETSEC_DRIVER *LanDriver; > + EFI_TPL SavedTpl; > + EFI_STATUS Status; > + pfdep_pkt_handle_t pkt_handle; > + LIST_ENTRY *Link; > + > + ogma_phy_link_status_t phy_link_status; > + ogma_err_t ogma_err; > + > + // Check preliminaries > + if (Snp == NULL) { > + return EFI_INVALID_PARAMETER; > + } > + > + // Serialize access to data and registers > + SavedTpl = gBS->RaiseTPL (NETSEC_TPL); > + > + // Check that driver was started and initialised > + switch (Snp->Mode->State) { > + case EfiSimpleNetworkInitialized: > + break; > + case EfiSimpleNetworkStarted: > + DEBUG ((DEBUG_WARN, "NETSEC: Driver not yet initialized\n")); > + ReturnUnlock (EFI_DEVICE_ERROR); > + case EfiSimpleNetworkStopped: > + DEBUG ((DEBUG_WARN, "NETSEC: Driver not started\n")); > + ReturnUnlock (EFI_NOT_STARTED); > + default: > + DEBUG ((DEBUG_ERROR, "NETSEC: Driver in an invalid state: %u\n", > + (UINTN)Snp->Mode->State)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + // Find the LanDriver structure > + LanDriver = INSTANCE_FROM_SNP_THIS(Snp); > + > + // Update the media status > + ogma_err = ogma_get_phy_link_status (LanDriver->Handle, > + PcdGet8(PcdPhyDevAddr), > + &phy_link_status); > + if (ogma_err != OGMA_ERR_OK) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC: ogma_get_phy_link_status failed with error code: %d\n", > + (INT32)ogma_err)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + Snp->Mode->MediaPresent = phy_link_status.up_flag; > + > + ogma_err = ogma_clean_tx_desc_ring (LanDriver->Handle, > + OGMA_DESC_RING_ID_NRM_TX); > + > + if (TxBuff != NULL) { > + *TxBuff = NULL; > + // > + // Find a buffer in the list that has been released > + // > + for (Link = GetFirstNode (&LanDriver->TxBufferList); > + !IsNull (&LanDriver->TxBufferList, Link); > + Link = GetNextNode (&LanDriver->TxBufferList, Link)) { > + > + pkt_handle = BASE_CR (Link, PACKET_HANDLE, Link); > + if (pkt_handle->Released) { > + *TxBuff = pkt_handle->Buffer; > + RemoveEntryList (Link); > + FreePool (pkt_handle); > + break; > + } > + } > + } > + > + if (IrqStat != 0) { > + *IrqStat = 0; > + } > + > + Status = EFI_SUCCESS; > + > + // Restore TPL and return > +ExitUnlock: > + gBS->RestoreTPL (SavedTpl); > + return Status; > +} > + > +/* > + * UEFI Transmit() function > + */ > +STATIC > +EFI_STATUS > +EFIAPI > +SnpTransmit ( > + IN EFI_SIMPLE_NETWORK_PROTOCOL *Snp, > + IN UINTN HdrSize, > + IN UINTN BufSize, > + IN VOID *BufAddr, > + IN EFI_MAC_ADDRESS *SrcAddr OPTIONAL, > + IN EFI_MAC_ADDRESS *DstAddr OPTIONAL, > + IN UINT16 *Protocol OPTIONAL > + ) > +{ > + NETSEC_DRIVER *LanDriver; > + EFI_TPL SavedTpl; > + EFI_STATUS Status; > + > + ogma_tx_pkt_ctrl_t tx_pkt_ctrl; > + ogma_frag_info_t scat_info; > + ogma_uint16 tx_avail_num; > + ogma_err_t ogma_err; > + UINT16 Proto; > + pfdep_pkt_handle_t pkt_handle; > + > + // Check preliminaries > + if ((Snp == NULL) || (BufAddr == NULL)) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC: SnpTransmit(): NULL Snp (%p) or BufAddr (%p)\n", Snp, BufAddr)); > + return EFI_DEVICE_ERROR; > + } > + > + pkt_handle = AllocateZeroPool (sizeof *pkt_handle); We tend to use () with sizeof, right? > + if (pkt_handle == NULL) { > + return EFI_OUT_OF_RESOURCES; > + } > + > + pkt_handle->Buffer = BufAddr; > + pkt_handle->RecycleForTx = TRUE; > + > + // Serialize access to data and registers > + SavedTpl = gBS->RaiseTPL (NETSEC_TPL); > + > + // Check that driver was started and initialised > + switch (Snp->Mode->State) { > + case EfiSimpleNetworkInitialized: > + break; > + case EfiSimpleNetworkStarted: > + DEBUG ((DEBUG_WARN, "NETSEC: Driver not yet initialized\n")); > + ReturnUnlock (EFI_DEVICE_ERROR); > + case EfiSimpleNetworkStopped: > + DEBUG ((DEBUG_WARN, "NETSEC: Driver not started\n")); > + ReturnUnlock (EFI_NOT_STARTED); > + default: > + DEBUG ((DEBUG_ERROR, "NETSEC: Driver in an invalid state: %u\n", > + (UINTN)Snp->Mode->State)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + // Find the LanDriver structure > + LanDriver = INSTANCE_FROM_SNP_THIS(Snp); Missing space. > + > + ogma_err = ogma_clear_desc_ring_irq_status (LanDriver->Handle, > + OGMA_DESC_RING_ID_NRM_TX, > + OGMA_CH_IRQ_REG_EMPTY); > + if (ogma_err != OGMA_ERR_OK) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC: ogma_clear_desc_ring_irq_status failed with error code: %d\n", > + (INT32)ogma_err)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + ogma_err = ogma_clean_tx_desc_ring (LanDriver->Handle, > + OGMA_DESC_RING_ID_NRM_TX); > + if (ogma_err != OGMA_ERR_OK) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC: ogma_clean_tx_desc_ring failed with error code: %d\n", > + (INT32)ogma_err)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + // Ensure header is correct size if non-zero > + if (HdrSize) { > + if (HdrSize != Snp->Mode->MediaHeaderSize) { > + DEBUG ((DEBUG_ERROR, "NETSEC: SnpTransmit(): Invalid HdrSize %d\n", > + HdrSize)); > + ReturnUnlock (EFI_INVALID_PARAMETER); > + } > + > + if ((DstAddr == NULL) || (Protocol == NULL)) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC: SnpTransmit(): NULL DstAddr %p or Protocol %p\n", > + DstAddr, Protocol)); > + ReturnUnlock (EFI_INVALID_PARAMETER); > + } > + > + // Copy destination address > + CopyMem (BufAddr, (VOID *)DstAddr, NET_ETHER_ADDR_LEN); > + // Copy source address > + CopyMem (BufAddr + NET_ETHER_ADDR_LEN, (VOID *)SrcAddr, NET_ETHER_ADDR_LEN); > + // Copy protocol > + Proto = HTONS(*Protocol); Missing space. > + CopyMem (BufAddr + (NET_ETHER_ADDR_LEN * 2), (VOID *)&Proto, sizeof(UINT16)); Missing space (sizeof). > + } > + > + Status = DmaMap (MapOperationBusMasterRead, BufAddr, &BufSize, > + &scat_info.phys_addr, &pkt_handle->Mapping); > + if (EFI_ERROR (Status)) { > + goto ExitUnlock; > + } > + > + scat_info.addr = BufAddr; > + scat_info.len = BufSize; > + > + SetMem (&tx_pkt_ctrl, sizeof (ogma_tx_pkt_ctrl_t), 0); > + > + tx_pkt_ctrl.pass_through_flag = OGMA_TRUE; > + tx_pkt_ctrl.target_desc_ring_id = OGMA_DESC_RING_ID_GMAC; > + > + // check empty slot > + do { > + tx_avail_num = ogma_get_tx_avail_num (LanDriver->Handle, > + OGMA_DESC_RING_ID_NRM_TX); > + } while (tx_avail_num < SCAT_NUM); > + > + // send > + ogma_err = ogma_set_tx_pkt_data (LanDriver->Handle, > + OGMA_DESC_RING_ID_NRM_TX, > + &tx_pkt_ctrl, > + SCAT_NUM, > + &scat_info, > + pkt_handle); > + > + if (ogma_err != OGMA_ERR_OK) { > + DmaUnmap (pkt_handle->Mapping); > + FreePool (pkt_handle); > + DEBUG ((DEBUG_ERROR, > + "NETSEC: ogma_set_tx_pkt_data failed with error code: %d\n", > + (INT32)ogma_err)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + // > + // Queue the descriptor so we can release the buffer once it has been > + // consumed by the hardware. > + // > + InsertTailList (&LanDriver->TxBufferList, &pkt_handle->Link); > + > + gBS->RestoreTPL (SavedTpl); > + return EFI_SUCCESS; > + > + // Restore TPL and return > +ExitUnlock: > + FreePool (pkt_handle); > + gBS->RestoreTPL (SavedTpl); > + return Status; > +} > + > +/* > + * UEFI Receive() function > + */ > +EFI_STATUS > +EFIAPI > +SnpReceive ( > + IN EFI_SIMPLE_NETWORK_PROTOCOL *Snp, > + OUT UINTN *HdrSize OPTIONAL, > + IN OUT UINTN *BuffSize, > + OUT VOID *Data, > + OUT EFI_MAC_ADDRESS *SrcAddr OPTIONAL, > + OUT EFI_MAC_ADDRESS *DstAddr OPTIONAL, > + OUT UINT16 *Protocol OPTIONAL > + ) > +{ > + EFI_TPL SavedTpl; > + EFI_STATUS Status; > + NETSEC_DRIVER *LanDriver; > + > + ogma_err_t ogma_err; > + ogma_rx_pkt_info_t rx_pkt_info; > + ogma_frag_info_t rx_data; > + ogma_uint16 len; > + pfdep_pkt_handle_t pkt_handle; > + > + // Check preliminaries > + if ((Snp == NULL) || (Data == NULL)) { > + return EFI_INVALID_PARAMETER; > + } > + > + // Serialize access to data and registers > + SavedTpl = gBS->RaiseTPL (NETSEC_TPL); > + > + // Check that driver was started and initialised > + switch (Snp->Mode->State) { > + case EfiSimpleNetworkInitialized: > + break; > + case EfiSimpleNetworkStarted: > + DEBUG ((DEBUG_WARN, "NETSEC: Driver not yet initialized\n")); > + ReturnUnlock (EFI_DEVICE_ERROR); > + case EfiSimpleNetworkStopped: > + DEBUG ((DEBUG_WARN, "NETSEC: Driver not started\n")); > + ReturnUnlock (EFI_NOT_STARTED); > + default: > + DEBUG ((DEBUG_ERROR, "NETSEC: Driver in an invalid state: %u\n", > + (UINTN)Snp->Mode->State)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + // Find the LanDriver structure > + LanDriver = INSTANCE_FROM_SNP_THIS(Snp); Missing space. > + > + if (ogma_get_rx_num (LanDriver->Handle, OGMA_DESC_RING_ID_NRM_RX) > 0) { > + > + ogma_err = ogma_get_rx_pkt_data(LanDriver->Handle, Missing space. > + OGMA_DESC_RING_ID_NRM_RX, > + &rx_pkt_info, &rx_data, &len, &pkt_handle); > + if (ogma_err != OGMA_ERR_OK) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC: ogma_get_rx_pkt_data failed with error code: %d\n", > + (INT32)ogma_err)); > + ReturnUnlock (EFI_DEVICE_ERROR); > + } > + > + DmaUnmap (pkt_handle->Mapping); > + pkt_handle->Mapping = NULL; > + > + CopyMem (Data, (VOID*)rx_data.addr, len); > + *BuffSize = len; > + > + pfdep_free_pkt_buf (LanDriver->Handle, rx_data.len, rx_data.addr, > + rx_data.phys_addr, PFDEP_TRUE, pkt_handle); > + } else { > + // not received any packets > + ReturnUnlock (EFI_NOT_READY); > + } > + > + if (HdrSize != NULL) { > + *HdrSize = LanDriver->SnpMode.MediaHeaderSize; > + } > + > + ogma_clear_desc_ring_irq_status (LanDriver->Handle, > + OGMA_DESC_RING_ID_NRM_TX, > + OGMA_CH_IRQ_REG_EMPTY); > + > + ogma_clean_tx_desc_ring(LanDriver->Handle, OGMA_DESC_RING_ID_NRM_TX); Missing space. > + > + ogma_enable_top_irq (LanDriver->Handle, > + OGMA_TOP_IRQ_REG_NRM_TX | OGMA_TOP_IRQ_REG_NRM_RX); > + > + Status = EFI_SUCCESS; > + > + // Restore TPL and return > +ExitUnlock: > + gBS->RestoreTPL (SavedTpl); > + return Status; > +} > + > +/* > + * Entry point for the Netxec driver > + */ > +EFI_STATUS > +NetsecDxeEntry ( > + IN EFI_HANDLE Handle, > + IN EFI_SYSTEM_TABLE *SystemTable) > +{ > + EFI_STATUS Status; > + NETSEC_DRIVER *LanDriver; > + EFI_SIMPLE_NETWORK_PROTOCOL *Snp; > + EFI_SIMPLE_NETWORK_MODE *SnpMode; > + NETSEC_DEVICE_PATH *NetsecPath; > + > + Status = gBS->LocateProtocol (&gEfiCpuArchProtocolGuid, NULL, (VOID **)&mCpu); > + ASSERT_EFI_ERROR(Status); > + > + // Allocate Resources > + LanDriver = AllocateZeroPool (sizeof(NETSEC_DRIVER)); > + NetsecPath = AllocateCopyPool (sizeof(NETSEC_DEVICE_PATH), Missing spaces 2 lines above. (Maybe just a global search/replace in this file. I'll stop pointing them out.) > + &NetsecPathTemplate); > + > + // Initialize pointers > + Snp = &(LanDriver->Snp); > + SnpMode = &(LanDriver->SnpMode); > + Snp->Mode = SnpMode; > + > + // Set the signature of the LAN Driver structure > + LanDriver->Signature = NETSEC_SIGNATURE; > + > + // Probe the device > + Status = Probe (Handle, LanDriver); > + if (EFI_ERROR(Status)) { > + DEBUG ((DEBUG_ERROR, > + "NETSEC:NetsecDxeEntry(): Probe failed with status %d\n", Status)); > + return Status; > + } > + > + // Assign fields and func pointers > + Snp->Revision = EFI_SIMPLE_NETWORK_PROTOCOL_REVISION; > + Snp->WaitForPacket = NULL; > + Snp->Initialize = SnpInitialize; > + Snp->Start = SnpStart; > + Snp->Stop = SnpStop; > + Snp->Reset = NULL; > + Snp->Shutdown = SnpShutdown; > + Snp->ReceiveFilters = SnpReceiveFilters; > + Snp->StationAddress = NULL; > + Snp->Statistics = NULL; > + Snp->MCastIpToMac = NULL; > + Snp->NvData = NULL; > + Snp->GetStatus = SnpGetStatus; > + Snp->Transmit = SnpTransmit; > + Snp->Receive = SnpReceive; > + > + // Fill in simple network mode structure > + SnpMode->State = EfiSimpleNetworkStopped; > + SnpMode->HwAddressSize = NET_ETHER_ADDR_LEN; // HW address is 6 bytes > + SnpMode->MediaHeaderSize = sizeof(ETHER_HEAD); // Size of an Ethernet header > + SnpMode->MaxPacketSize = EFI_PAGE_SIZE; // Ethernet Frame (with VLAN tag +4 bytes) > + > + // Supported receive filters > + SnpMode->ReceiveFilterMask = EFI_SIMPLE_NETWORK_RECEIVE_UNICAST | > + EFI_SIMPLE_NETWORK_RECEIVE_MULTICAST | > + EFI_SIMPLE_NETWORK_RECEIVE_BROADCAST | > + EFI_SIMPLE_NETWORK_RECEIVE_PROMISCUOUS | > + EFI_SIMPLE_NETWORK_RECEIVE_PROMISCUOUS_MULTICAST; > + > + // Initially-enabled receive filters > + SnpMode->ReceiveFilterSetting = EFI_SIMPLE_NETWORK_RECEIVE_UNICAST | > + EFI_SIMPLE_NETWORK_RECEIVE_MULTICAST | > + EFI_SIMPLE_NETWORK_RECEIVE_BROADCAST; > + > + // Netsec has 64bit hash table. We can filter an infinite MACs, but > + // higher-level software must filter out any hash collisions. > + SnpMode->MaxMCastFilterCount = MAX_MCAST_FILTER_CNT; > + SnpMode->MCastFilterCount = 0; > + ZeroMem (&SnpMode->MCastFilter, > + MAX_MCAST_FILTER_CNT * sizeof(EFI_MAC_ADDRESS)); > + > + // Set the interface type (1: Ethernet or 6: IEEE 802 Networks) > + SnpMode->IfType = NET_IFTYPE_ETHERNET; > + > + // Mac address is changeable > + SnpMode->MacAddressChangeable = TRUE; > + > + // We can only transmit one packet at a time > + SnpMode->MultipleTxSupported = FALSE; > + > + // MediaPresent checks for cable connection and partner link > + SnpMode->MediaPresentSupported = TRUE; > + SnpMode->MediaPresent = FALSE; > + > + // Set broadcast address > + SetMem (&SnpMode->BroadcastAddress, sizeof (EFI_MAC_ADDRESS), 0xFF); > + > + // Assign fields for device path > + NetsecPath->Netsec.MacAddress = SnpMode->PermanentAddress; > + NetsecPath->Netsec.IfType = SnpMode->IfType; > + > + InitializeListHead (&LanDriver->TxBufferList); > + > + // Initialise the protocol > + Status = gBS->InstallMultipleProtocolInterfaces ( > + &LanDriver->ControllerHandle, > + &gEfiSimpleNetworkProtocolGuid, Snp, > + &gEfiDevicePathProtocolGuid, NetsecPath, > + NULL); > + > + // Say what the status of loading the protocol structure is > + if (EFI_ERROR(Status)) { > + ogma_terminate (LanDriver->Handle); > + FreePool (LanDriver); > + } > + > + return Status; > +} > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.dec b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.dec > new file mode 100644 > index 000000000000..7537d1059b28 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.dec > @@ -0,0 +1,47 @@ > +## @file > +# > +# Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> +# Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> +# > +# This program and the accompanying materials > +# are licensed and made available under the terms and conditions of the BSD License > +# which accompanies this distribution. The full text of the license may be found at > +# http://opensource.org/licenses/bsd-license.php > +# > +# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > +# WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > +# > +## > + > +[Defines] > + DEC_SPECIFICATION = 0x00010005 Bump. > + PACKAGE_NAME = OpenPlatformDriversNetNetsecDxePkg > + PACKAGE_GUID = bd8ddfdd-2e8d-4081-8117-99405df3ffc8 > + PACKAGE_VERSION = 0.1 > + > + > +################################################################################ > +# > +# Include Section - list of Include Paths that are provided by this package. > +# Comments are used for Keywords and Module Types. > +# > +# Supported Module Types: > +# BASE SEC PEI_CORE PEIM DXE_CORE DXE_DRIVER DXE_RUNTIME_DRIVER DXE_SMM_DRIVER DXE_SAL_DRIVER UEFI_DRIVER UEFI_APPLICATION > +# > +################################################################################ > + > +[Guids.common] > + gNetsecDxeTokenSpaceGuid = { 0x47d6c028, 0x2413, 0x416d, { 0xa8, 0xef, 0xe4, 0x5c, 0x58, 0x83, 0x5e, 0x49 }} > + > +[PcdsFixedAtBuild.common] > + # Netsec Ethernet Driver PCDs > + gNetsecDxeTokenSpaceGuid.PcdNetsecDxeBaseAddress|0x0|UINT32|0x00000000 > + gNetsecDxeTokenSpaceGuid.PcdEepRomBase|0x0|UINT32|0x00000001 > + gNetsecDxeTokenSpaceGuid.PcdEncTxDescNum|0x0|UINT16|0x00000002 > + gNetsecDxeTokenSpaceGuid.PcdDecRxDescNum|0x0|UINT16|0x00000003 > + gNetsecDxeTokenSpaceGuid.PcdJumboPacket|0x0|UINT8|0x00000004 > + gNetsecDxeTokenSpaceGuid.PcdFlowCtrl|0x0|UINT8|0x00000005 > + gNetsecDxeTokenSpaceGuid.PcdFlowCtrlStartThreshold|0x0|UINT16|0x00000006 > + gNetsecDxeTokenSpaceGuid.PcdFlowCtrlStopThreshold|0x0|UINT16|0x00000007 > + gNetsecDxeTokenSpaceGuid.PcdPauseTime|0x0|UINT16|0x00000008 > + gNetsecDxeTokenSpaceGuid.PcdPhyDevAddr|0x0|UINT8|0x00000009 > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.h b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.h > new file mode 100644 > index 000000000000..f0acdc1448d7 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.h > @@ -0,0 +1,88 @@ > +/** @file > + > + Copyright (c) 2016 Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#ifndef __NETSEC_DXE_H_ > +#define __NETSEC_DXE_H_ > + > +#include "netsec_for_uefi/netsec_sdk/include/ogma_api.h" > + > +// Synchronization TPLs > +#define NETSEC_TPL TPL_CALLBACK I'm not sure I like this central redefinition of a specific TPL to use everywhere in the driver where it needs to be raised. > + > +/*--------------- Simple Network Driver entry point functions ----------------*/ > + > +// Refer to the Simple Network Protocol section (21.1) > +// in the UEFI 2.3.1 Specification for documentation. > + > +#define ReturnUnlock(s) do { Status = (s); goto ExitUnlock; } while (0) > + > +/*------------------------------------------------------------------------------ > + NETSEC Information Structure > +------------------------------------------------------------------------------*/ > + > +typedef struct { > + // Driver signature > + UINT32 Signature; > + EFI_HANDLE ControllerHandle; > + > + // EFI SNP protocol instances > + EFI_SIMPLE_NETWORK_PROTOCOL Snp; > + EFI_SIMPLE_NETWORK_MODE SnpMode; > + > + // EFI Snp statistics instance > + EFI_NETWORK_STATISTICS Stats; > + > + // ogma handle > + ogma_handle_t Handle; > + > + // List of submitted TX buffers > + LIST_ENTRY TxBufferList; > + > + EFI_EVENT ExitBootEvent; > +} NETSEC_DRIVER; > + > +#define NETSEC_SIGNATURE SIGNATURE_32('n', 't', 's', 'c') > +#define INSTANCE_FROM_SNP_THIS(a) CR(a, NETSEC_DRIVER, Snp, NETSEC_SIGNATURE) Parentheses around that 'a', please. > + > +typedef struct { > + MAC_ADDR_DEVICE_PATH Netsec; > + EFI_DEVICE_PATH_PROTOCOL End; > +} NETSEC_DEVICE_PATH; > + > +/*------------------------------------------------------------------------------ > + > +------------------------------------------------------------------------------*/ > + > +#define EEPROM_BASE ((UINT32)PcdGet32(PcdEepRomBase)) Missing space. > + > +#define MAC_ADDRESS (0x00 + EEPROM_BASE) > + > +#define HM_ME_ADDRESS_H (0x08 + EEPROM_BASE) > +#define HM_ME_ADDRESS_L (0x0C + EEPROM_BASE) > +#define HM_ME_SIZE (0x10 + EEPROM_BASE) > + > +#define MH_ME_ADDRESS_H (0x14 + EEPROM_BASE) > +#define MH_ME_ADDRESS_L (0x18 + EEPROM_BASE) > +#define MH_ME_SIZE (0x1C + EEPROM_BASE) > + > +#define PACKET_ME_ADDRESS (0x20 + EEPROM_BASE) > +#define PACKET_ME_SIZE (0x24 + EEPROM_BASE) Not necessary, but you _could_ #undef EEPROM_BASE here. > + > +#define SCAT_NUM 1 > + > +#define RXINT_TMR_CNT_US 0 > +#define RXINT_PKTCNT 1 > + > +#endif > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.inf b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.inf > new file mode 100644 > index 000000000000..42de56d89c30 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.inf > @@ -0,0 +1,69 @@ > +## @file > +# > +# Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> +# Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> +# > +# This program and the accompanying materials > +# are licensed and made available under the terms and conditions of the BSD License > +# which accompanies this distribution. The full text of the license may be found at > +# http://opensource.org/licenses/bsd-license.php > +# > +# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > +# WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > +# > +## > + > +[Defines] > + INF_VERSION = 0x00010019 > + BASE_NAME = NetsecDxe > + FILE_GUID = a4eed3af-9837-46b3-9275-c71cb47071f9 > + MODULE_TYPE = DXE_DRIVER > + VERSION_STRING = 0.1 > + ENTRY_POINT = NetsecDxeEntry > + > +[Sources] > + NetsecDxe.c > + > + netsec_for_uefi/pfdep_uefi.c > + netsec_for_uefi/netsec_sdk/src/ogma_basic_access.c > + netsec_for_uefi/netsec_sdk/src/ogma_desc_ring_access.c > + netsec_for_uefi/netsec_sdk/src/ogma_gmac_access.c > + netsec_for_uefi/netsec_sdk/src/ogma_misc.c > + > +[Packages] > + EmbeddedPkg/EmbeddedPkg.dec > + MdeModulePkg/MdeModulePkg.dec > + MdePkg/MdePkg.dec > + NetworkPkg/NetworkPkg.dec > + Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/NetsecDxe.dec > + > +[LibraryClasses] > + BaseLib > + BaseMemoryLib > + DevicePathLib > + DmaLib > + IoLib > + NetLib > + SynchronizationLib > + TimerLib > + UefiDriverEntryPoint > + UefiLib > + > +[Protocols] > + gEfiSimpleNetworkProtocolGuid > + gEfiDevicePathProtocolGuid Sorted, please. > + > +[FixedPcd] > + gNetsecDxeTokenSpaceGuid.PcdNetsecDxeBaseAddress > + gNetsecDxeTokenSpaceGuid.PcdEepRomBase > + gNetsecDxeTokenSpaceGuid.PcdEncTxDescNum > + gNetsecDxeTokenSpaceGuid.PcdDecRxDescNum > + gNetsecDxeTokenSpaceGuid.PcdJumboPacket > + gNetsecDxeTokenSpaceGuid.PcdFlowCtrl > + gNetsecDxeTokenSpaceGuid.PcdFlowCtrlStartThreshold > + gNetsecDxeTokenSpaceGuid.PcdFlowCtrlStopThreshold > + gNetsecDxeTokenSpaceGuid.PcdPhyDevAddr > + gNetsecDxeTokenSpaceGuid.PcdPauseTime Be nice if these were alphabetically sorted too, unless there is some other logical order that escapes me. > + > +[Depex] > + gEfiCpuArchProtocolGuid OK - below is imported code: I will not comment on coding style compliance. > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/include/ogma_api.h b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/include/ogma_api.h > new file mode 100644 > index 000000000000..336325109e33 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/include/ogma_api.h > @@ -0,0 +1,736 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#ifndef OGMA_API_H > +#define OGMA_API_H > + > +#include "ogma_version.h" > +#include "netsec_for_uefi/ogma_config.h" > +#include "netsec_for_uefi/netsec_sdk/include/ogma_basic_type.h" > +#include "netsec_for_uefi/pfdep.h" > +/** > + * Check configuration macro settings. > + */ > +#ifdef OGMA_CONFIG_CLK_HZ > +#if ( (OGMA_CONFIG_CLK_HZ < 0x200000) || (OGMA_CONFIG_CLK_HZ > 0x10000000) ) > +#error "OGMA_CONFIG_CLK_HZ is not appropriate." > +#endif /* ( (OGMA_CONFIG_CLK_HZ < 0x200000) || (OGMA_CONFIG_CLK_HZ > 0x10000000) ) */ > +#else /* ! OGMA_CONFIG_CLK_HZ */ > +#error "OGMA_CONFIG_CLK_HZ is not given." > +#endif /* OGMA_CONFIG_CLK_HZ */ > + > +#ifndef OGMA_CONFIG_GMAC_CLK_HZ > +#define OGMA_CONFIG_GMAC_CLK_HZ OGMA_CONFIG_CLK_HZ > +#endif > + > +/** > + * Number of hardware limits > + */ > + > + > +/** > + * Number of Common Descriptor ring id > + */ > +#define OGMA_DESC_RING_ID_NRM_TX 0 > +#define OGMA_DESC_RING_ID_NRM_RX 1 > + > +#define OGMA_DESC_RING_ID_GMAC 15 > +#define OGMA_DESC_RING_ID_MAX 1 > + > +/** > + * Numbre of TCP Segmentation length limits > + */ > +#define OGMA_TCP_SEG_LEN_MAX 1460 > +#define OGMA_TCP_JUMBO_SEG_LEN_MAX 8960 > + > +/** > + * Number of ER check result for received packet > + */ > +#define OGMA_RX_ER_RESULT_NG 0x1 > +#define OGMA_RX_ER_RESULT_OK 0x0 > + > +/** > + * Number of checksum calculation result for received packet > + */ > +#define OGMA_RX_CKSUM_RESULT_OK 0x1 > +#define OGMA_RX_CKSUM_RESULT_NG 0x2 > +#define OGMA_RX_CKSUM_RESULT_NOTAVAIL 0x0 > + > +/** > + * Number of ErrorCode for received packet > + */ > +#define OGMA_RX_ERRCODE_HEADER_INCOMLETE_ERR 0x2 > +#define OGMA_RX_ERRCODE_IP_HEADER_ERR 0x1 > +#define OGMA_RX_ERRCODE_NONE 0x0 > + > +/** > + * Number of top interrupt enable register bit field > + */ > +#define OGMA_TOP_IRQ_REG_ME_START (1UL << 20) > +#define OGMA_TOP_IRQ_REG_MAC (1UL << 19) > +#define OGMA_TOP_IRQ_REG_PKT (1UL << 18) > +#define OGMA_TOP_IRQ_REG_BOOTCODE_TX (1UL << 5) > +#define OGMA_TOP_IRQ_REG_NRM_RX (1UL << 1) > +#define OGMA_TOP_IRQ_REG_NRM_TX (1UL << 0) > + > + > +/** > + * Number of top channel enable register bit field > + */ > +#define OGMA_CH_IRQ_REG_EMPTY (1UL << 17) > +#define OGMA_CH_IRQ_REG_ERR (1UL << 16) > +#define OGMA_CH_IRQ_REG_PKT_CNT (1UL << 15) > +#define OGMA_CH_IRQ_REG_TIMEUP (1UL << 14) > +#define OGMA_CH_IRQ_REG_RCV (OGMA_CH_IRQ_REG_PKT_CNT | OGMA_CH_IRQ_REG_TIMEUP) > + > +/** > + * Number of top channel enable register bit field for F_NETSEC_C > + */ > +#define OGMA_CH_IRQ_REG_TX_DONE (1UL << 15) > +#define OGMA_CH_IRQ_REG_SND (OGMA_CH_IRQ_REG_TX_DONE | OGMA_CH_IRQ_REG_TIMEUP) > + > + > +/** > + * Number of packet interrupt enable register bit field > + */ > +#define OGMA_PKT_IRQ_MAC_ER (1UL << 5) > +#define OGMA_PKT_IRQ_JUMBO_ER (1UL << 4) > +#define OGMA_PKT_IRQ_CHKSUM_ER (1UL << 3) > +#define OGMA_PKT_IRQ_HD_INCOMPLETE (1UL << 2) > +#define OGMA_PKT_IRQ_HD_ER (1UL << 1) > +#define OGMA_PKT_IRQ_DRP_NO_MATCH (1UL << 0) > + > + > +/** > + * Number of mac irq enable register bit field > + */ > +#define OGMA_MAC_IRQ_INT_PMT (1UL << 31) > +#define OGMA_MAC_IRQ_INT_SBD (1UL << 30) > +#define OGMA_MAC_IRQ_INT_LPI (1UL << 29) > +#define OGMA_MAC_IRQ_INT_MAC_TX_RX_INFO_INT (1UL << 27) > +#define OGMA_MAC_IRQ_INT_LPI_TX_ENTRY (1UL << 26) > +#define OGMA_MAC_IRQ_INT_LPI_RX_ENTRY (1UL << 25) > +#define OGMA_MAC_IRQ_INT_LPI_TX_EXIT (1UL << 24) > +#define OGMA_MAC_IRQ_INT_LPI_RX_EXIT (1UL << 23) > + > + > +/** > + * Number of SR IER register bit field > + */ > +#define OGMA_GMAC_INT_SBD_IRQ_SR_GLPII (1U << 30) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_TTI (1U << 29) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_GPI (1U << 28) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_GMI (1U << 27) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_GLI (1U << 26) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_NIS (1U << 16) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_AIS (1U << 15) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_ERI (1U << 14) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_FBI (1U << 13) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_ETI (1U << 10) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_RWT (1U << 9) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_RPS (1U << 8) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_RU (1U << 7) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_RI (1U << 6) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_UNF (1U << 5) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_OVF (1U << 4) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_TJT (1U << 3) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_TU (1U << 2) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_TPS (1U << 1) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_TI (1U << 0) > +#define OGMA_GMAC_INT_SBD_IRQ_SR_WC_ALL ( OGMA_GMAC_INT_SBD_IRQ_SR_NIS | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_AIS | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_ERI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_FBI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_ETI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_RWT | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_RPS | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_RU | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_RI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_UNF | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_OVF | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_TJT | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_TU | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_TPS | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_TI) > + > +#define OGMA_GMAC_INT_SBD_IRQ_SR_ALL ( OGMA_GMAC_INT_SBD_IRQ_SR_GLPII | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_TTI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_GPI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_GMI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_GLI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_NIS | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_AIS | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_ERI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_FBI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_ETI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_RWT | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_RPS | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_RU | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_RI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_UNF | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_OVF | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_TJT | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_TU | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_TPS | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_TI) > + > +#define OGMA_GMAC_INT_SBD_IRQ_IER_ALL ( OGMA_GMAC_INT_SBD_IRQ_SR_NIS | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_AIS | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_ERI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_FBI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_ETI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_RWT | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_RPS | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_RU | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_RI | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_UNF | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_OVF | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_TJT | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_TU | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_TPS | \ > + OGMA_GMAC_INT_SBD_IRQ_SR_TI) > + > +/** > + * Number of ISR IMR register bit field > + */ > +#define OGMA_GMAC_INT_SBD_IRQ_ISR_LPII (1U << 10) > +#define OGMA_GMAC_INT_SBD_IRQ_ISR_TSI (1U << 9) > +#define OGMA_GMAC_INT_SBD_IRQ_ISR_COI (1U << 7) > +#define OGMA_GMAC_INT_SBD_IRQ_ISR_TI (1U << 6) > +#define OGMA_GMAC_INT_SBD_IRQ_ISR_RI (1U << 5) > +#define OGMA_GMAC_INT_SBD_IRQ_ISR_MI (1U << 4) > +#define OGMA_GMAC_INT_SBD_IRQ_ISR_PI (1U << 3) > +#define OGMA_GMAC_INT_SBD_IRQ_ISR_RGI (1U << 0) > +#define OGMA_GMAC_INT_SBD_IRQ_ISR_ALL ( OGMA_GMAC_INT_SBD_IRQ_ISR_LPII | \ > + OGMA_GMAC_INT_SBD_IRQ_ISR_TSI | \ > + OGMA_GMAC_INT_SBD_IRQ_ISR_COI | \ > + OGMA_GMAC_INT_SBD_IRQ_ISR_TI | \ > + OGMA_GMAC_INT_SBD_IRQ_ISR_RI | \ > + OGMA_GMAC_INT_SBD_IRQ_ISR_MI | \ > + OGMA_GMAC_INT_SBD_IRQ_ISR_PI | \ > + OGMA_GMAC_INT_SBD_IRQ_ISR_RGI) > + > +/** > + * Number of LPICSR register bit field > + */ > +#define OGMA_GMAC_LPICSR_REG_LPITXA (1U << 19) > +#define OGMA_GMAC_LPICSR_REG_PLSEN (1U << 18) > +#define OGMA_GMAC_LPICSR_REG_PLS (1U << 17) > +#define OGMA_GMAC_LPICSR_REG_LPIEN (1U << 16) > +#define OGMA_GMAC_LPICSR_REG_RLPIST (1U << 9) > +#define OGMA_GMAC_LPICSR_REG_TLPIST (1U << 8) > +#define OGMA_GMAC_LPICSR_REG_RLPIEX (1U << 3) > +#define OGMA_GMAC_LPICSR_REG_RLPIEN (1U << 2) > +#define OGMA_GMAC_LPICSR_REG_TLPIEX (1U << 1) > +#define OGMA_GMAC_LPICSR_REG_TLPIEN (1U << 0) > + > +/** > + * Number of RGSR register bit field > + */ > +#define OGMA_GMAC_RGSR_REG_LS (1U << 3) > +#define OGMA_GMAC_RGSR_REG_LSP (1U << 1) > +#define OGMA_GMAC_RGSR_REG_LM (1U << 0) > + > +/** > + * Number of various limits > + */ > +#define OGMA_DESC_ENTRY_NUM_MIN 2 > +#define OGMA_DESC_ENTRY_NUM_MAX 2047 > +#define OGMA_INT_PKTCNT_MAX 2047 > +#define OGMA_L4_MIN_LEN_MAX 64 > + > +/** > + * Number of ogma phy interface setting > + */ > +#define OGMA_PHY_INTERFACE_GMII 0 > +#define OGMA_PHY_INTERFACE_RGMII 1 > +#define OGMA_PHY_INTERFACE_RMII 4 > + > +/** > + * Number of ogma link speed setting > + */ > +#define OGMA_PHY_LINK_SPEED_1G 0 > +#define OGMA_PHY_LINK_SPEED_100M 1U > +#define OGMA_PHY_LINK_SPEED_10M 2U > +#define OGMA_PHY_LINK_SPEED_100M_OR_10M 3U > + > +/** > + * Number of flow control limits > + */ > +#define OGMA_FLOW_CTRL_START_THRESHOLD_MAX 95 > +#define OGMA_FLOW_CTRL_STOP_THRESHOLD_MAX 95 > +#define OGMA_FLOW_CTRL_PAUSE_TIME_MIN 5 > + > +enum ogma_err_e{ > + OGMA_ERR_OK = 0, > + OGMA_ERR_PARAM, > + OGMA_ERR_ALLOC, > + OGMA_ERR_BUSY, > + OGMA_ERR_RANGE, > + OGMA_ERR_DATA, > + OGMA_ERR_NOTAVAIL, > + OGMA_ERR_INTERRUPT, > + OGMA_ERR_AGAIN, > + OGMA_ERR_INVALID, > +}; > + > +typedef void *ogma_handle_t; > +typedef struct ogma_param_s ogma_param_t; > +typedef struct ogma_pkt_ctrl_param_s ogma_pkt_ctrl_param_t; > +typedef struct ogma_desc_ring_param_s ogma_desc_ring_param_t; > +typedef enum ogma_err_e ogma_err_t; > +typedef ogma_uint8 ogma_desc_ring_id_t; > +typedef struct ogma_tx_pkt_ctrl_s ogma_tx_pkt_ctrl_t; > +typedef struct ogma_rx_pkt_info_s ogma_rx_pkt_info_t; > +typedef struct ogma_frag_info_s ogma_frag_info_t; > +typedef struct ogma_gmac_config_s ogma_gmac_config_t; > +typedef struct ogma_gmac_mode_s ogma_gmac_mode_t; > + > +struct ogma_gmac_config_s{ > + ogma_uint8 phy_interface; > +}; > + > +struct ogma_pkt_ctrl_param_s{ > + ogma_uint log_chksum_er_flag:1; > + ogma_uint log_hd_imcomplete_flag:1; > + ogma_uint log_hd_er_flag:1; > + ogma_uint drp_no_match_flag:1; > +}; > + > +struct ogma_desc_ring_param_s{ > + ogma_uint valid_flag:1; > + ogma_uint little_endian_flag:1; > + ogma_uint tmr_mode_flag:1; > + ogma_uint16 entry_num; > +}; > + > +struct ogma_param_s{ > + > + ogma_uint use_gmac_flag:1; > + ogma_uint use_jumbo_pkt_flag:1; > + ogma_pkt_ctrl_param_t pkt_ctrl_param; > + ogma_desc_ring_param_t desc_ring_param[OGMA_DESC_RING_ID_MAX+1]; > + ogma_gmac_config_t gmac_config; > + ogma_uint8 mac_addr[6]; > +}; > + > +struct ogma_tx_pkt_ctrl_s{ > + ogma_uint pass_through_flag:1; > + ogma_uint cksum_offload_flag:1; > + ogma_uint tcp_seg_offload_flag:1; > + ogma_desc_ring_id_t target_desc_ring_id; > + ogma_uint16 tcp_seg_len; > +}; > + > +struct ogma_rx_pkt_info_s{ > + ogma_uint fragmented_flag:1; > + ogma_uint err_flag:1; > + ogma_uint rx_cksum_result:2; > + ogma_uint8 err_code; > +}; > + > +struct ogma_frag_info_s{ > + pfdep_phys_addr_t phys_addr; > + void *addr; > + ogma_uint32 len; > +}; > + > +struct ogma_gmac_mode_s{ > + ogma_uint half_duplex_flag:1; > + ogma_uint flow_ctrl_enable_flag:1; > + ogma_uint8 link_speed; > + ogma_uint16 flow_ctrl_start_threshold; > + ogma_uint16 flow_ctrl_stop_threshold; > + ogma_uint16 pause_time; > +}; > + > +#ifdef OGMA_CONFIG_REC_STAT > +typedef struct ogma_stat_info_s { > + ogma_uint16 current_busy_entry_num[OGMA_DESC_RING_ID_MAX + 1]; > + ogma_uint16 max_busy_entry_num[OGMA_DESC_RING_ID_MAX + 1]; > +} ogma_stat_info_t; > +#endif /* OGMA_CONFIG_REC_STAT */ > + > +typedef struct ogma_gmac_int_sbd_regs_s{ > + ogma_uint32 base; > + ogma_uint32 extended; > +} ogma_gmac_int_sbd_regs_t; > + > +typedef struct ogma_phy_link_status_s{ > + ogma_uint up_flag:1; > + ogma_uint auto_nego_enable_flag:1; > + ogma_uint auto_nego_complete_flag:1; > + ogma_uint half_duplex_flag:1; > + ogma_uint latched_link_down_flag:1; > + ogma_uint lpi_capable_flag:1; > + ogma_uint8 link_speed; > +} ogma_phy_link_status_t; > + > +/************************** > +*************************** > +***************************/ > + > +ogma_err_t ogma_init ( > + void *base_addr, > + pfdep_dev_handle_t dev_handle, > + const ogma_param_t *param_p, > + const void *dma_hm_mc_addr, > + ogma_uint32 dma_hm_mc_len, > + const void *dma_mh_mc_addr, > + ogma_uint32 dma_mh_mc_len, > + const void *pktc_mc_addr, > + ogma_uint32 pktc_mc_len, > + ogma_handle_t *ogma_handle_p > + ); > + > +void ogma_terminate ( > + ogma_handle_t ogma_handle > + ); > + > +ogma_err_t ogma_start_gmac ( > + ogma_handle_t ogma_handle, > + ogma_bool rx_flag, > + ogma_bool tx_flag > + ); > + > +ogma_err_t ogma_stop_gmac ( > + ogma_handle_t ogma_handle, > + ogma_bool rx_flag, > + ogma_bool tx_flag > + ); > + > +ogma_err_t ogma_set_gmac_mode ( > + ogma_handle_t ogma_handle, > + const ogma_gmac_mode_t *gmac_mode_p > + ); > + > +void ogma_set_phy_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint8 phy_addr, > + ogma_uint8 reg_addr, > + ogma_uint16 value > + ); > + > +ogma_uint16 ogma_get_phy_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint8 phy_addr, > + ogma_uint8 reg_addr > + ); > + > +ogma_err_t ogma_get_gmac_status ( > + ogma_handle_t ogma_handle, > + ogma_bool *valid_flag_p, > + ogma_gmac_mode_t *gmac_mode_p, > + ogma_bool *rx_running_flag_p, > + ogma_bool *tx_running_flag_p > + ); > + > +ogma_uint32 ogma_get_top_irq_enable ( > + ogma_handle_t ogma_handle > + ); > + > +ogma_uint32 ogma_get_top_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_bool mask_flag > + ); > + > +#define ogma_get_top_irq_status_non_clear(ogma_handle,mask_flag) \ > +ogma_get_top_irq_status(ogma_handle,mask_flag) > + > +ogma_err_t ogma_clear_top_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_uint32 value > + ); > + > +ogma_uint32 ogma_get_desc_ring_irq_enable ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id > + ); > + > +ogma_uint32 ogma_get_desc_ring_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id, > + ogma_bool mask_flag > + ); > + > +#define ogma_get_desc_ring_irq_status_non_clear(ogma_handle,ring_id,mask_flag) \ > +ogma_get_desc_ring_irq_status(ogma_handle,ring_id,mask_flag) > + > + > + > +ogma_err_t ogma_clear_desc_ring_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id, > + ogma_uint32 value > + ); > + > +ogma_uint32 ogma_get_pkt_irq_enable ( > + ogma_handle_t ogma_handle > + ); > + > +ogma_uint32 ogma_get_pkt_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_bool mask_flag > + ); > + > +#define ogma_get_pkt_irq_status_non_clear(ogma_handle,mask_flag) \ > +ogma_get_pkt_irq_status(ogma_handle,mask_flag) > + > + > +ogma_err_t ogma_clear_pkt_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_uint32 value > + ); > + > +/* ogma_desc_ring_access.c */ > +ogma_err_t ogma_start_desc_ring ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id > + ); > + > +ogma_err_t ogma_stop_desc_ring ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id > + ); > + > +ogma_uint16 ogma_get_rx_num ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id > + ); > + > +ogma_uint16 ogma_get_tx_avail_num ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id > + ); > + > +ogma_err_t ogma_clean_tx_desc_ring( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id > + ); > + > +ogma_err_t ogma_clean_rx_desc_ring( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id > + ); > + > +ogma_err_t ogma_set_tx_pkt_data ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id, > + const ogma_tx_pkt_ctrl_t *tx_pkt_ctrl_p, > + ogma_uint8 scat_num, > + const ogma_frag_info_t *scat_info_p, > + pfdep_pkt_handle_t pkt_handle > + ); > + > +ogma_err_t ogma_get_rx_pkt_data ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id, > + ogma_rx_pkt_info_t *rx_pkt_info_p, > + ogma_frag_info_t *frag_info_p, > + ogma_uint16 *len_p, > + pfdep_pkt_handle_t *pkt_handle_p > + ); > + > +ogma_err_t ogma_enable_top_irq ( > + ogma_handle_t ogma_handle, > + ogma_uint32 irq_factor > + ); > + > +ogma_err_t ogma_disable_top_irq ( > + ogma_handle_t ogma_handle, > + ogma_uint32 irq_factor > + ); > + > +ogma_err_t ogma_enable_desc_ring_irq ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id, > + ogma_uint32 irq_factor > + ); > + > +ogma_err_t ogma_disable_desc_ring_irq ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id, > + ogma_uint32 irq_factor > + ); > + > +ogma_err_t ogma_enable_pkt_irq ( > + ogma_handle_t ogma_handle, > + ogma_uint32 irq_factor > + ); > + > +ogma_err_t ogma_disable_pkt_irq ( > + ogma_handle_t ogma_handle, > + ogma_uint32 irq_factor > + ); > + > +ogma_uint32 ogma_get_hw_ver ( > + ogma_handle_t ogma_handle > + ); > + > +ogma_uint32 ogma_get_mcr_ver ( > + ogma_handle_t ogma_handle > + ); > + > +/** > + * Set up IRQ coalesce parameters. > + * > + * [Note] > + * - This is a tentative implementation. > + * Not tested enough. Use with care. > + * > + * - Call this function after every invocation of ogma_start_desc_ring() > + * because ogma_start_desc_ring() resets IRQ coalesce settings. > + * > + */ > +ogma_err_t ogma_set_irq_coalesce_param ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id, > + ogma_uint16 int_pktcnt, > + ogma_bool int_tmr_unit_ms_flag, > + ogma_uint16 int_tmr_cnt > + ); > + > +ogma_uint32 ogma_get_mac_irq_enable ( > + ogma_handle_t ogma_handle > + ); > + > + > +ogma_uint32 ogma_get_mac_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_bool mask_flag > + ); > + > +#define ogma_get_mac_irq_status_non_clear(ogma_handle,mask_flag) \ > +ogma_get_mac_irq_status(ogma_handle,mask_flag) > + > + > +ogma_err_t ogma_clear_mac_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_uint32 value > + ); > + > +ogma_err_t ogma_enable_mac_irq ( > + ogma_handle_t ogma_handle, > + ogma_uint32 irq_factor > + ); > + > +ogma_err_t ogma_disable_mac_irq ( > + ogma_handle_t ogma_handle, > + ogma_uint32 irq_factor > + ); > + > +#ifdef OGMA_CONFIG_REC_STAT > +/** > + * Get statistics information. > + */ > +ogma_err_t ogma_get_stat_info ( > + ogma_handle_t ogma_handle, > + ogma_stat_info_t *stat_info_p, > + ogma_bool clear_flag > + ); > +#endif /* OGMA_CONFIG_REC_STAT */ > + > +ogma_err_t ogma_set_gmac_lpictrl_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint32 value > + ); > + > +ogma_err_t ogma_get_gmac_lpictrl_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint32 *value_p > + ); > + > +ogma_err_t ogma_set_gmac_lpitimer_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint16 ls_timer_ms, > + ogma_uint16 tw_timer_ms > + ); > + > +ogma_err_t ogma_get_gmac_lpitimer_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint16 *ls_timer_ms_p, > + ogma_uint16 *tw_timer_ms_p > + ); > + > +void ogma_set_phy_mmd_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint8 phy_addr, > + ogma_uint8 dev_addr, > + ogma_uint16 reg_addr, > + ogma_uint16 value > + ); > + > +ogma_uint16 ogma_get_phy_mmd_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint8 phy_addr, > + ogma_uint8 dev_addr, > + ogma_uint16 reg_addr > + ); > + > +ogma_err_t ogma_get_phy_link_status ( > + ogma_handle_t ogma_handle, > + ogma_uint8 phy_addr, > + ogma_phy_link_status_t *phy_link_status_p > + ); > + > +ogma_gmac_int_sbd_regs_t ogma_get_gmac_int_sbd_irq_enable ( > + ogma_handle_t ogma_handle > + ); > + > +ogma_gmac_int_sbd_regs_t ogma_get_gmac_int_sbd_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_bool mask_flag > + ); > + > +#define ogma_get_gmac_int_sbd_irq_status_non_clear(ogma_handle,mask_flag) \ > +ogma_get_gmac_int_sbd_irq_status(ogma_handle,mask_flag) > + > +ogma_err_t ogma_clear_gmac_int_sbd_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_gmac_int_sbd_regs_t int_sbd_regs > + ); > + > +ogma_err_t ogma_enable_gmac_int_sbd_irq ( > + ogma_handle_t ogma_handle, > + ogma_gmac_int_sbd_regs_t int_sbd_regs > + ); > + > +ogma_err_t ogma_disable_gmac_int_sbd_irq ( > + ogma_handle_t ogma_handle, > + ogma_gmac_int_sbd_regs_t int_sbd_regs > + ); > + > +ogma_err_t ogma_get_gmac_rgmii_status_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint32 *value_p > + ); > + > +#ifdef OGMA_CONFIG_USE_READ_GMAC_STAT > +ogma_err_t ogma_read_gmac_stat ( > + ogma_handle_t ogma_handle, > + ogma_uint32 *value_p, > + ogma_bool reset_flag > + ); > +#endif /* OGMA_CONFIG_USE_READ_GMAC_STAT */ > + > +ogma_err_t ogma_reset_gmac_stat ( > + ogma_handle_t ogma_handle > + ); > + > +/************************** > +*************************** > +***************************/ > + > +#endif /* OGMA_API_H*/ > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/include/ogma_basic_type.h b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/include/ogma_basic_type.h > new file mode 100644 > index 000000000000..7c39b7c9cdd7 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/include/ogma_basic_type.h > @@ -0,0 +1,45 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#ifndef OGMA_BASIC_TYPE_H > +#define OGMA_BASIC_TYPE_H > +#include "netsec_for_uefi/pfdep.h" > + > +/** > + * > + */ > +#define OGMA_TRUE PFDEP_TRUE > +#define OGMA_FALSE PFDEP_FALSE > + > +/** > + * OGMA SDK BASIC DATA TYPE > + */ > +typedef pfdep_int8 ogma_int8; > +typedef pfdep_uint8 ogma_uint8; > +typedef pfdep_int16 ogma_int16; > +typedef pfdep_uint16 ogma_uint16; > +typedef pfdep_int32 ogma_int32; > +typedef pfdep_uint32 ogma_uint32; > +typedef int ogma_int; > +typedef unsigned int ogma_uint; > +typedef pfdep_bool ogma_bool; > +typedef pfdep_char ogma_char; > + > +#ifdef PFDEP_INT64_AVAILABLE > +typedef signed long long ogma_int64; > +typedef unsigned long long ogma_uint64; > +#endif /* PFDEP_INT64_AVAILABLE*/ > + > +#endif /* OGMA_BASIC_TYPE_H */ > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/include/ogma_version.h b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/include/ogma_version.h > new file mode 100644 > index 000000000000..61335b96db77 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/include/ogma_version.h > @@ -0,0 +1,24 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#ifndef OGMA_VERSION_H > +#define OGMA_VERSION_H > + > +#define OGMA_VER_NETSEC (0x00050050UL) > + > +#define OGMA_INVALID_VER 0x0 > +#define OGMA_VER_MAJOR_NUM(x) (x&0xffff0000UL) *twitch* Although I will point out that the above macro is buggy. > + > +#endif /* OGMA_VERSION_H */ > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_basic_access.c b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_basic_access.c > new file mode 100644 > index 000000000000..7b399beaedb2 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_basic_access.c > @@ -0,0 +1,88 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#include "ogma_internal.h" > +#include "ogma_basic_access.h" > + > +/********************************************************************** > + * Function definitions > + **********************************************************************/ > + > +void ogma_set_mac_reg ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint32 addr, > + ogma_uint32 value) > +{ > + > + ogma_uint32 cmd; > + > + ogma_check_clk_supply( ctrl_p, OGMA_CLK_EN_REG_DOM_G); > + > + /* > + * Argument check is omitted because this function is > + * of private use only. > + */ > + > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_MAC_DATA, > + value); > + > + cmd = addr | OGMA_GMAC_CMD_ST_WRITE; > + > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_MAC_CMD, > + cmd); > + > + /* > + * Waits until BUSY bit is cleared. > + */ > + while ( ( ogma_read_reg( ctrl_p, > + OGMA_REG_ADDR_MAC_CMD) > + & OGMA_GMAC_CMD_ST_BUSY) > + != 0) { > + ; > + } > +} > + > +ogma_uint32 ogma_get_mac_reg ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint32 addr) > +{ > + ogma_uint32 cmd; > + > + ogma_check_clk_supply( ctrl_p, OGMA_CLK_EN_REG_DOM_G); > + > + /* > + * Argument check is omitted because this function is > + * of private use only. > + */ > + > + cmd = addr | OGMA_GMAC_CMD_ST_READ; > + > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_MAC_CMD, > + cmd); > + > + /* > + * Waits until BUSY bit is cleared. > + */ > + while ( ( ogma_read_reg( ctrl_p, > + OGMA_REG_ADDR_MAC_CMD) > + & OGMA_GMAC_CMD_ST_BUSY) > + != 0) { > + ; > + } > + return ogma_read_reg( ctrl_p, OGMA_REG_ADDR_MAC_DATA); > +} > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_basic_access.h b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_basic_access.h > new file mode 100644 > index 000000000000..a81b9249f4a2 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_basic_access.h > @@ -0,0 +1,52 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#ifndef OGMA_BASIC_ACCESS_H > +#define OGMA_BASIC_ACCESS_H > + > +#include "ogma_internal.h" > + > +static __inline void ogma_write_reg ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint32 reg_addr, > + ogma_uint32 value > + ) > +{ > + > + pfdep_iomem_write( (void *) ( ( pfdep_cpu_addr_t)ctrl_p->base_addr + > + ( reg_addr << 2) ), > + value); > +} > + > +static __inline ogma_uint32 ogma_read_reg ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint32 reg_addr > + ) > +{ > + > + return ( ogma_uint32)pfdep_iomem_read( (void *)( ( pfdep_cpu_addr_t)ctrl_p->base_addr + > + ( reg_addr << 2) ) ); > +} > + > +void ogma_set_mac_reg ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint32 addr, > + ogma_uint32 value); > + > +ogma_uint32 ogma_get_mac_reg ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint32 addr); > + > +#endif/* OGMA_BASIC_ACCESS_H */ > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_desc_ring_access.c b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_desc_ring_access.c > new file mode 100644 > index 000000000000..a38aff3ce4a5 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_desc_ring_access.c > @@ -0,0 +1,1391 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#include "ogma_internal.h" > +#include "ogma_basic_access.h" > +#include "ogma_desc_ring_access_internal.h" > + > + > +const ogma_uint32 ogma_desc_start_reg_addr_upper[OGMA_DESC_RING_ID_MAX+1] = { > + OGMA_REG_ADDR_NRM_TX_DESC_START_UP, > + OGMA_REG_ADDR_NRM_RX_DESC_START_UP, > +}; > + > +const ogma_uint32 ogma_desc_start_reg_addr_lower[OGMA_DESC_RING_ID_MAX+1] = { > + OGMA_REG_ADDR_NRM_TX_DESC_START_LW, > + OGMA_REG_ADDR_NRM_RX_DESC_START_LW, > +}; > + > +const ogma_uint32 desc_ring_irq_inten_reg_addr[OGMA_DESC_RING_ID_MAX + 1] = { > + OGMA_REG_ADDR_NRM_TX_INTEN, > + OGMA_REG_ADDR_NRM_RX_INTEN, > +}; > + > +const ogma_uint32 desc_ring_irq_inten_set_reg_addr[OGMA_DESC_RING_ID_MAX + 1] = { > + OGMA_REG_ADDR_NRM_TX_INTEN_SET, > + OGMA_REG_ADDR_NRM_RX_INTEN_SET, > +}; > + > +const ogma_uint32 desc_ring_irq_inten_clr_reg_addr[OGMA_DESC_RING_ID_MAX + 1] = { > + OGMA_REG_ADDR_NRM_TX_INTEN_CLR, > + OGMA_REG_ADDR_NRM_RX_INTEN_CLR, > +}; > + > +static const ogma_uint32 int_tmr_reg_addr[OGMA_DESC_RING_ID_MAX+1] = { > + OGMA_REG_ADDR_NRM_TX_TXINT_TMR, > + OGMA_REG_ADDR_NRM_RX_RXINT_TMR, > +}; > + > +static const ogma_uint32 rx_pkt_cnt_reg_addr[OGMA_DESC_RING_ID_MAX+1] = { > + 0, > + OGMA_REG_ADDR_NRM_RX_PKTCNT, > +}; > + > +static const ogma_uint32 tx_pkt_cnt_reg_addr[OGMA_DESC_RING_ID_MAX+1] = { > + OGMA_REG_ADDR_NRM_TX_PKTCNT, > + 0, > + > +}; > + > +static const ogma_uint32 int_pkt_cnt_reg_addr[OGMA_DESC_RING_ID_MAX+1] = { > + OGMA_REG_ADDR_NRM_TX_DONE_TXINT_PKTCNT, > + OGMA_REG_ADDR_NRM_RX_RXINT_PKTCNT, > +}; > + > +static const ogma_uint32 tx_done_pkt_cnt_reg_addr[OGMA_DESC_RING_ID_MAX+1] = { > + OGMA_REG_ADDR_NRM_TX_DONE_PKTCNT, > + 0, > +}; > + > + > +STATIC void ogma_set_tx_desc_entry ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p, > + ogma_uint16 idx, > + const ogma_tx_pkt_ctrl_t *tx_pkt_ctrl_p, > + ogma_bool first_flag, > + ogma_bool last_flag, > + ogma_bool trs_flag, > + const ogma_frag_info_t *frag_info_p, > + pfdep_pkt_handle_t pkt_handle); > + > +STATIC void ogma_set_rx_desc_entry ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p, > + ogma_uint16 idx, > + const ogma_frag_info_t *frag_info_p, > + pfdep_pkt_handle_t pkt_handle); > + > +STATIC void ogma_get_rx_desc_entry ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p, > + ogma_uint16 idx, > + ogma_rx_pkt_info_t *rx_pkt_info_p, > + ogma_frag_info_t *frag_info_p, > + ogma_uint16 *len_p, > + pfdep_pkt_handle_t *pkt_handle_p); > + > +STATIC void ogma_clean_tx_desc_ring_sub ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p > + ); > + > +STATIC void ogma_clean_rx_desc_ring_sub ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p > + ); > + > +STATIC void ogma_inc_desc_head_idx ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p, > + ogma_uint16 increment); > + > +STATIC void ogma_inc_desc_tail_idx ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p, > + ogma_uint16 increment); > + > +STATIC ogma_uint16 ogma_get_tx_avail_num_sub ( > + ogma_ctrl_t *ctrl_p, > + const ogma_desc_ring_t *desc_ring_p > + ); > + > +STATIC ogma_uint16 ogma_get_tx_done_num_sub ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p > + ); > + > +static __inline void ogma_desc_ring_cpy_to_mem( > + void *dst_p, > + void *src_p, > + ogma_uint32 len) > +{ > + pfdep_memcpy(dst_p,src_p,len); > +} > + > +static __inline void ogma_desc_ring_cpy_from_mem( > + void *dst_p, > + void *src_p, > + ogma_uint32 len) > +{ > + pfdep_memcpy(dst_p,src_p,len); > +} > + > +static __inline void ogma_desc_ring_memclr( > + void *dst_p, > + ogma_uint32 len) > +{ > + pfdep_memset(dst_p,0,len); > +} > + > +/********************************************************************** > + * Function definitions > + **********************************************************************/ > + > +ogma_err_t ogma_alloc_desc_ring ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_id_t ring_id > + ) > +{ > + > + ogma_err_t ogma_err = OGMA_ERR_OK; > + ogma_desc_ring_t *desc_ring_p = &ctrl_p->desc_ring[ring_id]; > + ogma_desc_ring_param_t *desc_ring_param_p = &ctrl_p->desc_ring[ring_id].param; > + pfdep_err_t pfdep_err; > + > + if ( ( ctrl_p->param.desc_ring_param[ring_id].valid_flag) && > + ( ( ctrl_p->param.desc_ring_param[ring_id].entry_num < > + OGMA_DESC_ENTRY_NUM_MIN) || > + ( ctrl_p->param.desc_ring_param[ring_id].entry_num > > + OGMA_DESC_ENTRY_NUM_MAX) ) ) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_alloc_desc_ring.\n" > + "Please set entry_num between %d and %d.\n", > + OGMA_DESC_ENTRY_NUM_MIN, OGMA_DESC_ENTRY_NUM_MAX); > + return OGMA_ERR_PARAM; > + } > + > + desc_ring_p->ring_id = ring_id; > + > + pfdep_memcpy( desc_ring_param_p, > + &ctrl_p->param.desc_ring_param[ring_id], > + sizeof( ogma_desc_ring_param_t) ); > + > + if ( !desc_ring_param_p->valid_flag) { > + > + desc_ring_p->desc_ring_phys_addr = ctrl_p->dummy_desc_entry_phys_addr; > + > + ogma_write_reg( ctrl_p, > + ogma_desc_start_reg_addr_upper[ring_id], > + (ogma_uint32)(desc_ring_p->desc_ring_phys_addr >> 32)); > + ogma_write_reg( ctrl_p, > + ogma_desc_start_reg_addr_lower[ring_id], > + (ogma_uint32)desc_ring_p->desc_ring_phys_addr); > + > + return OGMA_ERR_OK; > + } > + > + switch ( ring_id) { > + case OGMA_DESC_RING_ID_NRM_TX: > + desc_ring_p->tx_desc_ring_flag = OGMA_TRUE; > + desc_ring_p->desc_entry_len = sizeof( ogma_tx_desc_entry_t); > + break; > + > + case OGMA_DESC_RING_ID_NRM_RX: > + desc_ring_p->rx_desc_ring_flag = OGMA_TRUE; > + desc_ring_p->desc_entry_len = sizeof( ogma_rx_desc_entry_t); > + break; > + > + default: > + pfdep_assert(0); > + } > + > + if ( ( pfdep_err = pfdep_init_hard_lock ( &desc_ring_p->inten_reg_hard_lock) ) > + != PFDEP_ERR_OK) { > + pfdep_memset( desc_ring_param_p, > + 0, > + sizeof( ogma_desc_ring_param_t) ); > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_alloc_desc_ring.\n" > + "Failed to inten_reg_hard_lock's initialization.\n"); > + return OGMA_ERR_ALLOC; > + } > + > + if ( ( pfdep_err = pfdep_init_soft_lock ( &desc_ring_p->soft_lock) ) > + != PFDEP_ERR_OK) { > + pfdep_uninit_hard_lock ( &desc_ring_p->inten_reg_hard_lock); > + pfdep_memset( desc_ring_param_p, > + 0, > + sizeof( ogma_desc_ring_param_t) ); > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_alloc_desc_ring.\n" > + "Failed to soft_lock's initialization.\n"); > + return OGMA_ERR_ALLOC; > + } > + > + if ( ( pfdep_err = pfdep_dma_malloc ( > + ( pfdep_dev_handle_t) ctrl_p->dev_handle, > + ( pfdep_uint32) desc_ring_p->desc_entry_len * desc_ring_param_p->entry_num, > + ( void **) &desc_ring_p->desc_ring_cpu_addr, > + ( pfdep_phys_addr_t *) &desc_ring_p->desc_ring_phys_addr) ) > + != PFDEP_ERR_OK) { > + ogma_err = OGMA_ERR_ALLOC; > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_alloc_desc_ring.\n" > + "Failed to desc_ring entry memory allocation.\n"); > + goto err; > + } > + > + ogma_desc_ring_memclr( > + desc_ring_p->desc_ring_cpu_addr, > + ( ogma_uint32)desc_ring_p->desc_entry_len * desc_ring_param_p->entry_num); > + > + ogma_write_reg( ctrl_p, > + ogma_desc_start_reg_addr_upper[ring_id], > + (ogma_uint32)(desc_ring_p->desc_ring_phys_addr >> 32)); > + ogma_write_reg( ctrl_p, > + ogma_desc_start_reg_addr_lower[ring_id], > + (ogma_uint32)desc_ring_p->desc_ring_phys_addr); > + > + if ( ( desc_ring_p->frag_info_p = > + pfdep_malloc( sizeof( ogma_frag_info_t) * desc_ring_param_p->entry_num) ) > + == NULL) { > + ogma_err = OGMA_ERR_ALLOC; > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_alloc_desc_ring.\n" > + "Failed to fragment infomation memory allocation.\n"); > + goto err; > + } > + > + pfdep_memset( > + desc_ring_p->frag_info_p, > + 0, > + sizeof( ogma_frag_info_t) * desc_ring_param_p->entry_num); > + > + if ( ( desc_ring_p->priv_data_p = > + pfdep_malloc( sizeof( ogma_desc_entry_priv_t) * desc_ring_param_p->entry_num) ) > + == NULL) { > + ogma_err = OGMA_ERR_ALLOC; > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_alloc_desc_ring.\n" > + "Failed to private data memory allocation.\n"); > + goto err; > + } > + > + pfdep_memset( > + desc_ring_p->priv_data_p, > + 0, > + sizeof( ogma_desc_entry_priv_t) * desc_ring_param_p->entry_num); > + > + return OGMA_ERR_OK; > + > +err: > + ogma_free_desc_ring( ctrl_p, desc_ring_p); > + return ogma_err; > +} > + > +void ogma_free_desc_ring ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p > + ) > +{ > + > + if ( !desc_ring_p->param.valid_flag) { > + return ; > + } > + if ( ogma_is_pkt_desc_ring ( desc_ring_p) ) { > + if ( ( desc_ring_p->desc_ring_cpu_addr != NULL) && > + ( desc_ring_p->frag_info_p != NULL) && > + ( desc_ring_p->priv_data_p != NULL) ) { > + ogma_uninit_pkt_desc_ring( ctrl_p, desc_ring_p); > + } > + } > + if ( desc_ring_p->desc_ring_cpu_addr != NULL) { > + pfdep_dma_free( ctrl_p->dev_handle, > + ( ogma_uint32)desc_ring_p->desc_entry_len * > + desc_ring_p->param.entry_num, > + desc_ring_p->desc_ring_cpu_addr, > + desc_ring_p->desc_ring_phys_addr); > + } > + > + if ( desc_ring_p->frag_info_p != NULL) { > + pfdep_free(desc_ring_p->frag_info_p); > + } > + > + if ( desc_ring_p->priv_data_p != NULL) { > + pfdep_free( desc_ring_p->priv_data_p); > + } > + > + pfdep_uninit_hard_lock ( &desc_ring_p->inten_reg_hard_lock); > + > + pfdep_uninit_soft_lock ( &desc_ring_p->soft_lock); > + > + pfdep_memset( desc_ring_p, 0, sizeof( ogma_desc_ring_t) ); > +} > + > +ogma_err_t ogma_setup_rx_desc_ring ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p > + ) > +{ > + ogma_uint16 idx; > + ogma_frag_info_t frag_info= {0,0,0}; > + > + pfdep_err_t pfdep_err; > + pfdep_pkt_handle_t tmp_pkt_handle; > + > + frag_info.len = ctrl_p->rx_pkt_buf_len; > + > + for ( idx = 0; idx < desc_ring_p->param.entry_num; idx++) { > + if ( ( pfdep_err = pfdep_alloc_pkt_buf ( > + ( pfdep_dev_handle_t)ctrl_p->dev_handle, > + ( ogma_uint16)frag_info.len, > + ( void **)&frag_info.addr, > + ( pfdep_phys_addr_t *)&frag_info.phys_addr, > + ( pfdep_pkt_handle_t *)&tmp_pkt_handle) ) > + != PFDEP_ERR_OK) { > + ogma_uninit_pkt_desc_ring( ctrl_p, desc_ring_p); > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_setup_rx_desc_ring.\n" > + "Failed to rx packet memory allocation.\n"); > + return OGMA_ERR_ALLOC; > + } > + ogma_set_rx_desc_entry( ctrl_p, > + desc_ring_p, > + idx, > + &frag_info, > + tmp_pkt_handle); > + } > + return OGMA_ERR_OK; > +} > + > +void ogma_uninit_pkt_desc_ring ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p > + ) > +{ > + ogma_uint16 idx; > + ogma_uint32 tmp; > + ogma_bool last_flag; > + > + for ( idx = 0; idx < desc_ring_p->param.entry_num; idx++) { > + if ( desc_ring_p->frag_info_p[idx].addr == NULL ) { > + continue; > + } > + > + tmp = ogma_get_desc_ring_attr(desc_ring_p, idx); > + > + last_flag = ( ( ( tmp >> 8) & 0x1) != 0); > + > + pfdep_free_pkt_buf ( > + ctrl_p->dev_handle, > + desc_ring_p->frag_info_p[idx].len, > + desc_ring_p->frag_info_p[idx].addr, > + desc_ring_p->frag_info_p[idx].phys_addr, > + last_flag, > + desc_ring_p->priv_data_p[idx].pkt_handle); > + } > + > + /* clear frag_info_p */ > + pfdep_memset( desc_ring_p->frag_info_p, > + 0, > + sizeof( ogma_frag_info_t) * desc_ring_p->param.entry_num); > + > + /* clear pkt_handle_p */ > + pfdep_memset( desc_ring_p->priv_data_p, > + 0, > + sizeof( ogma_desc_entry_priv_t) * desc_ring_p->param.entry_num); > + > + /* clear desc ring entry*/ > + ogma_desc_ring_memclr ( desc_ring_p->desc_ring_cpu_addr, > + ( ogma_uint32)desc_ring_p->desc_entry_len * > + desc_ring_p->param.entry_num); > +} > + > +STATIC void ogma_set_tx_desc_entry ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p, > + ogma_uint16 idx, > + const ogma_tx_pkt_ctrl_t *tx_pkt_ctrl_p, > + ogma_bool first_flag, > + ogma_bool last_flag, > + ogma_bool trs_flag, > + const ogma_frag_info_t *frag_info_p, > + pfdep_pkt_handle_t pkt_handle > + ) > +{ > + ogma_tx_desc_entry_t tx_desc_entry; > + ogma_uint32 attr, i, *debug_desc_entry_p; > + > + ogma_check_desc_own_sanity(ctrl_p, desc_ring_p, idx, 0); > + > + pfdep_memset( &tx_desc_entry, 0, sizeof( ogma_tx_desc_entry_t) ); > + > + attr = ( 1UL << OGMA_TX_PKT_DESC_RING_OWN_FIELD) | > + ( desc_ring_p->ring_id << OGMA_TX_PKT_DESC_RING_DRID_FIELD) | > + ( tx_pkt_ctrl_p->pass_through_flag << > + OGMA_TX_PKT_DESC_RING_PT_FIELD) | > + ( tx_pkt_ctrl_p->target_desc_ring_id << > + OGMA_TX_PKT_DESC_RING_TDRID_FIELD) | > + ( first_flag << OGMA_TX_PKT_DESC_RING_FS_FIELD) | > + ( last_flag << OGMA_TX_PKT_DESC_RING_LS_FIELD) | > + ( tx_pkt_ctrl_p->cksum_offload_flag << > + OGMA_TX_PKT_DESC_RING_CO_FIELD) | > + ( tx_pkt_ctrl_p->tcp_seg_offload_flag << > + OGMA_TX_PKT_DESC_RING_SO_FIELD) | > + ( trs_flag << OGMA_TX_PKT_DESC_RING_TRS_FIELD); > + > + if ( idx == ( desc_ring_p->param.entry_num - 1) ) { > + attr |= ( 0x1U << OGMA_TX_PKT_DESC_RING_LD_FIELD); /* LD = 1 */ > + } > + > + tx_desc_entry.attr = attr; > + > + tx_desc_entry.data_buf_addr_upper = (ogma_uint32)(frag_info_p->phys_addr >> 32); > + > + tx_desc_entry.data_buf_addr_lower = (ogma_uint32)frag_info_p->phys_addr; > + > + tx_desc_entry.buf_len_info = > + ( tx_pkt_ctrl_p->tcp_seg_len << 16) | frag_info_p->len; > + > + ogma_desc_ring_cpy_to_mem( ( (void *) ( ( pfdep_cpu_addr_t)desc_ring_p->desc_ring_cpu_addr + > + desc_ring_p->desc_entry_len * idx) ), > + ( void *)&tx_desc_entry, > + desc_ring_p->desc_entry_len); > + > + debug_desc_entry_p = ( ogma_uint32 *)&tx_desc_entry; > + > + for ( i = 0; i < ( sizeof( ogma_tx_desc_entry_t) >> 2); i++) { > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "%08x\n", debug_desc_entry_p[i]); > + } > + > + desc_ring_p->frag_info_p[idx].phys_addr = frag_info_p->phys_addr; > + desc_ring_p->frag_info_p[idx].addr = frag_info_p->addr; > + desc_ring_p->frag_info_p[idx].len = frag_info_p->len; > + desc_ring_p->priv_data_p[idx].pkt_handle = pkt_handle; > + > +} > + > +STATIC void ogma_set_rx_desc_entry ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p, > + ogma_uint16 idx, > + const ogma_frag_info_t *frag_info_p, > + pfdep_pkt_handle_t pkt_handle > + ) > +{ > + ogma_rx_desc_entry_t rx_desc_entry; > + > + ogma_check_desc_own_sanity(ctrl_p, desc_ring_p, idx, 0); > + > + pfdep_memset( &rx_desc_entry, 0, sizeof ( ogma_rx_desc_entry_t) ); > + > + rx_desc_entry.attr = ( 1UL << OGMA_RX_PKT_DESC_RING_OWN_FIELD) | > + ( 1UL << OGMA_RX_PKT_DESC_RING_FS_FIELD) | > + ( 1UL << OGMA_RX_PKT_DESC_RING_LS_FIELD) ; /* OWN = FS = LS = 1 */ > + > + rx_desc_entry.data_buf_addr_upper = (ogma_uint32)(frag_info_p->phys_addr >> 32); > + > + rx_desc_entry.data_buf_addr_lower = (ogma_uint32)frag_info_p->phys_addr; > + > + rx_desc_entry.buf_len_info = frag_info_p->len; > + > + if ( idx == ( desc_ring_p->param.entry_num - 1) ) { > + rx_desc_entry.attr |= ( 0x1U << OGMA_RX_PKT_DESC_RING_LD_FIELD); /* LD = 1 */ > + } > + > + ogma_desc_ring_cpy_to_mem( ( ( void *) ( ( pfdep_cpu_addr_t)desc_ring_p->desc_ring_cpu_addr + > + desc_ring_p->desc_entry_len * idx + 4) ), > + ( void *) ( ( pfdep_cpu_addr_t)&rx_desc_entry + 4), > + ( ogma_uint32)( desc_ring_p->desc_entry_len - 4U) ); > + > + pfdep_write_mem_barrier(); > + > + ogma_desc_ring_cpy_to_mem( ( ( void *) ( ( pfdep_cpu_addr_t)desc_ring_p->desc_ring_cpu_addr + > + desc_ring_p->desc_entry_len * idx) ), > + ( void *)&rx_desc_entry, > + 4); > + > + desc_ring_p->frag_info_p[idx].phys_addr = frag_info_p->phys_addr; > + desc_ring_p->frag_info_p[idx].addr = frag_info_p->addr; > + desc_ring_p->frag_info_p[idx].len = frag_info_p->len; > + desc_ring_p->priv_data_p[idx].pkt_handle = pkt_handle; > +} > + > +STATIC void ogma_get_rx_desc_entry ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p, > + ogma_uint16 idx, > + ogma_rx_pkt_info_t *rx_pkt_info_p, > + ogma_frag_info_t *frag_info_p, > + ogma_uint16 *len_p, > + pfdep_pkt_handle_t *pkt_handle_p) > +{ > + ogma_uint32 *debug_desc_entry_p; > + ogma_rx_desc_entry_t rx_desc_entry; > + > + ogma_check_desc_own_sanity( ctrl_p, desc_ring_p, idx, 0); > + > + pfdep_memset( &rx_desc_entry, 0, sizeof( ogma_rx_desc_entry_t) ); > + pfdep_memset( rx_pkt_info_p, 0, sizeof( ogma_rx_pkt_info_t) ); > + > + ogma_desc_ring_cpy_from_mem( &rx_desc_entry, > + (void *) ( ( pfdep_cpu_addr_t)desc_ring_p->desc_ring_cpu_addr + > + desc_ring_p->desc_entry_len * idx), > + desc_ring_p->desc_entry_len); > + > + debug_desc_entry_p = (ogma_uint32 *)&rx_desc_entry; > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "%08x\n", *debug_desc_entry_p); > + > + *len_p = rx_desc_entry.buf_len_info >> 16; > + > + rx_pkt_info_p->fragmented_flag = > + ( rx_desc_entry.attr >> OGMA_RX_PKT_DESC_RING_FR_FIELD) & 0x1; /* FR*/ > + > + rx_pkt_info_p->err_flag = > + ( rx_desc_entry.attr >> OGMA_RX_PKT_DESC_RING_ER_FIELD) & 0x1; /* ER */ > + > + rx_pkt_info_p->rx_cksum_result = > + ( rx_desc_entry.attr >> OGMA_RX_PKT_DESC_RING_CO_FIELD) & 0x3; /* CO */ > + > + rx_pkt_info_p->err_code = > + ( rx_desc_entry.attr >> OGMA_RX_PKT_DESC_RING_ERROR_CODE_FIELD) & > + OGMA_RX_PKT_DESC_RING_ERROR_CODE_FIELD_MASK; /* Error Code */ > + > + pfdep_memcpy( frag_info_p, > + &desc_ring_p->frag_info_p[idx], > + sizeof(ogma_frag_info_t) ); > + > + *pkt_handle_p = desc_ring_p->priv_data_p[idx].pkt_handle; > +} > + > +#ifdef OGMA_CONFIG_REC_STAT > +STATIC __inline ogma_uint16 ogma_calc_busy_entry_num ( > + ogma_uint16 head_idx, > + ogma_uint16 tail_idx, > + ogma_uint16 entry_num, > + ogma_bool full_flag > + ) > +{ > + > + ogma_int16 busy_entry_num; > + > + if (full_flag) { > + busy_entry_num = entry_num; > + } else if (head_idx >= tail_idx) { > + busy_entry_num = head_idx - tail_idx; > + } else { > + busy_entry_num = entry_num + head_idx - tail_idx; > + } > + > + return busy_entry_num; > + > +} > +#endif /* OGMA_CONFIG_REC_STAT */ > + > +STATIC void ogma_clean_tx_desc_ring_sub ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p > + ) > +{ > + > + ogma_uint32 tmp; > + > + ogma_get_tx_done_num_sub( ctrl_p, desc_ring_p); > + > + while( ( (desc_ring_p->tail_idx != desc_ring_p->head_idx) || > + desc_ring_p->full_flag) && ( desc_ring_p->tx_done_num != 0) ) { > + > + tmp = ogma_get_desc_ring_attr(desc_ring_p, > + desc_ring_p->tail_idx); > + > + pfdep_free_pkt_buf ( > + ctrl_p->dev_handle, > + desc_ring_p->frag_info_p[desc_ring_p->tail_idx].len, > + desc_ring_p->frag_info_p[desc_ring_p->tail_idx].addr, > + desc_ring_p->frag_info_p[desc_ring_p->tail_idx].phys_addr, > + ( ( ( tmp >> OGMA_TX_PKT_DESC_RING_LS_FIELD) & 0x1) != 0), > + desc_ring_p->priv_data_p[desc_ring_p->tail_idx].pkt_handle); > + > + pfdep_memset( &desc_ring_p->frag_info_p[desc_ring_p->tail_idx], > + 0, > + sizeof( ogma_frag_info_t) ); > + > + ogma_inc_desc_tail_idx( ctrl_p, desc_ring_p, 1); > + > + if ( ( tmp & ( 1UL << OGMA_TX_PKT_DESC_RING_LS_FIELD) ) != 0) { > + > + pfdep_assert( desc_ring_p->tx_done_num != 0); > + > + desc_ring_p->tx_done_num--; > + > + } > + } > + > +} > + > +STATIC void ogma_clean_rx_desc_ring_sub ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p > + ) > +{ > + > + while( desc_ring_p->full_flag || > + ( desc_ring_p->tail_idx != desc_ring_p->head_idx) ) { > + > + ogma_set_rx_desc_entry( > + ctrl_p, > + desc_ring_p, > + desc_ring_p->tail_idx, > + &desc_ring_p->frag_info_p[desc_ring_p->tail_idx], > + desc_ring_p->priv_data_p[desc_ring_p->tail_idx].pkt_handle); > + > + --desc_ring_p->rx_num; > + ogma_inc_desc_tail_idx( ctrl_p, desc_ring_p, 1); > + } > + > + pfdep_assert( desc_ring_p->rx_num == 0);/* error check*/ > + > +} > + > +STATIC void ogma_inc_desc_head_idx ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p, > + ogma_uint16 increment) > +{ > + ogma_uint32 sum; > + > + if ( ( desc_ring_p->tail_idx > desc_ring_p->head_idx) || > + desc_ring_p->full_flag) { > + pfdep_assert( increment <= > + ( desc_ring_p->tail_idx - > + desc_ring_p->head_idx)); > + } else { > + pfdep_assert( increment <= > + ( desc_ring_p->param.entry_num + > + desc_ring_p->tail_idx - > + desc_ring_p->head_idx) ); > + } > + > + sum = (ogma_uint32) desc_ring_p->head_idx + increment; > + > + if ( sum >= desc_ring_p->param.entry_num) { > + sum -= desc_ring_p->param.entry_num; > + } > + > + desc_ring_p->head_idx = ( ogma_uint16)sum; > + > + if ( desc_ring_p->head_idx == desc_ring_p->tail_idx) { > + desc_ring_p->full_flag = OGMA_TRUE; > + } > + > +} > + > +STATIC void ogma_inc_desc_tail_idx ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p, > + ogma_uint16 increment) > +{ > + ogma_uint32 sum; > + > + if ( ( desc_ring_p->head_idx >= desc_ring_p->tail_idx) && > + ( !desc_ring_p->full_flag) ) { > + pfdep_assert( increment <= > + ( desc_ring_p->head_idx - > + desc_ring_p->tail_idx) ); > + } else { > + pfdep_assert( increment <= > + ( desc_ring_p->param.entry_num + > + desc_ring_p->head_idx - > + desc_ring_p->tail_idx) ); > + } > + > + sum = (ogma_uint32) desc_ring_p->tail_idx + increment; > + > + if ( sum >= desc_ring_p->param.entry_num) { > + sum -= desc_ring_p->param.entry_num; > + } > + > + desc_ring_p->tail_idx = ( ogma_uint16)sum; > + > + desc_ring_p->full_flag = OGMA_FALSE; > +} > + > + > +STATIC ogma_uint16 ogma_get_tx_avail_num_sub ( > + ogma_ctrl_t *ctrl_p, > + const ogma_desc_ring_t *desc_ring_p > + ) > +{ > + ogma_uint16 tx_avail_num; > + > + if ( desc_ring_p->full_flag) { > + > + tx_avail_num = 0; > + > + } else if ( desc_ring_p->tail_idx > desc_ring_p->head_idx) { > + > + tx_avail_num = desc_ring_p->tail_idx - desc_ring_p->head_idx; > + > + } else { > + > + tx_avail_num = > + desc_ring_p->param.entry_num + > + desc_ring_p->tail_idx - > + desc_ring_p->head_idx; > + } > + > + return tx_avail_num; > +} > + > +STATIC ogma_uint16 ogma_get_tx_done_num_sub ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p > + ) > +{ > + ogma_uint32 value; > + > + value = ogma_read_reg ( ctrl_p, > + tx_done_pkt_cnt_reg_addr[desc_ring_p->ring_id] ); > + > + desc_ring_p->tx_done_num += value; > + > + return desc_ring_p->tx_done_num; > +} > + > + > +ogma_err_t ogma_start_desc_ring ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id > + ) > +{ > + ogma_err_t ogma_err = OGMA_ERR_OK; > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + ogma_desc_ring_t *desc_ring_p; > + > + pfdep_soft_lock_ctx_t soft_lock_ctx; > + pfdep_err_t pfdep_err; > + > + if ( ctrl_p == NULL) { > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].param.valid_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + desc_ring_p = &ctrl_p->desc_ring[ring_id]; > + > + if ( ( pfdep_err = pfdep_acquire_soft_lock( > + &desc_ring_p->soft_lock, > + &soft_lock_ctx ) ) != PFDEP_ERR_OK) { > + return OGMA_ERR_INTERRUPT; > + } > + > + if ( desc_ring_p->running_flag) { > + pfdep_release_soft_lock( &desc_ring_p->soft_lock, > + &soft_lock_ctx); > + return OGMA_ERR_BUSY; > + } > + > + if ( desc_ring_p->rx_desc_ring_flag) { > + > + ogma_write_reg ( ctrl_p, > + desc_ring_irq_inten_set_reg_addr[ring_id], > + OGMA_CH_IRQ_REG_RCV); > + > + ogma_write_reg ( ctrl_p, > + int_pkt_cnt_reg_addr[ring_id], > + 1); > + } > + > + if ( desc_ring_p->tx_desc_ring_flag) { > + > + > + value = OGMA_CH_IRQ_REG_EMPTY; > + > + > + ogma_write_reg ( ctrl_p, > + desc_ring_irq_inten_set_reg_addr[ring_id], > + value); > + > + ogma_write_reg ( ctrl_p, > + int_pkt_cnt_reg_addr[ring_id], > + 1); > + > + } > + > + desc_ring_p->running_flag = OGMA_TRUE; > + > + pfdep_release_soft_lock( &desc_ring_p->soft_lock, > + &soft_lock_ctx); > + > + return ogma_err; > +} > + > + > +ogma_err_t ogma_stop_desc_ring ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + ogma_desc_ring_t *desc_ring_p; > + pfdep_err_t pfdep_err; > + pfdep_soft_lock_ctx_t soft_lock_ctx; > + > + if ( ( ctrl_p == NULL) || > + ( ring_id > OGMA_DESC_RING_ID_MAX) ) { > + return OGMA_ERR_PARAM; > + } > + > + if ( !ogma_is_pkt_desc_ring( &ctrl_p->desc_ring[ring_id] ) ) { > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].param.valid_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + desc_ring_p = &ctrl_p->desc_ring[ring_id]; > + > + if ( ( pfdep_err = pfdep_acquire_soft_lock( > + &desc_ring_p->soft_lock, > + &soft_lock_ctx ) ) != PFDEP_ERR_OK) { > + return OGMA_ERR_INTERRUPT; > + } > + > + if ( !desc_ring_p->running_flag) { > + pfdep_release_soft_lock( &desc_ring_p->soft_lock, > + &soft_lock_ctx); > + return OGMA_ERR_INVALID; > + } > + > + value = ( OGMA_CH_IRQ_REG_RCV | > + OGMA_CH_IRQ_REG_EMPTY | > + OGMA_CH_IRQ_REG_SND); > + > + ogma_write_reg ( ctrl_p, > + desc_ring_irq_inten_clr_reg_addr[ring_id], > + value); > + > + desc_ring_p->running_flag = OGMA_FALSE; > + > + pfdep_release_soft_lock( &desc_ring_p->soft_lock, > + &soft_lock_ctx); > + > + return OGMA_ERR_OK; > +} > + > +ogma_uint16 ogma_get_rx_num ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id > + ) > +{ > + > + ogma_uint32 result; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + ogma_desc_ring_t *desc_ring_p = NULL; > + ogma_desc_ring_id_t tmp_ring_id; > + > + pfdep_soft_lock_ctx_t soft_lock_ctx; > + pfdep_err_t pfdep_err; > + > + if ( ( ctrl_p == NULL) || > + ( ring_id > OGMA_DESC_RING_ID_MAX) ) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_rx_num.\n" > + "Please set valid argument.\n"); > + return 0; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].param.valid_flag) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_rx_num.\n" > + "Please set valid argument.\n"); > + return 0; > + } > + > + tmp_ring_id = ring_id; > + > + if (! ctrl_p->desc_ring[tmp_ring_id].rx_desc_ring_flag) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_rx_num.\n" > + "Please select rx packet desc ring or bulk desc ring.\n"); > + return 0; > + } > + > + desc_ring_p = &ctrl_p->desc_ring[tmp_ring_id]; > + > + if ( ( pfdep_err = pfdep_acquire_soft_lock( > + &desc_ring_p->soft_lock, > + &soft_lock_ctx ) ) != PFDEP_ERR_OK) { > + > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_rx_num.\n" > + "Failed to get soft lock.\n"); > + return 0; > + } > + > + result = ogma_read_reg( ctrl_p, rx_pkt_cnt_reg_addr[tmp_ring_id]); > + > + desc_ring_p->rx_num += result; > + > + if ( desc_ring_p->rx_desc_ring_flag && ( result != 0) ) { > + ogma_inc_desc_head_idx( ctrl_p, desc_ring_p, ( ogma_uint16)result); > + } > + > + pfdep_release_soft_lock( &desc_ring_p->soft_lock, > + &soft_lock_ctx); > + > + return desc_ring_p->rx_num; > +} > + > + > +ogma_uint16 ogma_get_tx_avail_num ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id > + ) > +{ > + > + ogma_uint16 result; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + ogma_desc_ring_id_t tmp_ring_id; > + ogma_desc_ring_t *desc_ring_p = NULL; > + > + pfdep_soft_lock_ctx_t soft_lock_ctx; > + pfdep_err_t pfdep_err; > + > + if ( ( ctrl_p == NULL) || > + ( ring_id > OGMA_DESC_RING_ID_MAX) || > + ( !ctrl_p->desc_ring[ring_id].param.valid_flag) ) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_tx_avail_num.\n" > + "Please select valid argument.\n"); > + return 0; > + } > + > + tmp_ring_id = ring_id; > + > + if (! ctrl_p->desc_ring[tmp_ring_id].tx_desc_ring_flag) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_tx_avail_num.\n" > + "Please select tx packet desc ring or bulk desc ring.\n"); > + return 0; > + } > + > + desc_ring_p = &ctrl_p->desc_ring[tmp_ring_id]; > + > + if ( ( pfdep_err = pfdep_acquire_soft_lock( > + &desc_ring_p->soft_lock, > + &soft_lock_ctx ) ) != PFDEP_ERR_OK) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_tx_avail_num.\n" > + "Failed to get soft lock.\n"); > + return 0; > + } > + > + if ( !desc_ring_p->running_flag) { > + pfdep_release_soft_lock( &desc_ring_p->soft_lock, > + &soft_lock_ctx); > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_tx_avail_num.\n" > + "Please select running desc ring.\n"); > + return 0; > + } > + > + result = ogma_get_tx_avail_num_sub( ctrl_p, desc_ring_p); > + > + pfdep_release_soft_lock( &desc_ring_p->soft_lock, > + &soft_lock_ctx); > + return result; > +} > + > +ogma_err_t ogma_clean_tx_desc_ring ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id > + ) > +{ > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + ogma_desc_ring_t *desc_ring_p; > + > + pfdep_err_t pfdep_err; > + pfdep_soft_lock_ctx_t soft_lock_ctx; > + > + if ( ( ctrl_p == NULL) || > + ( ring_id > OGMA_DESC_RING_ID_MAX) ) { > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].param.valid_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].tx_desc_ring_flag) { > + return OGMA_ERR_PARAM; > + } > + > + desc_ring_p = &ctrl_p->desc_ring[ring_id]; > + > + if ( ( pfdep_err = pfdep_acquire_soft_lock( > + &desc_ring_p->soft_lock, > + &soft_lock_ctx ) ) != PFDEP_ERR_OK) { > + return OGMA_ERR_INTERRUPT; > + } > + > + ogma_clean_tx_desc_ring_sub(ctrl_p, desc_ring_p); > + > + pfdep_release_soft_lock( &desc_ring_p->soft_lock, > + &soft_lock_ctx); > + return OGMA_ERR_OK; > + > + > +} > + > +ogma_err_t ogma_clean_rx_desc_ring ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id > + ) > +{ > + > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + ogma_desc_ring_t *desc_ring_p; > + > + pfdep_err_t pfdep_err; > + pfdep_soft_lock_ctx_t soft_lock_ctx; > + > + if ( ( ctrl_p == NULL) || > + ( ring_id > OGMA_DESC_RING_ID_MAX) ) { > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].param.valid_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].rx_desc_ring_flag) { > + return OGMA_ERR_PARAM; > + } > + > + desc_ring_p = &ctrl_p->desc_ring[ring_id]; > + > + if ( ( pfdep_err = pfdep_acquire_soft_lock( > + &desc_ring_p->soft_lock, > + &soft_lock_ctx ) ) != PFDEP_ERR_OK) { > + return OGMA_ERR_INTERRUPT; > + } > + > + ogma_clean_rx_desc_ring_sub(ctrl_p, desc_ring_p); > + > + pfdep_release_soft_lock( &desc_ring_p->soft_lock, > + &soft_lock_ctx); > + return OGMA_ERR_OK; > + > +} > + > +ogma_err_t ogma_set_tx_pkt_data ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id, > + const ogma_tx_pkt_ctrl_t *tx_pkt_ctrl_p, > + ogma_uint8 scat_num, > + const ogma_frag_info_t *scat_info_p, > + pfdep_pkt_handle_t pkt_handle > + ) > +{ > + ogma_uint i; > + ogma_uint16 tx_avail_num; > + ogma_uint32 sum_len = 0; > + ogma_err_t ogma_err = OGMA_ERR_OK; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + ogma_desc_ring_t *desc_ring_p; > + > + pfdep_err_t pfdep_err; > + pfdep_soft_lock_ctx_t soft_lock_ctx; > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG, "%s call.\n", __func__); > + > + if ( ( ctrl_p == NULL) || > + ( tx_pkt_ctrl_p == NULL) || > + ( scat_info_p == NULL) || > + ( ring_id > OGMA_DESC_RING_ID_MAX) ) { > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].param.valid_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].tx_desc_ring_flag) { > + return OGMA_ERR_PARAM; > + } > + > + { > + if ( !ctrl_p->param.use_gmac_flag || > + ( tx_pkt_ctrl_p->target_desc_ring_id != OGMA_DESC_RING_ID_GMAC) ) { > + return OGMA_ERR_DATA; > + } > + } > + > + > + if ( tx_pkt_ctrl_p->tcp_seg_offload_flag && > + ( !tx_pkt_ctrl_p->cksum_offload_flag) ) { > + return OGMA_ERR_DATA; > + } > + > + if ( tx_pkt_ctrl_p->tcp_seg_offload_flag) { > + > + if ( tx_pkt_ctrl_p->tcp_seg_len == 0) { > + return OGMA_ERR_DATA; > + } > + > + if ( ctrl_p->param.use_jumbo_pkt_flag) { > + if (tx_pkt_ctrl_p->tcp_seg_len > OGMA_TCP_JUMBO_SEG_LEN_MAX) { > + return OGMA_ERR_DATA; > + } > + } else { > + if (tx_pkt_ctrl_p->tcp_seg_len > OGMA_TCP_SEG_LEN_MAX) { > + return OGMA_ERR_DATA; > + } > + } > + > + } else { > + if ( tx_pkt_ctrl_p->tcp_seg_len != 0) { > + return OGMA_ERR_DATA; > + } > + } > + > + > + if ( scat_num == 0) { > + return OGMA_ERR_RANGE; > + } > + > + for ( i = 0; i < scat_num; i++) { > + if ( ( scat_info_p[i].len == 0) || > + ( scat_info_p[i].len > 0xffffU) ) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_set_tx_pkt_data.\n" > + "Pleas check scat_info_p[%u].len.\n", > + i); > + return OGMA_ERR_DATA; > + } > + sum_len += scat_info_p[i].len; > + } > + > + if ( !tx_pkt_ctrl_p->tcp_seg_offload_flag) { > + > + if ( ctrl_p->param.use_jumbo_pkt_flag) { > + if ( sum_len > OGMA_MAX_TX_JUMBO_PKT_LEN) { > + return OGMA_ERR_DATA; > + } > + } else { > + if ( sum_len > OGMA_MAX_TX_PKT_LEN) { > + return OGMA_ERR_DATA; > + } > + } > + > + } > + > + desc_ring_p = &ctrl_p->desc_ring[ring_id]; > + > + if ( ( pfdep_err = pfdep_acquire_soft_lock( > + &desc_ring_p->soft_lock, > + &soft_lock_ctx ) ) != PFDEP_ERR_OK) { > + return OGMA_ERR_INTERRUPT; > + } > + > + if ( !desc_ring_p->running_flag) { > + ogma_err = OGMA_ERR_NOTAVAIL; > + goto end; > + } > + > + tx_avail_num = ogma_get_tx_avail_num_sub( ctrl_p, desc_ring_p); > + > + if ( scat_num > tx_avail_num ) { > + ogma_err = OGMA_ERR_BUSY; > + goto end; > + } > + > + for ( i = 0; i < scat_num; i++) { > + > + > + ogma_set_tx_desc_entry( > + ctrl_p, > + desc_ring_p, > + desc_ring_p->head_idx, > + tx_pkt_ctrl_p, > + ( i == 0), > + ( i == ( scat_num - 1U) ), > + OGMA_TRUE, > + &scat_info_p[i], > + pkt_handle); > + ogma_inc_desc_head_idx( ctrl_p, desc_ring_p, 1); > + } > + > + pfdep_write_mem_barrier(); > + > + ogma_write_reg( ctrl_p, > + tx_pkt_cnt_reg_addr[ring_id], > + (ogma_uint32)1); > + > +end: > + pfdep_release_soft_lock( &desc_ring_p->soft_lock, > + &soft_lock_ctx); > + > + return ogma_err; > +} > + > +ogma_err_t ogma_get_rx_pkt_data ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id, > + ogma_rx_pkt_info_t *rx_pkt_info_p, > + ogma_frag_info_t *frag_info_p, > + ogma_uint16 *len_p, > + pfdep_pkt_handle_t *pkt_handle_p > + ) > +{ > + > + ogma_err_t ogma_err = OGMA_ERR_OK; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + ogma_desc_ring_t *desc_ring_p; > + ogma_frag_info_t tmp_frag_info; > + > + pfdep_err_t pfdep_err; > + pfdep_pkt_handle_t tmp_pkt_handle; > + pfdep_soft_lock_ctx_t soft_lock_ctx; > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG, "%s call.\n", __func__); > + > + if ( ( ctrl_p == NULL) || > + ( rx_pkt_info_p == NULL) || > + ( frag_info_p == NULL) || > + ( len_p == NULL) || > + ( pkt_handle_p == NULL) || > + ( ring_id > OGMA_DESC_RING_ID_MAX) ) { > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].param.valid_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].rx_desc_ring_flag) { > + return OGMA_ERR_PARAM; > + } > + > + desc_ring_p = &ctrl_p->desc_ring[ring_id]; > + > + if ( ( pfdep_err = pfdep_acquire_soft_lock( > + &desc_ring_p->soft_lock, > + &soft_lock_ctx ) ) != PFDEP_ERR_OK) { > + return OGMA_ERR_INTERRUPT; > + } > + > + if ( desc_ring_p->rx_num == 0 ) { > + ogma_err = OGMA_ERR_INVALID; > + goto end; > + } > + > + tmp_frag_info.len = ctrl_p->rx_pkt_buf_len; > + > + pfdep_read_mem_barrier(); > + > + if ( ( pfdep_err = pfdep_alloc_pkt_buf ( > + ctrl_p->dev_handle, > + tmp_frag_info.len, > + &tmp_frag_info.addr, > + &tmp_frag_info.phys_addr, > + &tmp_pkt_handle) ) != PFDEP_ERR_OK) { > + ogma_set_rx_desc_entry( ctrl_p, > + desc_ring_p, > + desc_ring_p->tail_idx, > + &desc_ring_p->frag_info_p[desc_ring_p->tail_idx], > + desc_ring_p->priv_data_p[desc_ring_p->tail_idx].pkt_handle); > + ogma_err = OGMA_ERR_ALLOC; > + > + } else { > + > + ogma_get_rx_desc_entry( ctrl_p, > + desc_ring_p, > + desc_ring_p->tail_idx, > + rx_pkt_info_p, > + frag_info_p, > + len_p, > + pkt_handle_p); > + > + > + ogma_set_rx_desc_entry( ctrl_p, > + desc_ring_p, > + desc_ring_p->tail_idx, > + &tmp_frag_info, > + tmp_pkt_handle); > + } > + > + ogma_inc_desc_tail_idx( ctrl_p, desc_ring_p, 1); > + > + --desc_ring_p->rx_num; > + > +end: > + pfdep_release_soft_lock( &desc_ring_p->soft_lock, > + &soft_lock_ctx); > + > + return ogma_err; > +} > + > +ogma_err_t ogma_set_irq_coalesce_param ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id, > + ogma_uint16 int_pktcnt, > + ogma_bool int_tmr_unit_ms_flag, > + ogma_uint16 int_tmr_cnt > + ) > +{ > + > + ogma_err_t ogma_err = OGMA_ERR_OK; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ( ctrl_p == NULL) || > + ( ring_id > OGMA_DESC_RING_ID_MAX) ) { > + return OGMA_ERR_PARAM; > + } > + > + if ( int_pktcnt > OGMA_INT_PKTCNT_MAX) { > + return OGMA_ERR_RANGE; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].param.valid_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + if ( !ogma_is_pkt_desc_ring( &ctrl_p->desc_ring[ring_id]) ) { > + return OGMA_ERR_PARAM; > + } > + > + ogma_write_reg( ctrl_p, > + int_pkt_cnt_reg_addr[ring_id], > + int_pktcnt); > + > + ogma_write_reg( ctrl_p, > + int_tmr_reg_addr[ring_id], > + ( ( ( ( ogma_uint32)int_tmr_unit_ms_flag) << 31) | > + int_tmr_cnt) ); > + > + return ogma_err; > + > +} > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_desc_ring_access_internal.h b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_desc_ring_access_internal.h > new file mode 100644 > index 000000000000..34490e2d1c78 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_desc_ring_access_internal.h > @@ -0,0 +1,111 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#ifndef OGMA_DESC_RING_ACCESS_INTERNAL_H > +#define OGMA_DESC_RING_ACCESS_INTERNAL_H > + > +#include "netsec_for_uefi/netsec_sdk/include/ogma_basic_type.h" > +#include "ogma_internal.h" > + > +#define OGMA_TX_PKT_DESC_RING_OWN_FIELD (31) > +#define OGMA_TX_PKT_DESC_RING_LD_FIELD (30) > +#define OGMA_TX_PKT_DESC_RING_DRID_FIELD (24) > +#define OGMA_TX_PKT_DESC_RING_PT_FIELD (21) > +#define OGMA_TX_PKT_DESC_RING_TDRID_FIELD (16) > +#define OGMA_TX_PKT_DESC_RING_FS_FIELD (9) > +#define OGMA_TX_PKT_DESC_RING_LS_FIELD (8) > +#define OGMA_TX_PKT_DESC_RING_CO_FIELD (7) > +#define OGMA_TX_PKT_DESC_RING_SO_FIELD (6) > +#define OGMA_TX_PKT_DESC_RING_USRKEY_FIELD (5) > +#define OGMA_TX_PKT_DESC_RING_TRS_FIELD (4) > + > +#define OGMA_RX_PKT_DESC_RING_OWN_FIELD (31) > +#define OGMA_RX_PKT_DESC_RING_LD_FIELD (30) > +#define OGMA_RX_PKT_DESC_RING_SDRID_FIELD (24) > +#define OGMA_RX_PKT_DESC_RING_FR_FIELD (23) > +#define OGMA_RX_PKT_DESC_RING_ER_FIELD (21) > +#define OGMA_RX_PKT_DESC_RING_ERROR_CODE_FIELD (16) > +#define OGMA_RX_PKT_DESC_RING_TDRID_FIELD (12) > +#define OGMA_RX_PKT_DESC_RING_FS_FIELD (9) > +#define OGMA_RX_PKT_DESC_RING_LS_FIELD (8) > +#define OGMA_RX_PKT_DESC_RING_CO_FIELD (6) > + > +#define OGMA_RX_PKT_DESC_RING_ERROR_CODE_FIELD_MASK (0x3) > + > +#define OGMA_MAX_TX_PKT_LEN 1518U > +#define OGMA_MAX_TX_JUMBO_PKT_LEN 9018U > + > +typedef struct ogma_tx_desc_entry_s ogma_tx_desc_entry_t; > +typedef struct ogma_rx_desc_entry_s ogma_rx_desc_entry_t; > + > +struct ogma_tx_desc_entry_s{ > + > + ogma_uint32 attr; > + > + ogma_uint32 data_buf_addr_upper; > + > + ogma_uint32 data_buf_addr_lower; > + > + ogma_uint32 buf_len_info; > +}; > + > +struct ogma_rx_desc_entry_s{ > + > + ogma_uint32 attr; > + > + ogma_uint32 data_buf_addr_upper; > + > + ogma_uint32 data_buf_addr_lower; > + > + ogma_uint32 buf_len_info; > +}; > + > +static __inline ogma_bool ogma_is_pkt_desc_ring ( > + const ogma_desc_ring_t *desc_ring_p > + ) > +{ > + return ( desc_ring_p->rx_desc_ring_flag || > + desc_ring_p->tx_desc_ring_flag); > +} > + > +static __inline ogma_uint32 ogma_get_desc_ring_attr ( > + const ogma_desc_ring_t *desc_ring_p, > + ogma_uint16 idx > + ) > +{ > + ogma_uint32 *addr = > + (ogma_uint32 *) > + ((pfdep_cpu_addr_t)desc_ring_p->desc_ring_cpu_addr + > + desc_ring_p->desc_entry_len * idx); > + > + return *addr; > +} > + > + > + > +static __inline void ogma_check_desc_own_sanity ( > + ogma_ctrl_t *ctrl_p, > + const ogma_desc_ring_t *desc_ring_p, > + ogma_uint16 idx, > + ogma_uint expected_own) > +{ > + ogma_uint32 tmp; > + ( void)ctrl_p; /* Suppress compiler warning */ > + > + tmp = ogma_get_desc_ring_attr(desc_ring_p, idx); > + pfdep_assert( ( tmp >> 31) == expected_own); > +} > + > +#endif /* OGMA_DESC_RING_ACCESS_INTERNAL_H */ > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_gmac_access.c b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_gmac_access.c > new file mode 100644 > index 000000000000..d08bb53a54e8 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_gmac_access.c > @@ -0,0 +1,1454 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#include "ogma_config.h" > + > +#include "ogma_internal.h" > +#include "ogma_basic_access.h" > + > + > +/********************************************************************** > + * Constant definitions > + **********************************************************************/ > + > +/** > + * Clock range index for F_GMAC4MT::GAR::CR field. > + */ > +#if (OGMA_CONFIG_GMAC_CLK_HZ < 35 * OGMA_CLK_MHZ) > +#define OGMA_CLOCK_RANGE_IDX OGMA_GMAC_GAR_REG_CR_25_35_MHZ > +#elif (OGMA_CONFIG_GMAC_CLK_HZ < 60 * OGMA_CLK_MHZ) > +#define OGMA_CLOCK_RANGE_IDX OGMA_GMAC_GAR_REG_CR_35_60_MHZ > +#elif (OGMA_CONFIG_GMAC_CLK_HZ < 100 * OGMA_CLK_MHZ) > +#define OGMA_CLOCK_RANGE_IDX OGMA_GMAC_GAR_REG_CR_60_100_MHZ > +#elif (OGMA_CONFIG_GMAC_CLK_HZ < 150 * OGMA_CLK_MHZ) > +#define OGMA_CLOCK_RANGE_IDX OGMA_GMAC_GAR_REG_CR_100_150_MHZ > +#elif (OGMA_CONFIG_GMAC_CLK_HZ < 250 * OGMA_CLK_MHZ) > +#define OGMA_CLOCK_RANGE_IDX OGMA_GMAC_GAR_REG_CR_150_250_MHZ > +#else > +#define OGMA_CLOCK_RANGE_IDX OGMA_GMAC_GAR_REG_CR_250_300_MHZ > +#endif > + > + > +/********************************************************************** > + * Local function declarations > + **********************************************************************/ > +static void ogma_set_phy_reg_sub ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint8 phy_addr, > + ogma_uint8 reg_addr, > + ogma_uint16 value > + ); > + > +static ogma_uint16 ogma_get_phy_reg_sub ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint8 phy_addr, > + ogma_uint8 reg_addr > + ); > + > +#ifdef OGMA_CONFIG_USE_DUMP_GMAC_STAT > +void ogma_dump_gmac_stat (ogma_ctrl_t *ctrl_p); > +#endif /* OGMA_CONFIG_USE_DUMP_GMAC_STAT */ > + > +static void ogma_set_phy_target_mmd_reg_addr ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint8 phy_addr, > + ogma_uint8 dev_addr, > + ogma_uint16 reg_addr > + ); > + > +static void ogma_set_phy_mmd_reg_sub ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint8 phy_addr, > + ogma_uint8 dev_addr, > + ogma_uint16 reg_addr, > + ogma_uint16 value > + ); > + > +static ogma_uint16 ogma_get_phy_mmd_reg_sub ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint8 phy_addr, > + ogma_uint8 dev_addr, > + ogma_uint16 reg_addr > + ); > + > +/********************************************************************** > + * Function definitions > + **********************************************************************/ > + > +ogma_err_t ogma_start_gmac ( > + ogma_handle_t ogma_handle, > + ogma_bool rx_flag, > + ogma_bool tx_flag > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + pfdep_err_t pfdep_err; > + ogma_err_t ogma_err; > + > + if ( ctrl_p == NULL) { > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + if ( !ctrl_p->gmac_mode_valid_flag) { > + return OGMA_ERR_INVALID; > + } > + > + if ( ( !rx_flag) && ( !tx_flag) ) { > + return OGMA_ERR_OK; > + } > + > + if ( ctrl_p->gmac_rx_running_flag && > + ctrl_p->gmac_tx_running_flag) { > + return OGMA_ERR_OK; > + } > + > + > + if ( ( rx_flag && ctrl_p->gmac_rx_running_flag) && > + !tx_flag) { > + return OGMA_ERR_OK; > + } > + > + if ( ( tx_flag && ctrl_p->gmac_tx_running_flag) && > + !rx_flag ) { > + return OGMA_ERR_OK; > + } > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "%s call.\n", __func__); > + > + if ( (! ctrl_p->gmac_rx_running_flag) && > + (! ctrl_p->gmac_tx_running_flag) ) { > + > + /* Initializes F_GMAC4MT */ > + if ( ctrl_p->gmac_mode.link_speed == > + OGMA_PHY_LINK_SPEED_1G) { > + /* Writes 0 to FGMAC4 MCR */ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_MCR, > + 0); > + } else { > + /* Writes PS bit to FGMAC4 MCR */ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_MCR, > + OGMA_GMAC_MCR_10M_HALF);/* 10M half Reset */ > + } > + > + /* F_GMAC4MT soft reset*/ > + if ( ( ogma_err = ogma_softreset_gmac( ctrl_p)) != OGMA_ERR_OK) { > + return ogma_err; > + } > + > + /* MAC desc soft reset */ > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_MAC_DESC_SOFT_RST, > + OGMA_MAC_DESC_SOFT_RST_SOFT_RST); > + > + /* Wait MAC desc soft reset */ > + pfdep_err = pfdep_msleep( 1); > + > + if ( pfdep_err == PFDEP_ERR_INTERRUPT) { > + > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_start_gmac.\n"); > + > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "Wait for MAC desc soft reset error.\n"); > + > + return OGMA_ERR_INTERRUPT; > + } > + > + /* Check MAC desc soft reset done */ > + if ( ( ogma_read_reg( ctrl_p, OGMA_REG_ADDR_MAC_DESC_SOFT_RST) & > + OGMA_MAC_DESC_SOFT_RST_SOFT_RST) != 0) { > + > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "ogma_start_gmac():MAC desc soft reset timeout. Try Again.\n"); > + > + return OGMA_ERR_AGAIN; > + } > + > + /* MAC desc init */ > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_MAC_DESC_INIT, > + OGMA_MAC_DESC_INIT_REG_INIT); > + > + /* Wait MAC desc init done */ > + pfdep_err = pfdep_msleep( 1); > + > + if ( pfdep_err == PFDEP_ERR_INTERRUPT) { > + > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_start_gmac().\n"); > + > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "Wait for MAC desc init done error.\n"); > + > + return OGMA_ERR_INTERRUPT; > + } > + > + /* Check MAC desc init done */ > + if ( ( ogma_read_reg( ctrl_p, OGMA_REG_ADDR_MAC_DESC_INIT) & > + OGMA_MAC_DESC_INIT_REG_INIT) != 0) { > + > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "ogma_start_gmac():MAC desc init timeout. Try Again.\n"); > + > + return OGMA_ERR_AGAIN; > + } > + > + /* set BMR */ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_BMR, > + OGMA_GMAC_BMR_REG_COMMON); > + /* set RDLAR */ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_RDLAR, > + OGMA_GMAC_RDLAR_REG_COMMON); > + /* set TDLAR*/ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_TDLAR, > + OGMA_GMAC_TDLAR_REG_COMMON); > + /* set MFFR*/ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_MFFR, > + 0x80000001UL); > + > + /* calc MCR setting val */ > + value = ( ctrl_p->gmac_mode.half_duplex_flag ? > + OGMA_GMAC_MCR_REG_HALF_DUPLEX_COMMON : > + OGMA_GMAC_MCR_REG_FULL_DUPLEX_COMMON); > + > + if ( ctrl_p->gmac_mode.link_speed != OGMA_PHY_LINK_SPEED_1G) { > + value |= OGMA_GMAC_MCR_REG_PS; > + } > + > + if ( ( ctrl_p->param.gmac_config.phy_interface != > + OGMA_PHY_INTERFACE_GMII ) && > + ( ctrl_p->gmac_mode.link_speed == OGMA_PHY_LINK_SPEED_100M) ) { > + value |= OGMA_GMAC_MCR_REG_FES; > + } > + /* set CST bit */ > + value |= OGMA_GMAC_MCR_REG_CST; > + > + /* set JE bit */ > + value |= OGMA_GMAC_MCR_REG_JE; > + > + if ( ctrl_p->param.gmac_config.phy_interface == > + OGMA_PHY_INTERFACE_RGMII) { > + /* set ignore in-band-status watch option. force tx clk out. */ > + value |= 0x40000000U; > + } > + > + /* set MCR */ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_MCR, > + value); > + > + if ( ctrl_p->gmac_mode.flow_ctrl_enable_flag) { > + /* Set Flow Control Threshold */ > + value = > + ( ctrl_p->gmac_mode.flow_ctrl_stop_threshold << 16) | > + ctrl_p->gmac_mode.flow_ctrl_start_threshold; > + > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_MAC_FLOW_TH, > + value); > + /* Set Flow Control Threshold F_GMAC4MT*/ > + value = > + ( ctrl_p->gmac_mode.pause_time << 16) | > + OGMA_GMAC_FCR_REG_RFE | > + OGMA_GMAC_FCR_REG_TFE; > + > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_FCR, > + value); > + } > + > + } > + > + if ( ( rx_flag && (! ctrl_p->gmac_rx_running_flag) ) || > + ( tx_flag && (! ctrl_p->gmac_tx_running_flag) ) > + ) { > + /* Read F_GMAC4MT OMR*/ > + value = ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_OMR); > + > + if ( rx_flag && (! ctrl_p->gmac_rx_running_flag) ) { > + value |= OGMA_GMAC_OMR_REG_SR; > + ctrl_p->gmac_rx_running_flag = OGMA_TRUE; > + } > + > + if ( tx_flag && (! ctrl_p->gmac_tx_running_flag) ) { > + value |= OGMA_GMAC_OMR_REG_ST; > + ctrl_p->gmac_tx_running_flag = OGMA_TRUE; > + } > + > + /* set OMR*/ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_OMR, > + value); > + > + } > + > + return OGMA_ERR_OK; > + > +} > + > +ogma_err_t ogma_stop_gmac ( > + ogma_handle_t ogma_handle, > + ogma_bool rx_flag, > + ogma_bool tx_flag > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + > + if ( ( !rx_flag) && ( !tx_flag) ) { > + return OGMA_ERR_OK; > + } > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "%s call.\n", __func__); > + > + if ( ( rx_flag && ctrl_p->gmac_rx_running_flag) || > + ( tx_flag && ctrl_p->gmac_tx_running_flag) ) { > + /* Read F_GMAC4MT OMR*/ > + value = ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_OMR); > + > + if ( rx_flag && ctrl_p->gmac_rx_running_flag) { > + value &= (~OGMA_GMAC_OMR_REG_SR); > + ctrl_p->gmac_rx_running_flag = OGMA_FALSE; > + } > + > + if ( tx_flag && ctrl_p->gmac_tx_running_flag) { > + value &= (~OGMA_GMAC_OMR_REG_ST); > + ctrl_p->gmac_tx_running_flag = OGMA_FALSE; > + } > + > + /* set F_GMAC4MT OMR*/ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_OMR, > + value); > + } > + > +#ifdef OGMA_CONFIG_USE_DUMP_GMAC_STAT > + ogma_dump_gmac_stat (ctrl_p); > +#endif /* OGMA_CONFIG_USE_DUMP_GMAC_STAT */ > + > + > + return OGMA_ERR_OK; > + > +} > + > +ogma_err_t ogma_set_gmac_mode ( > + ogma_handle_t ogma_handle, > + const ogma_gmac_mode_t *gmac_mode_p > + ) > +{ > + > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ( ctrl_p == NULL) || > + ( gmac_mode_p == NULL) ) { > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + if ( ( ctrl_p->gmac_rx_running_flag) || > + ( ctrl_p->gmac_tx_running_flag) ) { > + return OGMA_ERR_BUSY; > + } > + > + if ( ( gmac_mode_p->link_speed != OGMA_PHY_LINK_SPEED_1G ) && > + ( gmac_mode_p->link_speed != OGMA_PHY_LINK_SPEED_100M) && > + ( gmac_mode_p->link_speed != OGMA_PHY_LINK_SPEED_10M ) ) { > + return OGMA_ERR_DATA; > + } > + > + if ( ( gmac_mode_p->link_speed == OGMA_PHY_LINK_SPEED_1G) && > + ( gmac_mode_p->half_duplex_flag) ) { > + return OGMA_ERR_DATA; > + } > + > + if ( gmac_mode_p->half_duplex_flag && > + gmac_mode_p->flow_ctrl_enable_flag) { > + return OGMA_ERR_DATA; > + } > + > + if ( gmac_mode_p->flow_ctrl_enable_flag) { > + > + if ( ( gmac_mode_p->flow_ctrl_start_threshold == 0) || > + ( gmac_mode_p->flow_ctrl_start_threshold > > + OGMA_FLOW_CTRL_START_THRESHOLD_MAX) ) { > + return OGMA_ERR_DATA; > + } > + > + if ( ( gmac_mode_p->flow_ctrl_stop_threshold < > + gmac_mode_p->flow_ctrl_start_threshold) || > + ( gmac_mode_p->flow_ctrl_stop_threshold > > + OGMA_FLOW_CTRL_STOP_THRESHOLD_MAX) ) { > + return OGMA_ERR_DATA; > + } > + > + if ( gmac_mode_p->pause_time < OGMA_FLOW_CTRL_PAUSE_TIME_MIN) { > + return OGMA_ERR_DATA; > + } > + } > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "%s call.\n", __func__); > + > + pfdep_memcpy( ( void *)&ctrl_p->gmac_mode, > + ( void *)gmac_mode_p, > + sizeof( ogma_gmac_mode_t) ); > + > + ctrl_p->gmac_mode_valid_flag = OGMA_TRUE; > + > + > + return OGMA_ERR_OK; > + > +} > + > +static void ogma_set_phy_reg_sub ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint8 phy_addr, > + ogma_uint8 reg_addr, > + ogma_uint16 value > + ) > +{ > + > + ogma_uint32 cmd; > + > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_GDR, > + value); > + > + cmd = ( ( phy_addr << OGMA_GMAC_GAR_REG_SHIFT_PA) | > + ( reg_addr << OGMA_GMAC_GAR_REG_SHIFT_GR) | > + ( OGMA_CLOCK_RANGE_IDX << OGMA_GMAC_GAR_REG_SHIFT_CR) | > + OGMA_GMAC_GAR_REG_GW | > + OGMA_GMAC_GAR_REG_GB); > + > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_GAR, > + cmd); > + > + while ( ( ogma_get_mac_reg( ctrl_p, OGMA_GMAC_REG_ADDR_GAR) & > + OGMA_GMAC_GAR_REG_GB) > + != 0) { > + ; > + } > +} > + > +void ogma_set_phy_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint8 phy_addr, > + ogma_uint8 reg_addr, > + ogma_uint16 value > + ) > +{ > + > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if (( ctrl_p == NULL) > + || ( !ctrl_p->param.use_gmac_flag) > + || ( phy_addr >= 32) > + || ( reg_addr >= 32) ) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_set_phy_reg.\nPlease set valid argument.\n"); > + return; > + } > + > + ogma_set_phy_reg_sub( ctrl_p, phy_addr, reg_addr, value); > + > +} > + > +static ogma_uint16 ogma_get_phy_reg_sub ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint8 phy_addr, > + ogma_uint8 reg_addr > + ) > +{ > + > + ogma_uint32 cmd; > + > + cmd = ( ( phy_addr << OGMA_GMAC_GAR_REG_SHIFT_PA) | > + ( reg_addr << OGMA_GMAC_GAR_REG_SHIFT_GR) | > + ( OGMA_CLOCK_RANGE_IDX << OGMA_GMAC_GAR_REG_SHIFT_CR) | > + OGMA_GMAC_GAR_REG_GB); > + > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_GAR, > + cmd); > + > + while ( ( ogma_get_mac_reg( ctrl_p, OGMA_GMAC_REG_ADDR_GAR) & > + OGMA_GMAC_GAR_REG_GB) > + != 0) { > + ; > + } > + return (ogma_uint16)ogma_get_mac_reg( ctrl_p, OGMA_GMAC_REG_ADDR_GDR); > + > +} > + > +ogma_uint16 ogma_get_phy_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint8 phy_addr, > + ogma_uint8 reg_addr > + ) > +{ > + ogma_uint16 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ( ctrl_p == NULL) > + || ( !ctrl_p->param.use_gmac_flag) > + || ( phy_addr >= 32) > + || ( reg_addr >= 32) ) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_phy_reg.\nPlease set valid argument.\n"); > + return 0; > + } > + > + value = ogma_get_phy_reg_sub(ctrl_p, phy_addr, reg_addr); > + > + > + return value; > +} > + > +#if ( defined(OGMA_CONFIG_USE_READ_GMAC_STAT) || defined(OGMA_CONFIG_USE_DUMP_GMAC_STAT) ) > +static const struct { > + ogma_uint32 addr; > + ogma_char *name_p; > +} ogma_gmac_mmc_reg_info[] = { > + {OGMA_GMAC_REG_ADDR_MMC_INTR_RX , "MMC_INTR_RX"}, > + {OGMA_GMAC_REG_ADDR_MMC_INTR_TX , "MMC_INTR_TX"}, > + {OGMA_GMAC_REG_ADDR_MMC_INTR_MASK_RX , "MMC_INTR_MASK_RX"}, > + {OGMA_GMAC_REG_ADDR_MMC_INTR_MASK_TX , "MMC_INTR_MASK_TX"}, > + {OGMA_GMAC_REG_ADDR_TXOCTETCOUNT_GB , "TXOCTETCOUNT_GB"}, > + {OGMA_GMAC_REG_ADDR_TXFRAMECOUNT_GB , "TXFRAMECOUNT_GB"}, > + {OGMA_GMAC_REG_ADDR_TXBROADCASTFRAMES_G , "TXBROADCASTFRAMES_G"}, > + {OGMA_GMAC_REG_ADDR_TXMULTICASTFRAMES_G , "TXMULTICASTFRAMES_G"}, > + {OGMA_GMAC_REG_ADDR_TX64OCTETS_GB , "TX64OCTETS_GB"}, > + {OGMA_GMAC_REG_ADDR_TX65TO127OCTETS_GB , "TX65TO127OCTETS_GB"}, > + {OGMA_GMAC_REG_ADDR_TX128TO255OCTETS_GB , "TX128TO255OCTETS_GB"}, > + {OGMA_GMAC_REG_ADDR_TX256TO511OCTETS_GB , "TX256TO511OCTETS_GB"}, > + {OGMA_GMAC_REG_ADDR_TX512TO1023OCTETS_GB, "TX512TO1023OCTETS_GB"}, > + {OGMA_GMAC_REG_ADDR_TX1024TOMAXOCTETS_GB, "TX1024TOMAXOCTETS_GB"}, > + {OGMA_GMAC_REG_ADDR_TXUNICASTFRAMES_GB , "TXUNICASTFRAMES_GB"}, > + {OGMA_GMAC_REG_ADDR_TXMULTICASTFRAMES_GB, "TXMULTICASTFRAMES_GB"}, > + {OGMA_GMAC_REG_ADDR_TXBROADCASTFRAMES_GB, "TXBROADCASTFRAMES_GB"}, > + {OGMA_GMAC_REG_ADDR_TXUNDERFLOWERROR , "TXUNDERFLOWERROR"}, > + {OGMA_GMAC_REG_ADDR_TXSINGLECOL_G , "TXSINGLECOL_G"}, > + {OGMA_GMAC_REG_ADDR_TXMULTICOL_G , "TXMULTICOL_G"}, > + {OGMA_GMAC_REG_ADDR_TXDEFERRED , "TXDEFERRED"}, > + {OGMA_GMAC_REG_ADDR_TXLATECOL , "TXLATECOL"}, > + {OGMA_GMAC_REG_ADDR_TXEXESSCOL , "TXEXESSCOL"}, > + {OGMA_GMAC_REG_ADDR_TXCARRIERERRROR , "TXCARRIERERRROR"}, > + {OGMA_GMAC_REG_ADDR_TXOCTETCOUNT_G , "TXOCTETCOUNT_G"}, > + {OGMA_GMAC_REG_ADDR_TXFRAMECOUNT_G , "TXFRAMECOUNT_G"}, > + {OGMA_GMAC_REG_ADDR_TXEXECESSDEF , "TXEXECESSDEF"}, > + {OGMA_GMAC_REG_ADDR_TXPAUSEFRAMES , "TXPAUSEFRAMES"}, > + {OGMA_GMAC_REG_ADDR_TXVLANFRAMES_G , "TXVLANFRAMES_G"}, > + {OGMA_GMAC_REG_ADDR_RXFRAMECOUNT_GB , "RXFRAMECOUNT_GB"}, > + {OGMA_GMAC_REG_ADDR_RXOCTETCOUNT_GB , "RXOCTETCOUNT_GB"}, > + {OGMA_GMAC_REG_ADDR_RXOCTETCOUNT_G , "RXOCTETCOUNT_G"}, > + {OGMA_GMAC_REG_ADDR_RXBROADCASTFRAMES_G , "RXBROADCASTFRAMES_G"}, > + {OGMA_GMAC_REG_ADDR_RXMULTICASTFRAMES_G , "RXMULTICASTFRAMES_G"}, > + {OGMA_GMAC_REG_ADDR_RXCRCERROR , "RXCRCERROR"}, > + {OGMA_GMAC_REG_ADDR_RXALLIGNMENTERROR , "RXALLIGNMENTERROR"}, > + {OGMA_GMAC_REG_ADDR_RXRUNTERROR , "RXRUNTERROR"}, > + {OGMA_GMAC_REG_ADDR_RXJABBERERROR , "RXJABBERERROR"}, > + {OGMA_GMAC_REG_ADDR_RXUNDERSIZE_G , "RXUNDERSIZE_G"}, > + {OGMA_GMAC_REG_ADDR_RXOVERSIZE_G , "RXOVERSIZE_G"}, > + {OGMA_GMAC_REG_ADDR_RX64OCTETS_GB , "RX64OCTETS_GB"}, > + {OGMA_GMAC_REG_ADDR_RX65TO127OCTETS_GB , "RX65TO127OCTETS_GB"}, > + {OGMA_GMAC_REG_ADDR_RX128TO255OCTETS_GB , "RX128TO255OCTETS_GB"}, > + {OGMA_GMAC_REG_ADDR_RX256TO511OCTETS_GB , "RX256TO511OCTETS_GB"}, > + {OGMA_GMAC_REG_ADDR_RX512TO1023OCTETS_GB, "RX512TO1023OCTETS_GB"}, > + {OGMA_GMAC_REG_ADDR_RX1024TOMAXOCTETS_GB, "RX1024TOMAXOCTETS_GB"}, > + {OGMA_GMAC_REG_ADDR_RXUNICASTFRAMES_G , "RXUNICASTFRAMES_G"}, > + {OGMA_GMAC_REG_ADDR_RXLENGTHERROR , "RXLENGTHERROR"}, > + {OGMA_GMAC_REG_ADDR_RXOUTOFRANGETYPE , "RXOUTOFRANGETYPE"}, > + {OGMA_GMAC_REG_ADDR_RXPAUSEFRAMES , "RXPAUSEFRAMES"}, > + {OGMA_GMAC_REG_ADDR_RXFIFOOVERFLOW , "RXFIFOOVERFLOW"}, > + {OGMA_GMAC_REG_ADDR_RXVLANFRAMES_GB , "RXVLANFRAMES_GB"}, > + {OGMA_GMAC_REG_ADDR_RXWATCHDOGERROR , "RXWATCHDOGERROR"}, > + {OGMA_GMAC_REG_ADDR_MMC_IPC_INTR_MASK_RX, "MMC_IPC_INTR_MASK_RX"}, > + {OGMA_GMAC_REG_ADDR_MMC_IPC_INTR_RX , "MMC_IPC_INTR_RX"}, > + {OGMA_GMAC_REG_ADDR_RXIPV4_GD_FRMS , "RXIPV4_GD_FRMS"}, > + {OGMA_GMAC_REG_ADDR_RXIPV4_HDRERR_FRMS , "RXIPV4_HDRERR_FRMS"}, > + {OGMA_GMAC_REG_ADDR_RXIPV4_NOPAY_FRMS , "RXIPV4_NOPAY_FRMS"}, > + {OGMA_GMAC_REG_ADDR_RXIPV4_FRAG_FRMS , "RXIPV4_FRAG_FRMS"}, > + {OGMA_GMAC_REG_ADDR_RXIPV4_UDSBL_FRMS , "RXIPV4_UDSBL_FRMS"}, > + {OGMA_GMAC_REG_ADDR_RXIPV6_GD_FRMS , "RXIPV6_GD_FRMS"}, > + {OGMA_GMAC_REG_ADDR_RXIPV6_HDRERR_FRMS , "RXIPV6_HDRERR_FRMS"}, > + {OGMA_GMAC_REG_ADDR_RXIPV6_NOPAY_FRMS , "RXIPV6_NOPAY_FRMS"}, > + {OGMA_GMAC_REG_ADDR_RXUDP_GD_FRMS , "RXUDP_GD_FRMS"}, > + {OGMA_GMAC_REG_ADDR_RXUDP_ERR_FRMS , "RXUDP_ERR_FRMS"}, > + {OGMA_GMAC_REG_ADDR_RXTCP_GD_FRMS , "RXTCP_GD_FRMS"}, > + {OGMA_GMAC_REG_ADDR_RXTCP_ERR_FRMS , "RXTCP_ERR_FRMS"}, > + {OGMA_GMAC_REG_ADDR_RXICMP_GD_FRMS , "RXICMP_GD_FRMS"}, > + {OGMA_GMAC_REG_ADDR_RXICMP_ERR_FRMS , "RXICMP_ERR_FRMS"}, > + {OGMA_GMAC_REG_ADDR_RXIPV4_GD_OCTETS , "RXIPV4_GD_OCTETS"}, > + {OGMA_GMAC_REG_ADDR_RXIPV4_HDRERR_OCTETS, "RXIPV4_HDRERR_OCTETS"}, > + {OGMA_GMAC_REG_ADDR_RXIPV4_NOPAY_OCTETS , "RXIPV4_NOPAY_OCTETS"}, > + {OGMA_GMAC_REG_ADDR_RXIPV4_FRAG_OCTETS , "RXIPV4_FRAG_OCTETS"}, > + {OGMA_GMAC_REG_ADDR_RXIPV4_UDSBL_OCTETS , "RXIPV4_UDSBL_OCTETS"}, > + {OGMA_GMAC_REG_ADDR_RXIPV6_GD_OCTETS , "RXIPV6_GD_OCTETS"}, > + {OGMA_GMAC_REG_ADDR_RXIPV6_HDRERR_OCTETS, "RXIPV6_HDRERR_OCTETS"}, > + {OGMA_GMAC_REG_ADDR_RXIPV6_NOPAY_OCTETS , "RXIPV6_NOPAY_OCTETS"}, > + {OGMA_GMAC_REG_ADDR_RXUDP_GD_OCTETS , "RXUDP_GD_OCTETS"}, > + {OGMA_GMAC_REG_ADDR_RXUDP_ERR_OCTETS , "RXUDP_ERR_OCTETS"}, > + {OGMA_GMAC_REG_ADDR_RXTCP_GD_OCTETS , "RXTCP_GD_OCTETS"}, > + {OGMA_GMAC_REG_ADDR_RXTCP_ERR_OCTETS , "RXTCP_ERR_OCTETS"}, > + {OGMA_GMAC_REG_ADDR_RXICMP_GD_OCTETS , "RXICMP_GD_OCTETS"}, > + {OGMA_GMAC_REG_ADDR_RXICMP_ERR_OCTETS , "RXICMP_ERR_OCTETS"} > +}; > +#endif /* ( defined(OGMA_CONFIG_USE_READ_GMAC_STAT) || defined(OGMA_CONFIG_USE_DUMP_GMAC_STAT) ) */ > + > +#ifdef OGMA_CONFIG_USE_DUMP_GMAC_STAT > +void ogma_dump_gmac_stat (ogma_ctrl_t *ctrl_p) > +{ > + > + ogma_uint i; > + > + pfdep_print(PFDEP_DEBUG_LEVEL_NOTICE, > + "Dumping GMAC statistics registers(MMC registers):\n"); > + > + for (i = 0; > + i < sizeof(ogma_gmac_mmc_reg_info)/sizeof(ogma_gmac_mmc_reg_info[0]); > + i++) { > + pfdep_print(PFDEP_DEBUG_LEVEL_NOTICE, > + " %s => 0x%08x\n", > + ogma_gmac_mmc_reg_info[i].name_p, > + ( unsigned long)ogma_get_mac_reg(ctrl_p, > + ogma_gmac_mmc_reg_info[i].addr)); > + } > + > + > + /* Reset all counters. */ > + ogma_set_mac_reg(ctrl_p, OGMA_GMAC_REG_ADDR_MMC_CNTL, 1); > + > + > +} > + > +#endif /* OGMA_CONFIG_USE_DUMP_GMAC_STAT */ > + > + > +ogma_err_t ogma_get_gmac_status ( > + ogma_handle_t ogma_handle, > + ogma_bool *valid_flag_p, > + ogma_gmac_mode_t *gmac_mode_p, > + ogma_bool *rx_running_flag_p, > + ogma_bool *tx_running_flag_p > + ) > +{ > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( valid_flag_p == NULL) { > + return OGMA_ERR_PARAM; > + } > + > + if ( ( ctrl_p == NULL) || > + ( gmac_mode_p == NULL) || > + ( rx_running_flag_p == NULL) || > + ( tx_running_flag_p == NULL) ) { > + *valid_flag_p = OGMA_FALSE; > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + *valid_flag_p = OGMA_FALSE; > + return OGMA_ERR_NOTAVAIL; > + } > + > + > + *valid_flag_p = ctrl_p->gmac_mode_valid_flag; > + > + *rx_running_flag_p = ctrl_p->gmac_rx_running_flag; > + *tx_running_flag_p = ctrl_p->gmac_tx_running_flag; > + > + pfdep_memcpy( ( void *)gmac_mode_p, > + ( const void *)&ctrl_p->gmac_mode, > + sizeof( ogma_gmac_mode_t) ); > + > + > + return OGMA_ERR_OK; > + > +} > + > +static void ogma_set_phy_target_mmd_reg_addr ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint8 phy_addr, > + ogma_uint8 dev_addr, > + ogma_uint16 reg_addr > + ) > +{ > + ogma_uint32 cmd; > + > + /* set MMD ADDR */ > + cmd = ( ogma_uint32)dev_addr; > + > + /*set command to MMD access control register */ > + ogma_set_phy_reg_sub( ctrl_p, phy_addr, OGMA_PHY_REG_ADDR_MMD_AC, cmd); > + > + /* set MMD access address data register Write reg_addr */ > + ogma_set_phy_reg_sub( ctrl_p, phy_addr, OGMA_PHY_REG_ADDR_MMD_AAD, reg_addr); > + > + /* write value to MMD ADDR */ > + cmd = ( (1U << 14) | dev_addr); > + > + /* set command to MMD access control register */ > + ogma_set_phy_reg_sub( ctrl_p, phy_addr, OGMA_PHY_REG_ADDR_MMD_AC, cmd); > +} > + > +static void ogma_set_phy_mmd_reg_sub ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint8 phy_addr, > + ogma_uint8 dev_addr, > + ogma_uint16 reg_addr, > + ogma_uint16 value > + ) > +{ > + /* set target mmd reg_addr */ > + ogma_set_phy_target_mmd_reg_addr( ctrl_p, > + phy_addr, > + dev_addr, > + reg_addr); > + > + /* Write value to MMD access address data register */ > + ogma_set_phy_reg_sub( ctrl_p, phy_addr, OGMA_PHY_REG_ADDR_MMD_AAD, value); > + > +} > + > +static ogma_uint16 ogma_get_phy_mmd_reg_sub ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint8 phy_addr, > + ogma_uint8 dev_addr, > + ogma_uint16 reg_addr > + ) > +{ > + /* set target mmd reg_addr */ > + ogma_set_phy_target_mmd_reg_addr( ctrl_p, > + phy_addr, > + dev_addr, > + reg_addr); > + > + /* Read value for MMD access address data register */ > + return ogma_get_phy_reg_sub( ctrl_p, phy_addr, OGMA_PHY_REG_ADDR_MMD_AAD); > +} > + > +ogma_err_t ogma_set_gmac_lpictrl_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint32 value > + ) > +{ > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + /* set value tp LSIPCR Register */ > + ogma_set_mac_reg( ctrl_p, OGMA_GMAC_REG_ADDR_LPICSR, value); > + > + > + return OGMA_ERR_OK; > +} > + > +ogma_err_t ogma_get_gmac_lpictrl_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint32 *value_p > + ) > +{ > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ( ctrl_p == NULL) || > + ( value_p == NULL) ){ > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + /* Read LSIPCR Register */ > + *value_p = ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_LPICSR); > + > + > + return OGMA_ERR_OK; > +} > + > +ogma_err_t ogma_set_gmac_lpitimer_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint16 ls_timer_ms, > + ogma_uint16 tw_timer_ms > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return OGMA_ERR_PARAM; > + } > + > + if ( ls_timer_ms > 1024U) { > + return OGMA_ERR_RANGE; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + /* make LPICTR value*/ > + value = ( ( ( ogma_uint32)ls_timer_ms << OGMA_GMAC_LPITCR_REG_LIT) | > + ( tw_timer_ms << OGMA_GMAC_LPITCR_REG_TWT) ); > + > + /* Write timer value to LSIPCR Register */ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_LPITCR, > + value); > + > + > + return OGMA_ERR_OK; > +} > + > +ogma_err_t ogma_get_gmac_lpitimer_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint16 *ls_timer_ms_p, > + ogma_uint16 *tw_timer_ms_p > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ( ctrl_p == NULL) || > + ( ls_timer_ms_p == NULL) || > + ( tw_timer_ms_p == NULL) ) { > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + /* Read timer value for LSIPCR Register */ > + value = ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_LPITCR); > + > + /* make ls_timer_ms value*/ > + *ls_timer_ms_p = ( ogma_uint16)( ( value >> OGMA_GMAC_LPITCR_REG_LIT) & > + OGMA_GMAC_LPITCR_REG_MASK_LIT); > + > + /* make tw_timer_ms value*/ > + *tw_timer_ms_p = ( ogma_uint16)( ( value >> OGMA_GMAC_LPITCR_REG_TWT) & > + OGMA_GMAC_LPITCR_REG_MASK_TWT); > + > + > + return OGMA_ERR_OK; > +} > + > +void ogma_set_phy_mmd_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint8 phy_addr, > + ogma_uint8 dev_addr, > + ogma_uint16 reg_addr, > + ogma_uint16 value > + ) > +{ > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return; > + } > + > + if ( ( phy_addr > 31U) || > + ( dev_addr > 31U) ) { > + return; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return; > + } > + > + ogma_set_phy_mmd_reg_sub ( ctrl_p, > + phy_addr, > + dev_addr, > + reg_addr, > + value); > + > + > + return; > +} > + > +ogma_uint16 ogma_get_phy_mmd_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint8 phy_addr, > + ogma_uint8 dev_addr, > + ogma_uint16 reg_addr > + ) > +{ > + ogma_uint16 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return 0; > + } > + > + if ( ( phy_addr > 31U) || > + ( dev_addr > 31U) ) { > + return 0; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return 0; > + } > + > + value = ogma_get_phy_mmd_reg_sub ( ctrl_p, > + phy_addr, > + dev_addr, > + reg_addr); > + > + > + return value; > +} > + > +ogma_err_t ogma_get_phy_link_status ( > + ogma_handle_t ogma_handle, > + ogma_uint8 phy_addr, > + ogma_phy_link_status_t *phy_link_status_p > + ) > +{ > + ogma_uint32 value, tmp, exp; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ( ctrl_p == NULL) || > + ( phy_link_status_p == NULL) ){ > + return OGMA_ERR_PARAM; > + } > + > + if ( phy_addr >= 32) { > + return OGMA_ERR_RANGE; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + pfdep_memset( phy_link_status_p, 0, sizeof( ogma_phy_link_status_t) ); > + > + /* Read PHY CONTROL Register */ > + tmp = ogma_get_phy_reg_sub( ctrl_p, phy_addr, OGMA_PHY_REG_ADDR_CONTROL); > + > + /* Read PHY STATUS Register */ > + value = ogma_get_phy_reg_sub( ctrl_p, phy_addr, OGMA_PHY_REG_ADDR_STATUS); > + > + /* check latched_link_down_flag */ > + if ( ( value & ( 1U << OGMA_PHY_STATUS_REG_LINK_STATUS) ) == 0) { > + phy_link_status_p->latched_link_down_flag = OGMA_TRUE; > + > + /* Read PHY STATUS Register */ > + value = ogma_get_phy_reg_sub( ctrl_p, phy_addr, OGMA_PHY_REG_ADDR_STATUS); > + > + } > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "CONTROL Register value %08x\n", tmp); > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "PHY STATUS register value %08x\n", value); > + > + /* Check Current Link Status */ > + if ( ( value & ( 1U << OGMA_PHY_STATUS_REG_LINK_STATUS) ) != 0 ) { > + phy_link_status_p->up_flag = OGMA_TRUE; > + } > + > + /* check Auto-Negotiation Enable */ > + if ( ( ( tmp & ( 1U << OGMA_PHY_CONTROL_REG_AUTO_NEGO_ENABLE) ) != 0) && > + ( ( value & ( 1U << OGMA_PHY_STATUS_REG_AUTO_NEGO_ABILITY) ) != 0) ) { > + phy_link_status_p->auto_nego_enable_flag = OGMA_TRUE; > + } > + > + /* Check Current Autonegotiation Complete Status */ > + if ( phy_link_status_p->up_flag && > + phy_link_status_p->auto_nego_enable_flag && > + ( ( value & ( 1U << OGMA_PHY_STATUS_REG_AUTO_NEGO_COMP) ) != 0) ) { > + phy_link_status_p->auto_nego_complete_flag = OGMA_TRUE; > + } > + > + /* start Check Current Link Speed */ > + if ( phy_link_status_p->up_flag) { > + > + if ( phy_link_status_p->auto_nego_enable_flag == OGMA_FALSE) { > + > + /* Speed check */ > + if ( ( ( tmp & ( 1U << OGMA_PHY_CONTROL_REG_SPEED_SELECTION_LSB) ) == 0) && > + ( ( tmp & ( 1U << OGMA_PHY_CONTROL_REG_SPEED_SELECTION_MSB) ) != 0) ) { > + > + phy_link_status_p->link_speed = OGMA_PHY_LINK_SPEED_1G; > + > + } else if ( ( ( tmp & ( 1U << OGMA_PHY_CONTROL_REG_SPEED_SELECTION_LSB) ) != 0) && > + ( ( tmp & ( 1U << OGMA_PHY_CONTROL_REG_SPEED_SELECTION_MSB) ) == 0) ) { > + > + phy_link_status_p->link_speed = OGMA_PHY_LINK_SPEED_100M; > + > + } else { > + > + phy_link_status_p->link_speed = OGMA_PHY_LINK_SPEED_10M; > + } > + > + /* Duplex check */ > + if ( ( tmp & ( 1U << OGMA_PHY_CONTROL_REG_DUPLEX_MODE) ) == 0) { > + > + phy_link_status_p->half_duplex_flag = OGMA_TRUE; > + } > + > + } else if ( phy_link_status_p->auto_nego_complete_flag == OGMA_TRUE) { > + /* case auto_nego_enable_flag TRUE && auto_nego_complete_flag TRUE */ > + > + /* Read MASTER-SLAVE Control Register */ > + value = ogma_get_phy_reg_sub( ctrl_p, > + phy_addr, > + OGMA_PHY_REG_ADDR_MASTER_SLAVE_CONTROL); > + > + /* Read MASTER-SLAVE Status Register */ > + tmp = ogma_get_phy_reg_sub( ctrl_p, > + phy_addr, > + OGMA_PHY_REG_ADDR_MASTER_SLAVE_STATUS); > + > + /* Check Current Link Speed */ > + if ( ( ( value & ( 1U << OGMA_PHY_MSC_REG_1000BASE_FULL) ) != 0) && > + ( ( tmp & ( 1U << OGMA_PHY_MSS_REG_LP_1000BASE_FULL) ) != 0) ) { > + > + phy_link_status_p->link_speed = OGMA_PHY_LINK_SPEED_1G; > + > + } else if ( ( ( value & ( 1U << OGMA_PHY_MSC_REG_1000BASE_HALF) ) != 0) && > + ( ( tmp & ( 1U << OGMA_PHY_MSS_REG_LP_1000BASE_HALF) ) != 0) ) { > + > + phy_link_status_p->link_speed = OGMA_PHY_LINK_SPEED_1G; > + > + phy_link_status_p->half_duplex_flag = OGMA_TRUE; > + > + } else { > + > + /* Read Auto-Negotiation Advertisement register */ > + value = ogma_get_phy_reg_sub( ctrl_p, > + phy_addr, > + OGMA_PHY_REG_ADDR_AUTO_NEGO_ABILTY); > + > + /* Read Auto-Negotiation Link Partner Base Page Ability register */ > + tmp = ogma_get_phy_reg_sub( ctrl_p, > + phy_addr, > + OGMA_PHY_REG_ADDR_AUTO_NEGO_LINK_PATNER_ABILTY); > + > + value = ( ( ( value & tmp) >> OGMA_PHY_ANA_REG_TAF) & > + OGMA_PHY_ANA_REG_TAF_MASK); > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "TAF value %08x\n", value); > + > + if ( value & OGMA_PHY_TAF_REG_100BASE_FULL) { /* 100M full */ > + > + phy_link_status_p->link_speed = OGMA_PHY_LINK_SPEED_100M; > + > + } else if ( value & OGMA_PHY_TAF_REG_100BASE_HALF) { /* 100M half */ > + > + phy_link_status_p->link_speed = OGMA_PHY_LINK_SPEED_100M; > + > + phy_link_status_p->half_duplex_flag = OGMA_TRUE; > + > + } else if ( value & OGMA_PHY_TAF_REG_10BASE_FULL) { /* 10M full */ > + > + phy_link_status_p->link_speed = OGMA_PHY_LINK_SPEED_10M; > + > + } else { /* value = OGMA_PHY_TAF_REG_10BASE_HALF 10M Half */ > + > + phy_link_status_p->link_speed = OGMA_PHY_LINK_SPEED_10M; > + > + phy_link_status_p->half_duplex_flag = OGMA_TRUE; > + } > + > + } > + } > + } /* End Check Current Link Speed */ > + > + /* Check LPI Capable */ > + if ( phy_link_status_p->up_flag && > + phy_link_status_p->auto_nego_complete_flag && > + phy_link_status_p->link_speed != OGMA_PHY_LINK_SPEED_10M && > + phy_link_status_p->half_duplex_flag == OGMA_FALSE && > + ctrl_p->param.gmac_config.phy_interface != OGMA_PHY_INTERFACE_RMII) { > + > + /* Read EEE advertisement register */ > + value = ogma_get_phy_mmd_reg_sub( ctrl_p, > + phy_addr, > + OGMA_PHY_DEV_ADDR_AUTO_NEGO, > + OGMA_PHY_AUTO_NEGO_REG_ADDR_EEE_ADVERTISE); > + > + /* Read EEE link partner ability register */ > + tmp = ogma_get_phy_mmd_reg_sub( ctrl_p, > + phy_addr, > + OGMA_PHY_DEV_ADDR_AUTO_NEGO, > + OGMA_PHY_AUTO_NEGO_REG_ADDR_EEE_LP_ABILITY); > + > + exp = ( ( phy_link_status_p->link_speed == OGMA_PHY_LINK_SPEED_1G) ? > + OGMA_PHY_AUTO_NEGO_1000BASE_EEE: > + OGMA_PHY_AUTO_NEGO_100BASE_EEE); > + > + /* Check EEE Advertise and EEE LP Ability */ > + if ( ( value & tmp & exp) != 0 ) { > + phy_link_status_p->lpi_capable_flag = OGMA_TRUE; > + } > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "EEE advertisement register value %08x\n", > + value); > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "EEE link partner ability register value %08x\n", > + tmp); > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "EEE LPI EXP value %08x\n", > + exp); > + } > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "phy_link_status_p->latched_link_down_flag %u\n", > + phy_link_status_p->latched_link_down_flag); > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "phy_link_status_p->up_flag %u\n", > + phy_link_status_p->up_flag); > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "phy_link_status_p->auto_nego_enable_flag %u\n", > + phy_link_status_p->auto_nego_enable_flag); > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "phy_link_status_p->auto_nego_complete_flag %u\n", > + phy_link_status_p->auto_nego_complete_flag); > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "phy_link_status_p->link_speed %u\n", > + phy_link_status_p->link_speed); > + > + pfdep_print( PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED, > + "phy_link_status_p->lpi_capable_flag %u\n", > + phy_link_status_p->lpi_capable_flag); > + > + > + return OGMA_ERR_OK; > +} > + > +ogma_gmac_int_sbd_regs_t ogma_get_gmac_int_sbd_irq_enable ( > + ogma_handle_t ogma_handle > + ) > +{ > + ogma_gmac_int_sbd_regs_t gmac_int_sbd_regs = {0}; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return gmac_int_sbd_regs; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return gmac_int_sbd_regs; > + } > + > + /* Read IER register */ > + gmac_int_sbd_regs.base = ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_IER); > + /* Read IMR register */ > + gmac_int_sbd_regs.extended = ( ( ~( ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_IMR) ) ) & > + OGMA_GMAC_INT_SBD_IRQ_ISR_ALL); > + > + > + > + return gmac_int_sbd_regs; > +} > + > +ogma_gmac_int_sbd_regs_t ogma_get_gmac_int_sbd_irq_status_non_clear ( > + ogma_handle_t ogma_handle, > + ogma_bool mask_flag > + ) > +{ > + ogma_gmac_int_sbd_regs_t gmac_int_sbd_regs = {0}; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return gmac_int_sbd_regs; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return gmac_int_sbd_regs; > + } > + > + /* Read SR register */ > + gmac_int_sbd_regs.base = ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_SR); > + > + /* Read ISR register */ > + gmac_int_sbd_regs.extended = ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_ISR); > + > + if ( mask_flag) { > + > + /* Read IER register */ > + gmac_int_sbd_regs.base &= ( ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_IER) | > + ( ~OGMA_GMAC_INT_SBD_IRQ_IER_ALL) ); > + /* Read IMR register */ > + gmac_int_sbd_regs.extended &= ( ( ~( ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_IMR) ) ) & > + OGMA_GMAC_INT_SBD_IRQ_ISR_ALL); > + } > + > + > + return gmac_int_sbd_regs; > +} > + > +ogma_err_t ogma_clear_gmac_int_sbd_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_gmac_int_sbd_regs_t int_sbd_regs > + ) > +{ > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + /* Write Clear SR register */ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_SR, > + ( int_sbd_regs.base & OGMA_GMAC_INT_SBD_IRQ_SR_WC_ALL) ); > + > + > + return OGMA_ERR_OK; > +} > + > +ogma_err_t ogma_enable_gmac_int_sbd_irq ( > + ogma_handle_t ogma_handle, > + ogma_gmac_int_sbd_regs_t int_sbd_regs > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + /* Read IER register for No Change Value Keep */ > + value = ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_IER); > + /* Write IER register */ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_IER, > + ( value | ( int_sbd_regs.base & OGMA_GMAC_INT_SBD_IRQ_IER_ALL) ) ); > + > + /* Read IMR register for No Change Value Keep */ > + value = ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_IMR); > + /* Write IMR register */ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_IMR, > + ( value & ( ~( int_sbd_regs.extended & > + OGMA_GMAC_INT_SBD_IRQ_ISR_ALL) ) ) ); > + > + > + return OGMA_ERR_OK; > +} > + > +ogma_err_t ogma_disable_gmac_int_sbd_irq ( > + ogma_handle_t ogma_handle, > + ogma_gmac_int_sbd_regs_t int_sbd_regs > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + /* Read IER register for No Change Value Keep */ > + value = ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_IER); > + /* Write IER register */ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_IER, > + ( value & ( ~(int_sbd_regs.base) ) ) ); > + > + /* Read IMR register for No Change Value Keep */ > + value = ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_IMR); > + /* Write IMR register */ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_IMR, > + ( value | ( int_sbd_regs.extended & > + OGMA_GMAC_INT_SBD_IRQ_ISR_ALL) ) ); > + > + > + return OGMA_ERR_OK; > +} > + > +ogma_err_t ogma_get_gmac_rgmii_status_reg ( > + ogma_handle_t ogma_handle, > + ogma_uint32 *value_p > + ) > +{ > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ( ctrl_p == NULL) || > + ( value_p == NULL) ){ > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->param.use_gmac_flag) { > + return OGMA_ERR_NOTAVAIL; > + } > + > + /* Read RGMII Status Register */ > + *value_p = ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_RSR); > + > + > + return OGMA_ERR_OK; > +} > + > +#ifdef OGMA_CONFIG_USE_READ_GMAC_STAT > +ogma_err_t ogma_read_gmac_stat ( > + ogma_handle_t ogma_handle, > + ogma_uint32 *value_p, > + ogma_bool reset_flag > + ) > +{ > + > + ogma_uint i; > + > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ( ctrl_p == NULL) || > + ( value_p == NULL) ) { > + return OGMA_ERR_PARAM; > + } > + > + > + for ( i = 0; > + i < sizeof(ogma_gmac_mmc_reg_info)/sizeof(ogma_gmac_mmc_reg_info[0] ); > + i++) { > + > + value_p[i] = ogma_get_mac_reg(ctrl_p, > + ogma_gmac_mmc_reg_info[i].addr); > + } > + > + if ( reset_flag) { > + /* Reset all counters. */ > + ogma_set_mac_reg(ctrl_p, OGMA_GMAC_REG_ADDR_MMC_CNTL, 1); > + } > + > + > + return OGMA_ERR_OK; > +} > +#endif /* OGMA_CONFIG_USE_READ_GMAC_STAT */ > + > +ogma_err_t ogma_reset_gmac_stat ( > + ogma_handle_t ogma_handle > + ) > +{ > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return OGMA_ERR_PARAM; > + } > + > + > + /* Reset all counters. */ > + ogma_set_mac_reg(ctrl_p, OGMA_GMAC_REG_ADDR_MMC_CNTL, 1); > + > + > + return OGMA_ERR_OK; > +} > + > +ogma_err_t ogma_softreset_gmac ( > + ogma_ctrl_t *ctrl_p > + ) > +{ > + ogma_uint32 value; > + pfdep_err_t pfdep_err; > + > + /* F_GMAC4MT soft reset*/ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_BMR, > + OGMA_GMAC_BMR_REG_RESET); > + /* Wait soft reset */ > + pfdep_err = pfdep_msleep( 1); > + > + if ( pfdep_err == PFDEP_ERR_INTERRUPT) { > + > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "Wait for BMR soft reset error.\n"); > + > + return OGMA_ERR_INTERRUPT; > + } > + > + /* Read F_GMAC4MT BMR */ > + value = ogma_get_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_BMR); > + > + /* check software reset result*/ > + if ( value & OGMA_GMAC_BMR_REG_SWR) { > + return OGMA_ERR_AGAIN; > + } > + > + return OGMA_ERR_OK; > +} > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_internal.h b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_internal.h > new file mode 100644 > index 000000000000..e2e25c71abaa > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_internal.h > @@ -0,0 +1,210 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#ifndef OGMA_INTERNAL_H > +#define OGMA_INTERNAL_H > +#include "netsec_for_uefi/netsec_sdk/include/ogma_api.h" > +#include "ogma_reg.h" > +#include "pfdep.h" > + > +/* Just a million to prevent typing errors. */ > +#define OGMA_CLK_MHZ (1000000) > + > +#define OGMA_INSTANCE_NUM_MAX 1 > + > +#define OGMA_RX_PKT_BUF_LEN 1522 > +#define OGMA_RX_JUMBO_PKT_BUF_LEN 9022 > +#define OGMA_DUMMY_DESC_ENTRY_LEN 48 > + > +#define OGMA_REG_ADDR_CLK_EN OGMA_REG_ADDR_CLK_EN_0 > + > +extern const ogma_uint32 desc_ring_irq_inten_reg_addr[OGMA_DESC_RING_ID_MAX + 1]; > +extern const ogma_uint32 desc_ring_irq_inten_set_reg_addr[OGMA_DESC_RING_ID_MAX + 1]; > +extern const ogma_uint32 desc_ring_irq_inten_clr_reg_addr[OGMA_DESC_RING_ID_MAX + 1]; > +extern const ogma_uint32 ogma_desc_start_reg_addr[OGMA_DESC_RING_ID_MAX+1]; > + > +typedef struct ogma_ctrl_s ogma_ctrl_t; > +typedef struct ogma_desc_ring_s ogma_desc_ring_t; > +typedef struct ogma_clk_ctrl_s ogma_clk_ctrl_t; > +typedef union ogma_desc_entry_priv_u ogma_desc_entry_priv_t; > + > +struct ogma_clk_ctrl_s{ > + ogma_uint8 mac_req_num; > +}; > + > + > +struct ogma_desc_ring_s{ > + > + ogma_desc_ring_id_t ring_id; > + > + ogma_desc_ring_param_t param; > + > + ogma_uint rx_desc_ring_flag:1; > + > + ogma_uint tx_desc_ring_flag:1; > + > + ogma_uint running_flag:1; > + > + ogma_uint full_flag:1; > + > + ogma_uint8 desc_entry_len; > + > + ogma_uint16 head_idx; > + > + ogma_uint16 tail_idx; > + > + ogma_uint16 rx_num; > + > + ogma_uint16 tx_done_num; > + > + pfdep_hard_lock_t inten_reg_hard_lock; > + > + pfdep_soft_lock_t soft_lock; > + > + void *desc_ring_cpu_addr; > + > + pfdep_phys_addr_t desc_ring_phys_addr; > + > + ogma_frag_info_t *frag_info_p; > + > + ogma_desc_entry_priv_t *priv_data_p; > +}; > + > +struct ogma_ctrl_s{ > + ogma_ctrl_t *next_p; > + > + ogma_uint core_enabled_flag:1; > + > + ogma_uint gmac_rx_running_flag:1; > + > + ogma_uint gmac_tx_running_flag:1; > + > + ogma_uint gmac_mode_valid_flag:1; > + > + ogma_uint normal_desc_ring_valid:1; > + > + void *base_addr; > + > + pfdep_dev_handle_t dev_handle; > + > + ogma_param_t param; > + > + ogma_clk_ctrl_t clk_ctrl; > + > + ogma_uint32 rx_pkt_buf_len; > + > + ogma_desc_ring_t desc_ring[OGMA_DESC_RING_ID_MAX+1]; > + > + ogma_gmac_mode_t gmac_mode; > + > + pfdep_hard_lock_t inten_reg_hard_lock; > + > + pfdep_hard_lock_t clk_ctrl_hard_lock; > + > + void *dummy_desc_entry_addr; > + > + pfdep_phys_addr_t dummy_desc_entry_phys_addr; > + > +#ifdef OGMA_CONFIG_REC_STAT > + /** > + * Statistics information. > + * > + * Note: Since mutual access exclusion is omitted, > + * these values might be inaccurate. > + */ > + ogma_stat_info_t stat_info; > +#endif /* OGMA_CONFIG_REC_STAT */ > + > +}; > + > +union ogma_desc_entry_priv_u{ > + pfdep_pkt_handle_t pkt_handle; > +}; > + > +/***************************************************************** > + ***************************************************************** > + *****************************************************************/ > + > +/** > + * > + */ > +ogma_err_t ogma_alloc_desc_ring ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_id_t ring_idx > + ); > +/** > + * > + */ > +void ogma_free_desc_ring ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p > + ); > + > +/** > + * > + */ > +ogma_err_t ogma_setup_rx_desc_ring ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p > + ); > + > +/** > + * > + */ > +void ogma_uninit_pkt_desc_ring ( > + ogma_ctrl_t *ctrl_p, > + ogma_desc_ring_t *desc_ring_p > + ); > + > +/** > + * > + */ > +void ogma_push_clk_req ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint32 domain > + ); > + > +void ogma_pop_clk_req( > + ogma_ctrl_t *ctrl_p, > + ogma_uint32 domain > + ); > + > + > +ogma_err_t ogma_softreset_gmac ( > + ogma_ctrl_t *ctrl_p > + ); > + > +#ifdef OGMA_CONFIG_CHECK_CLK_SUPPLY > +#include "ogma_basic_access.h" > +/*include for ogma_read_reg*/ > +static __inline void ogma_check_clk_supply ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint32 domain > + ) > +{ > + ogma_uint32 value; > + > + value = ogma_read_reg( ctrl_p, OGMA_REG_ADDR_CLK_EN); > + > + pfdep_assert( ( ( value & domain ) == domain) ); > +} > + > +#else > + > +#define ogma_check_clk_supply( ctrl_p, domain) > + > +#endif /* OGMA_CONFIG_CHECK_CLK_SUPPLY */ > + > +#endif /* OGMA_INTERNAL_H */ > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_misc.c b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_misc.c > new file mode 100644 > index 000000000000..3c54c63126a7 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_misc.c > @@ -0,0 +1,1385 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#include "ogma_config.h" > +#include "ogma_internal.h" > +#include "ogma_basic_access.h" > +#include "ogma_misc_internal.h" > + > +#include > + > +ogma_global_t ogma_global = { > + OGMA_FALSE, > + 0, > + NULL > +}; > + > + > +static const ogma_uint32 hw_ver_reg_addr = OGMA_REG_ADDR_HW_VER; > +static const ogma_uint32 mc_ver_reg_addr = OGMA_REG_ADDR_MC_VER; > + > +static const ogma_uint32 desc_ring_irq_status_reg_addr[OGMA_DESC_RING_ID_MAX + 1] = { > + OGMA_REG_ADDR_NRM_TX_STATUS, > + OGMA_REG_ADDR_NRM_RX_STATUS, > +}; > + > +static const ogma_uint32 desc_ring_config_reg_addr[OGMA_DESC_RING_ID_MAX + 1] = { > + OGMA_REG_ADDR_NRM_TX_CONFIG, > + OGMA_REG_ADDR_NRM_RX_CONFIG, > + > +}; > + > + > +/* Internal function definition*/ > +#ifndef OGMA_CONFIG_DISABLE_CLK_CTRL > +STATIC void ogma_set_clk_en_reg ( > + ogma_ctrl_t *ctrl_p > + ); > +#endif /* OGMA_CONFIG_DISABLE_CLK_CTRL */ > +STATIC void ogma_global_init ( void); > + > +STATIC ogma_err_t ogma_probe_hardware ( > + void *base_addr > + ); > + > +STATIC void ogma_reset_hardware ( > + ogma_ctrl_t *ctrl_p > + ); > + > +STATIC void ogma_set_microcode( > + ogma_ctrl_t *ctrl_p, > + const void *dma_hm_mc_addr, > + ogma_uint32 dma_hm_mc_len, > + const void *dma_mh_mc_addr, > + ogma_uint32 dma_mh_mc_len, > + const void *pktc_mc_addr, > + ogma_uint32 pktc_mc_len > + ); > + > +STATIC ogma_uint32 ogma_calc_pkt_ctrl_reg_param ( > + const ogma_pkt_ctrl_param_t *pkt_ctrl_param_p > + ); > + > +STATIC void ogma_internal_terminate ( > + ogma_ctrl_t *ctrl_p > + ); > + > +#ifdef OGMA_CONFIG_DISABLE_CLK_CTRL > + > +#define ogma_set_clk_en_reg( ctrl_p) > + > +#else /* OGMA_CONFIG_DISABLE_CLK_CTRL */ > +STATIC void ogma_set_clk_en_reg ( > + ogma_ctrl_t *ctrl_p > + ) > +{ > + ogma_uint32 value = 0; > + > + if ( ctrl_p->clk_ctrl.mac_req_num != 0) { > + value |= OGMA_CLK_EN_REG_DOM_G; > + } > + > + ogma_write_reg( ctrl_p, OGMA_REG_ADDR_CLK_EN, value); > +} > +#endif /* OGMA_CONFIG_DISABLE_CLK_CTRL */ > + > +void ogma_push_clk_req ( > + ogma_ctrl_t *ctrl_p, > + ogma_uint32 domain > + ) > +{ > + pfdep_hard_lock_ctx_t clk_ctrl_hard_lock_ctx; > + > + pfdep_acquire_hard_lock ( > + &ctrl_p->clk_ctrl_hard_lock, > + &clk_ctrl_hard_lock_ctx); > + > + if ( ( domain & OGMA_CLK_EN_REG_DOM_G) != 0) { > + ++ctrl_p->clk_ctrl.mac_req_num; > + } > + > + ogma_set_clk_en_reg( ctrl_p); > + > + pfdep_release_hard_lock( > + &ctrl_p->clk_ctrl_hard_lock, > + &clk_ctrl_hard_lock_ctx); > +} > + > +void ogma_pop_clk_req( > + ogma_ctrl_t *ctrl_p, > + ogma_uint32 domain > + ) > +{ > + pfdep_hard_lock_ctx_t clk_ctrl_hard_lock_ctx; > + > + pfdep_acquire_hard_lock( > + &ctrl_p->clk_ctrl_hard_lock, > + &clk_ctrl_hard_lock_ctx); > + > + if ( ( domain & OGMA_CLK_EN_REG_DOM_G) != 0) { > + --ctrl_p->clk_ctrl.mac_req_num; > + } > + > + ogma_set_clk_en_reg( ctrl_p); > + > + pfdep_release_hard_lock( > + &ctrl_p->clk_ctrl_hard_lock, > + &clk_ctrl_hard_lock_ctx); > +} > + > +/* Internal function */ > +STATIC void ogma_global_init ( void) > +{ > + ogma_global.valid_flag = OGMA_TRUE; > +} > + > +STATIC ogma_err_t ogma_probe_hardware ( > + void *base_addr > + ) > +{ > + > + ogma_uint32 value; > + > + /* Read HW_VER Register */ > + value = pfdep_iomem_read((void *) > + ((pfdep_cpu_addr_t)base_addr + > + (OGMA_REG_ADDR_HW_VER << 2))); > + > + if ( value != OGMA_VER_NETSEC) { > + pfdep_print(PFDEP_DEBUG_LEVEL_WARNING, > + "Hardware version check warning. Actual:0x%08x, Expected:0x%08x\n", > + (unsigned int)value, > + (unsigned int)OGMA_VER_NETSEC); > + } > + > + if ( OGMA_VER_MAJOR_NUM(value) != OGMA_VER_MAJOR_NUM(OGMA_VER_NETSEC) ) { > + pfdep_print(PFDEP_DEBUG_LEVEL_FATAL, > + "Hardware Major version check failed. Actual:0x%08x, Expected:0x%08x\n", > + (unsigned int)OGMA_VER_MAJOR_NUM(value), > + (unsigned int)OGMA_VER_MAJOR_NUM(OGMA_VER_NETSEC) ); > + return OGMA_ERR_NOTAVAIL; > + } > + > + /* Print hardware version information. */ > + pfdep_print(PFDEP_DEBUG_LEVEL_NOTICE, > + "NETSEC found. Hardware version: %08x\n", > + value); > + > + > + return OGMA_ERR_OK; > +} > + > +STATIC void ogma_reset_hardware ( > + ogma_ctrl_t *ctrl_p > + ) > +{ > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_CLK_EN, > + OGMA_CLK_EN_REG_DOM_ALL); > + > + > + /* > + * Stop dma engines if cores are enabled > + */ > + if (ogma_read_reg(ctrl_p, OGMA_REG_ADDR_DIS_CORE) == 0) { > + > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_DMA_HM_CTRL, > + OGMA_DMA_CTRL_REG_STOP); > + > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_DMA_MH_CTRL, > + OGMA_DMA_CTRL_REG_STOP); > + > + while ( ( ogma_read_reg( ctrl_p, OGMA_REG_ADDR_DMA_HM_CTRL) > + & OGMA_DMA_CTRL_REG_STOP) != 0) { > + ; > + } > + > + while ( ( ogma_read_reg( ctrl_p, OGMA_REG_ADDR_DMA_MH_CTRL) > + & OGMA_DMA_CTRL_REG_STOP) != 0) { > + ; > + } > + } > + > + if ( ctrl_p->param.use_gmac_flag) { > + > + /* Reset F_GMAC4MT */ > + ogma_set_mac_reg( ctrl_p, > + OGMA_GMAC_REG_ADDR_BMR, > + OGMA_GMAC_BMR_REG_RESET); > + > + } > + > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_SOFT_RST, > + OGMA_SOFT_RST_REG_RESET); > + > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_SOFT_RST, > + OGMA_SOFT_RST_REG_RUN); > + > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_COM_INIT, > + OGMA_COM_INIT_REG_ALL); > + > + while (ogma_read_reg(ctrl_p, OGMA_REG_ADDR_COM_INIT) != 0) { > + ; > + } > + > + if ( ctrl_p->param.use_gmac_flag) { > + > + > + /* MAC desc init */ > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_MAC_DESC_INIT, > + OGMA_MAC_DESC_INIT_REG_INIT); > + > + /* Wait MAC desc init done */ > + while ( ( ogma_read_reg( ctrl_p, OGMA_REG_ADDR_MAC_DESC_INIT) > + & OGMA_MAC_DESC_INIT_REG_INIT) != 0) { > + ; > + } > + > + > + /* set MAC_INTF_SEL */ > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_MAC_INTF_SEL, > + ctrl_p->param.gmac_config.phy_interface); > + > + > + } > +} > + > +#define OGMA_ROUND_UP(numerator,denominator) (((numerator) + (denominator)) - 1 / (denominator)) > + > +STATIC void ogma_set_microcode ( > + ogma_ctrl_t *ctrl_p, > + const void *dma_hm_mc_addr, > + ogma_uint32 dma_hm_mc_len, > + const void *dma_mh_mc_addr, > + ogma_uint32 dma_mh_mc_len, > + const void *pktc_mc_addr, > + ogma_uint32 pktc_mc_len > + ) > +{ > + ogma_uint i; > + > + const UINT32 *dmac_hm_cmd_data = (const UINT32 *)dma_hm_mc_addr; > + const UINT32 *dmac_mh_cmd_data = (const UINT32 *)dma_mh_mc_addr; > + const UINT32 *core_cmd_data = (const UINT32 *)pktc_mc_addr; > + > + /* Loads microcodes to microengines. */ > + for( i = 0; i < dma_hm_mc_len; i++) { > + UINT32 data = MmioRead32((UINTN)dmac_hm_cmd_data); > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_DMAC_HM_CMD_BUF, > + data ); > + dmac_hm_cmd_data++; > + } > + > + for( i = 0; i < dma_mh_mc_len; i++) { > + UINT32 data = MmioRead32((UINTN)dmac_mh_cmd_data); > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_DMAC_MH_CMD_BUF, > + data ); > + dmac_mh_cmd_data++; > + } > + > + for( i = 0; i < pktc_mc_len; i++) { > + UINT32 data = MmioRead32((UINTN)core_cmd_data); > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_PKTC_CMD_BUF, > + data ); > + core_cmd_data++; > + } > + > +} > + > +STATIC ogma_uint32 ogma_calc_pkt_ctrl_reg_param ( > + const ogma_pkt_ctrl_param_t *pkt_ctrl_param_p > + ) > +{ > + ogma_uint32 param = 0; > + > + if ( pkt_ctrl_param_p->log_chksum_er_flag) { > + param |= OGMA_PKT_CTRL_REG_LOG_CHKSUM_ER; > + } > + > + if ( pkt_ctrl_param_p->log_hd_imcomplete_flag) { > + param |= OGMA_PKT_CTRL_REG_LOG_HD_INCOMPLETE; > + } > + > + if ( pkt_ctrl_param_p->log_hd_er_flag) { > + param |= OGMA_PKT_CTRL_REG_LOG_HD_ER; > + } > + > + if ( pkt_ctrl_param_p->drp_no_match_flag) { > + param |= OGMA_PKT_CTRL_REG_DRP_NO_MATCH; > + } > + > + return param; > +} > + > +ogma_err_t ogma_init ( > + void *base_addr, > + pfdep_dev_handle_t dev_handle, > + const ogma_param_t *param_p, > + const void *dma_hm_mc_addr, > + ogma_uint32 dma_hm_mc_len, > + const void *dma_mh_mc_addr, > + ogma_uint32 dma_mh_mc_len, > + const void *pktc_mc_addr, > + ogma_uint32 pktc_mc_len, > + ogma_handle_t *ogma_handle_p > + ) > +{ > + ogma_int i; > + ogma_uint32 domain = 0, value; > + ogma_err_t ogma_err; > + ogma_ctrl_t *ctrl_p = NULL; > + > + ogma_bool inten_reg_hard_lock_init_flag = OGMA_FALSE; > + ogma_bool clk_ctrl_hard_lock_init_flag = OGMA_FALSE; > + > + ogma_bool all_lock_init_done_flag = OGMA_FALSE; > + > + pfdep_err_t pfdep_err; > + > + if ( ( param_p == NULL) || > + ( ogma_handle_p == NULL) ) { > + return OGMA_ERR_PARAM; > + } > + > + if ( ogma_global.list_entry_num + 1 > OGMA_INSTANCE_NUM_MAX) { > + return OGMA_ERR_INVALID; > + } > + > + if ((! param_p->desc_ring_param[OGMA_DESC_RING_ID_NRM_TX].valid_flag) && > + (! param_p->desc_ring_param[OGMA_DESC_RING_ID_NRM_RX].valid_flag)) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_init.\n" > + "Please set invalid packet desc_ring_param valid_flag.\n"); > + return OGMA_ERR_DATA; > + } > + > + if ( param_p->use_gmac_flag) { > + if ( ( param_p->gmac_config.phy_interface != > + OGMA_PHY_INTERFACE_GMII) && > + ( param_p->gmac_config.phy_interface != > + OGMA_PHY_INTERFACE_RGMII) && > + ( param_p->gmac_config.phy_interface != > + OGMA_PHY_INTERFACE_RMII) ) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_init.\n" > + "Please set phy_interface to valid value.\n"); > + return OGMA_ERR_DATA; > + } > + } else { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_init.\n" > + "Please set use_gmac_flag OGMA_TRUE.\n"); > + return OGMA_ERR_DATA; > + } > + > + ogma_err = ogma_probe_hardware( base_addr); > + > + if ( ogma_err != OGMA_ERR_OK) { > + return ogma_err; > + } > + > + if ( !ogma_global.valid_flag) { > + ogma_global_init(); > + } > + > + if ( ( ctrl_p = pfdep_malloc( sizeof( ogma_ctrl_t) ) ) == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_init.\n" > + "Failed to ogma_handle memory allocation.\n"); > + return OGMA_ERR_ALLOC; > + } > + > + pfdep_memset( ctrl_p, 0, sizeof( ogma_ctrl_t) ); > + > + ctrl_p->base_addr = base_addr; > + > + ctrl_p->dev_handle = dev_handle; > + > + pfdep_memcpy( ( void *)&ctrl_p->param, > + ( void *)param_p, > + sizeof( ogma_param_t) ); > + > + /* Initialize hardware lock */ > + pfdep_err = pfdep_init_hard_lock( &ctrl_p->inten_reg_hard_lock); > + if ( pfdep_err != PFDEP_ERR_OK) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_init.\n" > + "Failed to inten_reg_hard_lock's initialization.\n"); > + ogma_err = OGMA_ERR_ALLOC; > + goto err; > + } > + inten_reg_hard_lock_init_flag = OGMA_TRUE; > + > + pfdep_err = pfdep_init_hard_lock( &ctrl_p->clk_ctrl_hard_lock); > + if ( pfdep_err != PFDEP_ERR_OK) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_init.\n" > + "Failed to clk_ctrl_hard_lock's initialization.\n"); > + ogma_err = OGMA_ERR_ALLOC; > + goto err; > + } > + clk_ctrl_hard_lock_init_flag = OGMA_TRUE; > + > + all_lock_init_done_flag = OGMA_TRUE; > + > + pfdep_err = pfdep_dma_malloc( dev_handle, > + OGMA_DUMMY_DESC_ENTRY_LEN, > + &ctrl_p->dummy_desc_entry_addr, > + &ctrl_p->dummy_desc_entry_phys_addr); > + > + if ( pfdep_err != PFDEP_ERR_OK) { > + ogma_err = OGMA_ERR_ALLOC; > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_init.\n" > + "Failed to dummy_desc_entry's memory allocation.\n"); > + goto err; > + } > + > + /* clear dummy desc entry */ > + pfdep_memset( ctrl_p->dummy_desc_entry_addr, > + 0, > + OGMA_DUMMY_DESC_ENTRY_LEN); > + > + ogma_reset_hardware( ctrl_p); > + > + if ( param_p->use_gmac_flag) { > + domain |= OGMA_CLK_EN_REG_DOM_G; > + } > + > + ogma_push_clk_req( ctrl_p, domain); > + > + /* set PKT_CTRL */ > + value = ogma_calc_pkt_ctrl_reg_param( ¶m_p->pkt_ctrl_param); > + > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_PKT_CTRL, > + value); > + > + if ( param_p->use_jumbo_pkt_flag) { > + > + ctrl_p->rx_pkt_buf_len = OGMA_RX_JUMBO_PKT_BUF_LEN; > + > + value = ogma_read_reg( ctrl_p, > + OGMA_REG_ADDR_PKT_CTRL); > + > + value |= OGMA_PKT_CTRL_REG_EN_JUMBO; > + > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_PKT_CTRL, > + value); > + } else { > + > + ctrl_p->rx_pkt_buf_len = OGMA_RX_PKT_BUF_LEN; > + > + } > + > + /* set pkt desc ring config */ > + for ( i = 0; i <= OGMA_DESC_RING_ID_MAX; i++) { > + if ( ctrl_p->param.desc_ring_param[i].valid_flag) { > + value = > + ( ctrl_p->param.desc_ring_param[i].tmr_mode_flag << > + OGMA_REG_DESC_RING_CONFIG_TMR_MODE) | > + ( ctrl_p->param.desc_ring_param[i].little_endian_flag << > + OGMA_REG_DESC_RING_CONFIG_DAT_ENDIAN) ; > + > + ogma_write_reg( ctrl_p, > + desc_ring_config_reg_addr[i], > + value); > + > + } > + } > + > + /* set microengines */ > + ogma_set_microcode(ctrl_p, > + dma_hm_mc_addr, > + dma_hm_mc_len, > + dma_mh_mc_addr, > + dma_mh_mc_len, > + pktc_mc_addr, > + pktc_mc_len); > + > + /* alloc desc_ring*/ > + for( i = 0; i <= OGMA_DESC_RING_ID_MAX; i++) { > + ogma_err = ogma_alloc_desc_ring( ctrl_p, (ogma_desc_ring_id_t)i); > + if ( ogma_err != OGMA_ERR_OK) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_init.\n" > + "Failed to ring id NO.%d memory allocation.\n", > + i); > + goto err; > + } > + } > + > + if ( param_p->desc_ring_param[OGMA_DESC_RING_ID_NRM_RX].valid_flag) { > + if ( ( ogma_err = ogma_setup_rx_desc_ring( > + ctrl_p, > + &ctrl_p->desc_ring[OGMA_DESC_RING_ID_NRM_RX] ) ) > + != OGMA_ERR_OK) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_init.\n" > + "Failed to NRM_RX packet memory allocation.\n"); > + goto err; > + } > + } > + > + /* microengines need domain G */ > + ogma_push_clk_req( ctrl_p, OGMA_CLK_EN_REG_DOM_G); > + > + /* set DMA tmr ctrl*/ > + ogma_write_reg( ctrl_p, OGMA_REG_ADDR_DMA_TMR_CTRL, > + ( ogma_uint32)( ( OGMA_CONFIG_CLK_HZ / OGMA_CLK_MHZ) - 1) ); > + > + /* start microengines */ > + ogma_write_reg( ctrl_p, OGMA_REG_ADDR_DIS_CORE, 0); > + > + if ( pfdep_msleep(1) != PFDEP_ERR_OK) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_init.\n" > + "Failed to waiting for microcode initialize end.\n"); > + ogma_err = OGMA_ERR_INTERRUPT; > + goto err; > + } > + > + /* check microcode load end & start core */ > + value = ogma_read_reg( ctrl_p, OGMA_REG_ADDR_TOP_STATUS); > + > + if ( ( value & OGMA_TOP_IRQ_REG_ME_START) == 0) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_init.\n" > + "Failed to microcode loading.\n"); > + ogma_err = OGMA_ERR_INVALID; > + goto err; > + } > + > + /* clear microcode load end status */ > + ogma_write_reg( ctrl_p, OGMA_REG_ADDR_TOP_STATUS, > + OGMA_TOP_IRQ_REG_ME_START); > + > + ogma_pop_clk_req( ctrl_p, OGMA_CLK_EN_REG_DOM_G); > + > + ctrl_p->core_enabled_flag = OGMA_TRUE; > + > + ctrl_p->next_p = ogma_global.list_head_p; > + > + ogma_global.list_head_p = ctrl_p; > + > + ++ogma_global.list_entry_num; > + > + *ogma_handle_p = ctrl_p; > + > +#if 1 > + { > + > +#define OGMA_PKT_CTRL_REG_MODE_TAIKI (1UL << 28) > +#define OGMA_DMA_MH_CTRL_REG_MODE_TRANS (1UL << 20) > +#define OGMA_TOP_IRQ_REG_MODE_TRANS_COMP (1UL << 4) > +#define OGMA_MODE_TRANS_COMP_IRQ_T2N (1UL << 19) > + > + /* Read Pkt ctrl register */ > + value = ogma_read_reg( ctrl_p, OGMA_REG_ADDR_PKT_CTRL); > + value |= OGMA_PKT_CTRL_REG_MODE_TAIKI; > + > + /* change to noromal mode */ > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_DMA_MH_CTRL, > + OGMA_DMA_MH_CTRL_REG_MODE_TRANS); > + > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_PKT_CTRL, > + value); > + > + while ((ogma_read_reg(ctrl_p, OGMA_REG_ADDR_MODE_TRANS_COMP_STATUS) & > + OGMA_MODE_TRANS_COMP_IRQ_T2N) == 0) { > + ; > + } > + > + } > +#endif > + > + /* Print microcode version information. */ > + pfdep_print(PFDEP_DEBUG_LEVEL_NOTICE, > + "Microcode version: %08x\n", > + ogma_read_reg( ctrl_p, > + mc_ver_reg_addr) ); > + > + return OGMA_ERR_OK; > + > +err: > + if ( !all_lock_init_done_flag) { > + > + > + if ( clk_ctrl_hard_lock_init_flag) { > + pfdep_uninit_hard_lock( &ctrl_p->clk_ctrl_hard_lock); > + } > + > + if ( inten_reg_hard_lock_init_flag) { > + pfdep_uninit_hard_lock( &ctrl_p->inten_reg_hard_lock); > + } > + > + } else { > + > + ogma_internal_terminate( ctrl_p); > + > + } > + > + pfdep_free( ctrl_p); > + > + return ogma_err; > +} > + > +STATIC void ogma_internal_terminate ( > + ogma_ctrl_t *ctrl_p > + ) > +{ > + ogma_int i; > + > + ogma_reset_hardware( ctrl_p); > + > + /* free desc_ring */ > + for( i = 0; i <= OGMA_DESC_RING_ID_MAX; i++) { > + ogma_free_desc_ring( ctrl_p, &ctrl_p->desc_ring[i] ); > + } > + > + if ( ctrl_p->dummy_desc_entry_addr != NULL) { > + pfdep_dma_free( ctrl_p->dev_handle, > + OGMA_DUMMY_DESC_ENTRY_LEN, > + ctrl_p->dummy_desc_entry_addr, > + ctrl_p->dummy_desc_entry_phys_addr); > + } > + > + pfdep_uninit_hard_lock ( &ctrl_p->inten_reg_hard_lock); > + > + > + pfdep_uninit_hard_lock ( &ctrl_p->clk_ctrl_hard_lock); > + > +} > + > +void ogma_terminate ( > + ogma_handle_t ogma_handle > + ) > +{ > + > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + ogma_ctrl_t *tmp_ctrl_p = NULL, *old_tmp_ctrl_p = NULL; > + ogma_uint32 domain = 0; > + > + if ( ( ctrl_p == NULL) || > + ( ogma_global.list_entry_num == 0) ) { > + return; > + } > + > + pfdep_assert( ogma_global.list_head_p != NULL); > + > + if ( ctrl_p->param.use_gmac_flag) { > + domain |= OGMA_CLK_EN_REG_DOM_G; > + } > + > + /* pop domain clock */ > + ogma_pop_clk_req( ctrl_p, domain); > + > + tmp_ctrl_p = ogma_global.list_head_p; > + > + while(1) { > + if ( tmp_ctrl_p == NULL) { > + /* Could not found ctrl_p specified from the list */ > + return; > + } > + if ( ctrl_p == tmp_ctrl_p) { > + if ( old_tmp_ctrl_p != NULL) { > + old_tmp_ctrl_p->next_p = ctrl_p->next_p; > + } else { > + ogma_global.list_head_p = ctrl_p->next_p; > + } > + break; > + } > + old_tmp_ctrl_p = tmp_ctrl_p; > + tmp_ctrl_p = tmp_ctrl_p->next_p; > + } > + > + ogma_internal_terminate( ctrl_p); > + > + --ogma_global.list_entry_num; > + > + pfdep_free( ctrl_p); > + return; > +} > + > +ogma_err_t ogma_enable_top_irq ( > + ogma_handle_t ogma_handle, > + ogma_uint32 irq_factor > + ) > +{ > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + > + if ( ctrl_p == NULL) { > + return OGMA_ERR_PARAM; > + } > + > + /* set irq_factor*/ > + ogma_write_reg( ctrl_p, OGMA_REG_ADDR_TOP_INTEN_SET, irq_factor); > + > + return OGMA_ERR_OK; > +} > + > +ogma_err_t ogma_disable_top_irq ( > + ogma_handle_t ogma_handle, > + ogma_uint32 irq_factor > + ) > +{ > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return OGMA_ERR_PARAM; > + } > + > + /* clear irq_factor*/ > + ogma_write_reg( ctrl_p, OGMA_REG_ADDR_TOP_INTEN_CLR, irq_factor); > + > + return OGMA_ERR_OK; > +} > + > +ogma_err_t ogma_enable_desc_ring_irq ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id, > + ogma_uint32 irq_factor > + ) > +{ > + ogma_err_t ogma_err = OGMA_ERR_OK; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + ogma_desc_ring_t *desc_ring_p; > + > + pfdep_err_t pfdep_err; > + pfdep_soft_lock_ctx_t soft_lock_ctx; > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_enable_desc_ring_irq.\n" > + "Please set valid ogma_handle.\n"); > + return OGMA_ERR_PARAM; > + } > + > + if ( ring_id > OGMA_DESC_RING_ID_MAX) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_enable_desc_ring_irq.\n" > + "Please select ring id number between 0 and %d.\n", > + OGMA_DESC_RING_ID_MAX); > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].param.valid_flag) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_enable_desc_ring_irq.\n" > + "Please select valid desc ring.\n"); > + return OGMA_ERR_NOTAVAIL; > + } > + > + desc_ring_p = &ctrl_p->desc_ring[ring_id]; > + > + /* get soft lock */ > + pfdep_err = pfdep_acquire_soft_lock ( > + &desc_ring_p->soft_lock, > + &soft_lock_ctx); > + > + if ( pfdep_err != PFDEP_ERR_OK) { > + return OGMA_ERR_INTERRUPT; > + } > + > + if ( !desc_ring_p->running_flag) { > + pfdep_release_soft_lock( &desc_ring_p->soft_lock, > + &soft_lock_ctx); > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_enable_desc_ring_irq.\n" > + "Please select running desc ring.\n"); > + return OGMA_ERR_NOTAVAIL; > + } > + > + /* set irq_factor*/ > + ogma_write_reg( ctrl_p, > + desc_ring_irq_inten_set_reg_addr[ring_id], > + irq_factor); > + > + /* free soft_lock*/ > + pfdep_release_soft_lock( &desc_ring_p->soft_lock, > + &soft_lock_ctx); > + return ogma_err; > +} > + > +ogma_err_t ogma_disable_desc_ring_irq ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id, > + ogma_uint32 irq_factor > + ) > +{ > + ogma_err_t ogma_err = OGMA_ERR_OK; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_disable_desc_ring_irq.\n" > + "Please set valid ogma_handle.\n"); > + return OGMA_ERR_PARAM; > + } > + > + if ( ring_id > OGMA_DESC_RING_ID_MAX) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_disable_desc_ring_irq.\n" > + "Please select ring id number between 0 and %d.\n", > + OGMA_DESC_RING_ID_MAX); > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].param.valid_flag) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_disable_desc_ring_irq.\n" > + "Please select valid desc ring.\n"); > + return OGMA_ERR_NOTAVAIL; > + } > + > + /* Clear irq factor*/ > + ogma_write_reg( ctrl_p, > + desc_ring_irq_inten_clr_reg_addr[ring_id], > + irq_factor); > + > + return ogma_err; > +} > + > +ogma_err_t ogma_enable_pkt_irq ( > + ogma_handle_t ogma_handle, > + ogma_uint32 irq_factor > + ) > +{ > + ogma_err_t ogma_err = OGMA_ERR_OK; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return OGMA_ERR_PARAM; > + } > + > + /* set irq_factor*/ > + ogma_write_reg( ctrl_p, OGMA_REG_ADDR_PKT_INTEN_SET, > + ( irq_factor & OGMA_PKT_IRQ_ALL) ); > + > + return ogma_err; > +} > + > +ogma_err_t ogma_disable_pkt_irq ( > + ogma_handle_t ogma_handle, > + ogma_uint32 irq_factor > + ) > +{ > + ogma_err_t ogma_err = OGMA_ERR_OK; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return OGMA_ERR_PARAM; > + } > + > + /* clear irq_factor*/ > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_PKT_INTEN_CLR, > + ( irq_factor & OGMA_PKT_IRQ_ALL) ); > + > + return ogma_err; > +} > + > + > +ogma_uint32 ogma_get_top_irq_enable ( > + ogma_handle_t ogma_handle > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_top_irq_enable.\n" > + "Please set valid ogma_handle.\n"); > + return 0; > + } > + > + value = ogma_read_reg( ctrl_p, OGMA_REG_ADDR_TOP_INTEN); > + > + return value; > + > +} > + > + > +ogma_uint32 ogma_get_top_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_bool mask_flag > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_top_irq_status.\n" > + "Please set valid ogma_handle.\n"); > + return 0; > + } > + > + value = ogma_read_reg( ctrl_p, OGMA_REG_ADDR_TOP_STATUS); > + > + if ( mask_flag) { > + value &= ogma_read_reg( ctrl_p, OGMA_REG_ADDR_TOP_INTEN); > + } > + > + return value; > +} > + > +ogma_err_t ogma_clear_top_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_uint32 value > + ) > +{ > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_clear_top_irq_status.\n" > + "Please set valid ogma_handle.\n"); > + return OGMA_ERR_PARAM; > + } > + > + /* Write clear irq top status */ > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_TOP_STATUS, > + > + ( value & OGMA_TOP_IRQ_REG_ME_START) ); > + > + return OGMA_ERR_OK; > +} > + > +ogma_uint32 ogma_get_desc_ring_irq_enable ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_desc_ring_irq_enable.\n" > + "Please set valid ogma_handle.\n"); > + return 0; > + } > + > + if ( ring_id > OGMA_DESC_RING_ID_MAX) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_desc_ring_irq_enable.\n" > + "Please select ring id number between 0 and %d.\n", > + OGMA_DESC_RING_ID_MAX); > + return 0; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].param.valid_flag) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_desc_ring_irq_enable.\n" > + "Please select valid desc ring.\n"); > + return 0; > + } > + > + value = ogma_read_reg( ctrl_p, > + desc_ring_irq_inten_reg_addr[ring_id] ); > + > + return value; > +} > + > + > +ogma_uint32 ogma_get_desc_ring_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id, > + ogma_bool mask_flag > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_desc_ring_irq_status.\n" > + "Please set valid ogma_handle.\n"); > + return 0; > + } > + > + if ( ring_id > OGMA_DESC_RING_ID_MAX) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_desc_ring_irq_status.\n" > + "Please select ring id number between 0 and %d.\n", > + OGMA_DESC_RING_ID_MAX); > + return 0; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].param.valid_flag) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_desc_ring_irq_status.\n" > + "Please select valid desc ring.\n"); > + return 0; > + } > + > + value = ogma_read_reg( ctrl_p, > + desc_ring_irq_status_reg_addr[ring_id] ); > + > + if ( mask_flag) { > + value &= ogma_read_reg( ctrl_p, > + desc_ring_irq_inten_reg_addr[ring_id] ); > + } > + > + return value; > +} > + > + > + > +ogma_err_t ogma_clear_desc_ring_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_desc_ring_id_t ring_id, > + ogma_uint32 value > + ) > +{ > + > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_clear_desc_ring_irq_status.\n" > + "Please set valid ogma_handle.\n"); > + return OGMA_ERR_PARAM; > + } > + > + if ( ring_id > OGMA_DESC_RING_ID_MAX) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_clear_desc_ring_irq_status.\n" > + "Please select ring id number between 0 and %d.\n", > + OGMA_DESC_RING_ID_MAX); > + return OGMA_ERR_PARAM; > + } > + > + if ( !ctrl_p->desc_ring[ring_id].param.valid_flag) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_clear_desc_ring_irq_status.\n" > + "Please select valid desc ring.\n"); > + return OGMA_ERR_NOTAVAIL; > + } > + > + /* Write clear descring irq status */ > + ogma_write_reg( ctrl_p, > + desc_ring_irq_status_reg_addr[ring_id], > + ( value & ( OGMA_CH_IRQ_REG_EMPTY | > + OGMA_CH_IRQ_REG_ERR) ) ); > + > + return OGMA_ERR_OK; > + > +} > + > + > +ogma_uint32 ogma_get_pkt_irq_enable ( > + ogma_handle_t ogma_handle > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_pkt_irq_enable.\n" > + "Please set valid ogma_handle.\n"); > + return 0; > + } > + > + value = ogma_read_reg( ctrl_p, OGMA_REG_ADDR_PKT_INTEN); > + > + value &= OGMA_PKT_IRQ_ALL; > + > + return value; > + > +} > + > +ogma_uint32 ogma_get_pkt_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_bool mask_flag > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_pkt_irq_statusnon_clear.\n" > + "Please set valid ogma_handle.\n"); > + return 0; > + } > + > + value = ogma_read_reg( ctrl_p, OGMA_REG_ADDR_PKT_STATUS); > + > + if ( mask_flag) { > + value &= ogma_read_reg( ctrl_p, OGMA_REG_ADDR_PKT_INTEN); > + } > + > + return value; > +} > + > +ogma_err_t ogma_clear_pkt_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_uint32 value > + ) > +{ > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_clear_pkt_irq_status.\n" > + "Please set valid ogma_handle.\n"); > + return OGMA_ERR_PARAM; > + } > + > + /* Write clear irq pkt status */ > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_PKT_STATUS, > + ( value & ( ( OGMA_PKT_IRQ_MAC_ER | > + OGMA_PKT_IRQ_JUMBO_ER | > + OGMA_PKT_IRQ_CHKSUM_ER | > + OGMA_PKT_IRQ_HD_INCOMPLETE | > + OGMA_PKT_IRQ_HD_ER | > + OGMA_PKT_IRQ_DRP_NO_MATCH) ) ) ); > + > + return OGMA_ERR_OK; > +} > + > +#ifdef OGMA_CONFIG_REC_STAT > +ogma_err_t ogma_get_stat_info ( > + ogma_handle_t ogma_handle, > + ogma_stat_info_t *stat_info_p, > + ogma_bool clear_flag > + ) > +{ > + > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ( ctrl_p == NULL) || (stat_info_p == NULL) ) { > + return OGMA_ERR_PARAM; > + } > + > + pfdep_memcpy( stat_info_p, > + &ctrl_p->stat_info, > + sizeof( ogma_stat_info_t) ); > + > + > + if ( clear_flag) { > + pfdep_memset( &ctrl_p->stat_info, 0, sizeof( ogma_stat_info_t) ); > + } > + > + return OGMA_ERR_OK; > + > +} > +#endif /* OGMA_CONFIG_REC_STAT */ > + > +ogma_uint32 ogma_get_hw_ver ( > + ogma_handle_t ogma_handle > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return 0; > + } > + > + value = ogma_read_reg( ctrl_p, > + hw_ver_reg_addr); > + > + return value; > +} > + > + > +ogma_uint32 ogma_get_mcr_ver ( > + ogma_handle_t ogma_handle > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + return 0; > + } > + > + value = ogma_read_reg( ctrl_p, > + mc_ver_reg_addr); > + > + return value; > +} > + > +ogma_uint32 ogma_get_mac_irq_enable ( > + ogma_handle_t ogma_handle > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_ogma_get_mac_irq_enable.\n" > + "Please set valid ogma_handle.\n"); > + return 0; > + } > + > + value = ogma_read_reg( ctrl_p, OGMA_REG_ADDR_MAC_INTEN); > + > + > + return value; > +} > + > +ogma_uint32 ogma_get_mac_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_bool mask_flag > + ) > +{ > + ogma_uint32 value; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_get_mac_irq_status.\n" > + "Please set valid ogma_handle.\n"); > + return 0; > + } > + > + > + value = ogma_read_reg( ctrl_p, OGMA_REG_ADDR_MAC_STATUS); > + > + if ( mask_flag) { > + value &= ogma_read_reg( ctrl_p, OGMA_REG_ADDR_MAC_INTEN); > + } > + > + > + return value; > +} > + > +ogma_err_t ogma_clear_mac_irq_status ( > + ogma_handle_t ogma_handle, > + ogma_uint32 value > + ) > +{ > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_clear_mac_irq_status.\n" > + "Please set valid ogma_handle.\n"); > + return OGMA_ERR_PARAM; > + } > + > + > + /* Commented out because no write-clear bit exists now. */ > +#if 0 > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_MAC_STATUS, > + ( value & /* T.B.D. */) ); > +#endif > + > + > + return OGMA_ERR_OK; > + > +} > + > +ogma_err_t ogma_enable_mac_irq ( > + ogma_handle_t ogma_handle, > + ogma_uint32 irq_factor > + ) > +{ > + ogma_uint32 value; > + ogma_err_t ogma_err = OGMA_ERR_OK; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + pfdep_hard_lock_ctx_t inten_reg_hard_lock_ctx; > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_enable_mac_irq.\n" > + "Please set valid ogma_handle.\n"); > + return OGMA_ERR_PARAM; > + } > + > + /* get inten_reg_hard_lock */ > + pfdep_acquire_hard_lock( &ctrl_p->inten_reg_hard_lock, > + &inten_reg_hard_lock_ctx); > + > + value = ogma_read_reg( ctrl_p, > + OGMA_REG_ADDR_MAC_INTEN); > + > + value |= irq_factor; > + > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_MAC_INTEN, > + value); > + > + > + /* free inten_reg_hard_lock*/ > + pfdep_release_hard_lock( &ctrl_p->inten_reg_hard_lock, > + &inten_reg_hard_lock_ctx); > + return ogma_err; > +} > + > +ogma_err_t ogma_disable_mac_irq ( > + ogma_handle_t ogma_handle, > + ogma_uint32 irq_factor > + ) > +{ > + ogma_uint32 value; > + ogma_err_t ogma_err = OGMA_ERR_OK; > + ogma_ctrl_t *ctrl_p = (ogma_ctrl_t *)ogma_handle; > + > + pfdep_hard_lock_ctx_t inten_reg_hard_lock_ctx; > + > + > + if ( ctrl_p == NULL) { > + pfdep_print( PFDEP_DEBUG_LEVEL_FATAL, > + "An error occurred at ogma_disable_mac_irq.\n" > + "Please set valid ogma_handle.\n"); > + return OGMA_ERR_PARAM; > + } > + > + /* get inten_reg_hard_lock */ > + pfdep_acquire_hard_lock( &ctrl_p->inten_reg_hard_lock, > + &inten_reg_hard_lock_ctx); > + > + value = ogma_read_reg( ctrl_p, > + OGMA_REG_ADDR_MAC_INTEN); > + > + value &= (~irq_factor); > + > + ogma_write_reg( ctrl_p, > + OGMA_REG_ADDR_MAC_INTEN, > + value); > + > + > + /* free inten_reg_hard_lock*/ > + pfdep_release_hard_lock( &ctrl_p->inten_reg_hard_lock, > + &inten_reg_hard_lock_ctx); > + return ogma_err; > + > +} > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_misc_internal.h b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_misc_internal.h > new file mode 100644 > index 000000000000..3bbf8de57a8b > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_misc_internal.h > @@ -0,0 +1,38 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#ifndef OGMA_MISC_INTERNAL_H > +#define OGMA_MISC_INTERNAL_H > + > +#include "netsec_for_uefi/netsec_sdk/include/ogma_basic_type.h" > +#include "netsec_for_uefi/netsec_sdk/include/ogma_api.h" > + > +#define OGMA_CLK_EN_REG_DOM_ALL 0x24 > + > +#define OGMA_PKT_IRQ_ALL ( OGMA_PKT_IRQ_MAC_ER | OGMA_PKT_IRQ_JUMBO_ER | \ > + OGMA_PKT_IRQ_CHKSUM_ER | OGMA_PKT_IRQ_HD_INCOMPLETE | \ > + OGMA_PKT_IRQ_HD_ER | OGMA_PKT_IRQ_DRP_NO_MATCH) > + > +typedef struct ogma_global_s ogma_global_t; > + > +struct ogma_global_s{ > + ogma_uint valid_flag:1; > + > + ogma_uint8 list_entry_num; > + > + ogma_ctrl_t *list_head_p; > +}; > + > +#endif /* OGMA_MISC_INTERNAL_H */ > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_reg.h b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_reg.h > new file mode 100644 > index 000000000000..910b37a25f14 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_reg.h > @@ -0,0 +1,219 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#ifndef OGMA_REG_H > +#define OGMA_REG_H > + > +#include "ogma_reg_netsec.h" > +#include "ogma_reg_f_gmac_4mt.h" > + > +/* aliases */ > +#define OGMA_REG_ADDR_TOP_INTEN OGMA_REG_ADDR_TOP_INTEN_A > +#define OGMA_REG_ADDR_TOP_INTEN_SET OGMA_REG_ADDR_TOP_INTEN_A_SET > +#define OGMA_REG_ADDR_TOP_INTEN_CLR OGMA_REG_ADDR_TOP_INTEN_A_CLR > +/* aliases end here */ > + > +/* need fixing */ > +#define OGMA_REG_ADDR_DMAC_MH_CMD_BUF (0x87) > + > + > +/*bit fields for PKT_CTRL*/ > +#define OGMA_PKT_CTRL_REG_EN_JUMBO (1UL << 27) > +#define OGMA_PKT_CTRL_REG_EN_BITPATF (1UL << 4 ) > +#define OGMA_PKT_CTRL_REG_LOG_CHKSUM_ER (1UL << 3 ) > +#define OGMA_PKT_CTRL_REG_LOG_HD_INCOMPLETE (1UL << 2 ) > +#define OGMA_PKT_CTRL_REG_LOG_HD_ER (1UL << 1 ) > +#define OGMA_PKT_CTRL_REG_DRP_NO_MATCH (1UL << 0 ) > + > +#define OGMA_CLK_EN_REG_DOM_G (1UL << 5) > + > +/************************************************************ > + * Bit fields > + ************************************************************/ > +/* bit fields for com_init */ > +#define OGMA_COM_INIT_REG_DB (1UL << 2) > +#define OGMA_COM_INIT_REG_CLS (1UL << 1) > +#define OGMA_COM_INIT_REG_ALL ( OGMA_COM_INIT_REG_CLS | OGMA_COM_INIT_REG_DB) > + > +/* bit fields for soft_rst */ > +#define OGMA_SOFT_RST_REG_RESET (0) > +#define OGMA_SOFT_RST_REG_RUN (1UL << 31) > + > +/* bit fields for dma_hm_ctrl */ > +#define OGMA_DMA_CTRL_REG_STOP 1UL > + > +/* bit fields for gmac_cmd */ > +#define OGMA_GMAC_CMD_ST_READ (0) > +#define OGMA_GMAC_CMD_ST_WRITE (1UL << 28) > +#define OGMA_GMAC_CMD_ST_BUSY (1UL << 31) > + > +/* bit fields for F_GMAC4MT BMR*/ > +#define OGMA_GMAC_BMR_REG_COMMON (0x00412080) > +#define OGMA_GMAC_BMR_REG_RESET (0x00020181) > +#define OGMA_GMAC_BMR_REG_SWR (0x00000001) > + > +/* bit fields for F_GMAC4MT OMR*/ > +#define OGMA_GMAC_OMR_REG_ST (1UL << 13) > +#define OGMA_GMAC_OMR_REG_SR (1UL << 1) > + > +/* bit fields for F_GMAC4MT MCR*/ > +#define OGMA_GMAC_MCR_REG_CST (1UL << 25) > +#define OGMA_GMAC_MCR_REG_JE (1UL << 20) > +#define OGMA_GMAC_MCR_REG_PS (1UL << 15) > +#define OGMA_GMAC_MCR_REG_FES (1UL << 14) > +#define OGMA_GMAC_MCR_REG_FULL_DUPLEX_COMMON (0x0000280c) > +#define OGMA_GMAC_MCR_REG_HALF_DUPLEX_COMMON (0x0001a00c) > + > +#define OGMA_GMAC_MCR_1G_FULL ( OGMA_GMAC_MCR_REG_CST | \ > + OGMA_GMAC_MCR_REG_FULL_DUPLEX_COMMON) > + > +#define OGMA_GMAC_MCR_100M_FULL ( OGMA_GMAC_MCR_REG_CST | \ > + OGMA_GMAC_MCR_REG_PS | \ > + OGMA_GMAC_MCR_REG_FES | \ > + OGMA_GMAC_MCR_REG_FULL_DUPLEX_COMMON) > + > +#define OGMA_GMAC_MCR_100M_HALF ( OGMA_GMAC_MCR_REG_CST | \ > + OGMA_GMAC_MCR_REG_FES | \ > + OGMA_GMAC_MCR_REG_HALF_DUPLEX_COMMON) > + > +#define OGMA_GMAC_MCR_10M_FULL ( OGMA_GMAC_MCR_REG_CST | \ > + OGMA_GMAC_MCR_REG_PS | \ > + OGMA_GMAC_MCR_REG_FULL_DUPLEX_COMMON) > + > +#define OGMA_GMAC_MCR_10M_HALF ( OGMA_GMAC_MCR_REG_CST | \ > + OGMA_GMAC_MCR_REG_HALF_DUPLEX_COMMON) > + > +/*bit fields for F_GMAC4MT FCR*/ > +#define OGMA_GMAC_FCR_REG_RFE (1UL << 2) > +#define OGMA_GMAC_FCR_REG_TFE (1UL << 1) > + > +/* bit fields for F_GMAC4MT GAR */ > +#define OGMA_GMAC_GAR_REG_GW (1UL << 1) > +#define OGMA_GMAC_GAR_REG_GB (1UL << 0) > + > +/* bit fields for F_GMAC4MT RDLAR*/ > +#define OGMA_GMAC_RDLAR_REG_COMMON (0x00018000UL) > + > +/* bit fields for F_GMAC4MT TDLAR*/ > +#define OGMA_GMAC_TDLAR_REG_COMMON (0x0001c000UL) > + > + > +#define OGMA_GMAC_GAR_REG_SHIFT_PA (11) > +#define OGMA_GMAC_GAR_REG_SHIFT_GR (6) > +#define OGMA_GMAC_GAR_REG_SHIFT_CR (2) > + > +#define OGMA_GMAC_GAR_REG_CR_25_35_MHZ (2) > +#define OGMA_GMAC_GAR_REG_CR_35_60_MHZ (3) > +#define OGMA_GMAC_GAR_REG_CR_60_100_MHZ (0) > +#define OGMA_GMAC_GAR_REG_CR_100_150_MHZ (1) > +#define OGMA_GMAC_GAR_REG_CR_150_250_MHZ (4) > +#define OGMA_GMAC_GAR_REG_CR_250_300_MHZ (5) > + > +/* bit fields for F_GMAC4MT LPITCR */ > +#define OGMA_GMAC_LPITCR_REG_LIT (16) > +#define OGMA_GMAC_LPITCR_REG_TWT (0) > + > +/* bit fileds mask for F_GMAC4MT LPITCR */ > +#define OGMA_GMAC_LPITCR_REG_MASK_LIT (0x3ffU) > +#define OGMA_GMAC_LPITCR_REG_MASK_TWT (0xffffU) > + > +/** > + * PHY regtister Address > + */ > +#define OGMA_PHY_REG_ADDR_CONTROL 0 > +#define OGMA_PHY_REG_ADDR_STATUS 1U > +#define OGMA_PHY_REG_ADDR_AUTO_NEGO_ABILTY 4U > +#define OGMA_PHY_REG_ADDR_AUTO_NEGO_LINK_PATNER_ABILTY 5U > +#define OGMA_PHY_REG_ADDR_MASTER_SLAVE_CONTROL 9U > +#define OGMA_PHY_REG_ADDR_MASTER_SLAVE_STATUS 10U > +#define OGMA_PHY_REG_ADDR_MMD_AC 13U > +#define OGMA_PHY_REG_ADDR_MMD_AAD 14U > + > +/* bit fields for PHY CONTROL Register */ > +#define OGMA_PHY_CONTROL_REG_SPEED_SELECTION_MSB (6) > +#define OGMA_PHY_CONTROL_REG_DUPLEX_MODE (8) > +#define OGMA_PHY_CONTROL_REG_AUTO_NEGO_ENABLE (12) > +#define OGMA_PHY_CONTROL_REG_SPEED_SELECTION_LSB (13) > + > +/* bit fields for PHY STATUS Register */ > +#define OGMA_PHY_STATUS_REG_LINK_STATUS (2) > +#define OGMA_PHY_STATUS_REG_AUTO_NEGO_ABILITY (3) > +#define OGMA_PHY_STATUS_REG_AUTO_NEGO_COMP (5) > + > +/* bit fields for PHY MASTER-SLAVE Control Register */ > +#define OGMA_PHY_MSC_REG_1000BASE_FULL (9) > +#define OGMA_PHY_MSC_REG_1000BASE_HALF (8) > + > +/* bit fields for PHY MASTER-SLAVE Status Register */ > +#define OGMA_PHY_MSS_REG_LP_1000BASE_FULL (11) > +#define OGMA_PHY_MSS_REG_LP_1000BASE_HALF (10) > + > +/* bit fields for PHY Auto-Negotiation Advertisement Register */ > +#define OGMA_PHY_ANA_REG_TAF (5) > + > +/* bit fileds mask for F_GMAC4MT LPITCR */ > +#define OGMA_PHY_ANA_REG_TAF_MASK (0x7fU) > + > +/* bit fields for PHY Technology Ability Field */ > +#define OGMA_PHY_TAF_REG_100BASE_FULL (1U << 3) > +#define OGMA_PHY_TAF_REG_100BASE_HALF (1U << 2) > +#define OGMA_PHY_TAF_REG_10BASE_FULL (1U << 1) > +#define OGMA_PHY_TAF_REG_10BASE_HALF (1U << 0) > + > +/** > + * PHY Device Address > + */ > +#define OGMA_PHY_DEV_ADDR_AUTO_NEGO (7U) > + > +/** > + * PHY Register Address for Device Address 7 > + */ > +#define OGMA_PHY_AUTO_NEGO_REG_ADDR_EEE_ADVERTISE (60U) > +#define OGMA_PHY_AUTO_NEGO_REG_ADDR_EEE_LP_ABILITY (61U) > + > +/* bit fields for PHY AutoNegotiation Field */ > +#define OGMA_PHY_AUTO_NEGO_1000BASE_EEE (1U << 2) > +#define OGMA_PHY_AUTO_NEGO_100BASE_EEE (1U << 1) > + > +/* bit fields for DESC RING CONFIG */ > +#define OGMA_REG_DESC_RING_CONFIG_CFG_UP (31) > +#define OGMA_REG_DESC_RING_CONFIG_CH_RST (30) > +#define OGMA_REG_DESC_RING_CONFIG_TMR_MODE (4) > +#define OGMA_REG_DESC_RING_CONFIG_DAT_ENDIAN (0) > + > + > +/* bit fields for mac_desc_soft_rst */ > +#define OGMA_MAC_DESC_SOFT_RST_SOFT_RST 1UL > + > +/* bit fields for mac_desc_init */ > +#define OGMA_MAC_DESC_INIT_REG_INIT 1UL > + > +/* bit fields for dis_core */ > +#define OGMA_DIS_CORE_REG_DIS_PCORE (1UL << 2) > +#define OGMA_DIS_CORE_REG_DIS_MHCORE (1UL << 1) > +#define OGMA_DIS_CORE_REG_DIS_HMCORE (1UL << 0) > + > +#define OGMA_DIS_CORE_REG_ALL ( OGMA_DIS_CORE_REG_DIS_HMCORE | \ > + OGMA_DIS_CORE_REG_DIS_MHCORE | \ > + OGMA_DIS_CORE_REG_DIS_PCORE) > + > +/* bit fields for dma_info */ > +#define OGMA_DMA_INFO_REG_AXI_WRITE_BUSY (1UL << 3) > +#define OGMA_DMA_INFO_REG_AXI_READ_BUSY (1UL << 2) > + > +#define OGMA_DMA_INFO_REG_AXI_BUSY ( OGMA_DMA_INFO_REG_AXI_WRITE_BUSY | \ > + OGMA_DMA_INFO_REG_AXI_READ_BUSY) > + > +#endif /*OGMA_REG_H*/ > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_reg_f_gmac_4mt.h b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_reg_f_gmac_4mt.h > new file mode 100644 > index 000000000000..e12b317218fb > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_reg_f_gmac_4mt.h > @@ -0,0 +1,222 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#ifndef OGMA_REG_F_GMAC_4MT_H > +#define OGMA_REG_F_GMAC_4MT_H > + > +/** > + * GMAC register > + */ > +#define OGMA_GMAC_REG_ADDR_MCR (0x0000) > +#define OGMA_GMAC_REG_ADDR_MFFR (0x0004) > +#define OGMA_GMAC_REG_ADDR_MHTRH (0x0008) > +#define OGMA_GMAC_REG_ADDR_MHTRL (0x000c) > +#define OGMA_GMAC_REG_ADDR_GAR (0x0010) > +#define OGMA_GMAC_REG_ADDR_GDR (0x0014) > +#define OGMA_GMAC_REG_ADDR_FCR (0x0018) > +#define OGMA_GMAC_REG_ADDR_VTR (0x001c) > +#define OGMA_GMAC_REG_ADDR_RWFFR (0x0028) > +#define OGMA_GMAC_REG_ADDR_PMTR (0x002c) > +#define OGMA_GMAC_REG_ADDR_LPICSR (0x0030) > +#define OGMA_GMAC_REG_ADDR_LPITCR (0x0034) > +#define OGMA_GMAC_REG_ADDR_ISR (0x0038) > +#define OGMA_GMAC_REG_ADDR_IMR (0x003c) > +#define OGMA_GMAC_REG_ADDR_MAR0H (0x0040) > +#define OGMA_GMAC_REG_ADDR_MAR0L (0x0044) > +#define OGMA_GMAC_REG_ADDR_MAR1H (0x0048) > +#define OGMA_GMAC_REG_ADDR_MAR1L (0x004c) > +#define OGMA_GMAC_REG_ADDR_MAR2H (0x0050) > +#define OGMA_GMAC_REG_ADDR_MAR2L (0x0054) > +#define OGMA_GMAC_REG_ADDR_MAR3H (0x0058) > +#define OGMA_GMAC_REG_ADDR_MAR3L (0x005c) > +#define OGMA_GMAC_REG_ADDR_MAR4H (0x0060) > +#define OGMA_GMAC_REG_ADDR_MAR4L (0x0064) > +#define OGMA_GMAC_REG_ADDR_MAR5H (0x0068) > +#define OGMA_GMAC_REG_ADDR_MAR5L (0x006c) > +#define OGMA_GMAC_REG_ADDR_MAR6H (0x0070) > +#define OGMA_GMAC_REG_ADDR_MAR6L (0x0074) > +#define OGMA_GMAC_REG_ADDR_MAR7H (0x0078) > +#define OGMA_GMAC_REG_ADDR_MAR7L (0x007c) > +#define OGMA_GMAC_REG_ADDR_MAR8H (0x0080) > +#define OGMA_GMAC_REG_ADDR_MAR8L (0x0084) > +#define OGMA_GMAC_REG_ADDR_MAR9H (0x0088) > +#define OGMA_GMAC_REG_ADDR_MAR9L (0x008c) > +#define OGMA_GMAC_REG_ADDR_MAR10H (0x0090) > +#define OGMA_GMAC_REG_ADDR_MAR10L (0x0094) > +#define OGMA_GMAC_REG_ADDR_MAR11H (0x0098) > +#define OGMA_GMAC_REG_ADDR_MAR11L (0x009c) > +#define OGMA_GMAC_REG_ADDR_MAR12H (0x00a0) > +#define OGMA_GMAC_REG_ADDR_MAR12L (0x00a4) > +#define OGMA_GMAC_REG_ADDR_MAR13H (0x00a8) > +#define OGMA_GMAC_REG_ADDR_MAR13L (0x00ac) > +#define OGMA_GMAC_REG_ADDR_MAR14H (0x00b0) > +#define OGMA_GMAC_REG_ADDR_MAR14L (0x00b4) > +#define OGMA_GMAC_REG_ADDR_MAR15H (0x00b8) > +#define OGMA_GMAC_REG_ADDR_MAR15L (0x00bc) > +#define OGMA_GMAC_REG_ADDR_RSR (0x00d8) > +#define OGMA_GMAC_REG_ADDR_TSCR (0x0700) > +#define OGMA_GMAC_REG_ADDR_SSIR (0x0704) > +#define OGMA_GMAC_REG_ADDR_STSR (0x0708) > +#define OGMA_GMAC_REG_ADDR_STNR (0x070c) > +#define OGMA_GMAC_REG_ADDR_STSUR (0x0710) > +#define OGMA_GMAC_REG_ADDR_STNUR (0x0714) > +#define OGMA_GMAC_REG_ADDR_TSAR (0x0718) > +#define OGMA_GMAC_REG_ADDR_TTSR (0x071c) > +#define OGMA_GMAC_REG_ADDR_TTNR (0x0720) > +#define OGMA_GMAC_REG_ADDR_STHWSR (0x0724) > +#define OGMA_GMAC_REG_ADDR_TSR (0x0728) > +#define OGMA_GMAC_REG_ADDR_PPSCR (0x072c) > +#define OGMA_GMAC_REG_ADDR_ANTR (0x0730) > +#define OGMA_GMAC_REG_ADDR_ATSR (0x0734) > +#define OGMA_GMAC_REG_ADDR_MAR16H (0x0800) > +#define OGMA_GMAC_REG_ADDR_MAR16L (0x0804) > +#define OGMA_GMAC_REG_ADDR_MAR17H (0x0808) > +#define OGMA_GMAC_REG_ADDR_MAR17L (0x080c) > +#define OGMA_GMAC_REG_ADDR_MAR18H (0x0810) > +#define OGMA_GMAC_REG_ADDR_MAR18L (0x0814) > +#define OGMA_GMAC_REG_ADDR_MAR19H (0x0818) > +#define OGMA_GMAC_REG_ADDR_MAR19L (0x081c) > +#define OGMA_GMAC_REG_ADDR_MAR20H (0x0820) > +#define OGMA_GMAC_REG_ADDR_MAR20L (0x0824) > +#define OGMA_GMAC_REG_ADDR_MAR21H (0x0828) > +#define OGMA_GMAC_REG_ADDR_MAR21L (0x082c) > +#define OGMA_GMAC_REG_ADDR_MAR22H (0x0830) > +#define OGMA_GMAC_REG_ADDR_MAR22L (0x0834) > +#define OGMA_GMAC_REG_ADDR_MAR23H (0x0838) > +#define OGMA_GMAC_REG_ADDR_MAR23L (0x083c) > +#define OGMA_GMAC_REG_ADDR_MAR24H (0x0840) > +#define OGMA_GMAC_REG_ADDR_MAR24L (0x0844) > +#define OGMA_GMAC_REG_ADDR_MAR25H (0x0848) > +#define OGMA_GMAC_REG_ADDR_MAR25L (0x084c) > +#define OGMA_GMAC_REG_ADDR_MAR26H (0x0850) > +#define OGMA_GMAC_REG_ADDR_MAR26L (0x0854) > +#define OGMA_GMAC_REG_ADDR_MAR27H (0x0858) > +#define OGMA_GMAC_REG_ADDR_MAR27L (0x085c) > +#define OGMA_GMAC_REG_ADDR_MAR28H (0x0860) > +#define OGMA_GMAC_REG_ADDR_MAR28L (0x0864) > +#define OGMA_GMAC_REG_ADDR_MAR29H (0x0868) > +#define OGMA_GMAC_REG_ADDR_MAR29L (0x086c) > +#define OGMA_GMAC_REG_ADDR_MAR30H (0x0870) > +#define OGMA_GMAC_REG_ADDR_MAR30L (0x0874) > +#define OGMA_GMAC_REG_ADDR_MAR31H (0x0878) > +#define OGMA_GMAC_REG_ADDR_MAR31L (0x087c) > + > +/** > + * GMAC MAC Management Counters(Option) register > + */ > +#define OGMA_GMAC_REG_ADDR_MMC_CNTL (0x0100) > +#define OGMA_GMAC_REG_ADDR_MMC_INTR_RX (0x0104) > +#define OGMA_GMAC_REG_ADDR_MMC_INTR_TX (0x0108) > +#define OGMA_GMAC_REG_ADDR_MMC_INTR_MASK_RX (0x010c) > +#define OGMA_GMAC_REG_ADDR_MMC_INTR_MASK_TX (0x0110) > +#define OGMA_GMAC_REG_ADDR_TXOCTETCOUNT_GB (0x0114) > +#define OGMA_GMAC_REG_ADDR_TXFRAMECOUNT_GB (0x0118) > +#define OGMA_GMAC_REG_ADDR_TXBROADCASTFRAMES_G (0x011c) > +#define OGMA_GMAC_REG_ADDR_TXMULTICASTFRAMES_G (0x0120) > +#define OGMA_GMAC_REG_ADDR_TX64OCTETS_GB (0x0124) > +#define OGMA_GMAC_REG_ADDR_TX65TO127OCTETS_GB (0x0128) > +#define OGMA_GMAC_REG_ADDR_TX128TO255OCTETS_GB (0x012c) > +#define OGMA_GMAC_REG_ADDR_TX256TO511OCTETS_GB (0x0130) > +#define OGMA_GMAC_REG_ADDR_TX512TO1023OCTETS_GB (0x0134) > +#define OGMA_GMAC_REG_ADDR_TX1024TOMAXOCTETS_GB (0x0138) > +#define OGMA_GMAC_REG_ADDR_TXUNICASTFRAMES_GB (0x013c) > +#define OGMA_GMAC_REG_ADDR_TXMULTICASTFRAMES_GB (0x0140) > +#define OGMA_GMAC_REG_ADDR_TXBROADCASTFRAMES_GB (0x0144) > +#define OGMA_GMAC_REG_ADDR_TXUNDERFLOWERROR (0x0148) > +#define OGMA_GMAC_REG_ADDR_TXSINGLECOL_G (0x014c) > +#define OGMA_GMAC_REG_ADDR_TXMULTICOL_G (0x0150) > +#define OGMA_GMAC_REG_ADDR_TXDEFERRED (0x0154) > +#define OGMA_GMAC_REG_ADDR_TXLATECOL (0x0158) > +#define OGMA_GMAC_REG_ADDR_TXEXESSCOL (0x015c) > +#define OGMA_GMAC_REG_ADDR_TXCARRIERERRROR (0x0160) > +#define OGMA_GMAC_REG_ADDR_TXOCTETCOUNT_G (0x0164) > +#define OGMA_GMAC_REG_ADDR_TXFRAMECOUNT_G (0x0168) > +#define OGMA_GMAC_REG_ADDR_TXEXECESSDEF (0x016c) > +#define OGMA_GMAC_REG_ADDR_TXPAUSEFRAMES (0x0170) > +#define OGMA_GMAC_REG_ADDR_TXVLANFRAMES_G (0x0174) > +#define OGMA_GMAC_REG_ADDR_RXFRAMECOUNT_GB (0x0180) > +#define OGMA_GMAC_REG_ADDR_RXOCTETCOUNT_GB (0x0184) > +#define OGMA_GMAC_REG_ADDR_RXOCTETCOUNT_G (0x0188) > +#define OGMA_GMAC_REG_ADDR_RXBROADCASTFRAMES_G (0x018c) > +#define OGMA_GMAC_REG_ADDR_RXMULTICASTFRAMES_G (0x0190) > +#define OGMA_GMAC_REG_ADDR_RXCRCERROR (0x0194) > +#define OGMA_GMAC_REG_ADDR_RXALLIGNMENTERROR (0x0198) > +#define OGMA_GMAC_REG_ADDR_RXRUNTERROR (0x019c) > +#define OGMA_GMAC_REG_ADDR_RXJABBERERROR (0x01a0) > +#define OGMA_GMAC_REG_ADDR_RXUNDERSIZE_G (0x01a4) > +#define OGMA_GMAC_REG_ADDR_RXOVERSIZE_G (0x01a8) > +#define OGMA_GMAC_REG_ADDR_RX64OCTETS_GB (0x01ac) > +#define OGMA_GMAC_REG_ADDR_RX65TO127OCTETS_GB (0x01b0) > +#define OGMA_GMAC_REG_ADDR_RX128TO255OCTETS_GB (0x01b4) > +#define OGMA_GMAC_REG_ADDR_RX256TO511OCTETS_GB (0x01b8) > +#define OGMA_GMAC_REG_ADDR_RX512TO1023OCTETS_GB (0x01bc) > +#define OGMA_GMAC_REG_ADDR_RX1024TOMAXOCTETS_GB (0x01c0) > +#define OGMA_GMAC_REG_ADDR_RXUNICASTFRAMES_G (0x01c4) > +#define OGMA_GMAC_REG_ADDR_RXLENGTHERROR (0x01c8) > +#define OGMA_GMAC_REG_ADDR_RXOUTOFRANGETYPE (0x01cc) > +#define OGMA_GMAC_REG_ADDR_RXPAUSEFRAMES (0x01d0) > +#define OGMA_GMAC_REG_ADDR_RXFIFOOVERFLOW (0x01d4) > +#define OGMA_GMAC_REG_ADDR_RXVLANFRAMES_GB (0x01d8) > +#define OGMA_GMAC_REG_ADDR_RXWATCHDOGERROR (0x01dc) > +#define OGMA_GMAC_REG_ADDR_MMC_IPC_INTR_MASK_RX (0x0200) > +#define OGMA_GMAC_REG_ADDR_MMC_IPC_INTR_RX (0x0208) > +#define OGMA_GMAC_REG_ADDR_RXIPV4_GD_FRMS (0x0210) > +#define OGMA_GMAC_REG_ADDR_RXIPV4_HDRERR_FRMS (0x0214) > +#define OGMA_GMAC_REG_ADDR_RXIPV4_NOPAY_FRMS (0x0218) > +#define OGMA_GMAC_REG_ADDR_RXIPV4_FRAG_FRMS (0x021c) > +#define OGMA_GMAC_REG_ADDR_RXIPV4_UDSBL_FRMS (0x0220) > +#define OGMA_GMAC_REG_ADDR_RXIPV6_GD_FRMS (0x0224) > +#define OGMA_GMAC_REG_ADDR_RXIPV6_HDRERR_FRMS (0x0228) > +#define OGMA_GMAC_REG_ADDR_RXIPV6_NOPAY_FRMS (0x022c) > +#define OGMA_GMAC_REG_ADDR_RXUDP_GD_FRMS (0x0230) > +#define OGMA_GMAC_REG_ADDR_RXUDP_ERR_FRMS (0x0234) > +#define OGMA_GMAC_REG_ADDR_RXTCP_GD_FRMS (0x0238) > +#define OGMA_GMAC_REG_ADDR_RXTCP_ERR_FRMS (0x023c) > +#define OGMA_GMAC_REG_ADDR_RXICMP_GD_FRMS (0x0240) > +#define OGMA_GMAC_REG_ADDR_RXICMP_ERR_FRMS (0x0244) > +#define OGMA_GMAC_REG_ADDR_RXIPV4_GD_OCTETS (0x0250) > +#define OGMA_GMAC_REG_ADDR_RXIPV4_HDRERR_OCTETS (0x0254) > +#define OGMA_GMAC_REG_ADDR_RXIPV4_NOPAY_OCTETS (0x0258) > +#define OGMA_GMAC_REG_ADDR_RXIPV4_FRAG_OCTETS (0x025c) > +#define OGMA_GMAC_REG_ADDR_RXIPV4_UDSBL_OCTETS (0x0260) > +#define OGMA_GMAC_REG_ADDR_RXIPV6_GD_OCTETS (0x0264) > +#define OGMA_GMAC_REG_ADDR_RXIPV6_HDRERR_OCTETS (0x0268) > +#define OGMA_GMAC_REG_ADDR_RXIPV6_NOPAY_OCTETS (0x026c) > +#define OGMA_GMAC_REG_ADDR_RXUDP_GD_OCTETS (0x0270) > +#define OGMA_GMAC_REG_ADDR_RXUDP_ERR_OCTETS (0x0274) > +#define OGMA_GMAC_REG_ADDR_RXTCP_GD_OCTETS (0x0278) > +#define OGMA_GMAC_REG_ADDR_RXTCP_ERR_OCTETS (0x027c) > +#define OGMA_GMAC_REG_ADDR_RXICMP_GD_OCTETS (0x0280) > +#define OGMA_GMAC_REG_ADDR_RXICMP_ERR_OCTETS (0x0284) > +/** > + * GMAC DMA register > + */ > +#define OGMA_GMAC_REG_ADDR_BMR (0x1000) > +#define OGMA_GMAC_REG_ADDR_TPDR (0x1004) > +#define OGMA_GMAC_REG_ADDR_RPDR (0x1008) > +#define OGMA_GMAC_REG_ADDR_RDLAR (0x100c) > +#define OGMA_GMAC_REG_ADDR_TDLAR (0x1010) > +#define OGMA_GMAC_REG_ADDR_SR (0x1014) > +#define OGMA_GMAC_REG_ADDR_OMR (0x1018) > +#define OGMA_GMAC_REG_ADDR_IER (0x101c) > +#define OGMA_GMAC_REG_ADDR_MFOCR (0x1020) > +#define OGMA_GMAC_REG_ADDR_RIWTR (0x1024) > +#define OGMA_GMAC_REG_ADDR_AHBSR (0x102c) > +#define OGMA_GMAC_REG_ADDR_CHTDR (0x1048) > +#define OGMA_GMAC_REG_ADDR_CHRDR (0x104c) > +#define OGMA_GMAC_REG_ADDR_CHTBAR (0x1050) > +#define OGMA_GMAC_REG_ADDR_CHRBAR (0x1054) > + > +#endif /* OGMA_REG_F_GMAC_4MT_H */ > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_reg_netsec.h b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_reg_netsec.h > new file mode 100644 > index 000000000000..457be2aa0cba > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/netsec_sdk/src/ogma_reg_netsec.h > @@ -0,0 +1,368 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#ifndef OGMA_REG_NETSEC_H > +#define OGMA_REG_NETSEC_H > + > +#define OGMA_REG_ADDR_SOFT_RST (0x41) > +#define OGMA_REG_ADDR_COM_INIT (0x48) > +#define OGMA_REG_ADDR_MC_BASE_ADDR (0x97) > +#define OGMA_REG_ADDR_DMAC_HM_CMD_BUF (0x84) > +#define OGMA_REG_ADDR_DMAC_MC_ADDR_MH (0x89) > +#define OGMA_REG_ADDR_DMAC_MC_SIZE_MH (0x8A) > +#define OGMA_REG_ADDR_PKTC_CMD_BUF (0x34) > +#define OGMA_REG_ADDR_PKTC_MC_ADDR (0x5C) > +#define OGMA_REG_ADDR_PKTC_MC_SIZE (0x5D) > +#define OGMA_REG_ADDR_DIS_CORE (0x86) > +#define OGMA_REG_ADDR_DMA_HM_CTRL (0x85) > +#define OGMA_REG_ADDR_DMA_MH_CTRL (0x88) > +#define OGMA_REG_ADDR_CLK_EN_0 (0x40) > +#define OGMA_REG_ADDR_CLK_EN_1 (0x64) > +#define OGMA_REG_ADDR_PKT_CTRL (0x50) > +#define OGMA_REG_ADDR_NRM_TX_DESC_START_UP (0x10D) > +#define OGMA_REG_ADDR_NRM_TX_DESC_START_LW (0x102) > +#define OGMA_REG_ADDR_NRM_RX_DESC_START_UP (0x11D) > +#define OGMA_REG_ADDR_NRM_RX_DESC_START_LW (0x112) > +#define OGMA_REG_ADDR_TAIKI_RX_DESC_START_UP (0x12D) > +#define OGMA_REG_ADDR_TAIKI_RX_DESC_START_LW (0x122) > +#define OGMA_REG_ADDR_TAIKI_TX_DESC_START_UP (0x13D) > +#define OGMA_REG_ADDR_TAIKI_TX_DESC_START_LW (0x132) > +#define OGMA_REG_ADDR_MISC_RX_DESC_START_UP (0x14D) > +#define OGMA_REG_ADDR_MISC_RX_DESC_START_LW (0x142) > +#define OGMA_REG_ADDR_WL_NRM_TX_DESC_START_UP (0x15D) > +#define OGMA_REG_ADDR_WL_NRM_TX_DESC_START_LW (0x152) > +#define OGMA_REG_ADDR_WL_NRM_RX_DESC_START_UP (0x16D) > +#define OGMA_REG_ADDR_WL_NRM_RX_DESC_START_LW (0x162) > +#define OGMA_REG_ADDR_WL_NRM_CMD_TX_DESC_START_UP (0x17D) > +#define OGMA_REG_ADDR_WL_NRM_CMD_TX_DESC_START_LW (0x172) > +#define OGMA_REG_ADDR_WL_NRM_CMD_RX_DESC_START_UP (0x18D) > +#define OGMA_REG_ADDR_WL_NRM_CMD_RX_DESC_START_LW (0x182) > +#define OGMA_REG_ADDR_WL_NRM_EVENT_RX_DESC_START_UP (0x19D) > +#define OGMA_REG_ADDR_WL_NRM_EVENT_RX_DESC_START_LW (0x192) > +#define OGMA_REG_ADDR_WL_TAIKI_TX_DESC_START_UP (0x1AD) > +#define OGMA_REG_ADDR_WL_TAIKI_TX_DESC_START_LW (0x1A2) > +#define OGMA_REG_ADDR_WL_TAIKI_RX_DESC_START_UP (0x1BD) > +#define OGMA_REG_ADDR_WL_TAIKI_RX_DESC_START_LW (0x1B2) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_TX_DESC_START_UP (0x1CD) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_TX_DESC_START_LW (0x1C2) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_RX_DESC_START_UP (0x1DD) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_RX_DESC_START_LW (0x1D2) > +#define OGMA_REG_ADDR_WL_TAIKI_EVENT_RX_DESC_START_UP (0x1ED) > +#define OGMA_REG_ADDR_WL_TAIKI_EVENT_RX_DESC_START_LW (0x1E2) > +#define OGMA_REG_ADDR_DEC_PKT_TX_DESC_START_UP (0x20D) > +#define OGMA_REG_ADDR_DEC_PKT_TX_DESC_START_LW (0x202) > +#define OGMA_REG_ADDR_ENC_PKT_RX_DESC_START_UP (0x21D) > +#define OGMA_REG_ADDR_ENC_PKT_RX_DESC_START_LW (0x212) > +#define OGMA_REG_ADDR_ENC_TLS_TX_DESC_START_UP (0x22D) > +#define OGMA_REG_ADDR_ENC_TLS_TX_DESC_START_LW (0x222) > +#define OGMA_REG_ADDR_DEC_TLS_TX_DESC_START_UP (0x23D) > +#define OGMA_REG_ADDR_DEC_TLS_TX_DESC_START_LW (0x232) > +#define OGMA_REG_ADDR_ENC_TLS_RX_DESC_START_UP (0x24D) > +#define OGMA_REG_ADDR_ENC_TLS_RX_DESC_START_LW (0x242) > +#define OGMA_REG_ADDR_DEC_TLS_RX_DESC_START_UP (0x25D) > +#define OGMA_REG_ADDR_DEC_TLS_RX_DESC_START_LW (0x252) > +#define OGMA_REG_ADDR_ENC_RAW_TX_DESC_START_UP (0x26D) > +#define OGMA_REG_ADDR_ENC_RAW_TX_DESC_START_LW (0x262) > +#define OGMA_REG_ADDR_DEC_RAW_TX_DESC_START_UP (0x27D) > +#define OGMA_REG_ADDR_DEC_RAW_TX_DESC_START_LW (0x272) > +#define OGMA_REG_ADDR_ENC_RAW_RX_DESC_START_UP (0x28D) > +#define OGMA_REG_ADDR_ENC_RAW_RX_DESC_START_LW (0x282) > +#define OGMA_REG_ADDR_DEC_RAW_RX_DESC_START_UP (0x29D) > +#define OGMA_REG_ADDR_DEC_RAW_RX_DESC_START_LW (0x292) > +#define OGMA_REG_ADDR_NRM_TX_CONFIG (0x10C) > +#define OGMA_REG_ADDR_NRM_RX_CONFIG (0x11C) > +#define OGMA_REG_ADDR_TAIKI_RX_CONFIG (0x12C) > +#define OGMA_REG_ADDR_TAIKI_TX_CONFIG (0x13C) > +#define OGMA_REG_ADDR_MISC_RX_CONFIG (0x14C) > +#define OGMA_REG_ADDR_WL_NRM_TX_CONFIG (0x15C) > +#define OGMA_REG_ADDR_WL_NRM_RX_CONFIG (0x16C) > +#define OGMA_REG_ADDR_WL_NRM_CMD_TX_CONFIG (0x17C) > +#define OGMA_REG_ADDR_WL_NRM_CMD_RX_CONFIG (0x18C) > +#define OGMA_REG_ADDR_WL_NRM_EVENT_RX_CONFIG (0x19C) > +#define OGMA_REG_ADDR_WL_TAIKI_TX_CONFIG (0x1AC) > +#define OGMA_REG_ADDR_WL_TAIKI_RX_CONFIG (0x1BC) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_TX_CONFIG (0x1CC) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_RX_CONFIG (0x1DC) > +#define OGMA_REG_ADDR_WL_TAIKI_EVENT_RX_CONFIG (0x1EC) > +#define OGMA_REG_ADDR_DEC_PKT_TX_CONFIG (0x20C) > +#define OGMA_REG_ADDR_ENC_PKT_RX_CONFIG (0x21C) > +#define OGMA_REG_ADDR_ENC_TLS_TX_CONFIG (0x22C) > +#define OGMA_REG_ADDR_DEC_TLS_TX_CONFIG (0x23C) > +#define OGMA_REG_ADDR_ENC_TLS_RX_CONFIG (0x24C) > +#define OGMA_REG_ADDR_DEC_TLS_RX_CONFIG (0x25C) > +#define OGMA_REG_ADDR_ENC_RAW_TX_CONFIG (0x26C) > +#define OGMA_REG_ADDR_DEC_RAW_TX_CONFIG (0x27C) > +#define OGMA_REG_ADDR_ENC_RAW_RX_CONFIG (0x28C) > +#define OGMA_REG_ADDR_DEC_RAW_RX_CONFIG (0x29C) > +#define OGMA_REG_ADDR_DMA_TMR_CTRL (0x83) > +#define OGMA_REG_ADDR_TOP_STATUS (0x80) > +#define OGMA_REG_ADDR_TOP_INTEN_A (0x81) > +#define OGMA_REG_ADDR_TOP_INTEN_A_SET (0x8D) > +#define OGMA_REG_ADDR_TOP_INTEN_A_CLR (0x8E) > +#define OGMA_REG_ADDR_TOP_INTEN_B (0x8F) > +#define OGMA_REG_ADDR_TOP_INTEN_B_SET (0x90) > +#define OGMA_REG_ADDR_TOP_INTEN_B_CLR (0x91) > +#define OGMA_REG_ADDR_PKT_STATUS (0x3) > +#define OGMA_REG_ADDR_PKT_INTEN (0x4) > +#define OGMA_REG_ADDR_PKT_INTEN_SET (0x7) > +#define OGMA_REG_ADDR_PKT_INTEN_CLR (0x8) > +#define OGMA_REG_ADDR_TLS_STATUS (0x5) > +#define OGMA_REG_ADDR_TLS_INTEN (0x6) > +#define OGMA_REG_ADDR_TLS_INTEN_SET (0x9) > +#define OGMA_REG_ADDR_TLS_INTEN_CLR (0xA) > +#define OGMA_REG_ADDR_SLAVE_0_STATUS (0xB) > +#define OGMA_REG_ADDR_SLAVE_0_INTEN (0xC) > +#define OGMA_REG_ADDR_SLAVE_0_INTEN_SET (0xD) > +#define OGMA_REG_ADDR_SLAVE_0_INTEN_CLR (0xE) > +#define OGMA_REG_ADDR_SLAVE_1_STATUS (0xF) > +#define OGMA_REG_ADDR_SLAVE_1_INTEN (0x10) > +#define OGMA_REG_ADDR_SLAVE_1_INTEN_SET (0x11) > +#define OGMA_REG_ADDR_SLAVE_1_INTEN_CLR (0x12) > +#define OGMA_REG_ADDR_MAC_STATUS (0x409) > +#define OGMA_REG_ADDR_MAC_INTEN (0x40A) > +#define OGMA_REG_ADDR_MAC_TX_RX_INFO_STATUS (0x486) > +#define OGMA_REG_ADDR_MAC_TX_RX_INFO_INTEN (0x487) > +#define OGMA_REG_ADDR_NRM_TX_STATUS (0x100) > +#define OGMA_REG_ADDR_NRM_TX_INTEN (0x101) > +#define OGMA_REG_ADDR_NRM_TX_INTEN_SET (0x10A) > +#define OGMA_REG_ADDR_NRM_TX_INTEN_CLR (0x10B) > +#define OGMA_REG_ADDR_NRM_RX_STATUS (0x110) > +#define OGMA_REG_ADDR_NRM_RX_INTEN (0x111) > +#define OGMA_REG_ADDR_NRM_RX_INTEN_SET (0x11A) > +#define OGMA_REG_ADDR_NRM_RX_INTEN_CLR (0x11B) > +#define OGMA_REG_ADDR_TAIKI_RX_STATUS (0x120) > +#define OGMA_REG_ADDR_TAIKI_RX_INTEN (0x121) > +#define OGMA_REG_ADDR_TAIKI_RX_INTEN_SET (0x12A) > +#define OGMA_REG_ADDR_TAIKI_RX_INTEN_CLR (0x12B) > +#define OGMA_REG_ADDR_TAIKI_TX_STATUS (0x130) > +#define OGMA_REG_ADDR_TAIKI_TX_INTEN (0x131) > +#define OGMA_REG_ADDR_TAIKI_TX_INTEN_SET (0x13A) > +#define OGMA_REG_ADDR_TAIKI_TX_INTEN_CLR (0x13B) > +#define OGMA_REG_ADDR_MISC_RX_STATUS (0x140) > +#define OGMA_REG_ADDR_MISC_RX_INTEN (0x141) > +#define OGMA_REG_ADDR_MISC_RX_INTEN_SET (0x14A) > +#define OGMA_REG_ADDR_MISC_RX_INTEN_CLR (0x14B) > +#define OGMA_REG_ADDR_WL_NRM_TX_STATUS (0x150) > +#define OGMA_REG_ADDR_WL_NRM_TX_INTEN (0x151) > +#define OGMA_REG_ADDR_WL_NRM_TX_INTEN_SET (0x15A) > +#define OGMA_REG_ADDR_WL_NRM_TX_INTEN_CLR (0x15B) > +#define OGMA_REG_ADDR_WL_NRM_RX_STATUS (0x160) > +#define OGMA_REG_ADDR_WL_NRM_RX_INTEN (0x161) > +#define OGMA_REG_ADDR_WL_NRM_RX_INTEN_SET (0x16A) > +#define OGMA_REG_ADDR_WL_NRM_RX_INTEN_CLR (0x16B) > +#define OGMA_REG_ADDR_WL_NRM_CMD_TX_STATUS (0x170) > +#define OGMA_REG_ADDR_WL_NRM_CMD_TX_INTEN (0x171) > +#define OGMA_REG_ADDR_WL_NRM_CMD_TX_INTEN_SET (0x17A) > +#define OGMA_REG_ADDR_WL_NRM_CMD_TX_INTEN_CLR (0x17B) > +#define OGMA_REG_ADDR_WL_NRM_CMD_RX_STATUS (0x180) > +#define OGMA_REG_ADDR_WL_NRM_CMD_RX_INTEN (0x181) > +#define OGMA_REG_ADDR_WL_NRM_CMD_RX_INTEN_SET (0x18A) > +#define OGMA_REG_ADDR_WL_NRM_CMD_RX_INTEN_CLR (0x18B) > +#define OGMA_REG_ADDR_WL_NRM_EVENT_RX_STATUS (0x190) > +#define OGMA_REG_ADDR_WL_NRM_EVENT_RX_INTEN (0x191) > +#define OGMA_REG_ADDR_WL_NRM_EVENT_RX_INTEN_SET (0x19A) > +#define OGMA_REG_ADDR_WL_NRM_EVENT_RX_INTEN_CLR (0x19B) > +#define OGMA_REG_ADDR_WL_TAIKI_TX_STATUS (0x1A0) > +#define OGMA_REG_ADDR_WL_TAIKI_TX_INTEN (0x1A1) > +#define OGMA_REG_ADDR_WL_TAIKI_TX_INTEN_SET (0x1AA) > +#define OGMA_REG_ADDR_WL_TAIKI_TX_INTEN_CLR (0x1AB) > +#define OGMA_REG_ADDR_WL_TAIKI_RX_STATUS (0x1B0) > +#define OGMA_REG_ADDR_WL_TAIKI_RX_INTEN (0x1B1) > +#define OGMA_REG_ADDR_WL_TAIKI_RX_INTEN_SET (0x1BA) > +#define OGMA_REG_ADDR_WL_TAIKI_RX_INTEN_CLR (0x1BB) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_TX_STATUS (0x1C0) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_TX_INTEN (0x1C1) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_TX_INTEN_SET (0x1CA) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_TX_INTEN_CLR (0x1CB) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_RX_STATUS (0x1D0) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_RX_INTEN (0x1D1) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_RX_INTEN_SET (0x1DA) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_RX_INTEN_CLR (0x1DB) > +#define OGMA_REG_ADDR_WL_TAIKI_EVENT_RX_STATUS (0x1E0) > +#define OGMA_REG_ADDR_WL_TAIKI_EVENT_RX_INTEN (0x1E1) > +#define OGMA_REG_ADDR_WL_TAIKI_EVENT_RX_INTEN_SET (0x1EA) > +#define OGMA_REG_ADDR_WL_TAIKI_EVENT_RX_INTEN_CLR (0x1EB) > +#define OGMA_REG_ADDR_DEC_TX_STATUS (0x200) > +#define OGMA_REG_ADDR_DEC_TX_INTEN (0x201) > +#define OGMA_REG_ADDR_DEC_TX_INTEN_SET (0x20A) > +#define OGMA_REG_ADDR_DEC_TX_INTEN_CLR (0x20B) > +#define OGMA_REG_ADDR_ENC_RX_STATUS (0x210) > +#define OGMA_REG_ADDR_ENC_RX_INTEN (0x211) > +#define OGMA_REG_ADDR_ENC_RX_INTEN_SET (0x21A) > +#define OGMA_REG_ADDR_ENC_RX_INTEN_CLR (0x21B) > +#define OGMA_REG_ADDR_ENC_TLS_TX_STATUS (0x220) > +#define OGMA_REG_ADDR_ENC_TLS_TX_INTEN (0x221) > +#define OGMA_REG_ADDR_ENC_TLS_TX_INTEN_SET (0x22A) > +#define OGMA_REG_ADDR_ENC_TLS_TX_INTEN_CLR (0x22B) > +#define OGMA_REG_ADDR_DEC_TLS_TX_STATUS (0x230) > +#define OGMA_REG_ADDR_DEC_TLS_TX_INTEN (0x231) > +#define OGMA_REG_ADDR_DEC_TLS_TX_INTEN_SET (0x23A) > +#define OGMA_REG_ADDR_DEC_TLS_TX_INTEN_CLR (0x23B) > +#define OGMA_REG_ADDR_ENC_TLS_RX_STATUS (0x240) > +#define OGMA_REG_ADDR_ENC_TLS_RX_INTEN (0x241) > +#define OGMA_REG_ADDR_ENC_TLS_RX_INTEN_SET (0x24A) > +#define OGMA_REG_ADDR_ENC_TLS_RX_INTEN_CLR (0x24B) > +#define OGMA_REG_ADDR_DEC_TLS_RX_STATUS (0x250) > +#define OGMA_REG_ADDR_DEC_TLS_RX_INTEN (0x251) > +#define OGMA_REG_ADDR_DEC_TLS_RX_INTEN_SET (0x25A) > +#define OGMA_REG_ADDR_DEC_TLS_RX_INTEN_CLR (0x25B) > +#define OGMA_REG_ADDR_ENC_RAW_TX_STATUS (0x260) > +#define OGMA_REG_ADDR_ENC_RAW_TX_INTEN (0x261) > +#define OGMA_REG_ADDR_ENC_RAW_TX_INTEN_SET (0x26A) > +#define OGMA_REG_ADDR_ENC_RAW_TX_INTEN_CLR (0x26B) > +#define OGMA_REG_ADDR_DEC_RAW_TX_STATUS (0x270) > +#define OGMA_REG_ADDR_DEC_RAW_TX_INTEN (0x271) > +#define OGMA_REG_ADDR_DEC_RAW_TX_INTEN_SET (0x27A) > +#define OGMA_REG_ADDR_DEC_RAW_TX_INTEN_CLR (0x27B) > +#define OGMA_REG_ADDR_ENC_RAW_RX_STATUS (0x280) > +#define OGMA_REG_ADDR_ENC_RAW_RX_INTEN (0x281) > +#define OGMA_REG_ADDR_ENC_RAW_RX_INTEN_SET (0x28A) > +#define OGMA_REG_ADDR_ENC_RAW_RX_INTEN_CLR (0x28B) > +#define OGMA_REG_ADDR_DEC_RAW_RX_STATUS (0x290) > +#define OGMA_REG_ADDR_DEC_RAW_RX_INTEN (0x291) > +#define OGMA_REG_ADDR_DEC_RAW_RX_INTEN_SET (0x29A) > +#define OGMA_REG_ADDR_DEC_RAW_RX_INTEN_CLR (0x29B) > +#define OGMA_REG_ADDR_NRM_TX_PKTCNT (0x104) > +#define OGMA_REG_ADDR_TAIKI_TX_PKTCNT (0x134) > +#define OGMA_REG_ADDR_WL_NRM_TX_PKTCNT (0x154) > +#define OGMA_REG_ADDR_WL_TAIKI_TX_PKTCNT (0x1A4) > +#define OGMA_REG_ADDR_WL_NRM_CMD_TX_PKTCNT (0x174) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_TX_PKTCNT (0x1C4) > +#define OGMA_REG_ADDR_DEC_PKT_TX_PKTCNT (0x204) > +#define OGMA_REG_ADDR_ENC_TLS_TX_PKTCNT (0x224) > +#define OGMA_REG_ADDR_DEC_TLS_TX_PKTCNT (0x234) > +#define OGMA_REG_ADDR_ENC_RAW_TX_PKTCNT (0x264) > +#define OGMA_REG_ADDR_DEC_RAW_TX_PKTCNT (0x274) > +#define OGMA_REG_ADDR_NRM_TX_DONE_PKTCNT (0x105) > +#define OGMA_REG_ADDR_TAIKI_TX_DONE_PKTCNT (0x135) > +#define OGMA_REG_ADDR_WL_NRM_TX_DONE_PKTCNT (0x155) > +#define OGMA_REG_ADDR_WL_TAIKI_TX_DONE_PKTCNT (0x1A5) > +#define OGMA_REG_ADDR_WL_NRM_CMD_TX_DONE_PKTCNT (0x175) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_TX_DONE_PKTCNT (0x1C5) > +#define OGMA_REG_ADDR_DEC_PKT_TX_DONE_PKTCNT (0x205) > +#define OGMA_REG_ADDR_ENC_TLS_TX_DONE_PKTCNT (0x225) > +#define OGMA_REG_ADDR_DEC_TLS_TX_DONE_PKTCNT (0x235) > +#define OGMA_REG_ADDR_ENC_RAW_TX_DONE_PKTCNT (0x265) > +#define OGMA_REG_ADDR_DEC_RAW_TX_DONE_PKTCNT (0x275) > +#define OGMA_REG_ADDR_NRM_TX_DONE_TXINT_PKTCNT (0x106) > +#define OGMA_REG_ADDR_TAIKI_TX_DONE_TXINT_PKTCNT (0x136) > +#define OGMA_REG_ADDR_WL_NRM_TX_DONE_TXINT_PKTCNT (0x156) > +#define OGMA_REG_ADDR_WL_TAIKI_TX_DONE_TXINT_PKTCNT (0x1A6) > +#define OGMA_REG_ADDR_WL_NRM_CMD_TX_DONE_TXINT_PKTCNT (0x176) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_TX_DONE_TXINT_PKTCNT (0x1C6) > +#define OGMA_REG_ADDR_DEC_PKT_TX_DONE_TXINT_PKTCNT (0x206) > +#define OGMA_REG_ADDR_ENC_TLS_TX_DONE_TXINT_PKTCNT (0x226) > +#define OGMA_REG_ADDR_DEC_TLS_TX_DONE_TXINT_PKTCNT (0x236) > +#define OGMA_REG_ADDR_ENC_RAW_TX_DONE_TXINT_PKTCNT (0x266) > +#define OGMA_REG_ADDR_DEC_RAW_TX_DONE_TXINT_PKTCNT (0x276) > +#define OGMA_REG_ADDR_NRM_TX_TMR (0x107) > +#define OGMA_REG_ADDR_TAIKI_TX_TMR (0x137) > +#define OGMA_REG_ADDR_WL_NRM_TX_TMR (0x157) > +#define OGMA_REG_ADDR_WL_NRM_CMD_TX_TMR (0x177) > +#define OGMA_REG_ADDR_WL_TAIKI_TX_TMR (0x1A7) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_TX_TMR (0x1C7) > +#define OGMA_REG_ADDR_DEC_TX_TMR (0x207) > +#define OGMA_REG_ADDR_NRM_TX_TXINT_TMR (0x108) > +#define OGMA_REG_ADDR_TAIKI_TX_TXINT_TMR (0x138) > +#define OGMA_REG_ADDR_WL_NRM_TX_TXINT_TMR (0x158) > +#define OGMA_REG_ADDR_WL_NRM_CMD_TX_TXINT_TMR (0x178) > +#define OGMA_REG_ADDR_WL_TAIKI_TX_TXINT_TMR (0x1A8) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_TX_TXINT_TMR (0x1C8) > +#define OGMA_REG_ADDR_DEC_TX_TXINT_TMR (0x208) > +#define OGMA_REG_ADDR_NRM_RX_PKTCNT (0x115) > +#define OGMA_REG_ADDR_TAIKI_RX_PKTCNT (0x125) > +#define OGMA_REG_ADDR_MISC_RX_PKTCNT (0x145) > +#define OGMA_REG_ADDR_WL_NRM_RX_PKTCNT (0x165) > +#define OGMA_REG_ADDR_WL_NRM_CMD_RX_PKTCNT (0x185) > +#define OGMA_REG_ADDR_WL_NRM_EVENT_RX_PKTCNT (0x195) > +#define OGMA_REG_ADDR_WL_TAIKI_RX_PKTCNT (0x1B5) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_RX_PKTCNT (0x1D5) > +#define OGMA_REG_ADDR_WL_TAIKI_EVENT_RX_PKTCNT (0x1E5) > +#define OGMA_REG_ADDR_ENC_PKT_RX_PKTCNT (0x215) > +#define OGMA_REG_ADDR_ENC_TLS_RX_PKTCNT (0x245) > +#define OGMA_REG_ADDR_DEC_TLS_RX_PKTCNT (0x255) > +#define OGMA_REG_ADDR_ENC_RAW_RX_PKTCNT (0x285) > +#define OGMA_REG_ADDR_DEC_RAW_RX_PKTCNT (0x295) > +#define OGMA_REG_ADDR_NRM_RX_RXINT_PKTCNT (0x116) > +#define OGMA_REG_ADDR_TAIKI_RXINT_PKTCNT (0x126) > +#define OGMA_REG_ADDR_MISC_RXINT_PKTCNT (0x146) > +#define OGMA_REG_ADDR_WL_NRM_RXINT_PKTCNT (0x166) > +#define OGMA_REG_ADDR_WL_NRM_CMD_RXINT_PKTCNT (0x186) > +#define OGMA_REG_ADDR_WL_NRM_EVENT_RXINT_PKTCNT (0x196) > +#define OGMA_REG_ADDR_WL_TAIKI_RXINT_PKTCNT (0x1B6) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_RXINT_PKTCNT (0x1D6) > +#define OGMA_REG_ADDR_WL_TAIKI_EVENT_RXINT_PKTCNT (0x1E6) > +#define OGMA_REG_ADDR_ENC_PKT_RXINT_PKTCNT (0x216) > +#define OGMA_REG_ADDR_ENC_TLS_RXINT_PKTCNT (0x246) > +#define OGMA_REG_ADDR_DEC_TLS_RXINT_PKTCNT (0x256) > +#define OGMA_REG_ADDR_ENC_RAW_RXINT_PKTCNT (0x286) > +#define OGMA_REG_ADDR_DEC_RAW_RXINT_PKTCNT (0x296) > +#define OGMA_REG_ADDR_NRM_RX_TMR (0x117) > +#define OGMA_REG_ADDR_TAIKI_RX_TMR (0x127) > +#define OGMA_REG_ADDR_MISC_RX_TMR (0x147) > +#define OGMA_REG_ADDR_WL_NRM_RX_TMR (0x167) > +#define OGMA_REG_ADDR_WL_NRM_CMD_RX_TMR (0x187) > +#define OGMA_REG_ADDR_WL_NRM_EVENT_RX_TMR (0x197) > +#define OGMA_REG_ADDR_WL_TAIKI_RX_TMR (0x1B7) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_RX_TMR (0x1D7) > +#define OGMA_REG_ADDR_WL_TAIKI_EVENT_RX_TMR (0x1E7) > +#define OGMA_REG_ADDR_NRM_RX_RXINT_TMR (0x118) > +#define OGMA_REG_ADDR_TAIKI_RX_RXINT_TMR (0x128) > +#define OGMA_REG_ADDR_MISC_RX_RXINT_TMR (0x148) > +#define OGMA_REG_ADDR_WL_NRM_RX_RXINT_TMR (0x168) > +#define OGMA_REG_ADDR_WL_NRM_CMD_RX_RXINT_TMR (0x188) > +#define OGMA_REG_ADDR_WL_NRM_EVENT_RX_RXINT_TMR (0x198) > +#define OGMA_REG_ADDR_WL_TAIKI_RX_RXINT_TMR (0x1B8) > +#define OGMA_REG_ADDR_WL_TAIKI_CMD_RX_RXINT_TMR (0x1D8) > +#define OGMA_REG_ADDR_WL_TAIKI_EVENT_RX_RXINT_TMR (0x1E8) > +#define OGMA_REG_ADDR_PODB_CMD_ST (0x20) > +#define OGMA_REG_ADDR_PODB_DATA (0x21) > +#define OGMA_REG_ADDR_CLS_VAL_CMD (0x2A) > +#define OGMA_REG_ADDR_CLS_VAL_DATA (0x2B) > +#define OGMA_REG_ADDR_CLS_CMD_ST (0x2C) > +#define OGMA_REG_ADDR_CLS_DATA (0x2D) > +#define OGMA_REG_ADDR_SADB_CMD_ST (0x2E) > +#define OGMA_REG_ADDR_SADB_DATA (0x2F) > +#define OGMA_REG_ADDR_MAC_CMD (0x471) > +#define OGMA_REG_ADDR_MAC_DATA (0x470) > +#define OGMA_REG_ADDR_MAC_FLOW_TH (0x473) > +#define OGMA_REG_ADDR_MAC_INTF_SEL (0x475) > +#define OGMA_REG_ADDR_MAC_TX_TSTAMP_LW (0x476) > +#define OGMA_REG_ADDR_MAC_TX_TSTAMP_UP (0x477) > +#define OGMA_REG_ADDR_MAC_CAP_TSTAMP_UP (0x478) > +#define OGMA_REG_ADDR_MAC_CAP_TSTAMP_LW (0x479) > +#define OGMA_REG_ADDR_MAC_TSTAM_CAP (0x47A) > +#define OGMA_REG_ADDR_MAC_SNAP_TRIG (0x47B) > +#define OGMA_REG_ADDR_MAC_SEC_CNT (0x47C) > +#define OGMA_REG_ADDR_MAC_DESC_INIT (0x47F) > +#define OGMA_REG_ADDR_MAC_TX_TS_GET (0x480) > +#define OGMA_REG_ADDR_MAC_DESC_SOFT_RST (0x481) > +#define OGMA_REG_ADDR_IV_INIT_VAL (0x45) > +#define OGMA_REG_ADDR_MAC_ADD_UP (0x43) > +#define OGMA_REG_ADDR_MAC_ADD_LW (0x44) > +#define OGMA_REG_ADDR_ST_INFO_ST_UP (0x65) > +#define OGMA_REG_ADDR_ST_INFO_ST_LW (0x66) > +#define OGMA_REG_ADDR_ST_INFO_SIZE (0x67) > +#define OGMA_REG_ADDR_ST_INFO_TX_ST (0x68) > +#define OGMA_REG_ADDR_LOGIC_GR_ID (0x69) > +#define OGMA_REG_ADDR_ST_FOR_PBC (0x6A) > +#define OGMA_REG_ADDR_ALARM_INFO (0x6B) > +#define OGMA_REG_ADDR_MC_VER (0x8B) > +#define OGMA_REG_ADDR_HW_VER (0x8C) > + > +#define OGMA_REG_ADDR_MODE_TRANS_COMP_STATUS (0x140) > + > +#endif /* OGMA_REG_F_TAIKI_H */ > + > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/ogma_config.h b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/ogma_config.h > new file mode 100644 > index 000000000000..1caf64e30623 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/ogma_config.h > @@ -0,0 +1,25 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#ifndef OGMA_CONFIG_H > +#define OGMA_CONFIG_H > + > +#define OGMA_CONFIG_CLK_HZ 125000000UL > +#define OGMA_CONFIG_GMAC_CLK_HZ 125000000UL > +#define OGMA_CONFIG_CHECK_CLK_SUPPLY > + > +#define OGMA_CONFIG_USE_READ_GMAC_STAT > + > +#endif /* OGMA_CONFIG_H */ > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/pfdep.h b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/pfdep.h > new file mode 100644 > index 000000000000..f617f1c70183 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/pfdep.h > @@ -0,0 +1,265 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#ifndef PFDEP_H > +#define PFDEP_H > + > +#include > +#include > +#include Whut? Can we get rid of these? / Leif > +#include > +#include > +#include > + > +#include > + > +extern EFI_CPU_ARCH_PROTOCOL *mCpu; > + > +/********************************************************************** > + * Constant definitions > + **********************************************************************/ > +#define PFDEP_INT64_AVAILABLE > + > +/********************************************************************** > + * Elementary type definitions > + **********************************************************************/ > +typedef int8_t pfdep_int8; > +typedef uint8_t pfdep_uint8; > +typedef int16_t pfdep_int16; > +typedef uint16_t pfdep_uint16; > +typedef int pfdep_int32; > +typedef unsigned int pfdep_uint32; > +typedef int64_t pfdep_int64; > +typedef uint64_t pfdep_uint64; > +typedef int pfdep_bool; > +typedef char pfdep_char; > + > +#define PFDEP_TRUE ((pfdep_bool)1) > +#define PFDEP_FALSE ((pfdep_bool)0) > + > + > +/********************************************************************** > + * Complex type definitions > + **********************************************************************/ > + > +typedef enum pfdep_err_e { > + PFDEP_ERR_OK = 0, > + PFDEP_ERR_PARAM, > + PFDEP_ERR_ALLOC, > + PFDEP_ERR_INTERRUPT > +} pfdep_err_t; > + > + > +typedef struct { > + LIST_ENTRY Link; > + VOID *Buffer; > + VOID *Mapping; > + BOOLEAN RecycleForTx; > + BOOLEAN Released; > +} PACKET_HANDLE; > + > +typedef VOID *pfdep_dev_handle_t; > +typedef PACKET_HANDLE *pfdep_pkt_handle_t; > +typedef EFI_PHYSICAL_ADDRESS pfdep_phys_addr_t; > +typedef UINT64 pfdep_cpu_addr_t; > + > +typedef int pfdep_hard_lock_t; > +typedef int pfdep_soft_lock_t; > + > +typedef BOOLEAN pfdep_hard_lock_ctx_t; > +typedef int pfdep_soft_lock_ctx_t; > + > +typedef unsigned int pfdep_debug_level_t; > + > +#define PFDEP_DEBUG_LEVEL_FATAL ((pfdep_debug_level_t)1) > +#define PFDEP_DEBUG_LEVEL_WARNING ((pfdep_debug_level_t)2) > +#define PFDEP_DEBUG_LEVEL_NOTICE ((pfdep_debug_level_t)3) > +#define PFDEP_DEBUG_LEVEL_DEBUG ((pfdep_debug_level_t)4) > +#define PFDEP_DEBUG_LEVEL_DEBUG_DETAILED ((pfdep_debug_level_t)5) > +#define PFDEP_DEBUG_LEVEL_DEBUG_MORE_DETAILED ((pfdep_debug_level_t)6) > + > +/********************************************************************** > + * Variable declarations > + **********************************************************************/ > +extern pfdep_debug_level_t pfdep_debug_level; /* defined in pfdep_uefi.c */ > + > + > +/********************************************************************** > + * Function declarations > + **********************************************************************/ > + > +static __inline pfdep_uint32 pfdep_iomem_read(void *addr) > +{ > + return *((volatile pfdep_uint32 *)(addr)); > +} > + > +static __inline void pfdep_iomem_write(void *addr, pfdep_uint32 val) > +{ > + *((volatile pfdep_uint32 *)(addr)) = val; > + > + > +} > + > +#define pfdep_read_mem_barrier() MemoryFence() > +#define pfdep_write_mem_barrier() MemoryFence() > +#define pfdep_mem_barrier() MemoryFence() > + > +void *pfdep_malloc(pfdep_uint32 len); > + > +void pfdep_free(void *addr); > + > +pfdep_err_t pfdep_dma_malloc ( > + pfdep_dev_handle_t dev_handle, > + pfdep_uint32 len, > + void **addr_p, > + pfdep_phys_addr_t *phys_addr_p > + ); > + > +void pfdep_dma_free ( > + pfdep_dev_handle_t dev_handle, > + pfdep_uint32 len, > + void *addr, > + pfdep_phys_addr_t phys_addr > + ); > + > +pfdep_err_t pfdep_alloc_pkt_buf ( > + pfdep_dev_handle_t dev_handle, > + pfdep_uint16 len, > + void **addr_p, > + pfdep_phys_addr_t *phys_addr_p, > + pfdep_pkt_handle_t *pkt_handle_p > + ); > + > +void pfdep_free_pkt_buf ( > + pfdep_dev_handle_t dev_handle, > + pfdep_uint16 len, > + void *addr, > + pfdep_phys_addr_t phys_addr, > + pfdep_bool last_flag, > + pfdep_pkt_handle_t pkt_handle > + ); > + > +static __inline pfdep_err_t pfdep_init_hard_lock(pfdep_hard_lock_t *hard_lock_p) > +{ > + (void)hard_lock_p; /* suppress compiler warning */ > + return PFDEP_ERR_OK; > +} > + > +static __inline void pfdep_uninit_hard_lock(pfdep_hard_lock_t *hard_lock_p) > +{ > + (void)hard_lock_p; /* suppress compiler warning */ > + return; > +} > + > +static __inline void pfdep_acquire_hard_lock ( > + pfdep_hard_lock_t *hard_lock_p, /* not used */ > + pfdep_hard_lock_ctx_t *ctx_p > + ) > +{ > + (void)hard_lock_p; /* suppress compiler warning */ > + > + *ctx_p = SaveAndDisableInterrupts(); > +} > + > + > +static __inline void pfdep_release_hard_lock ( > + pfdep_hard_lock_t *hard_lock_p, /* not used */ > + pfdep_hard_lock_ctx_t *ctx_p > + ) > +{ > + (void)hard_lock_p; /* suppress compiler warning */ > + > + SetInterruptState(*ctx_p); > +} > + > +static __inline pfdep_err_t pfdep_init_soft_lock ( > + pfdep_soft_lock_t *soft_lock_p > + ) > +{ > + *soft_lock_p = 0; /* suppress compiler warning */ > + > + return PFDEP_ERR_OK; > +} > + > +static __inline void pfdep_uninit_soft_lock ( > + pfdep_soft_lock_t *soft_lock_p > + ) > +{ > + (void)soft_lock_p; /* suppress compiler warning */ > + > + return; > +} > + > +static __inline pfdep_err_t pfdep_acquire_soft_lock ( > + pfdep_soft_lock_t *soft_lock_p, > + pfdep_soft_lock_ctx_t *ctx_p > + ) > +{ > + (void)soft_lock_p; /* suppress compiler warning */ > + (void)ctx_p; /* suppress compiler warning */ > + > + return PFDEP_ERR_OK; > +} > + > +static __inline void pfdep_release_soft_lock ( > + pfdep_soft_lock_t *soft_lock_p, > + pfdep_soft_lock_ctx_t *ctx_p > + ) > +{ > + (void)soft_lock_p; /* suppress compiler warning */ > + (void)ctx_p; /* suppress compiler warning */ > +} > + > + > +static __inline void pfdep_memcpy(void *dst_p, const void *src_p, pfdep_uint32 len) > +{ > + memcpy(dst_p, src_p, (size_t)len); > +} > + > +static __inline void pfdep_memset(void *dst_p, pfdep_uint8 c, pfdep_uint32 len) > +{ > + memset(dst_p, c, (size_t)len); > +} > + > +static __inline pfdep_err_t pfdep_msleep(pfdep_uint32 wait_ms) > +{ > + > + MicroSecondDelay ((UINTN)wait_ms * 1000); > + > + return PFDEP_ERR_OK; > +} > + > +#define pfdep_print(level,...) \ > +do { \ > + if (level <= pfdep_debug_level) { \ > + DEBUG ((DEBUG_INFO, "[NETSEC] " __VA_ARGS__)); \ > + } \ > +} while (0) > + > + > +static __inline pfdep_debug_level_t pfdep_get_debug_level(void) > +{ > + return pfdep_debug_level; > +} > + > +static __inline void pfdep_set_debug_level(pfdep_debug_level_t level) > +{ > + pfdep_debug_level = level; > +} > + > + > +#define pfdep_assert(cond) ASSERT(cond) > + > +#endif /* PFDEP_H */ > diff --git a/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/pfdep_uefi.c b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/pfdep_uefi.c > new file mode 100644 > index 000000000000..b43d1aaff037 > --- /dev/null > +++ b/Silicon/Socionext/Synquacer/Drivers/Net/NetsecDxe/netsec_for_uefi/pfdep_uefi.c > @@ -0,0 +1,176 @@ > +/** @file > + > + Copyright (c) 2016 - 2017, Socionext Inc. All rights reserved.
> + Copyright (c) 2017, Linaro, Ltd. All rights reserved.
> + > + This program and the accompanying materials > + are licensed and made available under the terms and conditions of the BSD License > + which accompanies this distribution. The full text of the license may be found at > + http://opensource.org/licenses/bsd-license.php > + > + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, > + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. > + > +**/ > + > +#include "pfdep.h" > + > +#include > +#include > +#include > +#include > +#include > + > +/********************************************************************** > + * Variable definitions > + **********************************************************************/ > +pfdep_debug_level_t pfdep_debug_level = PFDEP_DEBUG_LEVEL_NOTICE; > + > + > +/********************************************************************** > + * Function definitions > + **********************************************************************/ > + > +VOID* > +pfdep_malloc ( > + IN pfdep_uint32 len > + ) > +{ > + return AllocatePool (len); > +} > + > +VOID > +pfdep_free ( > + IN VOID *addr > + ) > +{ > + FreePool (addr); > +} > + > +pfdep_err_t > +pfdep_dma_malloc ( > + IN pfdep_dev_handle_t dev_handle, > + IN pfdep_uint32 len, > + OUT VOID **addr_p, > + OUT pfdep_phys_addr_t *phys_addr_p > + ) > +{ > + EFI_STATUS Status; > + UINTN NumPages; > + UINTN NumBytes; > + VOID **Mapping; > + > + NumPages = EFI_SIZE_TO_PAGES (ALIGN_VARIABLE(len) + sizeof *Mapping); > + Status = DmaAllocateBuffer (EfiBootServicesData, NumPages, addr_p); > + if (EFI_ERROR (Status)) { > + return PFDEP_ERR_ALLOC; > + } > + > + // > + // Stash the address of the MAPINFO struct at the end of the buffer, > + // but make sure it appears aligned (the memory may be mapped uncached) > + // > + Mapping = (VOID **)((UINTN)*addr_p + ALIGN_VARIABLE(len)); > + > + NumBytes = EFI_PAGES_TO_SIZE (NumPages); > + Status = DmaMap (MapOperationBusMasterCommonBuffer, *addr_p, &NumBytes, > + phys_addr_p, Mapping); > + > + if (EFI_ERROR (Status) || NumBytes < len) { > + DmaFreeBuffer (NumPages, *addr_p); > + return PFDEP_ERR_ALLOC; > + } > + > + return PFDEP_ERR_OK; > +} > + > +VOID > +pfdep_dma_free ( > + IN pfdep_dev_handle_t dev_handle, > + IN pfdep_uint32 len, > + IN VOID *addr, > + IN pfdep_phys_addr_t phys_addr > + ) > +{ > + VOID *Mapping; > + > + Mapping = *(VOID **)((UINTN)addr + ALIGN_VARIABLE(len)); > + > + DmaUnmap (Mapping); > + DmaFreeBuffer (EFI_SIZE_TO_PAGES (ALIGN_VARIABLE(len) + sizeof Mapping), > + addr); > +} > + > +// > +// On the receive path, we allocate a new packet and link it into the RX ring > +// before returning the received packet to the caller. This means we perform > +// one allocation and one free operation for each buffer received. > +// So let's cache a single packet, and get rid of most of the alloc/free > +// overhead on the RX path. > +// > +STATIC pfdep_pkt_handle_t mSparePacketBuffer; > +STATIC UINT32 mSparePacketBufferSize; > + > +pfdep_err_t > +pfdep_alloc_pkt_buf ( > + IN pfdep_dev_handle_t dev_handle, > + IN pfdep_uint16 len, > + OUT VOID **addr_p, > + OUT pfdep_phys_addr_t *phys_addr_p, > + OUT pfdep_pkt_handle_t *pkt_handle_p > + ) > +{ > + EFI_STATUS Status; > + UINTN NumBytes; > + > + NumBytes = ALIGN_VALUE (len, mCpu->DmaBufferAlignment); > + > + if (InterlockedCompareExchange32 (&mSparePacketBufferSize, len, 0) == len) { > + *pkt_handle_p = mSparePacketBuffer; > + } else { > + *pkt_handle_p = AllocateZeroPool (NumBytes + sizeof(PACKET_HANDLE) + > + (mCpu->DmaBufferAlignment - 8)); > + if (*pkt_handle_p == NULL) { > + return PFDEP_ERR_ALLOC; > + } > + > + (*pkt_handle_p)->Buffer = ALIGN_POINTER (*pkt_handle_p, > + mCpu->DmaBufferAlignment); > + } > + > + *addr_p = (*pkt_handle_p)->Buffer; > + Status = DmaMap (MapOperationBusMasterWrite, *addr_p, &NumBytes, phys_addr_p, > + &(*pkt_handle_p)->Mapping); > + if (EFI_ERROR (Status) || NumBytes < len) { > + FreePool (*pkt_handle_p); > + return PFDEP_ERR_ALLOC; > + } > + return PFDEP_ERR_OK; > +} > + > +VOID > +pfdep_free_pkt_buf ( > + IN pfdep_dev_handle_t dev_handle, > + IN pfdep_uint16 len, > + IN VOID *addr, > + IN pfdep_phys_addr_t phys_addr, > + IN pfdep_bool last_flag, > + IN pfdep_pkt_handle_t pkt_handle > + ) > +{ > + if (last_flag != PFDEP_TRUE) { > + return; > + } > + > + if (pkt_handle->Mapping != NULL) { > + DmaUnmap (pkt_handle->Mapping); > + } > + > + if (pkt_handle->RecycleForTx) { > + pkt_handle->Released = TRUE; > + } else if (!InterlockedCompareExchange32 (&mSparePacketBufferSize, 0, len)) { > + mSparePacketBuffer = pkt_handle; > + } else { > + FreePool (pkt_handle); > + } > +} > -- > 2.11.0 >